CN203112683U - Mold structure for molding molded glass having different warping directions - Google Patents

Abstract

A mold structure for molding molded glass with different warping directions comprises a first mold piece, a second mold piece, a first glass clamping piece, a second glass clamping piece, a first molding structure and a second molding structure. The second mold part is arranged on the first mold part in an openable and closable manner, and the first glass clamping part and the second glass clamping part are respectively arranged in the first mold part and the second mold part and are used for clamping molded glass together. The first forming structure is arranged at a first side edge part of the first mould part corresponding to the moulded glass, and the second forming structure is arranged at a second side edge part of the second mould part corresponding to the moulded glass. The first forming structure and the second forming structure are used for forming the molded glass along a first direction and a second direction opposite to the first direction respectively.

Description

Being used for moulding has the mould structure of the moulded glass of different warp direction

Technical field

This creation relates to a kind of mould structure, particularly relevantly a kind ofly is used for moulding and has the mould structure of the moulded glass of different warp direction.

Background technology

Generally speaking, the glass material is a tabular.If desire is produced the glass with moulding, the known practice is that flat glass material is arranged on a upper mould piece with once between module, then heats upper mould piece, module and glass material down, so that the glass material softens.When above-mentioned glass material was softening, upper mould piece just can be carried out mould assembling action with following module, so that the profile that upper mould piece is moulded the glass material jointly along matched moulds direction and following module is used and produced corresponding moulded glass.From the above, known upper mould piece only can that is to say that known mould structure only can be produced the moulded glass with single warp direction and the application elasticity that has limited product along described matched moulds direction formed glass material with following module.

The utility model content

Therefore, this creation provides a kind of and is used for moulding and has the mould structure of the moulded glass of different warp direction, to address the above problem.

The claim of this creation discloses and a kind ofly is used for moulding and has the mould structure of the moulded glass of different warp direction, and it includes one first mold members, one second mold members, one first glass holder, one second glass holder, one first molding structure and one second molding structure.But described second mold members is arranged on described first mold members in the mode of folding.The described first glass holder is installed in described first mold members, and the described second glass holder is installed in described second mold members, and the described second glass holder is used for and the described moulded glass of the described common clamping of the first glass holder.Described first molding structure is arranged on the first side portion place of the corresponding described moulded glass of described first mold members, described first molding structure moves to the described first side of pushing and pressing portion in the process of a matched moulds position in described first mold members and described second mold members, so that described first side portion is along the moulding of first direction warpage.Described second molding structure is arranged on the second side portion place of the corresponding described moulded glass of described second mold members, described second molding structure moves to the described second side of pushing and pressing portion in the process of described matched moulds position in described first mold members and described second mold members, so that described second side portion is along the second direction warpage moulding in contrast to described first direction.

Further disclose described mould structure further includes one first strut member and one second strut member to the claim of this creation.Described first strut member is connected to described first mold members and the described first glass holder.Described second strut member is connected to described second mold members and the described second glass holder, described second strut member and described first strut member are used for forcing in the described second glass holder and the described first glass holder respectively in described first mold members and described second mold members move to the process of described matched moulds position, so that the described second glass holder and the described moulded glass of the described common clamping of the first glass holder.

Further disclose described first mold members includes one first die cavity structure to the claim of this creation, described first strut member is arranged in the described first die cavity structure, the described first die cavity structure is used for the ccontaining described first glass holder when described relatively second mold members of described first mold members moves to described matched moulds position, described second mold members includes one second die cavity structure, described second strut member is arranged in the described second die cavity structure, and the described second die cavity structure is used for the ccontaining described second glass holder when described relatively second mold members of described first mold members moves to described matched moulds position.

The claim of this creation further discloses the described first die cavity structure and further is used for when described relatively second mold members of described first mold members moves to described matched moulds position and one the 3rd side portion and a four side portion of the described moulded glass of the described common moulding of the second glass holder.

The claim of this creation further discloses described first side portion with respect to described second side portion, and described the 3rd side portion is connected in described first side portion and described second side portion, and described four side portion is with respect to described the 3rd side portion.

It is a glass pearlitic texture that the claim of this creation further discloses described first strut member, and described mould structure includes one first cambered surface recess and one first ccontaining recess.The described glass pearlitic texture of the shape corresponding part that described first cambered surface is recessed, the described first cambered surface recess is used for locating described glass pearlitic texture.The described first ccontaining recess is formed on the described first glass holder towards a side of described first mold members, and the described first ccontaining recess is used for the described glass pearlitic texture of when described relatively second mold members of described first mold members moves to described matched moulds position ccontaining another part.

It is a glass plate that the claim of this creation further discloses described second strut member, the described second glass holder is formed with a protuberance towards a side of described second mold members, the described glass plate of described protuberance butt, and described mould structure further includes a support portion and a depressed part.Described support portion is formed on corresponding described protuberance place in the described second die cavity structure, described support portion be connected to described glass plate around.Described depressed part is connected in described support portion, and described depressed part is used for ccontaining described protuberance and described glass plate when described relatively second mold members of described first mold members moves to described matched moulds position.

It is a glass pearlitic texture that the claim of this creation further discloses described second strut member, and described mould structure includes one second cambered surface recess and one second ccontaining recess.The described glass pearlitic texture of the shape corresponding part of the described second cambered surface recess, the described second cambered surface recess is used for locating described glass pearlitic texture.The described second ccontaining recess is formed on the described second glass holder towards a side of described second mold members, and the described second ccontaining recess is used for the described glass pearlitic texture of when described relatively second mold members of described first mold members moves to described matched moulds position ccontaining another part.

The claim of this creation further discloses described first strut member and described second strut member is respectively a glass plate, the described first glass holder is formed with one first protuberance towards a side of described first mold members, the described second glass holder is formed with one second protuberance towards a side of described second mold members, described first protuberance and described second protuberance be described first strut member of butt and described second strut member respectively, and described mould structure further includes one first support portion, one first depressed part, one second support portion and one second depressed part.Described first support portion is formed on the corresponding described first protuberance place in the described first die cavity structure, described first support portion be connected to described first strut member around.Described first depressed part is connected in described first support portion, and described first depressed part is used for ccontaining described first protuberance and described first strut member when described relatively second mold members of described first mold members moves to described matched moulds position.Described second support portion is formed on the corresponding described second protuberance place in the described second die cavity structure, described second support portion be connected to described second strut member around.Described second depressed part is connected in described second support portion, and described second depressed part is used for ccontaining described second protuberance and described second strut member when described relatively second mold members of described first mold members moves to described matched moulds position.

Further disclose described mould structure further includes one first thermal insulation barriers to the claim of this creation, it is connected to the described first die cavity structure and described first strut member, and described first thermal insulation barriers is used for absorption portion and is passed to the heat of described first strut member by described first mold members.

Further disclose described mould structure further includes one second thermal insulation barriers to the claim of this creation, it is connected to the described second die cavity structure and described second strut member, and described second thermal insulation barriers is used for absorption portion and is passed to the heat of described second strut member by described second mold members.

The claim of this creation further discloses described first thermal insulation barriers and described second thermal insulation barriers is made by low thermal distortion material respectively.

The claim of this creation further discloses the bottom surface that one first perforation is formed on the described first die cavity structure, described first perforation allows a protruded stigma to pass, use the described first glass holder of driving and break away from described first mold members, one second perforation is formed on the bottom surface of the described second die cavity structure, described second perforation allows another protruded stigma to pass, and uses the described second glass holder of driving and breaks away from described second mold members.

The claim of this creation further discloses described first strut member and described second strut member is made by the heat deformable material respectively.

Further disclose described mould structure further includes a guiding structural to the claim of this creation, and it is used for guiding described relatively second mold members of described first mold members and moves to described matched moulds position or break away from described matched moulds position along the second direction in contrast to described first direction along first direction.

Further disclose described guiding structural includes one first guide hole structure, one second guide hole structure and a guide pillar to the claim of this creation.Described first guide hole structure is formed on described first mold members, and described second guide hole structure is formed on described second mold members.Described guide pillar trend is parallel to described first direction or described second direction in fact, and an end of described guide pillar is installed in described first guide hole structure, and the other end of described guide pillar is arranged in described second guide hole structure slidably.

In sum, the mould structure of this creation utilizes the first glass holder and the common clamping moulded glass of the second glass holder, and moulded glass can be fixed in moulding process between first mold members and second mold members.Moreover, in moulding process, first molding structure on first mold members and second molding structure on second mold members can be respectively along first direction and in contrast to the second direction moulding moulded glass of first direction, so that the second side portion of the first side portion of moulded glass and moulded glass is respectively along the moulding of first direction warpage and along the moulding of second direction warpage.In other words, the moulded glass that the mould structure of this creation can utilize first molding structure and the second molding structure production to have different warp direction, and then the application elasticity of increase product.Advantage about this creation can be further understood by following creation detailed description and appended accompanying drawing with spirit.

Description of drawings

Fig. 1 creates the element schematic appearance of the first embodiment mould structure for this.

Fig. 2 creates the element exploded perspective view of the first embodiment mould structure for this.

Fig. 3 creates the first embodiment mould structure at the element exploded perspective view at another visual angle for this.

Fig. 4 is that mould structure shown in Figure 1 is along the element section synoptic diagram of section line A-A'.

Fig. 5 is in the element section synoptic diagram of matched moulds state for mould structure shown in Figure 4.

Fig. 6 is that mould structure shown in Figure 1 is along the element section synoptic diagram of section line B-B'.

Fig. 7 is in the element section synoptic diagram of matched moulds state for mould structure shown in Figure 6.

Fig. 8 creates the element synoptic diagram of the first embodiment moulded glass after moulding for this.

Fig. 9 creates the element synoptic diagram of the first embodiment tool for this.

Figure 10 creates the element section synoptic diagram of the second embodiment mould structure for this.

Figure 11 creates the element section synoptic diagram that the second embodiment mould structure is in the matched moulds state for this.

Figure 12 creates the element section synoptic diagram of the 3rd embodiment mould structure for this.

Figure 13 creates the element section synoptic diagram that the 3rd embodiment mould structure is in the matched moulds state for this.

Wherein, description of reference numerals is as follows:

30,30', 30'' mould structure 32 moulded glass

323 second side portions of 321 first side portions

325 the 3rd side portion, 327 four side portions

34 first mold members, 341 first die cavity structures

343 first perforation, 36 second mold members

363 second perforation of 361 second die cavity structures

38 guiding structurals, 381 first guide hole structures

383 second guide hole structures, 385 guide pillars

40, the 40' first glass holder 401 first protuberances

42,42', the 42'' second glass holder 421 protuberances

423 second protuberances 44,44' first strut member

46,46', 46'' second strut member 48 first cambered surface recesses

50 first thermal insulation barriers, 52 first ccontaining recesses

54 second cambered surface recesses, 56 second thermal insulation barriers

58 second ccontaining recess 60 first molding structures

62 second molding structures, 63 tools

631 protruded stigmas, 64 support portions

66 depressed parts, 68 first support portions

70 second support portions, 72 first depressed parts

74 second depressed part X1 matched moulds directions

X2 die sinking direction D1 first direction

D2 second direction A-A', B-B' section line

Embodiment

See also Fig. 1 to Fig. 5, Fig. 1 creates the element schematic appearance of first embodiment, one mould structure 30 for this, Fig. 2 creates the element exploded perspective view of the first embodiment mould structure 30 for this, Fig. 3 creates the first embodiment mould structure 30 at the element exploded perspective view at another visual angle for this, Fig. 4 be mould structure 30 shown in Figure 1 along the element section synoptic diagram of section line A-A', Fig. 5 is in the element section synoptic diagram of a matched moulds state for mould structure 30 shown in Figure 4.To shown in Figure 5, mould structure 30 is used for making a moulded glass 32 as Fig. 1.In this embodiment, moulded glass 32 can be applicable to an electronic installation (not illustrating in the drawings), for example the display module of mobile phone etc.

In addition, mould structure 30 includes one first mold members 34, one second mold members 36 and two groups of guiding structurals 38.But second mold members 36 is arranged on first mold members 34 in the mode of folding, and in the process of mould structure 30 at matched moulds, second mold members 36 moves along matched moulds direction X1 relative to first mold members 34.At this moment, guiding structural 38 can be used to guide relative first mold members 34 of second mold members 36 and moves to a matched moulds position as shown in Figure 5 from a die sinking position as shown in Figure 4 along matched moulds direction X1.On the other hand, in the process of mould structure 30 in die sinking, second mold members 36 moves along the die sinking direction X2 in contrast to matched moulds direction X1 relative to first mold members 34.At this moment, guiding structural 38 can be used to guide second mold members, 36 relative first mold members 34 and moves to as shown in Figure 4 described die sinking position from as shown in Figure 5 described matched moulds position along die sinking direction X2.

To shown in Figure 5, each guiding structural 38 includes one first guide hole structure 381, one second guide hole structure 383 and a guide pillar 385 as Fig. 2.In this embodiment, first guide hole structure 381 is formed on first mold members 34, and second guide hole structure 383 is formed on second mold members 36.The trend of guide pillar 385 is parallel to matched moulds direction X1 or die sinking direction X2 in fact, and an end of guide pillar 385 is installed in first guide hole structure 381, and the other end of guide pillar 385 is arranged in second guide hole structure 383 slidably.When mould structure 30 matched moulds, second guide hole structure 383 on second mold members 36 just can be used to cooperate with the other end of guide pillar 385, so that second mold members 36 moves and closed in first mold members 34 along matched moulds direction X1, uses moulding moulded glass 32.On the other hand, when mould structure 30 die sinkings, second guide hole structure 383 on second mold members 36 also can be used to cooperate with the other end of guide pillar 385, so that second mold members 36 moves and 34 unlatchings of relative first mold members along die sinking direction X2, uses the described matched moulds of disengaging position.By this, moulded glass 32 just can take out in mould structure 30.

What deserves to be mentioned is, the quantity of the first above-mentioned guide hole structure 381, second guide hole structure 383 and guide pillar 385 with arrange the position can be not with this embodiment illustrate the person of being illustrated be limited, it is looked closely actual demand and decides.In addition, the structure design of guiding structural 38 can be not limited to described in this embodiment.For instance, guiding structural 38 also can be the structure design of a slipping rib and a chute, and as for adopting above-mentioned what person's design, it is looked closely actual demand and decides.That is to say, so long as can make the structure design of the guiding structural 38 that second mold members 36 moves along first direction X1 or along second direction X2 relative to first mold members 34, all in the category that this creation is protected.

To shown in Figure 5, mould structure 30 further includes one first glass holder 40 and one second glass holder 42 as Fig. 2.In addition, first mold members 34 includes one first die cavity structure 341, and second mold members 36 includes one second die cavity structure 361.The first glass holder 40 is installed in the first die cavity structure 341 of first mold members 34, and the second glass holder 42 is installed in the second die cavity structure 361 of second mold members 36.See also Fig. 2, Fig. 3, Fig. 6 and Fig. 7, Fig. 6 be mould structure 30 shown in Figure 1 along the element section synoptic diagram of section line B-B', Fig. 7 is in the element section synoptic diagram of described matched moulds state for mould structure 30 shown in Figure 6.

As Fig. 2, Fig. 3, Fig. 6 and shown in Figure 7, mould structure 30 further includes one first strut member 44 and one second strut member 46.In this embodiment, mould structure 30 includes two first strut members 44 and two second strut members 46, described two first strut members 44 are separately positioned in the first die cavity structure 341 and the edge of contiguous first mold members 34, and described two second strut members 46 are separately positioned in the second die cavity structure 361 and the edge of contiguous second mold members 36.And the quantity of first strut member 44 and second strut member 46 with arrange the position can be not with this embodiment accompanying drawing the person of being illustrated be limited, it is looked closely actual demand and decides.

When assembling first mold members 34 and the first glass holder 40, at first first strut member 44 is arranged in the first die cavity structure 341 of first mold members 34, so that first strut member 44 is connected on the bottom surface of the first die cavity structure 341.Then the first glass holder 40 is installed in the first die cavity structure 341, so that the bottom surface of the first glass holder 40 bears against on first strut member 44.By this, first strut member 44 just can provide support power in the first glass holder 40, uses and supports the first glass holder 40.When assembling second mold members 36 and the second glass holder 42, at first second strut member 46 and the second glass holder 42 are arranged in the second die cavity structure 361 of second mold members 36, so that second strut member 46 is connected on the bottom surface of the second die cavity structure 361, and make the second glass holder 42 bear against second strut member 46.So, second strut member 46 just can provide support power in the second glass holder 42, uses and supports the second glass holder 42.

From the above, first strut member 44 is used for being connected to first mold members 34 and the first glass holder 40, and second strut member 46 is used for being connected to second mold members 36 and the second glass holder 42.By this, the first glass holder 40 and the second glass holder 42 are supported by first strut member 44 and second strut member 46 can respectively, and then clamping moulded glass 32(is as shown in Figure 6 jointly).In addition, move in the process of described matched moulds position as shown in Figure 7 in first mold members 34 and second mold members 36, second strut member 46 and first strut member 44 further are used for respectively the application of force at the second glass holder 42 and the first glass holder 40 so that the second glass holder 42 and the first glass holder 40 can be in above-mentioned matched moulds process clamping moulded glass 32 jointly.In addition, when first mold members 34 and second mold members 36 move to described matched moulds position, the first die cavity structure 341 of first mold members 34 is used for the ccontaining first glass holder 40, and the second die cavity structure 361 of second mold members 36 is used for the ccontaining second glass holder 42(as shown in Figure 7).

In this embodiment, first strut member 44 can be made by the heat deformable material, for example glass etc.In other words, first strut member 44 can be a glass pearlitic texture.As Fig. 2, Fig. 3, Fig. 6 and shown in Figure 7, mould structure 30 can further include one first cambered surface recess 48 and one first thermal insulation barriers 50.First thermal insulation barriers 50 is connected to the first die cavity structure 341 and first strut member, 44, the first cambered surface recesses 48 are formed on first thermal insulation barriers 50, and the described glass pearlitic texture of the shape corresponding part of the first cambered surface recess 48 (i.e. first strut member 44).Therefore, in the time of in first strut member 44 is arranged on the first die cavity structure 341, the first cambered surface recess 48 just can be used to locate described glass pearlitic texture (i.e. first strut member 44).Mould structure 30 further includes one first ccontaining recess 52, and it is formed on the first glass holder 40 towards a side of first mold members 34.When mould structure 30 is heated and first mold members 34 and second mold members 36 when moving to described matched moulds position, the first ccontaining recess 52 can be used to the described glass pearlitic texture (i.e. first strut member 44) of ccontaining another part.

What deserves to be mentioned is that when mould structure 30 was heated, first thermal insulation barriers 50 can be used to absorption portion and is passed to the heat of first strut member 44 by first mold members 34, so that first strut member 44 is difficult for being subjected to thermal softening than moulded glass 32.In other words, first thermal insulation barriers 50 can be used to adjust the time that first strut member 44 is subjected to thermal softening, so that first strut member 44 can provide preferably anchorage force in the first glass holder 40 in above-mentioned matched moulds process.

In addition, second strut member 46 also can be made by the heat deformable material, for example glass etc.In other words, second strut member 46 also can be a glass pearlitic texture.As Fig. 2, Fig. 3, Fig. 6 and shown in Figure 7, mould structure 30 further includes one second cambered surface recess 54 and one second thermal insulation barriers 56, second thermal insulation barriers 56 is connected to the second die cavity structure 361 and second strut member 46, the second cambered surface recess 54 is formed on second thermal insulation barriers 56, and the described glass pearlitic texture of the shape corresponding part of the second cambered surface recess 54 (i.e. second strut member 46).Therefore, in the time of in second strut member 46 is arranged on the second die cavity structure 361, the second cambered surface recess 54 just can be used to locate described glass pearlitic texture (i.e. second strut member 46).Mould structure 30 further includes one second ccontaining recess 58, and it is formed on the second glass holder 42 towards a side of second mold members 36.When first mold members 34 and second mold members 36 moved to described matched moulds position, the second ccontaining recess 58 can be used to the described glass pearlitic texture (i.e. second strut member 46) of ccontaining another part.

What deserves to be mentioned is that when mould structure 30 was heated, second thermal insulation barriers 56 can be used to absorption portion and is passed to the heat of second strut member 46 by second mold members 36, so that second strut member 46 is difficult for being subjected to thermal softening than moulded glass 32.In other words, second thermal insulation barriers 56 can be used to adjust the time that second strut member 46 is subjected to thermal softening, so that second strut member 46 can provide preferably anchorage force in the second glass holder 42 in above-mentioned matched moulds process.In this embodiment, first thermal insulation barriers 50 and second thermal insulation barriers 56 can be made by low thermal distortion material respectively, but not limit by this.In this embodiment, mould structure 30 can only comprise first thermal insulation barriers 50 and second thermal insulation barriers 56, and meaning is that first thermal insulation barriers 50 and second thermal insulation barriers 56 can be respectively the integral type platy structure, but not limit by this.In other words, mould structure 30 also can only comprise a plurality of first thermal insulation barriers 50 and a plurality of second thermal insulation barriers 56, each first thermal insulation barriers, 50 corresponding each first strut member 44, and each second thermal insulation barriers, 56 corresponding each second strut member 46.That is to say, so long as include the structure design of more than one first thermal insulation barriers 50 and more than one second thermal insulation barriers 56, all in the category that this creation is protected.

To shown in Figure 7, the mould structure 30 of this creation further includes one first molding structure 60 and one second molding structure 62 as Fig. 2.First molding structure 60 is arranged on a first side portion 321 places of first mold members, 34 corresponding moulded glass 32, and second molding structure 62 is arranged on a second side portion 323 places of second mold members, 36 corresponding moulded glass 32.See also Fig. 8, Fig. 8 creates the element synoptic diagram of the first embodiment moulded glass 32 after moulding for this.When moulding moulded glass 32, heating mould structure 30 to one glass transition temperatures at first, at this moment, moulded glass 32, first strut member 44 and second strut member 46 are in a plastic state because being heated.Then, second mold members 36 just can relative first mold members 34 move to described matched moulds position along matched moulds direction X1, uses and carries out mould assembling action.

In above-mentioned matched moulds process, first molding structure 60 can be along the first side portion 321 of as shown in Figure 6 first direction D1 pushing and pressing moulded glass 32, up to 30 of mould structures till described matched moulds state as shown in Figure 7; Second molding structure 62 can be along the second side portion 323 in contrast to the second direction D2 of first direction D1 pushing and pressing moulded glass 32 as shown in Figure 6, up to 30 of mould structures till described matched moulds state as shown in Figure 7.So, the first side portion 321 of moulded glass 32 just can be along the moulding of first direction D1 warpage, and the second side portion 323 of moulded glass 32 just can be in contrast to the second direction D2 warpage moulding of first direction D1.In other words, the mould structure 30 of this creation can utilize first molding structure 60 and second molding structure, the 62 productions first side portion with different warp direction 321 as shown in Figure 8 and the moulded glass 32 of second side portion 323, and then increases the application elasticity of product.

What deserves to be mentioned is, when second mold members, 36 relative first mold members 34 moved to described matched moulds position along matched moulds direction X1, the first die cavity structure 341 of first mold members 34 further was used for and one three side portion 325 and the four side portion 327 of the second glass holder 42 along the common moulding moulded glass 32 of first direction D1.That is to say that the mould structure 30 of this creation can be used to produce that three side portion (being first side portion 321, the 3rd side portion 325 and four side portion 327) have same warp direction and moulded glass 32 that another side portion (being second side portion 323) has another warp direction.In this embodiment, first side portion 321 is connected in first side portion 321 and second side portion 323 with respect to second side portion 323, the three side portion 325, and four side portion 327 is with respect to the 3rd side portion 325.And the warp direction of the side portion of moulded glass 32 can be not limited to described in this embodiment, and it is looked closely actual demand and decides.

As Fig. 2, Fig. 3, Fig. 6 and shown in Figure 7, two first bottom surfaces that perforation 343 is formed on the first die cavity structure 341, and two second perforation 363 are formed on the bottom surface of the second die cavity structure 361.See also Fig. 9, Fig. 9 creates the element synoptic diagram of first embodiment, one tool 63 for this.As shown in Figure 9, tool 63 is provided with two protruded stigmas 631, and described two first perforation 343 and described two second perforation 363 can allow described two protruded stigmas 631 to pass respectively.When the mould structure 30 of this creation is finished molding moulded glass 32, the operating personnel can utilize described two protruded stigmas 631 on the tool 63 to pass described two first perforation 343 and described two second perforation 363 respectively, uses to drive the first glass holder, 40 disengaging first mold members 34 and drive the second glass holder 42 to break away from second mold members 36.So, moulded glass 32 just can take out in mould structure 30.

See also Figure 10 and Figure 11, Figure 10 creates the element section synoptic diagram of second embodiment, one mould structure 30' for this, and Figure 11 creates the element section synoptic diagram that the second embodiment mould structure 30' is in a matched moulds state for this.As Figure 10 and shown in Figure 11, the main difference of mould structure 30' and above-mentioned mould structure 30 is, the second strut member 46' of mould structure 30' is a glass plate, the second glass holder 42' of mould structure 30' is formed with a protuberance 421 towards a side of second mold members 36, the described glass plate of protuberance 421 butts (i.e. the second strut member 46').In addition, mould structure 30' further includes a support portion 64, and it is formed on corresponding protuberance 421 places in the second die cavity structure 361.

When assembling second mold members 36 and the second glass holder 42', be described glass plate with the second strut member 46'(at first) be arranged in the second die cavity structure 361 of second mold members 36 so that support portion 64 be connected to described glass plate (i.e. the second strut member 46') around.Then the second glass holder 42' is installed in the second die cavity structure 361, so that the protuberance 421 of the second glass holder 42' is bearing on the described glass plate (i.e. the second strut member 46').By this, described glass plate (i.e. the second strut member 46') just can provide support power in the second glass holder 42', uses and supports the second glass holder 42'.

In addition, mould structure 30' further includes a depressed part 66, and it is connected in support portion 64.When moulding moulded glass 32, at first heating mould structure 30' is to described glass transition temperature, and at this moment, moulded glass 32, first strut member 44 and the second strut member 46' are in described plastic state because being heated.Then, second mold members 36 just can relative first mold members 34 moves to as shown in figure 11 a matched moulds position along matched moulds direction X1, at this moment, depressed part 66 can be used to ccontaining protuberance 421 and described glass plate (i.e. the second strut member 46'), so that mould structure 30' can finish above-mentioned mould assembling action.And having the element of same numeral in this embodiment and above-described embodiment, it has identical structure design and action principle, for the sake of clarity, does not repeat them here.

See also Figure 12 and Figure 13, Figure 12 creates the 3rd embodiment one mould structure 30 for this " the element section synoptic diagram, Figure 13 creates the 3rd embodiment mould structure 30 for this and " is in the element section synoptic diagram of a matched moulds state.As Figure 12 and shown in Figure 13, the first glass holder 40' that mould structure 30 " is with the main difference of above-mentioned mould structure 30; mould structure 30 " the first strut member 44' and second strut member 46 " is respectively a glass plate; mould structure 30 " is formed with one first protuberance 401 towards a side of first mold members 34, mould structure 30 " the second glass holder 42 " is formed with one second protuberance 423 towards a side of second mold members 36, and first protuberance 401 of the first glass holder 40' and the second glass holder 42 " second protuberance 423 respectively the butt first strut member 44'(be described glass plate) with the described second strut member 46''(be described glass plate).

In addition, " further include one first support portion 68, it is formed on corresponding first protuberance 401 places in the first die cavity structure 341 to mould structure 30.When assembling first mold members 34 and the first glass holder 40', be described glass plate with the first strut member 44'(at first) be arranged in the first die cavity structure 341 of first mold members 34 be described glass plate so that first support portion 68 is connected to the first strut member 44'() around.Then the first glass holder 40' being installed in the first die cavity structure 341, is described glass plate so that first protuberance 401 of the first glass holder 40' is bearing on the first strut member 44'() on.By this, the first strut member 44'(is described glass plate) power that just can provide support is in the first glass holder 40', and use and support the first glass holder 40'.

In addition, " further include one second support portion 70, it is formed on corresponding second protuberance 423 places in the second die cavity structure 361 to mould structure 30.At assembling second mold members 36 and the second glass holder 42 " time; be described glass plate with the second strut member 46''(at first) be arranged in the second die cavity structure 361 of second mold members 36 be described glass plate so that second support portion 70 is connected to the second strut member 46''() around.Then second protuberance 423 that the second glass holder 42 " is installed in the second die cavity structure 361, so that the second glass holder 42 " to be bearing on the second strut member 46''(be described glass plate) on.By this, the second strut member 46''(is described glass plate) power that just can provide support is in the second glass holder 42 ", use and support the second glass holder 42 ".

As Figure 12 and shown in Figure 13, mould structure 30 " further includes one first depressed part 72 and one second depressed part 74.First depressed part 72 is connected in first support portion 68, and second depressed part 74 is connected in second support portion 70.When moulding moulded glass 32, at first the heating mould structure 30, and " to described glass transition temperature, at this moment, moulded glass 32, the first strut member 44' and second strut member 46 " are in described plastic state because being heated.Then, second mold members 36 just can relative first mold members 34 moves to as shown in figure 13 a matched moulds position along matched moulds direction X1, this moment, first depressed part 72 can be used to ccontaining first protuberance 401 and the first strut member 44'(is described glass plate), and second depressed part 74 can be used to ccontaining second protuberance 423 and second strut member 46 " (being described glass plate).By this, mould structure 30 " just can finish above-mentioned mould assembling action.And having the element of same numeral in this embodiment and above-described embodiment, it has identical structure design and action principle, for the sake of clarity, does not repeat them here.

Compared to prior art, the mould structure of this creation utilizes the first glass holder and the common clamping moulded glass of the second glass holder, and moulded glass can be fixed in moulding process between first mold members and second mold members.Moreover, in moulding process, first molding structure on first mold members and second molding structure on second mold members can be respectively along first direction and in contrast to the second direction moulding moulded glass of first direction, so that the second side portion of the first side portion of moulded glass and moulded glass is respectively along the moulding of first direction warpage and along the moulding of second direction warpage.In other words, the moulded glass that the mould structure of this creation can utilize first molding structure and the second molding structure production to have different warp direction, and then the application elasticity of increase product.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (16)

1. one kind is used for moulding and has the mould structure of a moulded glass of different warp direction, it is characterized in that described mould structure includes:

One first mold members;

One second mold members, but its mode with folding is arranged on described first mold members;

One first glass holder, it is installed in described first mold members;

One second glass holder, it is installed in described second mold members, and the described second glass holder is used for and the described moulded glass of the described common clamping of the first glass holder;

One first molding structure, it is arranged on the first side portion place of the corresponding described moulded glass of described first mold members, described first molding structure moves to the described first side of pushing and pressing portion in the process of a matched moulds position in described first mold members and described second mold members, so that described first side portion is along the moulding of first direction warpage; And

One second molding structure, it is arranged on the second side portion place of the corresponding described moulded glass of described second mold members, described second molding structure moves to the described second side of pushing and pressing portion in the process of described matched moulds position in described first mold members and described second mold members, so that described second side portion is along the second direction warpage moulding in contrast to described first direction.

2. mould structure as claimed in claim 1 is characterized in that, described mould structure further includes:

One first strut member, it is connected to described first mold members and the described first glass holder; And

One second strut member, it is connected to described second mold members and the described second glass holder, described second strut member and described first strut member are used for forcing in the described second glass holder and the described first glass holder respectively in described first mold members and described second mold members move to the process of described matched moulds position, so that the described second glass holder and the described moulded glass of the described common clamping of the first glass holder.

3. mould structure as claimed in claim 2, it is characterized in that, described first mold members includes one first die cavity structure, described first strut member is arranged in the described first die cavity structure, the described first die cavity structure is used for the ccontaining described first glass holder when described relatively second mold members of described first mold members moves to described matched moulds position, described second mold members includes one second die cavity structure, described second strut member is arranged in the described second die cavity structure, and the described second die cavity structure is used for the ccontaining described second glass holder when described relatively second mold members of described first mold members moves to described matched moulds position.

4. mould structure as claimed in claim 3, it is characterized in that the described first die cavity structure further is used for when described relatively second mold members of described first mold members moves to described matched moulds position and one the 3rd side portion and a four side portion of the described moulded glass of the described common moulding of the second glass holder.

5. mould structure as claimed in claim 4, it is characterized in that, described first side portion is with respect to described second side portion, and described the 3rd side portion is connected in described first side portion and described second side portion, and described four side portion is with respect to described the 3rd side portion.

6. mould structure as claimed in claim 3 is characterized in that, described first strut member is a glass pearlitic texture, and described mould structure further includes:

One first cambered surface recess, the described glass pearlitic texture of its shape corresponding part, the described first cambered surface recess is used for locating described glass pearlitic texture; And

One first ccontaining recess, it is formed on the described first glass holder towards a side of described first mold members, and the described first ccontaining recess is used for the described glass pearlitic texture of when described relatively second mold members of described first mold members moves to described matched moulds position ccontaining another part.

7. mould structure as claimed in claim 6, it is characterized in that described second strut member is a glass plate, the described second glass holder is formed with a protuberance towards a side of described second mold members, the described glass plate of described protuberance butt, and described mould structure further includes:

One support portion, it is formed on corresponding described protuberance place in the described second die cavity structure, described support portion be connected to described glass plate around; And

One depressed part, it is connected in described support portion, and described depressed part is used for ccontaining described protuberance and described glass plate when described relatively second mold members of described first mold members moves to described matched moulds position.

8. mould structure as claimed in claim 6 is characterized in that, described second strut member is a glass pearlitic texture, and described mould structure further includes:

One second cambered surface recess, the described glass pearlitic texture of its shape corresponding part, the described second cambered surface recess is used for locating described glass pearlitic texture; And

One second ccontaining recess, it is formed on the described second glass holder towards a side of described second mold members, and the described second ccontaining recess is used for the described glass pearlitic texture of when described relatively second mold members of described first mold members moves to described matched moulds position ccontaining another part.

9. mould structure as claimed in claim 3, it is characterized in that, described first strut member and described second strut member are respectively a glass plate, the described first glass holder is formed with one first protuberance towards a side of described first mold members, the described second glass holder is formed with one second protuberance towards a side of described second mold members, described first protuberance and described second protuberance be described first strut member of butt and described second strut member respectively, and described mould structure further includes:

One first support portion, it is formed on the corresponding described first protuberance place in the described first die cavity structure, described first support portion be connected to described first strut member around;

One first depressed part, it is connected in described first support portion, and described first depressed part is used for ccontaining described first protuberance and described first strut member when described relatively second mold members of described first mold members moves to described matched moulds position;

One second support portion, it is formed on the corresponding described second protuberance place in the described second die cavity structure, described second support portion be connected to described second strut member around; And

One second depressed part, it is connected in described second support portion, and described second depressed part is used for ccontaining described second protuberance and described second strut member when described relatively second mold members of described first mold members moves to described matched moulds position.

10. mould structure as claimed in claim 3 is characterized in that, described mould structure further includes:

One first thermal insulation barriers, it is connected to the described first die cavity structure and described first strut member, and described first thermal insulation barriers is used for absorption portion and is passed to the heat of described first strut member by described first mold members.

11. mould structure as claimed in claim 10 is characterized in that, described mould structure further includes:

One second thermal insulation barriers, it is connected to the described second die cavity structure and described second strut member, and described second thermal insulation barriers is used for absorption portion and is passed to the heat of described second strut member by described second mold members.

12. mould structure as claimed in claim 11 is characterized in that, described first thermal insulation barriers and described second thermal insulation barriers are made by low thermal distortion material respectively.

13. mould structure as claimed in claim 3, it is characterized in that, one first perforation is formed on the bottom surface of the described first die cavity structure, described first perforation allows a protruded stigma to pass, use the described first glass holder of driving and break away from described first mold members, one second perforation is formed on the bottom surface of the described second die cavity structure, and described second perforation allows another protruded stigma to pass, and uses the described second glass holder of driving and breaks away from described second mold members.

14. mould structure as claimed in claim 2 is characterized in that, described first strut member and described second strut member are made by the heat deformable material respectively.

15. mould structure as claimed in claim 1 is characterized in that, described mould structure further includes:

One guiding structural, it is used for guiding described relatively first mold members of described second mold members and moves to described matched moulds position or break away from described matched moulds position along the die sinking direction in contrast to described matched moulds direction along the matched moulds direction.

16. mould structure as claimed in claim 15 is characterized in that, described guiding structural includes:

One first guide hole structure, it is formed on described first mold members;

One second guide hole structure, it is formed on described second mold members; And

One guide pillar, its trend is parallel to described matched moulds direction or described die sinking direction in fact, and an end of described guide pillar is installed in described first guide hole structure, and the other end of described guide pillar is arranged in described second guide hole structure slidably.

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