CN111231492B - Stack difference guarantee material rack - Google Patents

Abstract

The invention relates to a stacking difference guaranteeing material rack which comprises a first positioning rod body. A plurality of first slots are arranged on the surface of the first positioning rod body. The bottom wall of the first slot is obliquely arranged relative to the side wall of the first slot, the first slot is used for inserting and positioning the semi-tempered glass to be subjected to high-temperature and high-pressure curing treatment, and the bottom wall of the first slot is used for being in contact with the bottom fixing edge of the semi-tempered glass. Insert half toughened glass back in the first slot, half toughened glass is fixed a position by first slot, simultaneously because the diapire of first slot contacts with half toughened glass's the fixed limit in bottom all the time, just so can guarantee that the stacking error at half toughened glass's inside and outside piece's top edge is in the scope of predetermineeing, half toughened glass after will closing the piece sends into high temperature high pressure reation kettle and carries out the solidification processing in-process, can avoid the bad phenomenon that the piece dropped because the diaphragm melts outside, thereby can guarantee the stacking error of half toughened glass's inside and outside piece, product quality is higher.

Description

Stack difference guarantee material rack

Technical Field

The invention relates to a material rack, in particular to a stacking difference guaranteeing material rack.

Background

The traditional semi-tempered glass production process comprises the following steps: cutting an original piece of glass by equipment to obtain two pieces of glass with the same size; shaping the glass so that the glass is slightly bent; laminating, namely arranging the high-pressure membrane between the two pieces of bent glass, and performing pre-heating treatment to preliminarily combine the two pieces of glass and the high-pressure membrane together to obtain semi-finished glass; and then placing the semi-finished glass on a material rest, carrying the semi-finished glass into a high-temperature high-pressure reaction kettle by the material rest for processing, and firmly combining the two pieces of glass together after the high-temperature high-pressure treatment to obtain the semi-tempered glass. Wherein, the specific value of high temperature and high pressure of the high temperature and high pressure reaction kettle can be set according to the actual situation. However, the stacking error of the inner and outer sheets of the semi-tempered glass finally obtained cannot be guaranteed, and the product quality of the semi-tempered glass is low.

Disclosure of Invention

Based on this, it is necessary to overcome the defects of the prior art and provide a stacking difference guaranteeing rack which can guarantee the stacking difference of the inner sheet and the outer sheet of the semi-tempered glass.

The technical scheme is as follows: a stack securing pin comprising: the surface of the first positioning rod body is provided with a plurality of first slots, the bottom walls of the first slots are obliquely arranged relative to the side walls of the first slots, the first slots are used for inserting and positioning the semi-tempered glass to be subjected to high-temperature and high-pressure curing treatment, and the bottom walls of the first slots are used for being in contact with the bottom fixing edges of the semi-tempered glass so as to enable the stacking difference of the inner and outer sheets of the semi-tempered glass to be within a preset range;

the inclination angle of the bottom wall of the first slot relative to the side wall of the first slot is a, and a is 100-110 degrees.

Foretell poor assurance material pole of fold, insert half toughened glass back in the first slot, fix a position half toughened glass by first slot, simultaneously because the diapire of first slot contacts with half toughened glass's the fixed limit in bottom all the time, just so can guarantee that half toughened glass's interior piece is in the scope of predetermineeing with the top edge's of outer piece fold difference, send into high temperature high pressure batch autoclave and carry out the solidification processing in-process with half toughened glass after will closing the piece, can avoid the bad phenomenon that the outer piece dropped because the diaphragm melts, thereby can guarantee the fold difference of half toughened glass's interior outer piece, product quality is higher.

In one embodiment, a is 105 °.

In one embodiment, a plurality of first tooth blocks are arranged on the surface of the first positioning rod body, and the first slot is defined by the adjacent first tooth blocks and the surface of the first positioning rod body.

The utility model provides a stack difference guarantees work or material rest, includes the support, still includes stack difference guarantee material pole, first locating rod body install in on the support.

Foretell stacking error guarantees work or material rest, insert half toughened glass back in the first slot, half toughened glass fixes a position by first slot, simultaneously because the diapire of first slot contacts with half toughened glass's the fixed limit in bottom all the time, just so can guarantee that half toughened glass's interior piece is in predetermineeing the scope with the stacking error at the top edge of outer piece, half toughened glass after will closing the piece sends into high temperature high pressure reation kettle and carries out the solidification processing in-process, can avoid the bad phenomenon that the outer piece dropped because the diaphragm melts, thereby can guarantee the stacking error of half toughened glass's interior outer piece, product quality is higher.

In one embodiment, the bottom portion of the bracket is provided with more than two first positioning rod bodies, the more than two first positioning rod bodies are arranged at intervals, and the first slots of the more than two first positioning rod bodies are in one-to-one correspondence; and/or the middle part of the support is provided with more than two first positioning rod bodies which are arranged at intervals, and the more than two first slots of the first positioning rod bodies are in one-to-one correspondence.

In one embodiment, the stack error guarantee rack further comprises a bracket and a second positioning rod body; the bracket is connected with the support, the second positioning rod body is arranged on the bracket and is arranged at intervals with the first positioning rod body, and a plurality of second slots are formed in the second positioning rod body; the second slot is used for inserting and positioning the semi-tempered glass to be subjected to high-temperature high-pressure curing treatment, the bottom wall of the second slot is used for being in contact with the side fixing edge of the semi-tempered glass, and the second slot and the first slot are arranged in a one-to-one correspondence mode.

In one embodiment, the second positioning rod is mounted on the bracket in a position-adjustable manner.

In one embodiment, the bracket comprises a supporting rod, and the second positioning rod body is provided with a sleeve body sleeved on the supporting rod; the supporting rod is provided with a plurality of first mounting holes, the sleeve body is provided with a second mounting hole, and the sleeve body penetrates through the second mounting hole and one of the first mounting holes through the mounting part and is fixedly arranged on the supporting rod.

In one embodiment, the stacking difference guaranteeing rack further comprises movable blocking rods, the movable blocking rods and the bracket are respectively arranged on two sides of the support, and the movable blocking rods are used for being in positioning contact with the side fixing edges of the semi-tempered glass.

In one embodiment, the bracket is provided with two plugging plates, the two plugging plates are arranged on the bracket at intervals, and two ends of the movable stop lever are respectively arranged on the plugging plates.

In one embodiment, the plug plate is provided with a plurality of mounting openings arranged at intervals along the vertical direction, and the ends of the movable blocking rods are arranged in the mounting openings; the mounting opening comprises a concave part for mounting the end part of the movable blocking rod and a transverse insertion opening communicated with the concave part, and the transverse insertion opening extends from the edge of the plug board to the concave part.

In one embodiment, an elastic sleeve is arranged outside the movable stop lever; the end part of the movable stop lever is provided with a bolt which is arranged in the mounting hole.

In one embodiment, the stacking difference guaranteeing rack further comprises a front guard plate and a side guard plate, the front guard plate and the side guard plate are both arranged on the support, the front guard plate is arranged facing the side edge of the semi-tempered glass, and the side guard plate is arranged facing the side of the semi-tempered glass.

In one embodiment, the stacking difference guaranteeing rack further comprises a stacking positioning block, and the stacking positioning block is arranged at the top of the support.

In one embodiment, the stent is a high temperature and high pressure resistant stent.

Drawings

Fig. 1 is a schematic structural view of a stacking error ensuring material rod according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of FIG. 1 at A;

FIG. 3 is a schematic structural diagram of a stacking fault assurance module according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 3 at B;

fig. 5 is an enlarged schematic view of fig. 3 at C.

Reference numerals are as follows:

10. a first positioning rod body; 11. a first slot; 111. a bottom wall; 12. a first tooth block; 13. mounting a plate; 131. a third mounting hole; 20. a support; 21. a cross beam; 211. a fourth mounting hole; 30. a bracket; 31. a first mounting hole; 40. a second positioning rod body; 41. a second slot; 42. a second tooth block; 43. a sleeve body; 431. a second mounting hole; 50. a movable stop lever; 60. a plug plate; 61. a recess; 62. a transverse insertion opening; 70. an elastic sleeve; 80. a bolt; 91. a front guard plate; 92. a side guard plate; 93. and (5) stacking a positioning block.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the description of the present invention, it is to be understood that the terms "first", "second" and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description of the present invention, it should be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly connected" to another element, there are no intervening elements present.

In one embodiment, referring to fig. 1 and 2, a stacking fault assurance bar includes a first positioning bar 10. A plurality of first slots 11 are formed on the surface of the first positioning rod 10. The bottom wall 111 of the first slot 11 is obliquely arranged relative to the side wall of the first slot 11, the first slot 11 is used for inserting and positioning semi-tempered glass to be subjected to high-temperature and high-pressure curing treatment, and the bottom wall 111 of the first slot 11 is used for contacting with a bottom fixing edge of the semi-tempered glass.

Foretell poor assurance material pole of folding, insert half toughened glass back in first slot 11, fix a position half toughened glass by first slot 11, simultaneously because the diapire 111 of first slot 11 contacts with half toughened glass's bottom fixed edge all the time, just so can guarantee that half toughened glass's interior piece is in the scope of predetermineeing with the stacking error at the top edge of outer piece, send into high temperature high pressure reation kettle and solidify the processing in-process at half toughened glass after will closing the piece, can avoid the bad phenomenon that the outer piece dropped because the diaphragm melts, thereby can guarantee the stacking error of half toughened glass's interior outer piece, product quality is higher.

Further, referring to fig. 1 and fig. 2, an inclination angle of the bottom wall 111 of the first slot 11 relative to the side wall of the first slot 11 is a, and a is 100 ° to 110 °. Specifically, a is 105 °. So, realize that the top edge of semi-toughened glass's outer piece is higher than the top edge of inner piece, and the difference in height is 0mm to 1mm, and the fold difference that also can guarantee semi-toughened glass's interior outer piece is in the scope of predetermineeing, and semi-toughened glass's product quality is higher.

Further, referring to fig. 1 and fig. 2, a plurality of first tooth blocks 12 are disposed on a surface of the first positioning rod 10, and the first slot 11 is defined by the adjacent first tooth blocks 12 and the surface of the first positioning rod 10.

In one embodiment, referring to fig. 3 to 5, a stacking tolerance stack includes a support 20 and a stacking tolerance stack rod according to any one of the above embodiments, wherein the first positioning rod 10 is mounted on the support 20.

Foretell stacking error guarantees work or material rest, insert half toughened glass back in first slot 11, fix a position half toughened glass by first slot 11, simultaneously because the diapire 111 of first slot 11 contacts with half toughened glass's bottom fixed edge all the time, just so can guarantee that half toughened glass's interior piece is in the scope of predetermineeing with the stacking error at the top edge of outer piece, send into high temperature high pressure reation kettle and solidify the processing in-process at half toughened glass after will closing the piece, can avoid the bad phenomenon that the outer piece dropped because the diaphragm melts, thereby can guarantee the stacking error of half toughened glass's interior outer piece, product quality is higher.

Further, referring to fig. 3 to 5, the bottom portion of the bracket 20 is provided with more than two first positioning rods 10, the more than two first positioning rods 10 are arranged at intervals, and the first slots 11 of the more than two first positioning rods 10 are in one-to-one correspondence. And/or more than two first positioning rod bodies 10 are arranged at the middle part of the bracket 20, the more than two first positioning rod bodies 10 are arranged at intervals, and the more than two first slots 11 of the first positioning rod bodies 10 correspond to one another. Thus, a plurality of half tempered glasses may be installed at the bottom portion and/or the middle portion of the bracket 20; in addition, the fixed limit in bottom of half toughened glass locates in the first slot 11 of two above first locating rod bodies 10, and the fixed effect is comparatively firm.

In one embodiment, referring to fig. 3 to 5, the stack further includes a bracket 30 and a second positioning rod 40. The bracket 30 is connected to the support 20, the second positioning rod 40 is mounted on the bracket 30 and spaced from the first positioning rod 10, and a plurality of second slots 41 are formed in the second positioning rod 40. The second slot 41 is used for inserting and positioning the semi-tempered glass to be subjected to high-temperature and high-pressure curing treatment, the bottom wall 111 of the second slot 41 is used for contacting with the side fixing edge of the semi-tempered glass, and the second slot 41 and the first slot 11 are arranged in a one-to-one correspondence manner. So, when half toughened glass's the fixed limit in bottom was fixed and is located first slot 11, half toughened glass's the fixed limit in lateral part is fixed and is located second slot 41 to can realize that half toughened glass installs comparatively firmly on stacking poor assurance work or material rest. Specifically, a plurality of second tooth blocks 42 are disposed on the surface of the second positioning rod 40, and the second slot 41 is defined by the adjacent second tooth blocks 42 and the surface of the second positioning rod 40.

In one embodiment, referring to fig. 3 to 5, the second positioning rod 40 is mounted on the bracket 30 in a position-adjustable manner. Therefore, for the semi-tempered glass with different sizes, the mounting position of the second positioning rod 40 is correspondingly adjusted on the bracket 30, so that the second positioning rod 40 is mounted at a proper position, and the semi-tempered glass with different sizes is fixed.

In one embodiment, referring to fig. 3 to 5, the bracket 30 includes a supporting rod, and the second positioning rod 40 is provided with a sleeve 43 sleeved on the supporting rod. The supporting rod is provided with a plurality of first mounting holes 31, the sleeve body 43 is provided with a second mounting hole 431, and the sleeve body 43 passes through the second mounting hole 431 and one of the first mounting holes 31 through the mounting part and is fixedly arranged on the supporting rod. Thus, the proper first mounting hole 31 is selected to correspond to the second mounting hole 431, so that the second positioning rod 40 can be mounted at a proper position, that is, the mounting position of the sleeve body 43 on the supporting rod can be adjusted as required. The mounting member may be, specifically, a pin, a bolt, a rivet, or the like, without limitation. The first and second mounting holes 31 and 431 are provided to correspond to the mounting pieces. Further, the mounting member is a bolt connected to the bracket 20 or the bracket 30 by a chain, and the bolt facilitates assembling the sleeve 43 and the second positioning rod 40 together and prevents the bolt from being discarded under the action of the chain.

Further, referring to fig. 3 to 5, two first positioning rods 10 are disposed at the bottom or the middle of the bracket 20, the bracket 20 is provided with a cross beam 21, one of the first positioning rods 10 is fixedly mounted on the bracket 20, and the other first positioning rod 10 is mounted on the cross beam 21 in a position-adjustable manner, so that the adjustment of the interval between the two first positioning rods 10 can be realized. Specifically, the end of the first positioning rod 10 is provided with a mounting plate 13, the mounting plate 13 is provided with a third mounting hole 131, the cross beam 21 is provided with a plurality of fourth mounting holes 211, and the mounting plate 13 passes through the third mounting hole 131 and one of the fourth mounting holes 211 through the mounting member and is detachably disposed on the cross beam 21.

In one embodiment, referring to fig. 3-5, the stack further comprises a movable stop 50. The movable blocking rod 50 and the bracket 30 are respectively arranged at two sides of the bracket 20, and the movable blocking rod 50 is used for being in positioning contact with the side fixing edge of the semi-tempered glass. So, fixed limit is fixed and is located first slot 11 in half toughened glass's bottom, and during half toughened glass's one of them lateral part fixed limit was fixed and is located second slot 41, in addition, half toughened glass's another lateral part fixed limit then carries out the location contact by activity pin 50, can realize half toughened glass like this and install firmly on stacking poor assurance work or material rest, fixed respond well.

Further, referring to fig. 3 to 5, two plugging plates 60 are disposed on the bracket 20, the two plugging plates 60 are disposed on the bracket 20 at intervals, and two ends of the movable stop lever 50 are respectively mounted on the plugging plates 60. Specifically, two blanking plates 60 and a movable stop lever 50 are arranged at the bottom of the bracket 20 and used for positioning the semi-tempered glass arranged at the bottom of the bracket 20; the middle portion of the frame 20 is also provided with two blanking panels 60 and a movable stop bar 50 for positioning with the half-tempered glass mounted in the middle portion of the frame 20.

Further, referring to fig. 3 to 5, the plug plate 60 has a plurality of mounting openings spaced apart from each other in a vertical direction, and the ends of the movable bars 50 are mounted in the mounting openings. The mounting opening includes a recess 61 for mounting an end of the movable bar 50, and a lateral insertion opening 62 communicating with the recess 61, the lateral insertion opening 62 extending from an edge of the plug plate 60 to the recess 61. Thus, the movable blocking rod 50 is moved into the concave portion 61 along the transverse insertion hole 62, so that the end portion of the movable blocking rod 50 can be conveniently and detachably installed in the installation hole, and the operation is convenient. In addition, the movable blocking rod 50 can be installed in one of the installation openings as required, so that the stable positioning of the semi-tempered glass can be realized.

Further, referring to fig. 3 to 5, an elastic sleeve 70 is disposed outside the movable bar 50. The end of the movable stop lever 50 is provided with a bolt 80, and the bolt 80 is arranged in the mounting opening. Thus, the elastic sleeve 70 can prevent the movable stop lever 50 from damaging the semi-tempered glass.

Further, referring to fig. 3 to 5, the stack of stack errors further includes a front guard plate 91 and a side guard plate 92. The front surface protection plate 91 and the side surface protection plate 92 are both arranged on the support 20, the front surface protection plate 91 is arranged facing the side edge of the semi-tempered glass, and the side surface protection plate 92 is arranged facing the side surface of the semi-tempered glass. Therefore, the front guard plate 91 and the side guard plate 92 can both protect the semi-tempered glass, and the semi-tempered glass is prevented from being collided and damaged with the bracket 20.

Further, referring to fig. 3 to 5, the stack tolerance ensuring rack further includes a stack height positioning block 93. The stacking positioning block 93 is disposed on the top of the bracket 20. So, fix a position through fold high locating piece 93, avoid half toughened glass to exceed the top surface position of fold high locating piece 93 to can realize that high-pressure draught enters into on the poor work or material rest of guaranteeing of fold smoothly, and can realize guaranteeing the good contact of half toughened glass on the work or material rest with the poor work or material rest of folding.

Further, referring to fig. 3 to 5, the support 20 is a high temperature and high pressure resistant support 20. Specifically, the stent 20 is a polytetrafluoroethylene stent 20.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (12)

1. A stacking difference guaranteeing rack is characterized by comprising

The stacking difference guaranteeing material rod comprises a first positioning rod body, wherein a plurality of first slots are formed in the surface of the first positioning rod body, the bottom walls of the first slots are obliquely arranged relative to the side walls of the first slots, the first slots are used for inserting and positioning the semi-tempered glass to be subjected to high-temperature and high-pressure curing treatment, and the bottom walls of the first slots are used for being in contact with the bottom fixing edges of the semi-tempered glass so as to enable the stacking difference of the inner and outer sheets of the semi-tempered glass to be within a preset range; the bottom wall of the first slot has an inclination angle a relative to the side wall of the first slot, wherein a is 100-110 degrees;

the first positioning rod body is arranged on the bracket;

the stacking positioning block is arranged at the top of the bracket; and

the front protective plate and the side protective plate are arranged on the support, the front protective plate faces the side edge of the semi-toughened glass, and the side protective plate faces the side face of the semi-toughened glass.

2. The stack according to claim 1, wherein a is 105 °.

3. The stack according to claim 1, wherein the first positioning rod has a plurality of first teeth on a surface thereof, and the first slots are defined by the adjacent first teeth and the surface of the first positioning rod.

4. The stacking difference guaranteeing rack according to claim 1, wherein more than two first positioning rods are arranged at a bottom portion of the support, the more than two first positioning rods are arranged at intervals, and the first slots of the more than two first positioning rods are in one-to-one correspondence; and/or the middle part of the support is provided with more than two first positioning rod bodies which are arranged at intervals, and the more than two first slots of the first positioning rod bodies are in one-to-one correspondence.

5. The stack according to claim 1, further comprising a bracket and a second positioning rod; the bracket is connected with the support, the second positioning rod body is arranged on the bracket and is arranged at an interval with the first positioning rod body, and a plurality of second slots are formed in the second positioning rod body; the second slot is used for inserting and positioning the semi-tempered glass to be subjected to high-temperature and high-pressure curing treatment, the bottom wall of the second slot is used for being in contact with the side fixing edge of the semi-tempered glass, and the second slot and the first slot are arranged in a one-to-one correspondence mode.

6. The stack according to claim 5, wherein the second positioning rod is mounted on the bracket in a position-adjustable manner.

7. The stack according to claim 6, wherein the bracket comprises a supporting rod, and the second positioning rod is provided with a sleeve body sleeved on the supporting rod; the supporting rod is provided with a plurality of first mounting holes, the sleeve body is provided with a second mounting hole, and the sleeve body penetrates through the second mounting hole and one of the first mounting holes through the mounting part and is fixedly arranged on the supporting rod.

8. The stacking difference guaranteeing rack according to claim 6, further comprising movable blocking rods, wherein the movable blocking rods and the brackets are respectively arranged on two sides of the support, and the movable blocking rods are used for being in positioning contact with the side fixing edges of the semi-tempered glass.

9. The stack according to claim 8, wherein two plugging plates are disposed on the bracket, the two plugging plates are disposed on the bracket at an interval, and two ends of the movable stop bar are respectively disposed on the plugging plates.

10. The stack according to claim 9, wherein the plugging plate has a plurality of mounting openings spaced apart from each other in a vertical direction, and ends of the movable bars are mounted in the mounting openings; the mounting opening comprises a concave part for mounting the end part of the movable blocking rod, and a transverse insertion opening communicated with the concave part, wherein the transverse insertion opening extends to the concave part from the edge of the plugging plate.

11. The stack according to claim 10, wherein the movable stop bar is provided with an elastic sleeve on the outside; the end part of the movable stop lever is provided with a bolt which is arranged in the mounting hole.

12. The stack according to any of claims 1 to 11, wherein the support is a high temperature and high pressure resistant support.

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