TWI688455B - XXY high load monomer group - Google Patents

Abstract

An XXY high-load monomer group includes: a lower base and a sliding seat, and the first and second sliders between the lower base and the sliding seat are in vertical contact with each other when the structure is pressed under pressure, It can increase the structure installation contact surface by vertically overlapping between the first and second sliders, while avoiding the generation of component torque, and indeed achieves the effect of sliding measurement, and the rigidity of the first and second sliders is more penetrated when stressed Maintain the stability of its sliding, greatly improve the accuracy and durability of the structure.

Description

XXY high load monomer group

The invention relates to a measurement platform, in particular to an XXY high-load monomer group with fine-tuning offset.

According to the requirements, the conventional fine-tuning platform device is widely used in various automatic precision machining positioning, processing and testing occasions, and can be matched with various optical components or testing instruments to enable high-precision measurement or inspection operations. At present, the common fine-tuning platform device, please refer to Figures 13 and 14 at the same time, it mainly has a base 40 and an offset seat 50, the base 40 has a long recessed area 41 on both sides, the two Each of the elongated concave regions 41 has a stepped convex surface 42 and provides a first slider 43 fixed on the stepped convex surface 42, and a convexity with a receiving area 441 is formed at the center of the base 40 Rib 44, the offset seat 50 is generally a rectangular plate body, a chute 51 is formed in the center, and then a stepped convex surface 52 is provided on both sides of the chute 51, and a second slider 53 is provided It is fixed on the stepped convex surface 52, so that the sliding groove 51 of the offset seat 50 is correspondingly set on the rib 44 of the base 40, so that the offset seat 50 can be translated on the base 40, and the The second slider 53 is horizontally arranged in parallel with the first slider 43, and a slider 60 is provided on the opposite side between the first slider 43 and the second slider 53 to form a type Fine-tune the platform device.

Looking at the above-mentioned conventional structure, it is not difficult to find that there are still some shortcomings. The main reasons are as follows: the first and second sliders 43, 53 between the base 40 and the offset seat 50 of the conventional measurement platform It is arranged in parallel and parallel, and the first slider 43 only forms the L-surface mounting contact with the base 40 at the bottom and one side, and the second slider 53 only offsets at the top and one side The seat 50 forms the mounting contact of the L surface. When the offset seat 50 is pressed down by force, the first and second sliders 43, 53 are likely to generate a force component of the outward component force, resulting in the first and second sliders 43, 53 The sliding effect between them is not good, which in turn affects the stability and smoothness of the sliding movement of the offset base 50 on the base 40, while reducing the measurement accuracy.

In view of this, the inventor has been engaged in the manufacturing development and design of related products for many years. In view of the above objectives, after detailed design and careful evaluation, the inventor finally has a practical invention.

The technical problem to be solved by the present invention is to provide an XXY high-load monomer group in view of the above defects in the prior art.

An XXY high-load monomer group includes: a lower base, a sliding base and an upper base, wherein the upper surface of the lower base has two parallel first receiving grooves, and an interposition between the two first A parallel sliding groove between the receiving grooves, a first slider is fixed in the two first receiving grooves, an X-axis stopper is arranged at the front and rear ends of the connecting groove, and a guide is fixed in the connecting groove The guide rail is further configured with a first limiting slide seat that is slidably restricted on the guide rail rod. The lower surface of the slide seat has two parallel second receiving grooves, and one is between the two second receiving grooves and mutually Parallel to the lower guide groove, the two second receiving grooves are in the same direction and face to the two first receiving grooves of the lower base, and a second slider is respectively fixed in the two second receiving grooves and stacked relative to each other It is placed above the two first sliders, and at least one sliding member is respectively arranged between the two second sliders and the two first sliders, and at the same time, the lower guide groove is embedded downwardly on a first limit slide In addition to the two X-axis stop blocks, the upper surface penetrates the sliding seat through the upper surface and is connected to the first limit sliding seat by a lock connection. With the above structure, a XXY high load list is formed Body group.

Compared with the effect of the previous technology: (1), the first and second sliders between the lower base and the sliding base are in vertical contact with each other, when the structure is pressed down, it can pass through the first and second sliders The vertical and vertical overlaps increase the contact surface of the structural installation, while avoiding the generation of component moments, and indeed achieves the effect of sliding measurement, and the rigidity of the first and second sliders is used to maintain the stability of its sliding when it is stressed. Improve the accuracy and durability of the structure.

(2) The upper surface of the lower base is fixed with a guide rail rod through the combining groove, and a first limit slide is respectively latched and slid, and then the slide seat is locked with the first limit slide When the sliding seat slides on the lower base or the sliding seat, the first limit sliding seat slides along the guide rail rod, which not only improves the accuracy of measuring the sliding, but also prevents the sliding seat from escaping upwards. The doubts about the use of the lower base have the stability of structural use.

〔this invention〕

10: Lower base

11: container

12: combining groove

13: First slider

131: cone groove

14: X axis stop

15: Guide rail

151: Rail slot

16: First limit slide

161: Orbit

162: Locking parts

17: Slide

20: Sliding seat

201: Lower base

202: Upper seat

21: second container

22: Lower guide groove

23: Second slider

231: cone groove

24: third tank

25: combining groove

26: Third slider

261: Cone groove

27: Y axis stop

28: Guide rail

281: Rail slot

29: Second limit slide

291: Orbit

292: Locking parts

30: Upper base

31: Fourth tank

32: Lower guide groove

33: Fourth slider

331: cone groove

34: Slider

〔Knowledge〕

40: Dock

41: Depression area

42: Convex

43: First slider

431: first cone groove

44: rib

50: Offset seat

51: Chute

52: raised face

53: Second slider

531: Second cone groove

60: Slide

Figure 1: This is a perspective view of the present invention.

Figure 2: This is an exploded view of the present invention.

Figure 3: This is a top view of the present invention.

Fig. 4 is a cross-sectional view corresponding to the cross-sectional line A-A of Fig. 3 of the present invention.

Figure 5 is a schematic diagram of the base sliding on the line A-A corresponding to Figure 3 of the present invention.

Fig. 6 is a perspective view of another embodiment of the sliding base of the present invention.

Fig. 7 is an exploded view of another embodiment of the sliding base of the present invention.

Fig. 8 is a cross-sectional view corresponding to the cross-sectional line B-B of Fig. 3 of the present invention.

Fig. 9 is a schematic diagram of the base sliding on the line B-B of Fig. 3 corresponding to the present invention.

Fig. 10 is a sectional view corresponding to the section line C-C of Fig. 3 of the present invention.

Fig. 11 is a schematic diagram of the sliding seat sliding corresponding to the section line C-C in Fig. 3 of the present invention.

Figure 12 is a schematic diagram of the actual application state of the present invention.

Figure 13: It is a perspective view of conventional knowledge.

Figure 14: It is a sectional view of the conventional combination.

In order for your reviewing committee to have a better understanding and understanding of the purpose, features and effects of the present invention, the following is please cooperate with [the brief description of the drawings] detailed as follows: first, please refer to the first and second figures to cooperate with the third As shown in FIG. 4, a XXY high-load monomer group includes: a lower base 10, a sliding seat 20, the upper surface of the lower base 10 has two parallel first receiving grooves 11, and a The two first receiving grooves 11 are parallel to each other, and the connecting grooves 12 are parallel to each other. The first sliding grooves 13 are fixed in the two first receiving grooves 11, and the tapered grooves 131 are provided on the surface ends of the two first sliding grooves 13. , An X-axis stopper 14 is provided on the front and rear ends of the coupling groove 12, and a guide rail 15 is fixed on the coupling groove 12, and a first limit slide 16 is further configured to slide and restrict the guide rail 15, the guide rail 15 is symmetrically provided with rail grooves 151 on both sides, and the bottom of the first limiting slide 16 is provided with a track 161 corresponding to the guide rail 15, the lower surface of the slide 20 has two A second receiving groove 21 parallel to each other, and a lower guide groove 22 between the two second receiving grooves 21 and parallel to each other, the two second receiving grooves 21 are in the same direction as the two first receiving grooves 11 of the lower base 10 And facing each other, a second slider 23 is respectively fixed in the two second receiving grooves 21, and the surface ends of the two second sliders 23 are each provided with a tapered groove 231, which are stacked on the two first Above the slider 13, and between the two second sliders 23 and the two first sliders 13, at least one sliding member 17 is slidably interposed through the tapered grooves 131 and 231, and the lower guide groove 22 is downward It is embedded outside of a first limit slide 16 and two X-axis stop blocks 14, and through the upper surface through the number lock 162, the slide base 20 and the first The limit slide 16 is locked and connected. With the above structure, a measurement platform structure is completed.

Furthermore, the upper surface of the sliding base 20 further has two parallel third receiving grooves 24 and a coupling groove 25 between the two third receiving grooves 24 and parallel to each other. The direction of the two third receiving grooves 24 is The two second accommodating grooves 21 are staggered in the direction of each other, and a third slider 26 is fixedly provided, and a tapered groove 261 is provided on the surface end of the two third sliders 26 before and after the combining groove 25 Each end is provided with a Y-axis stopper 27, and a guide rail rod 28 is fixed in the coupling groove 25, and a second limit slide 29 is further configured to slide and restrict on the guide rail rod 28. The guide rail rod 28 is symmetrically provided with rail grooves 281 on both sides, and the bottom of the second limit slide 29 is provided with a rail 291 corresponding to the guide rail 28, and the lower surface of the upper base 30 has a fourth parallel groove 31, and a lower guide slot 32 between the two fourth slots 31 and parallel to each other, the second fourth slot 31 and the second third slot 24 of the sliding seat 20 are in the same direction and face each other, A fourth slider 33 is fixed in each of the second and fourth receiving grooves 31, and a tapered groove 331 is provided on the surface end of the second and fourth sliders 33, which are respectively stacked on the two third sliders 26, At least one sliding member 34 is provided between the two fourth sliders 33 and the second third sliders 26 through the conical grooves 331 and 261, and the lower guide groove 32 is embedded downwardly on the first In addition to the two limit slides 29 and the two Y-axis stop blocks 27, the second limit slide 29 is locked and connected to the second limit slide 29 through the upper surface through the upper surface 30 through a number lock 292.

Furthermore, the sliding base 20 is constituted in an assembled manner. Please refer to FIG. 6 and FIG. 7 for reference. It includes a base 201 and an upper base 202. The lower base 201 is provided with two parallel parallel receiving slots 21 And the lower guide slot 22, and the upper support 202 is provided with two parallel third receiving slots 24, a coupling slot 25 and two Y-axis stop blocks 27.

The composition of the structure and the actual state of use, please refer to Figures 3 and 12 together with Figures 4, 5, 8, 9 and 10, 11 as shown, the sliding base 20 is stacked on the lower base 10 above, and abut against each other with the first and second sliders 13, 23, through the sliding between the first and second sliders 13, 23 The movable member 17 makes the sliding base 20 and the lower base 10 have a sliding state, and the coupling groove 12 of the lower base 10 is provided with a guide rail 15 to provide a first limiting sliding seat 16 for sliding connection, and more use of a lock The joint member 162 connects the sliding base 20 with the first limiting slide 16 so that when the sliding base 20 slides on the lower base 10, the first limiting slide 16 is linear along the guide rail 15 The sliding is also limited between the X-axis stoppers 14 at the two ends of the combining groove 12, and slides through the first limiting slide 16 and the guide rail 15 to prevent the slide 20 from moving up and down For the doubt of the base 10, the upper base 30 is stacked above the sliding base 20, and the third and fourth sliders 26, 33 are stacked against each other, and the sliding members between the third and fourth sliders 26, 33 pass through 34 makes the upper base 30 slide above the sliding base 20, and the coupling groove 25 of the sliding base 20 is provided with a guide rail 28 to provide a second limiting sliding base 29 for sliding connection, and further utilizes the locking member 301 The upper base 30 and the second limiting slide 29 are connected together, so that when the upper base 30 is slidingly displaced above the sliding base 20, the second limiting slide 29 is linear along the guide rail 28 The sliding is also limited between the Y-axis stoppers 27 at the two ends of the coupling groove 25, and slides through the second limiting slide 29 and the guide rail 28 to prevent the upper base 30 from escaping upwards The doubts of the slide base 20, through which the slide base 20 has different and staggered second and third slide grooves 21 and 24 on the upper and lower surfaces, as well as with the second slider 23 and the third slider 26, the sliding base 20 is stacked on the first slider 13 above the lower base 10 with the second slider 23 to have a displacement measurement effect in the X-axis direction, and then the third on the upper surface of the sliding base 20 is used The slider 26 provides a fourth slider 33 of the upper base 30 that slides one above the other to have a displacement measurement effect in the Y-axis direction, so that the XXY high-load cell group has displacement effects in the X-axis and Y-axis directions.

With the structure of the above specific embodiment, the following benefits can be obtained: (1) the first and second sliders 13, 23 between the lower base 10 and the sliding base 20, and between the sliding base 20 and the upper base 30 The third and fourth sliders 26 and 33 are in vertical contact with each other. Since the lower base 10, the sliding base 20 and the upper base 30 are sequentially stacked and installed, when the structure is pressed down, it can Through the first and second sliders 13, 23 And the third and fourth sliders 26 and 33 are vertically overlapped to increase the structure installation contact surface, and at the same time avoid the generation of component torque, and indeed achieve the effect of sliding measurement, and the first and second sliders 13 are more penetrated when stressed , 23 and the rigidity of the third and fourth sliders 26 and 33 maintain the stability of their sliding, which greatly improves the accuracy and durability of the structure.

(2) The upper surfaces of the lower base 10 and the sliding base 20 are fixed with guide rails 15 and 28 through the combining grooves 12 and 25, respectively, and a first limiting slide 16 and a Two limit slides 29, and then the slide base 20 is locked and connected with the first limit slide 16 and the upper base 30 is locked and connected with the second limit slide 29, so that the slide base 20 slides on When the lower base 10 or the upper base 30 slides on the slide base 20, the first and second limit slides 16, 29 slide along the guide rails 15, 28 respectively, which not only improves the measurement of sliding The accuracy also prevents the sliding base 20 from disengaging upwards from the lower base 10 or the upper base 30 from disturbing upwards from the lower base 10, and has the stability of structural use.

In summary, the present invention has indeed reached a breakthrough structural design, and has improved the content of the invention, and at the same time can achieve industrial utility and progress, and the present invention has not been found in any publication, but also novel, when In line with the relevant laws and regulations of the Patent Law, I filed an application for an invention patent in accordance with the law, and urge the examination committee of the Jun Bureau to grant legal patent rights.

The above is only one of the preferred embodiments of the present invention, and it should not be used to limit the scope of implementation of the present invention; that is, all equal changes and modifications made in accordance with the scope of the patent application of the present invention should still belong to the present invention Within the scope of the patent.

10‧‧‧Lower base

11‧‧‧slot

12‧‧‧Combination groove

13‧‧‧First slider

131‧‧‧Cone groove

14‧‧‧X axis stop

15‧‧‧Guide rail

151‧‧‧track groove

16‧‧‧First limit slide

161‧‧‧ Orbit

17‧‧‧sliding parts

20‧‧‧sliding seat

162‧‧‧Locking parts

21‧‧‧Second container

22‧‧‧Lower guide groove

23‧‧‧second slider

231‧‧‧Cone groove

24‧‧‧The third container

25‧‧‧Combination groove

26‧‧‧The third slider

261‧‧‧Cone groove

27‧‧‧Y axis stop

28‧‧‧Guide rail

281‧‧‧track groove

29‧‧‧Second limit slide

291‧‧‧ Orbit

30‧‧‧Up base

292‧‧‧Locking parts

31‧‧‧The fourth tank

32‧‧‧Lower guide groove

33‧‧‧ fourth slider

331‧‧‧Cone groove

34‧‧‧sliding parts

Claims (7)

An XXY high-load monomer group includes: a base, an upper surface having two parallel first receiving grooves, and a combining groove interposed between the two first receiving grooves and parallel to each other, the two first receiving grooves A first slider is fixed inside, and an X-axis stopper is arranged at the front and rear ends of the combining groove, and a guide rail is fixed at the combining groove, and a first limit slide is further configured to slide to On the guide rail; a sliding seat, the lower surface of which has two parallel second slots, and a lower guide slot between the two second slots and parallel to each other, the two second slots and the lower base Two of the first accommodating grooves are in the same direction and facing each other, and a second slider is respectively fixed in the two second accommodating grooves, and is relatively stacked above the two first sliders, and the two second sliders At least one sliding member is respectively arranged between the two first sliders, and the lower guide groove is embedded downwardly over a first limit sliding seat and two X-axis stop blocks. The upper surface penetrates the sliding seat and is locked and connected with the first limit sliding seat. According to one of the items 1 of the patent application scope, the XXY high-load monomer group, wherein the surface ends of the first and second sliders are provided with tapered grooves, and the slide is sandwiched through the tapered grooves. Pieces. According to the XXY high-load monolithic unit described in item 1 or 2 of the patent application scope, wherein the guide rails are symmetrically provided with rail grooves on both sides, and the bottom of the first limit slide is corresponding to the guide rails. There is a track, so that the first limit slide can be slidingly set on the corresponding guide rail rod. According to the XXY high-load monomer group described in item 1 of the scope of the patent application, wherein the upper surface of the sliding base further has two parallel third receiving grooves, and a parallel one between the two third receiving grooves The combining groove, the direction of the two third holding grooves and the direction of the two second holding grooves are staggered with each other, and each is provided with a third slider, and a Y-axis stop is provided at the front and rear ends of the combining groove Block, and then a guide rail bar is fixed in the combining groove, and a second limiting slide seat is further configured to slide and limit on the guide rail bar. According to the XXY high-load monomer group described in item 4 of the patent application scope, one of them includes an upper base, a lower surface of the base has two parallel fourth receiving grooves, and one between the two fourth Between the receiving grooves and the mutually parallel lower guiding grooves, the two fourth receiving grooves and the second and third receiving grooves of the sliding seat are in the same direction and face each other, and a fourth slide is fixed in both the second and fourth receiving grooves Blocks, which are respectively stacked on the two third sliders, and at least one sliding member is provided between the second fourth sliders and the second third sliders, and the lower guide groove is embedded downwardly on the slider In addition to the second limit slide and the two Y-axis stop blocks, the second limit slide is locked and connected to the second limit slide through the upper surface through the upper surface through a number lock. According to the XXY high-load monolithic unit of item 5 of the patent application range, the surface ends of the third and fourth sliders are provided with tapered grooves, and slide members are provided through the tapered grooves. According to the XXY high-load monomer unit described in item 6 of the patent application scope, wherein the guide rails are symmetrically provided with rail grooves on both sides, and the bottom of the second limit slide is provided with a rail corresponding to the guide rails In order to slide the second limit slide on the corresponding guide rail.

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