CN105828564A - memory holding structure - Google Patents

Abstract

The invention provides a memory holding structure, a main body of the memory holding structure can be matched with a memory device, the main body comprises a plurality of brackets which are adjacently arranged, at least one bracket in the brackets has elasticity and can elastically deform along the lateral direction of the main body, and a first limiting part and a second limiting part in the brackets respectively correspond to a first hole site and a second hole site in the memory device one by one; the outer diameter of a first end part of the first limiting part is continuously reduced from the first limiting part to the top end part; and the depth of a second end part of the second limiting part correspondingly extending into the second hole site is greater than the depth of the first end part correspondingly extending into the first hole site.

Description

memory holding structure

technical field

The present invention relates to a storage holding structure, in particular to a structure capable of holding a storage device.

Background technique

The storage holding structure in the prior art is generally used in electronic devices for setting storage devices. Usually, such products use fasteners such as screws to fix the storage at an appropriate position in the electronic device, or The electronic device is clamped by the laterally elastically deformable clamping structure in the holding structure. However, such products usually cannot be quickly disassembled and assembled without tools, or can be quickly disassembled and assembled without tools, but the stability of the storage device is not stable. The present invention is based on the disadvantages of the prior art storage holding structure.

Contents of the invention

The present invention relates to a storage holding structure, the main purpose of which is that a storage device can be arranged in a storage space in the main body of the storage holding structure, and a positioning part can hold the storage device, and when combined or disengaged When storing the device, the positioning part can automatically clamp or release the storage device.

The second purpose of the storage holding structure of the present invention is that the positioning part has greater elasticity on one side and greater rigidity on the other side, and the depth of the one-side limit part corresponding to the hole of the storage device is greater than the other side limit A portion protrudes into the depth limiting portion of the first hole, thereby improving the clamping stability of the storage device and maintaining the tool-free quick disassembly and assembly of the storage device.

Another purpose of the storage holding structure of the present invention is that the positioning part can be elastically displaced to automatically adjust its position to hold the storage device, and further eliminate the influence of dimensional tolerances or material property differences on the stability of holding the storage device. And can be conducive to production.

Another purpose of the storage holding structure of the present invention is that the support part in the positioning part can support and limit the height position of the storage device, thereby ensuring that the hole position of the storage device corresponds to each limiting part in the positioning part.

Another purpose of the storage holding structure of the present invention is to form the supporting part in the positioning part through local processing of the bottom plate, so as to achieve accurate correspondence and support the storage device, which is beneficial to production.

Another purpose of the storage holding structure of the present invention is to assist the clamping force of the positioning part in the front-back direction by matching the end of the supporting part in the positioning part with the hole of the storage device.

The present invention is mainly a storage holding structure, which is that a main body of the storage holding structure can cooperate with a storage device, and the main body includes: a bottom plate; a plurality of brackets, which are respectively arranged on the upper surface of the bottom plate And extending along the front and back direction of the bottom plate, and further comprising a first bracket and a second bracket; an accommodating space, which is the space defined between the first bracket, the second bracket and the bottom plate; and a The positioning part includes a plurality of first limiting parts and a plurality of second limiting parts; wherein, the storage device is fixedly arranged in the accommodating space, and the storage device includes a first outer surface, a first Two outer surfaces, a plurality of first holes and a plurality of second holes, the second outer surface and the first outer surface are opposite sides of the storage device, and the second holes are formed on the storage device The counterbore on the second outer surface of the storage device, and the first holes are the counterbore holes formed on the first outer surface of the storage device; the first support and the second support are arranged adjacently, and the first support and the second support At least one of the second brackets is elastic and elastically deformable along the lateral direction of the main body, the first bracket includes a first inner surface and the second bracket includes a second inner surface, the first inner surface The surface and the second inner surface face each other and are parallel to each other; the first limiting parts and the second limiting parts are respectively arranged on the first inner surface and the second inner surface, and each of the first limiting parts A limiting portion is a convex structure formed by extending from the first inner surface toward the second inner surface, and each second limiting portion is formed by extending from the second inner surface toward the first inner surface. A convex structure is formed, each of the first limiting parts and each of the second limiting parts correspond to the first hole positions and the second hole positions respectively; the first limiting part includes a The first end portion, the first end portion is formed at the top end of the first limiting portion and has an outer diameter smaller than the first hole, and the outer diameter of the first end portion is from the first limiting portion to the top end The portion is continuously tapered; and the second limiting portion is corresponding to the second hole and includes a second end, the second end is formed on the top end of the second limiting portion and has an outer diameter smaller than the second The depth corresponding to the second end extending into the second hole is greater than the depth corresponding to the first end extending into the first hole.

In the aforementioned embodiments, the first ends of each of the first limiting portions may be selected as one of a convex curved surface structure and a tapered surface structure. Furthermore, the second ends of each of the second limiting portions may form a columnar structure, and the surface direction of the radial peripheral surface of the second ends is perpendicular to the axial direction of the second ends, wherein each of the The outer diameter of the second end of the second limiting portion may be continuously tapered from the second limiting portion to the top end.

In the foregoing embodiments, the second ends of each of the second limiting portions are selected as one of a convex curved surface structure and a tapered surface structure.

In the aforementioned embodiment, the bottom of the storage device further defines a third outer surface; and the positioning portion further includes a second support portion and a first support portion, the second support portion and the first support portion are the main body A plane formed on the upper surface of the base plate corresponds to the second limiting portion and the first limiting portion in the main body respectively, and when the storage device is set in the accommodating space of the main body, The height positions of the second support part and the first support part correspond to contact with the third outer surface of the storage device. Furthermore, the first supporting portion and the second supporting portion respectively protrude from a portion of the upper surface of the bottom plate of the main body and are convex structures with a top end surface being a plane.

In the aforementioned embodiment, the storage device further includes a third hole, the third hole is a counterbore formed on the third outer surface of the storage device, and the third hole in the third outer surface The positions are respectively corresponding to the first holes in the first outer surface of the storage device; and the positioning part further includes a third limiting part, and the third limiting part is from the first supporting part toward the first hole of the storage device. Three outer surfaces extend a convex structure with a proper height, the third limiting portion corresponds to the third hole and includes a third end, the third end is formed on the top of the third limiting portion and the outer diameter is smaller than the third hole. Wherein, the outer diameter of the third end of the third limiting portion may be continuously tapered from the third limiting portion to the top end. In addition, the third end of the third limiting portion can be selected as a structure among a convex curved surface structure and a tapered surface structure.

In the aforementioned embodiment, each of the first limiting parts in the main body further includes a first cantilever part, the first cantilever part is a partially formed cantilever structure of the first bracket, and the first end part is formed On the surface of the free end of the first cantilever part, the first cantilever part is made of elastic material and has elasticity and can be elastically deformed along the side of the main body. Moreover, each of the first limiting parts in the main body further includes a first support piece, and the bottom of the first cantilever part extends toward the second inner surface to form the first support piece to further form an L-shaped structure. and each of the second limiting parts further includes a second cantilever part and a second support piece, the second cantilever part is a cantilever structure formed locally of the second bracket and has a relatively large Great structural rigidity, and the second end portion is formed on the surface of the free end of the second cantilever portion, the bottom of the second cantilever portion extends toward the first inner surface to form the second support piece and further form an L-shaped structure. Wherein, the first end of the first cantilever portion and the first support piece are respectively corresponding to the first hole and the third outer surface of the storage device; and the second end of the second cantilever portion The end portion and the second support piece are respectively corresponding to the second hole and the third outer surface of the storage device.

In the aforementioned embodiment, the bottom of each of the first brackets of the main body forms a first fixed portion, and the first fixed portion is fixed on the bottom plate of the main body. In addition, the first fixing portion may be a planar structure extending laterally from the bottom end of the first bracket.

Furthermore, the second bracket of each of the brackets of the main body may also have a second fixing portion formed at the bottom, and be fixed on the bottom plate of the main body through the second fixing portion. Wherein, the second fixing portion may be a planar structure extending laterally from the bottom end of the second bracket.

In order to enable those skilled in the art to understand the purpose, features and effects of the present invention, the following specific examples are given in conjunction with the accompanying drawings, which are described in detail below.

Description of drawings

Fig. 1 is a three-dimensional assembled view of an embodiment of the storage holding structure of the present invention;

Fig. 2 is a three-dimensional combined view of another viewing angle of the embodiment of Fig. 1 of the present invention;

Fig. 3 is a perspective view of a use state of the embodiment of Fig. 1 of the present invention;

Fig. 4 is another perspective view of the use state of the embodiment of Fig. 1 of the present invention;

Fig. 5 is the sectional view of Fig. 3 embodiment of the present invention;

Fig. 6 is a sectional view of the embodiment of Fig. 4 of the present invention;

Fig. 7 is another perspective view of the use state of the embodiment of Fig. 1 of the present invention;

Fig. 8 is a sectional view of the embodiment of Fig. 7 of the present invention;

Fig. 9A is a partial sectional view of Fig. 6 of the present invention;

Fig. 9B is a partial sectional view of Fig. 6 of the present invention;

Figure 10A is a partial sectional view of Figure 6 of the present invention;

Fig. 10B is a partial sectional view of Fig. 6 of the present invention;

Fig. 10C is a partial sectional view of Fig. 6 of the present invention;

Fig. 11 is a top plan view of an embodiment of the storage holding structure of the present invention;

Fig. 12 is a three-dimensional assembled view of an embodiment of the storage holding structure of the present invention;

Fig. 13 is a three-dimensional combined view of another viewing angle of the embodiment of Fig. 12 of the present invention;

Fig. 14 is a cross-sectional view of the first use state of Fig. 12 embodiment of the present invention;

Fig. 15 is a sectional view of another usage state of the embodiment of Fig. 12 of the present invention;

Fig. 16 is a sectional view of another usage state of the embodiment of Fig. 12 of the present invention;

Fig. 17 is a three-dimensional assembled view of an embodiment of the storage holding structure of the present invention;

Fig. 18 is a three-dimensional composite view of another viewing angle of the embodiment of Fig. 17 of the present invention;

Fig. 19 is a cross-sectional view of the first use state of Fig. 17 embodiment of the present invention;

Fig. 20 is a sectional view of another usage state of the embodiment of Fig. 17 of the present invention;

Fig. 21 is a sectional view of another usage state of the embodiment of Fig. 17 of the present invention;

Fig. 22 is a three-dimensional exploded view of an embodiment of the storage holding structure of the present invention;

Fig. 23 is a three-dimensional exploded view of an embodiment of the storage holding structure of the present invention.

Symbol Description

1. Subject

11. Bracket

111. First bracket

111a, the first inner surface

111b. The first fixed part

112. Second bracket

112a, second inner surface

112b. The second fixed part

12. Bottom plate

13. Accommodating space

14. Positioning Department

141. The first limiting part

141a, first end

142. The second limiting part

142a, second end

143. First support part

144. Second supporting part

145. The third limiting part

145a, third end

146. The first cantilever part

147. The first supporting piece

148. Second cantilever part

149. The second supporting piece

15. Storage device

151. First outer surface

152. Second outer surface

153. The first hole position

154. The second hole position

155. Third outer surface

156. The third hole position

detailed description

In order to make the present invention more clearly understood, a specific embodiment will be used as the description of the present invention below.

The storage holding structure of the present invention is mainly capable of being installed in electronic devices and providing storage devices. Fig. 1 is a three-dimensional combined view of an embodiment of the storage holding structure of the present invention, Fig. 2 is a three-dimensional combined view of another perspective of the embodiment of Fig. 1 of the present invention, and Fig. 3 is a perspective view of a use state of the embodiment of Fig. 1 of the present invention, FIG. 4 is another perspective view of the embodiment in FIG. 1 of the present invention, FIG. 5 is a cross-sectional view of the embodiment in FIG. 3 of the present invention, and FIG. 6 is a cross-sectional view of the embodiment in FIG. 4 of the present invention. Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and Fig. 6, the storage holding structure of the present invention is that a main body (1) includes a plurality of brackets (11), a bottom plate (12), a housing The space (13) and a positioning part (14) cooperate with a storage device (15), and the storage device (15) can be fixedly arranged in the accommodating space (13). Wherein, the brackets (11) are respectively arranged on the upper surface of the base plate (12) and extend along the front and rear directions of the base plate (12), and the bracket (11) further includes a first bracket (111) and a second bracket (111). A bracket (112), the first bracket (111) and the second bracket (112) are arranged adjacent to each other, at least part of the bracket (11) in the brackets (11) has elasticity and can move along the main body (1) Lateral elastic deformation, the first bracket (111) includes a first inner surface (111a) and the second bracket (112) includes a second inner surface (112a), the first inner surface ( 111a) and the second inner surface (112a) are facing and parallel to each other; the accommodating space (13) is between the first bracket (111), the second bracket (112) and the bottom plate (12) defined space, and the accommodating space (13) is corresponding to accommodate the storage device (15); and the positioning portion (14) includes at least one first limiting portion (141) and at least one second limiting portion position portion (142), and the first limit portion (141) and the second limit portion (142) are respectively provided on the first inner surface (111a) and the second inner surface (112a), the The first limiting part (141) is a convex structure formed by extending from the first inner surface (111a) toward the second inner surface (112a), and the second limiting part (142) is formed from the first inner surface (111a). A convex structure formed by extending the two inner surfaces (112a) toward the first inner surface (111a).

Furthermore, in the foregoing embodiments, the storage device (15) includes a first outer surface (151), a second outer surface (152), at least one first hole position (153) and at least one second hole position (154), the first outer surface (151) and the second outer surface (152) are opposite side surfaces of the storage device (15), the first hole position (153) and the second hole positions (154) are respectively counterbores formed on the first outer surface (151) and the second outer surface (152) of the storage device (15) and respectively correspond to the first limiting portion (141) and the second limiting portion (142); the first limiting portion (141) includes a first end portion (141a), the first end portion (141a) is formed on the top end of the first limiting portion (141) and has an outer diameter smaller than The first hole position (153), and the outer diameter of the first end portion (141a) is continuously tapered from the first limiting portion (141) to the top end; and the second limiting portion (142) is Corresponding to the second hole position (154) and including a second end portion (142a), the second end portion (142a) is formed on the top end of the second limiting portion (142) and has a smaller outer diameter than the second hole bits (154). Wherein, the corresponding depth of the second end (142a) protruding into the second hole (154) is greater than the depth of the first end (141a) correspondingly protruding into the first hole (153).

A preferred embodiment of the aforementioned embodiment is that the storage device (15) includes two of the first holes (153) and two of the second holes (154); and the positioning part (14) includes two of the The first limiting portion (141) and the two second limiting portions (142) correspond to the first hole positions (153) and the second hole positions (154) respectively.

FIG. 7 is another perspective view of the embodiment of the present invention in FIG. 1 , and FIG. 8 is a cross-sectional view of the embodiment of the present invention in FIG. 7 . Referring to Figure 7 and Figure 8, and again referring to Figure 3, Figure 4, Figure 5 and Figure 6, based on the foregoing embodiments, when the storage device (15) is separated from the accommodating space (13) of the main body (1), At least one of the brackets (11) corresponding to the storage device (15) will elastically deform laterally, and because the first end (141a) of the first limiting portion (141) The outer diameter of the second limit portion (142) is continuously tapered and the depth corresponding to the second end portion (142a) of the second limit portion (142) extending into the second hole (154) is greater than the first limit portion (141) of the first limit portion (141). The end (141a) corresponds to the depth of the first hole (153), the first end (141a) will first break away from the first hole (153), and the second end (142a) will still limit The second hole position (154) causes the storage device (15) to form an inclined posture, and under the inclined posture of the storage device (15), the storage device (15) can be completely removed from the body (1) The accommodating space (13) is disengaged.

In addition, when the storage device (15) is placed in the accommodating space (13) of the main body (1), the storage device (15) is in an inclined posture, and the first side of the storage device (15) The second hole (154) is socketed on the second end (142a) of the second limiting portion (142), and then the other side of the storage device (15) is pressed down, so that the storage device (15) At least one of the corresponding brackets (11) will elastically deform laterally until the first end (141a) of the first limiting portion (141) is correspondingly snapped into the first hole position (153), and the storage device (15) is installed in the accommodating space (13) of the main body (1).

FIG. 9A is a partial cross-sectional view of FIG. 6 of the present invention. Referring to FIG. 9A, and referring again to FIG. 5, FIG. 6, FIG. 7 and FIG. 8, in the foregoing embodiments, the first end (141a) of the first limiting portion (141) forms a convex curved surface structure, And the outer diameter of the first end portion (141a) is continuously tapered from the first limiting portion (141) to the top end. Therefore, when the first hole (153) on the first outer surface (151) of the storage device (15) is combined with or disengaged from the first limiting part (141), due to the second limiting part ( The radial peripheral surface of the first end portion (141a) of 142) is a convex curved surface structure, and the first hole position (153) exerts a force on the first end portion (141a) of the second limiting portion (142) ) radial peripheral surface will be converted into a lateral component, and then at least one of the brackets (11) will be elastically deformed laterally, and the second limiting portion (142) will be adjusted adaptively The distance from the first limiting part (141), and until the first hole (153) is combined or disengaged from the first limiting part (141), the second limiting part (142) and the first The distance of the limiting part (141) will be reset to hold the storage device (15).

FIG. 9B is a partial cross-sectional view of FIG. 6 of the present invention. Referring to FIG. 9B , and referring again to FIG. 5 , FIG. 6 , FIG. 7 and FIG. 8 , in the aforementioned embodiments, the first end ( 141 a ) of the first limiting portion ( 141 ) forms a tapered surface structure, And the outer diameter of the first end portion (141a) is continuously tapered from the first limiting portion (141) to the top end. Therefore, when the first hole (153) on the first outer surface (151) of the storage device (15) is combined with or disengaged from the first limiting part (141), due to the second limiting part ( The radial peripheral surface of the first end portion (141a) of 142) is a tapered surface structure, and the first hole position (153) exerts a force on the first end portion (141a) of the second limiting portion (142) ) radial peripheral surface will be converted into a lateral component, and then at least one of the brackets (11) will be elastically deformed laterally, and the second limiting portion (142) will be adjusted adaptively The distance from the first limiting part (141), and until the first hole (153) is combined or disengaged from the first limiting part (141), the second limiting part (142) and the first The distance of the limiting part (141) will be reset to hold the storage device (15).

FIG. 10A is a partial sectional view of FIG. 6 of the present invention. Referring to FIG. 10A, and referring again to FIG. 5, FIG. 6, FIG. 7 and FIG. 8, in the aforementioned embodiment, the second end portion (142a) of the second limiting portion (142) forms a columnar structure, and the The surface direction of the radial peripheral surface of the second end portion (142a) is perpendicular to the axial direction of the second end portion (142a). Therefore, when the storage device (15) is set in the accommodating space (13) of the main body (1), the second end portion (142a) of the second limiting portion (142) is inserted in the In the second hole (154) of the second outer surface (152) of the storage device (15), and the second end (142a) interferes with the formation mechanism of the second hole (154), so that when the When the storage device (15) is separated from the accommodating space (13) of the main body (1), the second hole position (154) cannot be separated from the restriction of the second end portion (142a). Moreover, since the second end portion (142a) forms mechanical interference with the second hole (154), the storage device (15) is arranged in the accommodating space (13) of the main body (1) In the state, as long as the second end (142a) of the second limiting part (142) is inserted in the second hole (154) and the first end (141a) of the first limiting part (141) ) is to withstand the first hole position (153), even if the elastic restoring force of the support (11) is inconsistent due to production or dimensional tolerances, the second end (142a) can also maintain and hold the storage device (15 ).

FIG. 10B is a partial cross-sectional view of FIG. 6 of the present invention. Referring to FIG. 10B , and referring again to FIG. 5 , FIG. 6 , FIG. 7 and FIG. 8 , in the foregoing embodiments, the second end portion ( 142 a ) of the second limiting portion ( 142 ) forms a convex curved surface structure, The outer diameter of the second end portion (142a) is continuously tapered from the second limiting portion (142) to the top end, and the second end portion (142a) of the second limiting portion (142) correspondingly extends into the The depth of the second hole (154) is greater than the depth corresponding to the first end (141a) of the first limiting portion (141) protruding into the first hole (153). Therefore, in the state that the storage device (15) is arranged in the accommodating space (13) of the main body (1), the process of disengaging the first hole (153) from the first limiting portion (141) is carried out In this case, since the second end (142a) of the second limiting portion (142) is correspondingly inserted into the second hole (154), the depth is greater than the first end (141a) of the first limiting portion (141) Corresponding to the depth extending into the first hole (153), the first hole (153) will first break away from the first end (141a) of the first limiting portion (141).

In the aforementioned embodiment, the second end (142a) of the second limiting portion (142) is a convex curved surface structure and the outer diameter of the second end (142a) is formed from the second limiting portion (142 ) continuously tapers toward the top. Therefore, when the storage device (15) is arranged in the accommodating space (13) of the main body (1) and the elastic restoring force of the bracket (11) is sufficient to maintain the first end portion (141a) against the first In the state of the hole position (153), the second hole position (154) will automatically adjust the lateral position and keep in contact with the radial peripheral surface of the second end portion (142a), so that the bracket caused by the dimensional tolerance can be further eliminated. (11) The size gap between the positioning part (14) and the storage device (15). Therefore, the state of the positioning portion (14) of the support (11) clamping the storage device (15) will be more stable, and the size of the elastic clamping force provided by the positioning portion (14) of the support (11) is relatively large for the support (11) ) will also reduce the impact on the stability of the storage device (15) clamped by the positioning portion (14) of the storage device (15), thus it will be more conducive to production.

FIG. 10C is a partial cross-sectional view of FIG. 6 of the present invention. Referring to FIG. 10C , and referring again to FIG. 5 , FIG. 6 , FIG. 7 and FIG. 8 , in the foregoing embodiments, the second end portion ( 142 a ) of the second limiting portion ( 142 ) forms a tapered surface structure, The outer diameter of the second end portion (142a) is continuously tapered from the second limiting portion (142) to the top end, and the second end portion (142a) of the second limiting portion (142) correspondingly extends into the The depth of the second hole (154) is greater than the depth corresponding to the first end (141a) of the first limiting portion (141) protruding into the first hole (153). Therefore, in the state that the storage device (15) is arranged in the accommodating space (13) of the main body (1), the process of disengaging the first hole (153) from the first limiting portion (141) is carried out In this case, since the second end (142a) of the second limiting portion (142) is correspondingly inserted into the second hole (154), the depth is greater than the first end (141a) of the first limiting portion (141) Corresponding to the depth extending into the first hole (153), the first hole (153) will first break away from the first end (141a) of the first limiting portion (141).

In the foregoing embodiment, the second end portion (142a) of the second limiting portion (142) is a tapered surface structure, and the outer diameter forming the second end portion (142a) is from the second limiting portion (142 ) continuously tapers toward the top. Therefore, when the storage device (15) is arranged in the accommodating space (13) of the main body (1) and the elastic restoring force of the bracket (11) is sufficient to maintain the first end portion (141a) against the first In the state of the hole position (153), the second hole position (154) will automatically adjust the lateral position and keep in contact with the radial peripheral surface of the second end portion (142a), so that the bracket caused by the dimensional tolerance can be further eliminated. (11) The size gap between the positioning part (14) and the storage device (15). Therefore, the state of the positioning portion (14) of the support (11) clamping the storage device (15) will be more stable, and the size of the elastic clamping force provided by the positioning portion (14) of the support (11) is relatively large for the support (11) ) will also reduce the impact on the stability of the storage device (15) clamped by the positioning portion (14) of the storage device (15), thus it will be more conducive to production.

Fig. 11 is a top plan view of an embodiment of the storage holding structure of the present invention. Referring to Fig. 11, and referring again to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, in the foregoing embodiments, the bottom of the storage device (15) is further defined as a third the outer surface (155); and the positioning portion (14) further includes a first support portion (143) and a second support portion (144), the first support portion (143) and the second support portion (144) is a plane formed by the upper surface of the bottom plate (12) of the main body (1) and corresponds to the first limiting portion (141) and the second limiting portion (142) in the main body (1), and When the storage device (15) is set in the accommodating space (13) of the main body (1), the height positions of the first support part (143) and the second support part (144) are in corresponding contact A third outer surface (155) of the storage device (15). Therefore, the first supporting part (143) and the second supporting part (144) can support the storage device (15), and limit the installation height of the storage device (15), thereby ensuring that the storage device (15) The position of the first hole (153) and the second hole (154) on the first outer surface (151) and the second outer surface (152) can correspond to the position of the bracket (11) of the main body (1). The first limiting part (141) has a first end part (141a) and the second limiting part (142) has a second end part (142a).

Furthermore, in the foregoing embodiments, the first support portion (143) and the second support portion (144) respectively protrude partially from the upper surface of the bottom plate (12) of the main body (1) and have a flat top surface. Convex structure. Therefore, the first support portion (143) and the second support portion (144) can be formed through local processing of the bottom plate (12), so as to achieve accurate correspondence and support the third outer surface (155) of the storage device (15). ), so it can be beneficial to production.

In the foregoing embodiments, the storage device (15) includes at least one third hole (156), and the third hole (156) is formed on the third outer surface (155) of the storage device (15). holes, and the positions of the third holes (156) in the third outer surface (155) respectively correspond to the first holes (153) in the first outer surface (151) of the storage device (15); And the positioning part (14) further includes at least one third limiting part (145), and the third limiting part (145) is from the first supporting part (143) toward the third outer surface of the storage device (15). (155) a protruding structure extending the appropriate height of the protrusion, the third limiting part (145) is corresponding to the third hole position (156) and includes a third end part (145a), the third end part ( 145a) is formed at the top end of the third limiting portion (145) and has an outer diameter smaller than that of the third hole (156).

In the aforementioned embodiment, the outer diameter of the third end (145a) of the third limiting portion (145) is continuously tapered from the third limiting portion (145) to the top end. Wherein, the third end portion (145a) can be a convex curved surface structure or a tapered surface structure, and the first hole position (153) in the storage device (15) is combined with or disengaged from the first limiting portion (141), the storage device (15) takes the second end part (142a) as the approximate position of the rotating shaft and rotates, wherein in the state of the storage device (15) rotation track, the first The three ends (145a) do not mechanically interfere with the third hole (156).

Fig. 12 is a three-dimensional combined view of an embodiment of the storage holding structure of the present invention, Fig. 13 is a three-dimensional combined view of another perspective of the embodiment of Fig. 12 of the present invention, and Fig. 14 is a cross-sectional view of the first use state of the embodiment of Fig. 15 is a sectional view of another use state of the embodiment of FIG. 12 of the present invention, and FIG. 16 is a sectional view of another use state of the embodiment of FIG. 12 of the present invention. Referring to Fig. 12, Fig. 13, Fig. 14, Fig. 15 and Fig. 16, based on the foregoing embodiments, in the storage holding structure of the present invention, the first limiting portion (141) in the main body (1) further includes a The first cantilever portion (146), the first cantilever portion (146) is a partially formed cantilever structure of the first support (111), and the first end portion (141a) is formed on the first cantilever portion (146 ) on the surface of the free end, the first cantilever portion (146) is made of elastic material and has elasticity and can be elastically deformed along the side of the main body (1).

Referring again to Fig. 12, Fig. 13, Fig. 14, Fig. 15 and Fig. 16, based on the foregoing embodiments, when the storage device (15) is combined or disengaged from the accommodating space (13) of the main body (1), the first The first cantilever portion (146) of the limiting portion (141) will produce elastic deformation and expand outward, and because the outer diameter of the first end portion (141a) of the first limiting portion (141) is continuously tapered and the The depth of the second end (142a) of the second limiting part (142) correspondingly extending into the second hole (154) is greater than that of the first end (141a) of the first limiting part (141) correspondingly extending into the second hole (154). The depth of the first hole (153), the first end (141a) will break away from the first hole (153), and the second end (142a) will still limit the second hole (154), As a result, the storage device (15) forms an inclined posture, and under the inclined posture of the storage device (15), the storage device (15) can be completely separated from the accommodating space (13) of the main body (1).

In addition, when the storage device (15) is placed in the accommodating space (13) of the main body (1), the storage device (15) is in an inclined posture, and the first side of the storage device (15) The second hole (154) is socketed on the second end (142a) of the second limiting portion (142), and then the other side of the storage device (15) is pressed down, so that the storage device (15) The corresponding first cantilever portion (146) of the first limiting portion (141) will produce elastic deformation and expand outward until the first end portion (141a) of the first limiting portion (141) is correspondingly snapped into the The first hole position (153) completes the arrangement of the storage device (15) in the accommodating space (13) of the main body (1).

Fig. 17 is a three-dimensional combined view of an embodiment of the storage holding structure of the present invention, Fig. 18 is a three-dimensional combined view of another perspective of the embodiment of Fig. 17 of the present invention, and Fig. 19 is a cross-sectional view of the first use state of the embodiment of Fig. 17 of the present invention, Fig. 20 is a sectional view of another use state of the embodiment of FIG. 17 of the present invention, and FIG. 21 is a sectional view of another use state of the embodiment of FIG. 17 of the present invention. Referring to Fig. 17, Fig. 18, Fig. 19, Fig. 20 and Fig. 21, based on the foregoing embodiments, in the storage holding structure of the present invention, the first limiting portion (141) in the main body (1) includes the first A cantilever portion (146) and a first support piece (147), the bottom of the first cantilever portion (146) extends toward the second inner surface (112a) to form the first support piece (147) to further form a L type structure; and the second limiting portion (142) includes a second cantilever portion (148) and a second support piece (149), the second cantilever portion (148) is the second support (112) A partially formed cantilever structure has greater structural rigidity relative to the first cantilever portion (146), and the second end portion (142a) is formed on the surface of the free end of the second cantilever portion (148). The bottoms of the two cantilever portions (148) extend toward the first inner surface (111a) to form the second supporting piece (149) and further form an L-shaped structure. Wherein, the first end portion (141a) and the first support piece (147) of the first cantilever portion (146) are respectively corresponding to the first hole (153) and the second hole (153) of the storage device (15). Three outer surfaces (155), the second end portion (142a) and the second support piece (149) in the second cantilever portion (148) are respectively corresponding to the second hole position ( 154) and the third outer surface (155), so that when the storage device (15) is placed in the accommodating space (13) of the main body (1), the first cantilever part (146) One end portion (141a) and the second end portion (142a) of the second cantilever portion (148) are respectively correspondingly snapped into the first hole position (153) and the second hole of the storage device (15). position (154), and the first support piece (147) and the second support piece (149) are corresponding to support the third outer surface (155) of the storage device (15).

Based on the foregoing embodiments, when the storage device (15) is combined or disengaged from the accommodating space (13) of the main body (1), the first cantilever portion (146) of the first limiting portion (141) will generate elasticity deformed to expand outward, because the outer diameter of the first end (141a) of the first limiting part (141) is continuously tapered and the second end (142a) of the second limiting part (142) is correspondingly extended into The depth of the second hole (154) is greater than the depth corresponding to the first end (141a) of the first limiting portion (141) extending into the first hole (153), and the second cantilever portion (148 ) has greater structural rigidity than the first cantilever portion (146), the first end portion (141a) will first break away from the first hole position (153), and the second end portion (142a) will still restrict the first Two hole positions (154), which cause the storage device (15) to form an inclined posture, and under the inclined posture of the storage device (15), the storage device (15) can be completely accommodated from the main body (1) Space (13) breaks away.

In addition, when the storage device (15) is placed in the accommodating space (13) of the main body (1), the storage device (15) is in an inclined posture, and the first side of the storage device (15) The second hole (154) is socketed on the second end (142a) of the second limiting portion (142), and then the other side of the storage device (15) is pressed down, so that the storage device (15) The corresponding first cantilever portion (146) of the first limiting portion (141) will produce elastic deformation and expand outward until the first end portion (141a) of the first limiting portion (141) is correspondingly snapped into the The first hole position (153), the third outer surface (155) of the storage device (15) corresponds to the first supporting piece (147) and the second limiting part (141) of the first limiting part (141). On the second supporting piece (149) of the part (142), and complete the storage device (15) is arranged in the accommodating space (13) of the main body (1).

Fig. 22 is a three-dimensional exploded view of an embodiment of the storage holding structure of the present invention. Referring to Fig. 22, and referring again to Fig. 17 and Fig. 18, based on the foregoing embodiments, in the storage holding structure of the present invention, the first support (111) in the support (11) of the main body (1) is a bottom forming a The first fixed part (111b) is fixed on the bottom plate (12) of the main body (1) through the first fixed part (111b). Wherein, the first fixed part (111b) is a planar structure extending laterally from the bottom end of the first bracket (111), and the first fixed part can be achieved by welding, screw locking and riveting. The setting part (111b) is fixed on the bottom plate (12) of the main body (1), but the fixing method of the first fixing part (111b) on the bottom plate (12) is not the feature sought by the present invention .

Fig. 23 is a three-dimensional exploded view of an embodiment of the storage holding structure of the present invention. Referring to FIG. 23 , and referring again to FIG. 17 , FIG. 18 and FIG. 23 , based on the foregoing embodiments, in the reservoir holding structure of the present invention, the second bracket ( 112 ) in the bracket ( 11 ) of the main body ( 1 ) is A second fixing part (112b) is formed at the bottom, and is fixed on the bottom plate (12) of the main body (1) through the second fixing part (112b). Wherein, the second fixed part (112b) is a planar structure extending laterally from the bottom end of the second bracket (112), and the second fixed part can be achieved by welding, screw locking and riveting. The setting part (112b) is fixed on the bottom plate (12) of the main body (1), but the fixing method of the second fixing part (112b) on the bottom plate (12) is not the feature sought by the present invention .

Although the present invention has been disclosed above through the above-mentioned embodiments, it is not intended to limit the present invention. Any person skilled in the art may make some changes and modifications without departing from the spirit and scope of the present invention. Therefore, this The scope of patent protection for an invention shall be determined by the content of the claims of the invention.

Claims (17)

1. A storage holding structure, characterized in that a main body of the storage holding structure can cooperate with a storage device, and the main body includes: a bottom plate; a plurality of brackets, which are respectively arranged on the upper surface of the bottom plate and extend along the front and back direction of the bottom plate, and further include a first bracket and a second bracket; an accommodating space, which is the space defined between the first bracket, the second bracket and the bottom plate; and A positioning part, which includes a plurality of first limiting parts and a plurality of second limiting parts; Wherein, the storage device is fixedly arranged in the accommodating space, and the storage device includes a first outer surface, a second outer surface, a plurality of first hole positions and a plurality of second hole positions, the second outer surface The surface and the first outer surface are opposite side surfaces of the storage device, the second holes are counterbores formed on the second outer surface of the storage device, and the first holes are formed in the storage device a counterbore on the first outer surface of the device; the first bracket and the second bracket are arranged adjacent to each other, at least one of the first bracket and the second bracket has elasticity and can be elastically deformed along the side of the main body, The first bracket includes a first inner surface and the second bracket includes a second inner surface, the first inner surface and the second inner surface face each other and are parallel to each other; the first limiting parts The second limiting portions are respectively arranged on the first inner surface and the second inner surface, and each first limiting portion is formed by extending from the first inner surface toward the second inner surface A convex structure, each of the second limiting parts is a convex structure formed by extending from the second inner surface toward the first inner surface, each of the first limiting parts and each of the second limiting parts correspond to the first holes and the second holes respectively; the first limiting part includes a first end, the first end is formed on the top end of the first limiting part and The outer diameter is smaller than the first hole, and the outer diameter of the first end is continuously tapered from the first limiting part to the top end; and the second limiting part is corresponding to the second hole and includes a The second end portion, the second end portion is formed on the top end of the second limiting portion and has an outer diameter smaller than the second hole, and the depth corresponding to the second end extending into the second hole is greater than that of the second hole. The first end corresponds to a depth extending into the first hole. 2 . The storage holding structure as claimed in claim 1 , wherein the first ends of each of the first limiting portions are selected as one of a convex curved surface structure and a tapered surface structure. 3 . 3. The storage holding structure according to claim 1, characterized in that, the second end of each second limiting portion forms a columnar structure, and the surface direction of the radial peripheral surface of the second end is is the axis perpendicular to the second end. 4 . The storage holding structure according to claim 1 , wherein the outer diameter of the second end of each second limiting portion is continuously tapered from the second limiting portion to the top end. 5 . The storage holding structure as claimed in claim 4 , wherein the second ends of each of the second limiting portions are selected as one of a convex curved surface structure and a tapered surface structure. 6 . 6. The storage holding structure according to claim 1, wherein the bottom of the storage device further defines a third outer surface; and the positioning portion further comprises a second support portion and a first support portion, the The second supporting part and the first supporting part are a plane formed by the upper surface of the bottom plate of the main body and correspond to the second limiting part and the first limiting part in the main body respectively, and the storage device is In the state of being arranged in the accommodating space of the main body, the height positions of the second support part and the first support part correspond to contact with the third outer surface of the storage device. 7. The storage holding structure according to claim 6, wherein the first support part and the second support part respectively protrude from the upper part of the bottom plate of the main body and are convex structures with a flat top surface . 8. The storage holding structure according to claim 7, wherein the storage device comprises a third hole, the third hole is a counterbore formed on the third outer surface of the storage device, and the storage device The positions of the third holes in the third outer surface respectively correspond to the first holes in the first outer surface of the storage device; and the positioning portion further includes a third limiting portion, the third limiting portion It is a convex structure extending from the first supporting part toward the third outer surface of the storage device to protrude to a proper height. The third limiting part is corresponding to the third hole and includes a third end part. The end portion is formed on the top end of the third limiting portion and has an outer diameter smaller than that of the third hole. 9 . The storage holding structure according to claim 8 , wherein the outer diameter of the third end of the third limiting portion is continuously tapered from the third limiting portion to the top end. 10 . The storage holding structure as claimed in claim 9 , wherein the third end of the third limiting portion is selected as a convex curved surface structure and a tapered surface structure. 11 . 11. The storage holding structure according to claim 1, wherein each of the first limiting parts in the main body further comprises a first cantilever part, and the first cantilever part is a part of the first bracket The cantilever structure is formed, and the first end portion is formed on the surface of the free end of the first cantilever portion. The first cantilever portion is made of elastic material and has elasticity and can be elastically deformed along the side of the main body. 12. The storage holding structure according to claim 11, wherein each of the first limiting parts in the main body further comprises a first support piece, the bottom of the first cantilever part faces the second inner surface The direction extends to form the first support piece to further form an L-shaped structure; and each of the second limiting parts further includes a second cantilever part and a second support piece, and the second cantilever part is the second bracket A partially formed cantilever structure has greater structural rigidity relative to the first cantilever portion, and the second end portion is formed on the surface of the free end of the second cantilever portion, and the bottom of the second cantilever portion faces the first inner The surface direction is extended to form the second supporting sheet to further form an L-shaped structure; Wherein, the first end of the first cantilever portion and the first support piece are respectively corresponding to the first hole and the third outer surface of the storage device; and the second end of the second cantilever portion The end portion and the second support piece are respectively corresponding to the second hole and the third outer surface of the storage device. 13. The storage holding structure according to claim 1, characterized in that, the bottom of each of the first brackets of the main body forms a first fixed part, and the first fixed part is fixed on the base of the body. 14 . The storage holding structure according to claim 13 , wherein the first fixing portion is a planar structure extending laterally from the bottom end of the first support. 15 . 15. The storage holding structure according to claim 13, characterized in that, the bottom of each of the second brackets of the main body forms a second fixing portion, and is fixed through the second fixing portion on the base of the body. 16 . The storage holding structure according to claim 15 , wherein the second fixing portion is a planar structure extending laterally from the bottom end of the second support. 17 . 17. A storage holding structure, characterized in that a main body of the storage holding structure can cooperate with a storage device, and the main body includes: a bottom plate; A plurality of brackets, which are respectively arranged on the upper surface of the bottom plate and extend along the front and back direction of the bottom plate, and further include a first bracket and a second bracket; an accommodating space, which is the space defined between the first bracket, the second bracket and the bottom plate; and A positioning part, which includes a first limiting part and a second limiting part; Wherein, the storage device is fixedly arranged in the accommodating space, and the storage device includes a first outer surface, a second outer surface, a first hole position and a second hole position, and the second outer surface and The first outer surface is the opposite side surfaces of the storage device, the second hole is a counterbore formed on the second outer surface of the storage device, and the first hole is formed on the first outer surface of the storage device counterbore on the surface; the first bracket and the second bracket are adjacent to each other, at least one of the first bracket and the second bracket is elastic and can be elastically deformed along the side of the main body, the first bracket It includes a first inner surface and the second bracket includes a second inner surface, the first inner surface and the second inner surface are facing each other and parallel to each other; the first limiting part and the second limiting part Position portions are respectively arranged on the first inner surface and the second inner surface, the first limiting portion is a convex structure formed by extending from the first inner surface toward the second inner surface, the first The two limiting parts are a convex structure formed by extending from the second inner surface toward the first inner surface; the first limiting part includes a first end part formed on the first inner surface The top end of the first limiting portion has an outer diameter smaller than the first hole, and the outer diameter of the first end is continuously tapered from the first limiting portion to the top end; and the second limiting portion is for The second hole should be located and include a second end, the second end is formed on the top end of the second limiting portion and has a smaller outer diameter than the second hole, and the second end correspondingly extends into the first The depth of the two holes is greater than the depth corresponding to the first end extending into the first hole.