TW201805247A - Molding structure for manufacturing a molded glass part - Google Patents

Abstract

A molding structure includes a first female molding member, a first male molding member, a pushing assembly, a second female molding member and a pushing mechanism. The first female molding member supports a flat portion of a molded glass. The first male molding member is closable relative to the first female molding member. The pushing assembly is fixed on the first male molding member. The pushing assembly pushes the flat portion when the first male molding member and the first female molding member are closed. The second female molding member corresponds to a peripheral portion of the molded glass. The pushing mechanism is coupled with the second female molding member. The pushing mechanism drives the second female molding member to a molded position when the first male molding member is closed to the first female molding member at a closed position.

Description

Mold structure for manufacturing molded glass

The present invention relates to a mold structure, and more particularly to a mold structure for manufacturing a molded glass.

Generally speaking, the glass material is a flat plate. To produce a glass with a shape, a conventional method is to place a flat glass material between an upper mold and a lower mold, and then heat the upper mold, the lower mold, and the upper mold and the lower mold. Glass material between modules to soften the glass material. When the above-mentioned glass material is softened, the upper mold part and the lower mold part can perform a mold clamping action, thereby shaping the shape of the glass material.

However, since the conventional upper and lower molds do not have a supporting structure, most of the glass materials will be suspended during the heating process. Therefore, when the glass material is heated to soften, most of the glass material has a thermal deformation due to no structural restrictions, resulting in wavy lines on the surface of the majority of the glass material, which affects transparency, and then affects product quality and reduces products. Competitiveness in the market. In addition, if a deformation structure in different directions is to be generated, it is usually necessary to first form a deformation structure for one direction and then form another deformation structure for the other direction, that is, it takes two moldings to complete the deformation structure in different directions. Processing time of glass material.

The present invention provides a mold structure for manufacturing a molded glass to solve the above problems.

In order to achieve the above object, the present invention discloses a mold structure for manufacturing a molded glass. The mold glass has a flat plate portion and a peripheral portion extending from the flat plate portion. The mold structure includes a first female mold piece, a A first male mold part, a pushing part, a second female mold part, and a pushing mechanism; the first female mold part is used for supporting the flat plate part of the molded glass; the first male mold part It can be opened and closed above the first female mold part, the ejector is fixed on the first male mold part, and the ejector is along the first direction of the first male mold part. When the mold is closed relative to the first female mold part, the flat plate part is pushed to form a first deformation structure along the first direction on the flat plate part, and the second female mold part is disposed on the first female mold. Around the piece and corresponding to the peripheral portion of the molded glass, the pushing mechanism is coupled to the second female mold piece, the pushing mechanism is opposite to the first female mold along the first direction from the first male mold piece When the parts are clamped to a clamping position, the second female mold is driven. With the opposite member is moved to a position forming one of the first direction to a second direction, so that the peripheral portion is formed a second deformation structure in the second direction.

According to one embodiment of the present invention, the mold structure further includes a second male mold part, which is disposed between the first female mold part and the first male mold part, and the second male mold part and The first female mold pieces collectively clamp the flat plate portion of the molded glass.

According to one embodiment of the present invention, the second male mold member is formed with a channel, and the pushing member pushes the flat plate portion through the channel.

According to one embodiment of the present invention, the pushing member includes a pushing pin member and a locking member, the pushing pin member is movably disposed in the channel, and the locking member is connected to the pushing pin member and fixed. In the first male mold part.

According to one embodiment of the present invention, a forming recess corresponding to the channel is formed on the first female mold member, the ejector pin member has a forming end portion, and the forming end portion is opposite to the first male mold member. When the first female mold part is clamped to the mold clamping position, it enters the molding recess to form the first deformation structure.

According to one embodiment of the present invention, the mold structure further includes a plurality of support members, which are disposed between the first male mold member and the second male mold member, and each support member abuts the first male mold respectively. The mold part and the second male mold part.

According to one embodiment of the present invention, the first male mold part is movable between a mold opening position and the mold clamping position relative to the second male mold part, and the plurality of support members are in the first male mold. When the pieces are in the mold opening position, the first male mold piece is supported to prevent the pusher from breaking through the flat plate portion of the molded glass, and the plurality of support pieces are softened when the first male mold piece is heated, The first male mold part can be moved from the mold opening position to the second male mold part to the mold clamping position, and the softened plurality of support members can be moved from the first male mold part to the mold part. The pressing force generated at the clamping position is transmitted to the second male mold part.

According to one embodiment of the present invention, a plurality of positioning recesses are formed on a side of the second male mold part facing the first male mold part, and the bottom of each support member is accommodated in the plurality of positioning depressions. One of them.

According to one embodiment of the present invention, an accommodating recess is formed on a side of the first male mold part facing the second male mold part, and the side of the second male mold part is accommodated in the accommodating recess. Inside, a plurality of positioning upper recesses corresponding to the plurality of positioning lower recesses are formed on the bottom surface of the receiving recess, and the top of each support is received in one of the plurality of positioning upper recesses.

According to one embodiment of the present invention, a plurality of flash recesses are formed on a bottom surface of the receiving recess, each flash recess is communicated with one of the plurality of positioning upper recesses, and the plurality of support members are connected to the first male The mold parts are softened when heated, and each flash recess provides a flash space for each softened support when the plurality of supports are softened.

According to one embodiment of the present invention, each support member is made of a heat-deformable material.

According to one embodiment of the present invention, the first female mold part includes a base and a boss, the boss is disposed on the base, the boss has a first clamping surface, and the second male The mold part has a second clamping surface, and the first clamping surface and the second clamping surface respectively clamp opposite sides of the flat plate portion of the molded glass.

According to one embodiment of the present invention, the first clamping surface and the second clamping surface are respectively made by mirror processing.

According to one embodiment of the present invention, the base may be selectively integrally formed with the boss or may be two independent members with the boss.

According to one embodiment of the present invention, the mold structure further includes an abutment member disposed on the second female mold member, and the abutment member and the first male mold member move to the mold clamping position when the abutment member moves to the mold clamping position. There is a gap between the first male mold parts, and the abutment part abuts on the first male mold part when the pushing mechanism drives the second female mold part to move to the molding position.

According to one embodiment of the present invention, the first female mold part includes a base and a boss, and the base may be selectively integrally formed with the boss or be two independent members with the boss.

According to one embodiment of the present invention, the base of the first female mold part is formed with a through hole, and the pushing mechanism includes a connecting member and a pushing rod member. The connecting member has a head and a connection. A connecting portion on the head is fixed on the second female mold part, the head is accommodated in the through hole, the ejector member corresponds to the attaching member, and the ejector member passes through the through hole. The hole pushes the connecting member to drive the connecting member, so that the connecting member drives the second female mold part to the molding position.

In summary, since the first clamping surface of the first female mold part and the second clamping surface of the second male mold part respectively hold opposite sides of the flat plate portion of the molded glass, the mold structure of the present invention It can provide structural restrictions on the flat plate portion of the molded glass, thereby reducing the surface of the flat plate portion of the molded glass due to thermal deformation during the molding process to generate wavy lines, so as to improve the transparency of the flat portion of the molded glass after molding. In addition, in the mold structure of the present invention, when the first male mold part is clamped relative to the first female mold part in a first direction, the flat plate portion is pushed by the pusher to mold the flat plate portion of the glass. A first deformation structure is formed along the first direction, and the mold structure of the present invention further drives the second female mold after the first male mold is clamped relative to the first female mold in the first direction to the mold clamping position. The pieces are moved to the molding position in a second direction opposite to the first direction, whereby the present invention can form a second deformation structure of the peripheral portion of the molded glass in the second direction, that is, the mold structures of the present invention can be separately molded The flat plate part and the peripheral part of the glass form a deformation structure with different directions, and the secondary molding process is not required, which can reduce the processing time of the molded glass. The foregoing and other technical contents, features, and effects of the present invention will be clearly presented in the following detailed description of the embodiments with reference to the drawings.

The directional terms mentioned in the following embodiments, such as: up, down, left, right, front, or rear, are only directions referring to the attached drawings. Therefore, the directional terms used are used to illustrate and not to limit the present invention. Please refer to FIG. 1 to FIG. 5. FIG. 1 is a schematic diagram of the appearance of the mold structure 1000 according to the first embodiment of the present invention, FIG. 2 is an exploded view of the mold structure 1000 according to the embodiment of the present invention, and FIG. 3 is a mold according to the embodiment of the present invention. An exploded view of the structure 1000 from another perspective. FIG. 4 is a cross-sectional view of a molded glass 2000 along the section line BB shown in FIG. 2, and FIG. 5 is a cross-section of the mold structure 1000 shown in FIG. 1 along a section line AA. schematic diagram. As shown in FIGS. 1 to 5, the mold structure 1000 can be used to manufacture a molded glass 2000 having a flat plate portion 2001, a peripheral portion 2002, a first deformable structure 2003, and a second deformable structure 2004. The portion 2002 extends from the flat plate portion 2001, a first deformation structure 2003 is formed on the flat plate portion 2001, and a second deformation structure 2004 is formed on the peripheral portion 2002.

In addition, the mold structure 1000 includes a first female mold member 1, a second female mold member 2, a first male mold member 3, a second male mold member 4, a pushing member 5, and a jack. The pushing mechanism 6 is used for supporting the flat part 2001 of the molded glass 2000 by the first female mold part 1, and the first male mold part 3 is arranged above the first female mold part 1 in an openable and closable manner. In this embodiment, when the first male mold part 3 and the first female mold part 1 are closed, the first male mold part 3 may approach the first female mold part 1 along a first direction X1, When the first male mold part 3 and the first female mold part 1 are opened, the first male mold part 3 can leave the first female mold part 1 in a second direction X2 opposite to the first direction X1. The second male mold part 4 is disposed between the first female mold part 1 and the first male mold part 3, and the second male mold part 4 and the first female mold part 1 hold the flat plate of the glass 2000 together. Department 2001. The pushing member 5 is fixed on the first male mold member 3, the second female mold member 2 is disposed around the first female mold member 1 and corresponds to the peripheral portion 2002 of the molded glass 2000, and the pushing mechanism 6 is coupled to the first Two female mold parts 2.

As shown in FIGS. 1 to 5, the second male mold part 4 is formed with a channel 40. The pushing part 5 may include a pushing pin member 50 and a locking member 51. The pushing pin member 50 is movably disposed on the pushing pin member 50. In the channel 40, the locking member 51 is connected to the ejector pin member 50 and is fixed to the first male mold member 3. That is, the locking member 51 is used to lock the ejector pin member 50 to the first male mold member 3. It is worth mentioning that the structural design of the pushing member 5 of the present invention may not be limited to the drawing shown in this embodiment. For example, the pushing member 5 may also be a protrusion integrally formed with the first male mold member 3 , Depending on the actual needs. In addition, the first female mold part 1 is formed with a forming recess 10 corresponding to the channel 40, and the ejector pin member 50 has a forming end 501.

In addition, the mold structure 1000 further includes a plurality of support members 7 disposed between the first male mold member 3 and the second male mold member 4, and each of the support members 7 abuts the first male mold member 3 respectively. And the second male mold piece 4. In this embodiment, each support member 7 may be a bead structure, and the shape of the support member 7 of the present invention may not be limited to that shown in the embodiment. For example, the support member 7 may also be a cube structure. It depends on actual needs. A plurality of positioning recesses 41 are formed on a side 43 of the second male mold part 4 facing the first male mold part 3, and the bottom of each support member 7 is accommodated in one of the plurality of positioning recesses 41. The supporting members 7 can be positioned on the side 43 of the second male mold member 4 to prevent the supporting members 7 from sliding or rolling on the side 43 of the second male mold member 4.

In addition, an accommodating recess 30 is formed on a side 33 of the first male mold part 3 facing the second male mold part 4, and the side 43 of the second male mold part 4 is accommodated in the accommodating recess 30 to prevent The second male mold part 4 is moved relative to the first male mold part 3, that is, the receiving recess 30 on the side 33 of the first male mold part 3 can be used to position the second male mold part 4 on the first male part. To prevent the first male mold part 3 and the second male mold part 4 from being displaced relative to each other. Further, one bottom surface 301 of the receiving recess 30 is formed with a plurality of positioning upper recesses 31 corresponding to the plurality of positioning lower recesses 41 on the second male mold part 4, and the tops of the support members 7 are accommodated in the plurality of positioning. One of the upper recesses 31, whereby the supporting members 7 can be positioned on the bottom surface 301 of the receiving recess 30 on the first male mold part 3 to prevent the supporting members 7 from being in the receiving recess 30. Slide or scroll on the bottom surface 301.

As shown in FIGS. 1 to 5, the first female mold part 1 includes a base 11 and a boss 12. The boss 12 is disposed on the base 11, and the boss 12 has a first clamping surface 120. The second male mold part 4 has a second clamping surface 42 opposite to the side 43. The first clamping surface 120 of the boss 12 and the second male mold part 4 The clamping surfaces 42 respectively clamp opposite sides of the flat plate portion 2001 of the molded glass 2000 to hold the molded glass 2000 in the mold structure 1000. In this embodiment, the base 11 and the boss 12 may be two independent members, and the boss 12 is detachably mounted on the base 11 so as to replace the boss 12, and the base 11 and the boss 12 are also Can be integrally formed, depending on actual needs.

In addition, the base 11 of the first female mold part 1 is formed with a through hole 110, and the pushing mechanism 6 includes a connecting member 60 and a pushing rod member 61. The connecting member 60 has a head portion 601 and is connected to the head portion 601. A connecting part 602 is fixed to the second female mold part 2, and the head part 601 is received in the through hole 110. The ejector member 61 corresponds to the connector 60, and the ejector member 61 can pass through the through hole. 110 pushes the connecting member 60, whereby the ejector member 61 can drive the connecting member 60 to drive the connecting member 60 to move the second female mold member 2 in the second direction X2. In other words, the connecting member 60 can prevent the ejector member 61 from directly contacting the second female mold member 2 during the ejection process of the ejector member 61 to cause the second female mold member 2 to be damaged, thereby reducing the second female mold member 2. Replacement rate of mold parts 2.

In addition, the mold structure 1000 further includes an abutment member 8 disposed on the second female mold member 2. The mold structure 1000 of the present invention is suitable for a molding machine (not shown in the figure). The molding machine includes an upper heating module 3000 and a lower heating module 4000, and the lower heating module 4000 is connected to the first female mold. The mold part 1 is also used to heat the first mother mold part 1 and further heat the second mother mold part 2 and the molded glass 2000, thereby softening the mold glass 2000 by heating. The upper heating module 3000 is detachably connected to the first male mold part 3 and is used for heating the first male mold part 3, so that the support member 7 is heated, so that the support member 7 is heated and softened. In this embodiment, each support member 7 is made of a heat-deformable material (such as glass), but the present invention is not limited thereto.

Please refer to FIG. 5 to FIG. 8. FIG. 6 is a schematic cross-sectional view of the mold structure 1000 in a heated state according to the embodiment of the present invention, and FIG. 7 is a schematic cross-sectional view of the mold structure 1000 in a closed state according to the embodiment of the present invention. FIG. 8 is a schematic cross-sectional view of a mold structure 1000 in a molding state according to an embodiment of the present invention. As shown in FIGS. 5 to 8, when the mold structure 1000 is in a mold opening position as shown in FIG. 5, the plurality of supporting members 7 can support the first male mold member 3 to prevent connection to the first mold member 3. The pushing member 5 of the male mold member 3 breaks the flat plate portion 2001 of the molded glass 2000 downward by the gravity of the first male mold member 3. When the mold structure 1000 is to be used to mold the molded glass 2000, the upper heating module 3000 is first moved from the position shown in FIG. 5 along the first direction X1 to the position shown in FIG. 6 to contact and heat the first male The mold members 3 are heated by the support members 7. At the same time, the lower heating module 4000 also heats the first mother mold part 1 to heat the molded glass 2000.

When the support 7 reaches the softening temperature when it is heated and the softening temperature is reached when the molded glass 2000 is heated, the upper heating module 3000 can drive the first male mold part 3 to close the first female mold part 1 along the first direction X1. The ejector pin member 50 of the ejector 5 can push the flat plate portion 2001 of the glass 2000 through the channel 40 of the second male mold member 4, and when the first male mold member 3 continues in the first direction X1 from When the position shown in FIG. 6 is clamped relative to the first female mold part 1 to a mold clamping position as shown in FIG. 7, the molding end portion 501 of the ejector pin member 50 of the pusher 5 can enter the first female. The molding recess 10 of the mold part 1 forms a first deformation structure 2003 along the first direction X1 on the flat plate part 2001 of the molded glass 2000.

It is worth mentioning that, since the first clamping surface 120 of the first female mold part 1 and the second clamping surface 42 of the second male mold part 4 clamp the opposite sides of the flat plate portion 2001 of the molded glass 2000, respectively In this way, the mold structure 1000 of the present invention can provide structural restrictions on the flat plate portion 2001 of the molded glass 2000, thereby reducing the surface of the flat plate portion 2001 of the molded glass 2000 due to thermal deformation during the molding process, thereby improving the texture. The transparency of the flat plate portion 2001 of the molded glass 2000 after molding. In this embodiment, the first clamping surface 120 and the second clamping surface 42 can be made by mirror processing, respectively, to improve the surface accuracy of the first clamping surface 120 and the second clamping surface 42, and further The transparency of the flat plate portion 2001 of the molded glass 2000 is improved.

In addition, the support member 7 can be softened when the first male mold part 3 is heated by the upper heating module 3000, so that the upper heating module 3000 can drive the first male mold part 3 along the first direction X1 as shown in FIG. 6. The mold opening position shown is moved relative to the second male mold part 4 to the mold closing position as shown in FIG. 7. In the above process, the softened supporting member 7 can transmit the first pressing force generated when the first male mold member 3 is moved to the clamping position to the second male mold member 4 so that the second male mold member 4 Maintaining this downward pressure on the flat plate portion 2001 of the molded glass 2000 helps reduce the wavy pattern of the flat plate portion 2001 of the molded glass 2000 due to thermal deformation.

In addition, a plurality of flash recesses 32 are formed on the bottom surface 301 of the receiving recess 30 of the first male mold part 3, and each flash recess 32 communicates with one of the plurality of positioning upper recesses 31. When the support member 7 is softened by being heated by the first male mold member 3, each of the overflow recesses 32 can provide an overflow space for each of the softened support members 7, so that the softened and overflowed portions of each support member 7 do not affect The molding process.

After the first male mold part 3 is moved relative to the first female mold part 1 in the first direction X1 to the mold clamping position as shown in FIG. 7, the ejector member 61 of the ejection mechanism 6 may be opposite to the first One direction X1 moves in the second direction X2, and the ejection connection member 60 drives the connection member 60, whereby the ejection mechanism 6 can drive the second female mold part 2 to move in the second direction X2 opposite to the first direction X1. In this way, the second mother mold part 2 can make the peripheral portion 2002 of the molded glass 2000 form a second deformation structure 2004 along the second direction X2. It is worth mentioning that when the first male mold part 3 is moved to the mold clamping position as shown in FIG. 7, the abutting part 8 and the first male mold part 3 have a distance, and when the pushing mechanism 6 When the second female mold part 2 is driven to move to the molding position as shown in FIG. 7, the abutment part 8 moves with the second female mold part 2 and then abuts the first male mold part 3. Compared with the prior art, since the first clamping surface of the first female mold part and the second clamping surface of the second male mold part respectively hold opposite sides of the flat plate portion of the molded glass, the mold of the present invention The structure can provide structural restrictions on the flat portion of the molded glass, thereby reducing the surface of the flat portion of the molded glass due to thermal deformation during the molding process to generate wavy lines, thereby improving the transparency of the flat portion of the molded glass after molding. In addition, in the mold structure of the present invention, when the first male mold part is clamped relative to the first female mold part in a first direction, the flat plate portion is pushed by the pusher to mold the flat plate portion of the glass. A first deformation structure is formed along the first direction, and the mold structure of the present invention further drives the second female mold after the first male mold is clamped relative to the first female mold in the first direction to the mold clamping position. The pieces are moved to the molding position in a second direction opposite to the first direction, whereby the present invention can form a second deformation structure of the peripheral portion of the molded glass in the second direction, that is, the mold structures of the present invention can be separately molded The flat plate part and the peripheral part of the glass form a deformation structure with different directions, and the secondary molding process is not required, which can reduce the processing time of the molded glass. The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made in accordance with the scope of patent application of the present invention shall fall within the scope of the present invention.

1000‧‧‧mould structure
2000‧‧‧ molded glass
2001‧‧‧ Flat Department
2002‧‧‧ Peripheral
2003‧‧‧First deformation structure
2004‧‧‧Second deformation structure
1‧‧‧The first female mold
10‧‧‧ Molded recess
11‧‧‧ base
12‧‧‧ Boss
120‧‧‧first clamping surface
2‧‧‧Second female mold
3‧‧‧The first male mold
30‧‧‧ Receiving recess
301‧‧‧ underside
31‧‧‧Positioning the upper recess
32‧‧‧ Overfill recess
33‧‧‧side
4‧‧‧Second Male Mold
40‧‧‧channel
41‧‧‧Positioning the recess
42‧‧‧Second clamping surface
43‧‧‧side
5‧‧‧ Pusher
50‧‧‧ Top pin member
501‧‧‧shaped end
51‧‧‧Locking member
6‧‧‧ Pushing mechanism
60‧‧‧Connector
601‧‧‧Head
602‧‧‧Connection Department
61‧‧‧ ejector member
7‧‧‧ support
8‧‧‧ abutment
3000‧‧‧up heating module
4000‧‧‧ lower heating module
X1‧‧‧ first direction
X2‧‧‧ second direction
AA, BB‧‧‧ hatching

FIG. 1 is a schematic diagram of an appearance of a mold structure according to an embodiment of the present invention. FIG. 2 is an exploded view of a mold structure according to an embodiment of the present invention. FIG. 3 is an exploded view of the mold structure according to another embodiment of the present invention from another perspective. Fig. 4 is a schematic cross-sectional view of the molded glass shown in Fig. 2 along the section line B-B. Fig. 5 is a schematic cross-sectional view of the mold structure shown in Fig. 1 along the section line A-A. FIG. 6 is a schematic cross-sectional view of a mold structure in a heated state according to an embodiment of the present invention. FIG. 7 is a schematic cross-sectional view of a mold structure in a clamping state according to an embodiment of the present invention. FIG. 8 is a schematic cross-sectional view of a mold structure in a molding state according to an embodiment of the present invention.

1000‧‧‧mould structure

2000‧‧‧ molded glass

2001‧‧‧ Flat Department

2003‧‧‧First deformation structure

2004‧‧‧Second deformation structure

1‧‧‧The first female mold

10‧‧‧ Molded recess

11‧‧‧ base

12‧‧‧ Boss

120‧‧‧first clamping surface

2‧‧‧Second female mold

3‧‧‧The first male mold

33‧‧‧side

4‧‧‧Second Male Mold

40‧‧‧channel

41‧‧‧Positioning the recess

42‧‧‧Second clamping surface

43‧‧‧side

5‧‧‧ Pusher

50‧‧‧ Top pin member

501‧‧‧shaped end

51‧‧‧Locking member

6‧‧‧ Pushing mechanism

60‧‧‧Connector

601‧‧‧Head

602‧‧‧Connection Department

61‧‧‧ ejector member

7‧‧‧ support

8‧‧‧ abutment

3000‧‧‧up heating module

4000‧‧‧ lower heating module

X1‧‧‧ first direction

X2‧‧‧ second direction

Claims (19)

A mold structure for manufacturing a molded glass. The molded glass has a flat plate portion and a peripheral portion extending from the flat plate portion. The mold structure includes: a first mother mold piece for supporting the molded glass; The flat plate part; a first male mold part is arranged above the first female mold part in an openable and closable manner; an ejector part is fixed on the first male mold part, and the ejector part Pushing the flat plate portion when the first male mold piece is closed with respect to the first female mold piece along a first direction to form a first deformation structure on the flat plate portion in the first direction; a first Two female mold parts are arranged around the first female mold part and corresponding to the peripheral portion of the molded glass; and a pushing mechanism is coupled to the second female mold part, and the pushing mechanism is located on the first When the male mold part is clamped relative to the first female mold part to a mold clamping position along the first direction, the second female mold part is driven to move to a molding in a second direction opposite to the first direction. Position so that the peripheral part forms a second along the second direction Variable structure. The mold structure according to claim 1, further comprising: a second male mold part, which is disposed between the first female mold part and the first male mold part, and the second male mold part and the The first female mold pieces collectively clamp the flat plate portion of the molded glass. The mold structure according to claim 2, wherein the second male mold part is formed with a channel, and the pushing member pushes the flat plate part through the channel. The mold structure according to claim 3, wherein the pushing member comprises: a pushing pin member movably disposed in the channel; and a locking member connected to the pushing pin member and fixed to the first Male mold parts. The mold structure according to claim 4, wherein the first female mold part is formed with a molding recess corresponding to the channel, the ejector pin member has a molding end portion, and the molding end portion is in the first male mold When the pieces are closed with respect to the first female mold piece to the clamping position, the pieces enter the forming recess to form the first deformation structure. The mold structure according to claim 2, further comprising: a plurality of supporting members, which are disposed between the first male mold member and the second male mold member, and each of the supporting members abuts the first male mold respectively. And the second male mold part. The mold structure according to claim 6, wherein the first male mold part is movable relative to the second male mold part between a mold opening position and the mold clamping position, and the plurality of support members are in the first male mold part. When the mold part is located at the mold opening position, the first male mold part is supported to prevent the pushing part from breaking through the flat plate part of the molded glass, and the plurality of support parts are heated when the first male mold part is heated. Soften, so that the first male mold part can be moved from the mold opening position to the second male mold part to the mold clamping position, and the softened plurality of support parts can be moved from the first male mold part The pressing force generated when moving to the clamping position is transmitted to the second male mold part. The mold structure according to claim 6, wherein a plurality of positioning recesses are formed on a side of the second male mold member facing the first male mold member, and the bottom of each support member is accommodated in the plurality of positioning members. One of the depressions. The mold structure according to claim 8, wherein a receiving recess is formed on a side of the first male mold member facing the second male mold member, and the side of the second male mold member is received in the container. Inside the recessed portion, a plurality of positioning upper recesses corresponding to the plurality of positioning lower recesses are formed on the bottom surface of the receiving recessed portion, and the top of each support member is accommodated in one of the plurality of positioning upper recesses. The mold structure according to claim 8, wherein the bottom surface of the accommodating recess is formed with a plurality of flash recesses, each flash recess is connected to one of the plurality of positioning upper recesses, and the plurality of support members are connected to the first A male mold part is softened when heated, and each flash recess provides a flash space for each softened support when the plurality of supports are softened. The mold structure according to claim 6, wherein each support member is made of a heat-deformable material. The mold structure according to claim 2, wherein the first female mold part includes a base and a boss, the boss is disposed on the base, the boss has a first clamping surface, and the first The two male mold pieces have a second clamping surface, and the first clamping surface and the second clamping surface respectively clamp opposite sides of the flat plate portion of the molded glass. The mold structure according to claim 12, wherein the first clamping surface and the second clamping surface are respectively made by mirror processing. The mold structure according to claim 12, wherein the base can be selectively integrally formed with the boss or can be two independent components with the boss. The mold structure according to claim 2, further comprising: an abutment member provided on the second female mold member, and the abutment member and the first male mold member are moved to the mold clamping position when the abutment member is moved to the mold clamping position. There is a gap between the first male mold parts, and the abutment part abuts against the first male mold part when the pushing mechanism drives the second female mold part to move to the molding position. The mold structure according to claim 1, wherein the first female mold part includes a base and a boss, and the base may be selectively integrally formed with the boss or be two independent components with the boss. . The mold structure according to claim 16, wherein the base of the first female mold part is formed with a through hole, and the pushing mechanism includes: a connecting member having a head and a head connected to the head. A connecting part, the connecting part is fixed to the second female mold part, the head part is received in the through hole; and a jack member corresponding to the connecting part, the jack member pushes the jack through the through hole The connecting member is used to drive the connecting member, so that the connecting member drives the second female mold part to the molding position. A mold structure for manufacturing a molded glass. The molded glass has a flat plate portion and a peripheral portion extending from the flat plate portion. The mold structure includes: a first mother mold piece for supporting the molded glass; The flat plate part; a first male mold part is arranged above the first female mold part in an openable and closable manner; an ejector part is fixed on the first male mold part, and the ejector part Pushing the flat plate portion when the first male mold piece is closed with respect to the first female mold piece along a first direction to form a first deformation structure on the flat plate portion in the first direction; a first Two female mold parts are arranged around the first female mold part and corresponding to the peripheral portion of the molded glass; a pushing mechanism is coupled to the second female mold part, and the pushing mechanism is connected to the first male mold part. When the mold part is clamped relative to the first female mold part to a mold clamping position along the first direction, the second female mold part is driven to move to a molding position in a second direction opposite to the first direction. So that the peripheral part forms a second deformation along the second direction A second male mold part is disposed between the first female mold part and the first male mold part, and the second male mold part and the first female mold part hold the mold together The flat plate portion of the glass; and a plurality of support members disposed between the first male mold member and the second male mold member, and each support member abuts the first male mold member and the second male mold member respectively Mold parts. The mold structure according to claim 18, wherein the first male mold part is movable relative to the second male mold part between a mold opening position and the mold clamping position, and the plurality of support members are in the first When the male mold part is located at the mold opening position, the first male mold part is supported to prevent the pusher from breaking through the flat plate portion of the molded glass, and the plurality of support members are heated on the first male mold part. Soften, so that the first male mold part can be moved from the mold opening position to the second male mold part to the mold clamping position, and the softened plurality of support members can be placed on the first male mold part The lower pressure generated when moving to the mold clamping position is transmitted to the second male mold part.