CN114956529B - Efficient cooling device for hot bending glass processing - Google Patents

Abstract

The invention discloses a high-efficiency cooling device for hot bending glass processing, which comprises a cooling bin, a guide rail device positioned above the cooling bin and a power device positioned below the guide rail device, wherein the cooling bin comprises a bin body and a supporting plate movably arranged in the bin body, cooling liquid is stored in the bin body, the guide rail device comprises a guide plate, a movable guide groove is formed in the lower side surface of the guide plate, the power device comprises a movable guide plate, a double-headed motor arranged through the movable guide plate and a telescopic rod group arranged below the movable guide plate, the movable guide plate is arranged in the movable guide groove, two ends of the double-headed motor are in contact with the lower side wall of the guide plate, and the lower end of the telescopic rod group is inserted into the supporting plate, and glass and a mold are arranged on the supporting plate and are immersed in the cooling liquid.

Description

Efficient cooling device for hot bending glass processing

Technical Field

The invention relates to the technical field of glass cooling, in particular to a high-efficiency cooling device for hot bending glass processing.

Background

And (3) heating and softening the plate glass to form curved glass in a mould, and annealing to obtain curved glass, wherein the mould and the glass are heated to the temperature required by the process due to the fact that the glass is formed in the mould, and after the hot bending of the glass is finished, the temperature is gradually reduced and cooled through a plurality of cooling stations.

In order to solve the problem, designed multiple cooling device, chinese patent with patent number CN216427089U discloses a hot-bending glass processing cooling device, relates to hot-bending glass processing field, including workstation and fixed station, the both sides of workstation are provided with the fixed station, the top of fixed station is provided with the movable table, the top of movable table is installed and is pressed from both sides tight cylinder, the output of pressing from both sides tight cylinder is provided with the clamp block, the motor is installed to one side of fixed station.

The prior cooling mode leads to uneven glass, such as uncooled middle cooling edge or uncooled middle cooling edge, which leads to uneven heat dissipation and even dissipation of stress in the glass, and low glass yield.

Disclosure of Invention

The invention aims to provide a high-efficiency cooling device for hot-bending glass processing, and aims to solve the problem that the existing hot-bending glass cooling device cannot enable heat dissipation of all positions of glass to be uneven, so that the yield is low.

The invention is realized in the following way:

The utility model provides a high-efficient cooling device for hot bending glass processing, including the cooling storehouse, be located the guide rail device of cooling storehouse top and be located the power device of guide rail device below, the cooling storehouse includes the storehouse body and the activity is placed at the internal layer board in storehouse, the internal storage in storehouse has the coolant liquid, guide rail device includes the guide rail, the guide rail downside has been seted up and has been removed the guide slot, the telescopic link group of moving the guide plate below is removed including removing the guide plate, run through the double-end motor that the guide plate placed and installation, remove the guide plate and install in removing the guide slot, the both ends of double-end motor and the lower lateral wall contact of guide rail, and the lower extreme of telescopic link group inserts the layer board, glass and mould are placed on the layer board and are submerged in the coolant liquid.

By adopting the technical scheme, the setting of cooling bin is convenient for provide the space for coolant liquid, glass and mould are placed, and for glass and mould long distance removal provide the support in the coolant liquid, so that the glass and the mould of accomplishing processing cool down the processing, make glass can be to the synchronous cooling of all directions, guarantee the homogeneity of dispelling the heat of glass, prevent glass production cracked in the course of dispelling the heat, the setting of layer board is convenient for provide convenience for mould and glass's placement, the setting of guide rail device is convenient for provide the support for power device's installation and removal, so that power device removes along the arc length direction of the storehouse body, the setting of removal guide slot is convenient for provide the space for the installation and the removal of removal baffle, and the cooperation makes telescopic link group stably install in the baffle below, power device's setting is convenient for remove in the storehouse body through its work control layer board, the setting of double-end motor is convenient for rotate through the driving gear at its both ends, and then force the removal baffle, the setting of telescopic link group is convenient for remove under the effect of removal baffle, force the layer board remove.

Further, the cooling bin further comprises a supporting frame positioned below the bin body, the two opposite side walls in the bin body are provided with arc-shaped clamping grooves, the edge of the supporting plate stretches into the arc-shaped clamping grooves, and the side wall of the supporting plate is provided with a plurality of through holes.

By adopting the technical scheme, the arc-shaped clamping groove is convenient for the insertion and movement of the edge of the supporting plate to provide space, so that the mold and the glass are positioned in the middle of the cooling liquid, and the synchronous cooling of each side face of the mold is facilitated.

Further, the lower side of the guide rail is provided with tooth grooves at the side edges of the movable guide groove, the two ends of the double-headed motor are fixedly connected with driving gears, and the driving gears are meshed with the tooth grooves.

By adopting the technical scheme, the setting of tooth socket is convenient for control the removal baffle along the arc length direction of storehouse body under the work of double-end motor with drive gear cooperation.

Further, the guide rail device comprises a plurality of transverse plates located above the guide rail, vertical plates are arranged at two ends below the transverse plates, the lower ends of the vertical plates are connected with the bin body, buckling grooves are formed in the lower side walls of the transverse plates, a plurality of buckling plates are fixedly connected to the upper side surfaces of the guide rail, and the buckling plates are installed in the buckling grooves.

By adopting the technical scheme, the transverse plate is arranged to enable the guide plate to be stably arranged above the bin body through the work of the transverse plate.

Further, the telescopic rod group comprises a supporting tube and an inner threaded tube, the upper end of the inner threaded tube is inserted into the supporting tube, a screw rod connected with an output shaft of the motor is arranged in the supporting tube, threads at the lower end of the screw rod are inserted into the inner threaded tube, and a limiting rod on the outer side wall of the inner threaded tube is located in a limiting sliding groove on the inner side wall of the supporting tube.

By adopting the technical scheme, the screw is convenient to drive the screw to rotate under the working of the motor, so that the internal thread pipe is forced to move relative to the supporting pipe, the state of the telescopic rod group is changed, and convenience is brought to the insertion of the lower end of the internal thread pipe into the supporting plate.

Further, the cooling device also comprises a transfer device positioned at the notch position of the bin body, and the transfer device comprises a base, an adjusting device positioned above the base, a lifting plate group positioned above the adjusting device and a clamping mechanism arranged at one end of the lifting plate group.

By adopting the technical scheme, the transfer device is convenient to transfer glass and the mould through the work of the transfer device, so that the glass and the mould can move between the bin body and the transfer equipment, and convenience is brought to the cooling of the glass and the mould.

Further, the base is inlaid and is provided with the rotating electrical machines and is provided with annular clamping grooves, the adjusting device comprises a frame body and two arc clamping plates symmetrically arranged below the frame body, the arc clamping grooves are arranged in the annular clamping grooves, and an output shaft of the rotating electrical machines is connected with the frame body.

By adopting the technical scheme, the rotating motor is arranged to conveniently drive the frame body to rotate through the work of the rotating motor, so that the clamping mechanism moves on the horizontal plane, support is provided for the taking and placing of the die and glass, and the annular clamping groove and the arc clamping plate are arranged to be convenient to cooperate to enable the frame body to be stable and movably connected relative to the base.

Further, the lifter plate group includes bottom plate and lifter plate, the bottom plate sets up to Y type structure, be provided with in the bottom plate with motor output shaft's actuating screw, two just right lateral wall equal fixedly connected with cardboard in the bottom plate, the lifter plate sets up to L type structure, the draw-in groove has all been seted up to the lifter plate two just right lateral wall, the lifter plate lower extreme inserts in the bottom plate, actuating screw's upper end screw thread inserts in the lifter plate, be provided with threaded rod and the regulating motor that output shaft and threaded rod are connected in the box, the lower extreme of bottom plate inserts in the box, and the threaded rod screw thread passes the bottom plate.

By adopting the technical scheme, the setting of accommodate motor is convenient for drive the rotation of threaded rod through its work, and then control bottom plate removes in the framework, remove on vertical face for fixture, and then remove the cooperation on the horizontal plane with fixture and for transferring mould and glass facility, the setting of bottom plate and lifter plate is convenient for the relative movement at drive screw's effect control bottom plate and lifter plate, for adjusting fixture's height facility, the setting of two backup pads is convenient for the relative movement under the effect of gear, and then change the position of board of keeping out, for keeping out board centre gripping mould facility.

The cooling device further comprises a cooling liquid device positioned on the inner side of the bin body, the cooling liquid device comprises a storage bin, a cooling pipe positioned in the storage bin, and an output pipe and an input pipe positioned on the outer side of the storage bin, wherein cooling liquid is stored in the storage bin, liquid pumps are arranged in the middle of the output pipe and the input pipe, two ends of the output pipe and two ends of the input pipe are respectively connected with the storage bin and the bin body, and the cooling pipe is connected with an evaporator of the refrigerator.

By adopting the technical scheme, the setting of coolant liquid device is convenient for be convenient for the storage and circulation of coolant liquid to change the internal coolant liquid of storehouse, avoid leading to coolant liquid temperature to rise because of the effect of glass and mould to influence the cooling function of glass, the setting of cooling tube is convenient for provide the passageway for the circulation of coolant liquid, and then effectively cool off the coolant liquid in storing the storehouse under the cooperation of cooling tube and refrigerator, so that make the coolant liquid that circulates to the internal coolant liquid of storehouse be in low temperature state, the setting of output tube and input tube is convenient for with store storehouse and storehouse body cooperation and provide the passageway for coolant liquid circulation, and through the circulation of liquid pump work control coolant liquid.

Further, fixture includes the backup pad of gear and two symmetry placements gear both sides, and tooth recess has all been seted up to the just lateral wall of two backup pads, and the gear is connected with two backup pads meshing, and gear and motor output shaft, and the equal fixedly connected with of one end that two backup pads kept away from each other holds the board, and two slip draw-in grooves have been seted up to lifter plate downside one end symmetry, and the backup pad runs through the slip draw-in groove.

Compared with the prior art, the invention has the beneficial effects that:

1. the cooling bin is convenient to provide space for placing cooling liquid, glass and a mold, and provides support for long-distance movement of the glass and the mold in the cooling liquid, so that the processed glass and the mold are cooled and processed, the glass can be synchronously cooled in all directions, the heat dissipation uniformity of the glass is ensured, the glass is prevented from being cracked in the heat dissipation process, and the occupied space is saved by utilizing the structure of the cooling bin, so that the installation of the cooling device cannot be met due to the fact that the length of the cooling device is long and the space of a factory building is limited;

2. the power device is convenient for controlling the supporting plate to move in the bin body through the work of the power device, so that the glass and the mould move in the bin body for a long distance, and the mould and the glass are fully cooled;

3. the transfer device is convenient for transferring the glass and the mould through the work of the transfer device, so that the glass and the mould can move between the bin body and the transfer equipment, and the cooling of the glass and the mould is facilitated;

4. The setting of coolant liquid device is convenient for the storage and the circulation of coolant liquid to change the internal coolant liquid of storehouse, avoid influencing the cooling function of glass because of the effect of glass and mould lead to coolant liquid temperature rise, in order to realize the high-efficient cooling to glass.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an overall first view of the present invention;

FIG. 2 is a schematic view of the cooling cartridge structure of the present invention;

FIG. 3 is a schematic view of the track assembly of the present invention;

FIG. 4 is a schematic diagram of the power plant configuration of the present invention;

FIG. 5 is a schematic view of a coolant apparatus of the present invention;

FIG. 6 is a schematic view of the transfer device of the present invention;

FIG. 7 is a schematic view of the base structure of the present invention;

FIG. 8 is a schematic diagram of the structure of the regulating device of the present invention;

FIG. 9 is a schematic view of a lifter plate assembly of the present invention;

FIG. 10 is a schematic view of the clamping mechanism of the present invention;

FIG. 11 is an overall second view of the present invention;

In the figure: 1. a cooling bin; 11. a bin body; 12. a support frame; 13. an arc-shaped clamping groove; 14. a supporting plate; 2. a power device; 21. an internally threaded tube; 22. a restraining bar; 23. a support tube; 24. a screw; 25. a double-ended motor; 26. a drive gear; 27. a guide plate; 3. a transfer device; 31. a base; 311. an annular clamping groove; 312. a rotating electric machine; 32. an adjustment device; 321. a frame; 322. a threaded rod; 323. an arc-shaped clamping plate; 324. adjusting a motor; 33. a lifting plate group; 331. a bottom plate; 332. a clamping plate; 333. driving a screw; 334. a lifting plate; 335. a clamping groove; 336. a sliding clamping groove; 34. a clamping mechanism; 341. a support plate; 342. tooth grooves; 343. a retaining plate; 344. a gear; 4. a cooling liquid device; 41. a storage bin; 42. a cooling tube; 43. an output pipe; 44. an input tube; 5. a guide rail device; 51. a guide rail; 52. a buckle plate; 53. moving the guide groove; 54. tooth sockets; 55. a riser; 56. a cross plate; 57. and a clamping groove.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Example 1: referring to fig. 1 and 2, it is shown that: a high-efficient cooling device for hot bending glass processing, including cooling storehouse 1, cooling storehouse 1 includes the storehouse body 11, be located the support frame 12 of storehouse body 11 below and the layer board 14 of activity in the storehouse body 11, the storehouse body 11 sets up to the arc structure and inside stores the coolant liquid, a plurality of through-holes have been seted up to the lateral wall of layer board 14, two just have all been seted up arc draw-in groove 13 to the lateral wall in the storehouse body 11, the edge of layer board 14 stretches into in the arc draw-in groove 13, glass and mould are placed on layer board 14 and are submerged in the coolant liquid.

Referring to fig. 1 and 3, it is shown that: the cooling bin 1 is provided with a guide rail device 5 above, the guide rail device 5 comprises a guide rail 51, the guide rail 51 is of an arc-shaped structure, a movable guide groove 53 is formed in the lower side face of the guide rail 51, a tooth groove 54 is formed in the side edge of the movable guide groove 53, a plurality of buckling plates 52 are fixedly connected to the upper side face of the guide rail 51, a plurality of transverse plates 56 are arranged above the guide rail 51, buckling grooves 57 are formed in the lower side walls of the transverse plates 56, vertical plates 55 are arranged at two ends below the transverse plates 56, the lower ends of the vertical plates 55 are connected with the bin 11, and the buckling plates 52 are arranged in the buckling grooves 57.

Referring to fig. 1 and 4, it is shown that: the power device 2 is arranged above the bin body 11 and below the guide rail 51, the power device 2 comprises a movable guide plate 27, a double-headed motor 25 which penetrates through the movable guide plate 27 and a telescopic rod group which is arranged below the movable guide plate 27, both ends of the double-headed motor 25 are fixedly connected with driving gears 26, the movable guide plate 27 is arranged in the movable guide groove 53, the driving gears 26 are meshed with tooth grooves 54 and connected with each other, the telescopic rod group comprises a support tube 23 and an inner threaded tube 21, the upper end of the inner threaded tube 21 is inserted into the support tube 23, a screw 24 which is connected with an output shaft of the motor is arranged in the support tube 23, the upper end of the support tube 23 is connected with the movable guide plate 27, the lower end of the screw 24 is inserted into the inner threaded tube 21, and a limiting rod 22 on the outer side wall of the inner threaded tube 21 is positioned in a limiting chute on the inner side wall of the support tube 23.

Referring to fig. 1, 6, 7, 8, 9 and 10: the transfer device 3 is arranged at the notch position of the bin body 11, the transfer device 3 comprises a base 31, an adjusting device 32 positioned above the base 31, a lifting plate group 33 positioned above the adjusting device 32 and a clamping mechanism 34 arranged at one end of the lifting plate group 33, the base 31 is embedded with a rotating motor 312 and provided with an annular clamping groove 311, the adjusting device 32 comprises a frame 321 and two arc clamping plates 323 symmetrically arranged below the frame 321, the arc clamping grooves 323 are arranged in the annular clamping groove 311, an output shaft of the rotating motor 312 is connected with the frame 321, a threaded rod 322 and an adjusting motor 324 with an output shaft connected with the threaded rod 322 are arranged in the frame 321, the lifting plate group 33 comprises a bottom plate 331 and a lifting plate 334, the bottom plate 331 is in a Y-shaped structure, a driving screw 333 connected with the output shaft of the motor is arranged in the bottom plate 331, two right side walls in the bottom plate 331 are all fixedly connected with cardboard 332, the lifter plate 334 sets up to L type structure, the draw-in groove 335 has all been seted up to lifter plate 334 two right side walls, the lifter plate 334 lower extreme inserts in the bottom plate 331, the upper end screw thread of drive screw 333 inserts in the lifter plate 334, the lower extreme of bottom plate 331 inserts in the framework 321, and the threaded rod 322 screw thread passes the bottom plate 331, fixture 34 includes gear 344 and two backup pads 341 of symmetry placement gear 344 both sides, tooth recess 342 has all been seted up to two backup pads 341 just opposite side walls, gear 344 and two backup pads 341 meshing are connected, and gear 344 and motor output shaft, two slip draw-in grooves 336 have all been seted up to the equal fixedly connected with of one end that two backup pads 341 keep away from each other to one end, two slip draw-in grooves 336 have been symmetrically seted up to lifter plate 224 downside one end, the backup pad runs through slip draw-in groove 336.

Referring to fig. 1 and 5, it is shown that: the cooling device further comprises a cooling liquid device 4 positioned on the inner side of the bin body 11, the cooling liquid device 4 comprises a storage bin 41, a cooling pipe 42 positioned in the storage bin 41, an output pipe 43 and an input pipe 44 positioned on the outer side of the storage bin 41, cooling liquid is stored in the storage bin 41, a liquid pump is arranged in the middle of the output pipe 43 and the middle of the input pipe 44, two ends of the output pipe 43 and the input pipe 44 are respectively connected with the storage bin 41 and the bin body 11, and the cooling pipe 42 is in a spiral structure and is connected with an evaporator of a refrigerator.

The setting of cooling storehouse 1 is convenient for place for coolant liquid, glass and mould and provides the space, and for glass and mould long distance removal provide the support in the coolant liquid, so that cool down processing to glass and the mould that processing was accomplished, make glass can be to the synchronous cooling of all directions, guarantee glass's heat dissipation homogeneity, prevent that glass from producing cracked in the heat dissipation in-process, the setting of layer board 14 is convenient for place for mould and glass, the setting of arc draw-in groove 13 is convenient for make the insertion and the removal at layer board 14 edge provide the space, and then make mould and glass be located the middle part of coolant liquid, for its each side synchronous cooling facility.

The arrangement of the guide rail device 5 is convenient for providing support for the installation and movement of the power device 2 so as to enable the power device 2 to move along the arc length direction of the bin body 11, the arrangement of the moving guide groove 53 is convenient for providing space for the installation and movement of the moving guide plate 27, and the telescopic rod group is stably installed below the guide rail 51 in cooperation, the arrangement of the tooth socket 54 is convenient for controlling the moving guide plate 27 to move along the arc length direction of the bin body 11 under the cooperation of the driving gear 26 and the double-head motor 25, and the arrangement of the transverse plate 56 is convenient for enabling the guide rail 51 to be stably installed above the bin body 11 through the work of the transverse plate.

The setting of power device 2 is convenient for control the layer board 14 through its work and remove in the storehouse body 11, the setting of double-end motor 25 is convenient for control the drive gear 26 at its both ends through its work and rotate, and then force to remove baffle 27 and remove, the setting of telescopic link group is convenient for remove under the effect of removing baffle 27, force the layer board 14 to remove, the setting of screw rod 24 is convenient for drive its rotation under the work of motor, and then force the relative stay tube 23 of internal thread pipe 21 to remove, for changing the state of telescopic link group, for the lower extreme of internal thread pipe 21 inserts in the layer board 14 and facilitates.

The setting of transfer device 3 is convenient for realize the transfer of glass and mould through its work to make glass and mould remove between storehouse body 11 and transfer equipment, for the cooling of glass and mould is convenient, the setting of rotating electrical machines 312 is convenient for drive framework 321 rotation through its work, so that fixture 34 moves on the horizontal plane, for the taking of mould and glass provides the support, the setting of annular draw-in groove 311 and arc cardboard 323 is convenient for cooperate and make framework 321 stable and swing joint relative to base 31, the setting of accommodate motor 324 is convenient for drive threaded rod 322's rotation through its work, and then control bottom plate 331 moves in framework 321, for fixture 34 moves on the vertical face, and then move the cooperation with fixture 34 on the horizontal plane and provide facility for transferring mould and glass, the setting of bottom plate 331 and lifter plate 334 is convenient for control the relative movement of bottom plate 331 and lifter plate 334 at the effect of drive screw 333, for adjusting the height of fixture 34 is convenient, the setting of two backup pads 341 is convenient for relatively move under the effect of gear 343, and then change the position of retaining plate 343, for retaining plate 343 holds the mould conveniently.

The setting of coolant liquid device 4 is convenient for the storage and the circulation of coolant liquid to change the coolant liquid in the storehouse body 11, avoid leading to coolant liquid temperature to rise because of the effect of glass and mould and influence the cooling function of glass, the setting of cooling tube 42 is convenient for provide the passageway for the circulation of coolant liquid, and then effectively cool off the coolant liquid in storing the storehouse 41 under the cooperation of cooling tube 42 and refrigerator, so that the coolant liquid that circulates to the storehouse body 11 is in low temperature state, the setting of output tube 43 and input tube 44 is convenient for with store storehouse 41 and storehouse body 11 cooperation and provide the passageway for coolant liquid circulation, and through the circulation of liquid pump work control coolant liquid.

When the glass and the mould are used, the control system controls the operation of the glass and the mould, after the glass and the mould move to the side edge of the transfer device 3, the glass and the mould are clamped by the transfer device 3, meanwhile, the glass and the mould are placed in the bin body 11 and are supported on the supporting plate 14 and are immersed in cooling liquid at the same time, then, the double-headed motor 25 is operated to drive the telescopic rod group to move, and further drive the supporting plate 14, the glass and the mould to move in the bin body 11, the temperature of the glass and the mould is reduced after the glass and the mould move in the bin body 11, so that the glass is formed, and the glass is separated from the cooling liquid under the action of the transfer device 3.

Example 2: referring to fig. 10, it is shown that: the device provided in the embodiment of the present invention has the same implementation principle and technical effects as those of embodiment 1, and for brevity, reference may be made to the corresponding contents of embodiment 1.

The utility model provides a high-efficient cooling device for hot bending glass processing, including cooling storehouse 1, be located the guide rail device 5 of cooling storehouse 1 top and be located a plurality of power device 2 of guide rail device 5 below, cooling storehouse 1 includes the storehouse body 11 and a plurality of layer boards 14 of activity in the storehouse body 11, the storehouse body 11 sets up to annular structure and inside stores the coolant liquid, guide rail device 5 includes guide rail 51, guide rail 51 sets up to annular structure and the downside has seted up and has removed guide slot 53, power device 2 includes removal baffle 27, the double-end motor 25 that runs through removal baffle 27 and the telescopic link group of installation removal baffle 27 below, removal baffle 27 installs in removal guide slot 53, the both ends of double-end motor 25 are in contact with the lower lateral wall of guide rail 51, a plurality of power devices 2 and a plurality of layer boards 14 are just to one, and the lower extreme of telescopic link group inserts layer board 14, glass and mould are placed on layer board 14 and are submerged in the coolant liquid, and transfer device 3 is located the outside of storehouse body 11.

The cooling pipe is arranged in the bin body 11, the cooling pipe is arranged at the lower end of the bin body 1 in an arc-shaped structure and is positioned below the supporting plate 14, and the cooling pipe is connected with the evaporator of the refrigerator.

The storehouse body 11 is the setting of annular structure and is convenient for circulate for a plurality of layer boards 14 in the storehouse body 11, and it is convenient to put at a plurality of layer boards 14 to cool down the processing for the support of a plurality of moulds and glass, improves the cooling efficiency of mould and glass, and guide rail 51 is the setting of annular structure and is convenient for drive layer board 14 circulation for a plurality of power device 2 and move and provide support.

The cooling pipes are arranged in the bin body 11, so that the cooling liquid in the bin body 11 is cooled under the action of the refrigerator, and the cooling liquid in the bin body 11 is in a low-temperature state, thereby providing convenience for cooling glass and a die.

When the glass and the mould are used, the control system controls the operation of the glass and the mould, after the glass and the mould move to the side edge of the transfer device 3, the glass and the mould are clamped by the transfer device 3, meanwhile, the glass and the mould are placed in the bin body 11 and supported on a certain supporting plate 14 and immersed in cooling liquid at the same time by the operation of the transfer device 3, then, the double-headed motor 25 opposite to the supporting plate 14 works to drive the telescopic rod group to move, so as to drive the supporting plate 14, the glass and the mould to move in the bin body 11, then, the other glass and the mould are placed on the other supporting plate 14 by the operation of the transfer device 3 and move under the operation of the other double-headed motor 25, the temperature of the glass and the mould is reduced after the glass is moved in the bin body 11, so that the glass is formed, and the glass is separated from the cooling liquid under the action of the transfer device 3 after the glass and the other end of the bin body 11 are moved.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and various modifications and variations may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. A high-efficient cooling device for hot bending glass processing, its characterized in that: the cooling device comprises a cooling bin (1), a guide rail device (5) arranged above the cooling bin (1) and a power device (2) arranged below the guide rail device (5), wherein the cooling bin (1) comprises a bin body (11) and a supporting plate (14) movably arranged in the bin body (11), cooling liquid is stored in the bin body (11), the guide rail device (5) comprises a guide rail (51), a movable guide groove (53) is formed in the lower side surface of the guide rail (51), the power device (2) comprises a movable guide plate (27), a double-headed motor (25) penetrating through the movable guide plate (27) and a telescopic rod group arranged below the movable guide plate (27), the movable guide plate (27) is arranged in the movable guide groove (53), two ends of the double-headed motor (25) are in contact with the lower side wall of the guide rail (51), the lower end of the telescopic rod group is inserted into the supporting plate (14), and glass and a mold are arranged on the supporting plate (14) and are immersed into the cooling liquid.

The cooling bin (1) further comprises a supporting frame (12) positioned below the bin body (11), arc-shaped clamping grooves (13) are formed in the two opposite side walls in the bin body (11), the edge of the supporting plate (14) stretches into the arc-shaped clamping grooves (13), and a plurality of through holes are formed in the side walls of the supporting plate (14);

The lower side surface of the guide rail (51) is provided with a tooth groove (54) at the side edge of the movable guide groove (53), two ends of the double-headed motor (25) are fixedly connected with driving gears (26), and the driving gears (26) are in meshed connection with the tooth groove (54);

The guide rail device (5) comprises a plurality of transverse plates (56) positioned above the guide rail (51), vertical plates (55) are arranged at two ends below the transverse plates (56), the lower ends of the vertical plates (55) are connected with the bin body (11), buckling grooves (57) are formed in the lower side walls of the transverse plates (56), a plurality of buckling plates (52) are fixedly connected to the upper side surfaces of the guide rail (51), and the buckling plates (52) are arranged in the buckling grooves (57);

the telescopic rod group comprises a supporting tube (23) and an internal thread tube (21) with the upper end inserted into the supporting tube (23), a screw rod (24) connected with an output shaft of a motor is arranged in the supporting tube (23), the lower end thread of the screw rod (24) is inserted into the internal thread tube (21), and a limiting rod (22) on the outer side wall of the internal thread tube (21) is positioned in a limiting chute on the inner side wall of the supporting tube (23);

the cooling device further comprises a transferring device (3), wherein the transferring device (3) comprises a base (31), an adjusting device (32) arranged above the base (31), a lifting plate group (33) arranged above the adjusting device (32) and a clamping mechanism (34) arranged at one end of the lifting plate group (33);

the base (31) is embedded with a rotating motor (312) and provided with an annular clamping groove (311), the adjusting device (32) comprises a frame body (321) and two arc clamping plates (323) symmetrically arranged below the frame body (321), the arc clamping groove (13) is arranged in the annular clamping groove (311), and an output shaft of the rotating motor (312) is connected with the frame body (321);

The lifting plate set (33) comprises a bottom plate (331) and a lifting plate (334), the bottom plate (331) is of a Y-shaped structure, a driving screw (333) connected with an output shaft of a motor is arranged in the bottom plate (331), clamping plates (332) are fixedly connected to two opposite side walls in the bottom plate (331), the lifting plate (334) is of an L-shaped structure, clamping grooves (335) are formed in two opposite side walls of the lifting plate (334), the lower end of the lifting plate (334) is inserted into the bottom plate (331), the upper end of the driving screw (333) is inserted into the lifting plate (334) in a threaded manner, an adjusting motor (324) connected with the threaded rod (322) and an output shaft is arranged in the frame (321), the lower end of the bottom plate (331) is inserted into the frame (321), and the threaded rod (322) penetrates through the bottom plate (331) in a threaded manner.

The cooling device further comprises a cooling liquid device (4) positioned on the inner side of the bin body (11), the cooling liquid device (4) comprises a storage bin (41), a cooling pipe (42) positioned in the storage bin (41), an output pipe (43) positioned on the outer side of the storage bin (41) and an input pipe (44), the cooling liquid is stored in the storage bin (41), a liquid pump is arranged in the middle of the output pipe (43) and the middle of the input pipe (44), and two ends of the output pipe (43) and two ends of the input pipe (44) are respectively connected with the storage bin (41) and the bin body (11), and the cooling pipe (42) is connected with an evaporator of a refrigerator.

2. The efficient cooling device for hot bending glass processing according to claim 1, wherein the clamping mechanism (34) comprises a gear (344) and two supporting plates (341) symmetrically arranged on two sides of the gear (344), tooth grooves (342) are formed in opposite side walls of the two supporting plates (341), the gear (344) is meshed with the two supporting plates (341), the gear (344) is connected with an output shaft of a motor, a retaining plate (343) is fixedly connected to one end, away from each other, of the two supporting plates (341), two sliding clamping grooves (336) are symmetrically formed in one end of the lower side face of the lifting plate (334), and the supporting plates (341) penetrate through the sliding clamping grooves (336).