CN220366593U - Solid cooling device for hollow glass - Google Patents

Abstract

The utility model relates to the technical field of hollow glass production, in particular to a solid cooling device for hollow glass, which comprises a bracket, wherein one side of the bracket is fixedly connected with a control motor, one side of the control motor is rotationally connected with a motor shaft, one end of the motor shaft is fixedly connected with a control gear, one ends of a transmission gear shaft are meshed with the upper side and the lower side of the control gear, the center of the transmission gear shaft is rotationally connected with a fixed bearing, the other end of the transmission gear shaft is meshed with a cooling mechanism, a fixed embedded groove is embedded above the cooling mechanism, a fixing mechanism is slidingly connected above the fixed embedded groove, one side of the fixing mechanism is fixedly connected with a handle, and four corners of the fixing mechanism are fixedly connected with threaded positioning shafts. The improved cooling device can fix hollow glass with different specifications through a plurality of groups of fixing mechanisms, and simultaneously the upper cooling mechanism and the lower cooling mechanism can fully cool the hollow glass.

Description

Solid cooling device for hollow glass

Technical Field

The utility model relates to the technical field of hollow glass production, in particular to a solid cooling device for hollow glass.

Background

The hollow glass has good heat insulation and sound insulation performance, the hollow glass can carry higher temperature after processing production is finished, if the hollow glass is directly packaged later, the hollow glass is easy to deform, and then the hollow glass is damaged, so that the hollow glass is required to be cooled before packaging, a cooling fan is often used for ventilation in the cooling process of the hollow glass to achieve an air cooling effect, when the hollow glass is ventilated, the hollow glass can be locally blown due to the fact that the position of the air port towards the hollow glass is fixed, the blowing range is smaller, meanwhile, the produced hollow glass is stably fixed, cooling treatment is carried out, the glass is prevented from being fixedly deformed before being cooled, and the hollow glass is one of the problems required to be considered by a producer.

The prior patent (publication number: CN 218710014U) discloses a cooling device for hollow glass processing, which solves the problem that the hollow glass is only ventilated or water-cooled when being cooled, thereby resulting in low cooling efficiency of the hollow glass, and comprises a base, wherein the top end of the base is provided with a cooling box, the top end of the base is provided with electric telescopic rods positioned at two sides of the cooling box, the output ends of the two electric telescopic rods are connected through a supporting frame positioned above the cooling box, a water spraying mechanism is arranged at the middle position of the supporting frame, one side of the cooling box is provided with a blowing mechanism, the inside of the cooling box is provided with a lifting plate, and the lifting plate is connected with the lifting mechanism; through the design of water spray mechanism and mechanism of blowing, be convenient for carry out forced air cooling and water-cooling operation to cavity glass, effectual increase is bloied scope and water spray scope, and then has improved cavity glass's cooling efficiency, the effectual processing progress of accelerating cavity glass. The inventors found that the following problems exist in the prior art in the process of implementing the present utility model: 1. the fixing mode adopts a sucker for fixing, and the hollow glass is easy to deform due to excessive suction force before being cooled; 2. the cooling mechanism can not ensure that each area of the hollow glass can be cooled stably, and the cooling operation can not be carried out in a larger range.

Disclosure of Invention

The utility model aims to provide a solid cooling device for hollow glass, which solves the problems that the hollow glass is easy to deform in the sucker type fixing mode before the hollow glass is not cooled in the prior art, and the cooling mechanism can not sufficiently cool all positions of the hollow glass. In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cavity glass is with solid heat sink, includes the support, one side fixedly connected with control motor of support, one side rotation of control motor is connected with the motor shaft, the one end fixedly connected with control gear of motor shaft, the upper and lower both sides meshing of control gear has the one end of drive gear axle, the center rotation of drive gear axle is connected with fixed bearing, the other end meshing of drive gear axle has cooling mechanism, the top of cooling mechanism is embedded to have fixed embedded groove, the top sliding connection of fixed embedded groove has fixed establishment, one side fixedly connected with handle of fixed establishment, the four corners fixedly connected with screw thread location axle of fixed establishment, the top of screw thread location axle is run through there is the fretwork heat insulating board, the top screw thread connection of screw thread location axle has positioning nut.

Further preferably, the cooling mechanism comprises a gear rotating shaft, the cooling mechanism is divided into two groups, one end of the gear rotating shaft is meshed with one end of a transmission gear shaft, the other end of the gear rotating shaft penetrates through one side of the embedded cooling groove and is rotationally connected with the inner wall of the embedded cooling groove, the embedded cooling groove is divided into two groups and is respectively embedded at the upper end and the lower end of the support, the outer side thread of the gear rotating shaft is connected with cooling fans, two sides of each cooling fan are slidably connected with cooling sliding grooves, and the length of each cooling sliding groove is equal to that of each embedded cooling groove.

Further preferably, the fixing mechanism comprises a lower hollow-out heat insulation plate, four fixing plates are fixedly connected to the periphery of the upper part of the lower hollow-out heat insulation plate, a threaded fixing shaft is connected to the center threads of the fixing plates, a heat insulation rubber push plate is attached to one end of the threaded fixing shaft, a controllable rotary switch is arranged at the other end of the threaded fixing shaft, fixing sliding blocks are fixedly connected to the lower sides of the heat insulation rubber push plate, fixing sliding grooves are fixedly connected to the lower sides of the fixing sliding blocks in a sliding mode, and the fixing sliding grooves are embedded in the upper surface of the lower hollow-out heat insulation plate.

Further preferably, the control motor drives the control gear to engage with the two sets of transmission gear shafts to rotate through a rotary connecting motor shaft, the transmission gear shafts are of structures of central cylindrical rotating shafts of the gears at two ends, and the central cylindrical rotating shafts of the transmission gear shafts are rotationally connected in a fixed bearing at one side of the fixed connecting support.

Further preferably, the handle forms a sliding connection structure through a lower hollow heat insulation plate in the fixed connection fixing mechanism and a fixed embedded groove embedded in the central surface of the bracket.

Further preferably, the four threaded positioning shafts are respectively connected with four corners of the lower hollow heat insulation plate in the fixing mechanism in a fixed manner to form a penetrating connection structure with the upper hollow heat insulation plate above, and the top end of each threaded positioning shaft is connected with a positioning nut in a threaded manner.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the upper and lower surfaces of the hollow glass can be effectively cooled simultaneously in the way that the cooling fans in the two groups of cooling mechanisms are in threaded connection with the gear rotating shafts, and meanwhile, the gear rotating shafts can drive the cooling fans to move forwards and backwards so as to sufficiently cool each position, so that the cooling effect is improved. The mode that the control motor drives the multiunit gear shaft pivoted can effectual control cooling fan advance the back to the multiposition cooling of very convenient control cavity glass.

According to the utility model, the hollow glass is fixed in a mode that the heat-insulating rubber push plate is pushed to slide in the fixing chute by the threaded fixing shafts in four directions in the fixing mechanism, so that various hollow glasses with different sizes can be effectively fixed. The handle drives the whole fixed establishment and slides the mode in the embedded fixed embedded groove of support can be relaxed put into fixed establishment with the cavity glass that needs cooling in, prevents that the support pillar from causing the interference to the taking of cavity glass to deposit. The screw thread locating shaft that runs through between lower fretwork heat insulating board and the last fretwork heat insulating board and through the fixed mode of locating nut can effectually fix the cavity glass of co-altitude not, and the design of fretwork about simultaneously can guarantee cooling mechanism's ventilation, improves cooling efficiency.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic side view of the present utility model;

FIG. 3 is a schematic top view of the cooling mechanism of the present utility model;

fig. 4 is a schematic top view of the fixing mechanism of the present utility model.

In the figure: 1. a bracket; 2. controlling a motor; 3. a motor shaft; 4. a control gear; 5. a transmission gear shaft; 6. fixing a bearing; 7. a cooling mechanism; 701. a gear shaft; 702. a cooling groove is embedded; 703. a cooling fan; 704. cooling sliding grooves; 8. fixing the embedded groove; 9. a fixing mechanism; 901. a lower hollow heat insulation plate; 902. a fixing plate; 903. a threaded fixed shaft; 904. a heat-insulating rubber push plate; 905. a fixed slide block; 906. a fixed chute; 10. a handle; 11. a threaded positioning shaft; 12. the upper hollow heat insulation plate; 13. and positioning a nut.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present utility model based on the embodiments of the present utility model.

Referring to fig. 1 to 4, the present utility model provides a technical solution: the utility model provides a cavity glass is with solid heat sink, which comprises a bracket 1, one side fixedly connected with control motor 2 of support 1, one side rotation of control motor 2 is connected with motor shaft 3, the one end fixedly connected with control gear 4 of motor shaft 3, the upper and lower both sides meshing of control gear 4 has the one end of drive gear axle 5, the center rotation of drive gear axle 5 is connected with fixed bearing 6, the other end meshing of drive gear axle 5 has cooling mechanism 7, the top of cooling mechanism 7 is embedded to have fixed embedded groove 8, the top sliding connection of fixed embedded groove 8 has fixed establishment 9, one side fixedly connected with handle 10 of fixed establishment 9, the four corners fixedly connected with screw thread location axle 11 of fixed establishment 9, the top of screw thread location axle 11 is run through and is gone up fretwork heat insulating board 12, the top screw thread connection of screw thread location axle 11 has positioning nut 13.

In this embodiment, as shown in fig. 2 and 3, cooling mechanism 7 includes gear shaft 701, and cooling mechanism 7 has two sets altogether, the one end meshing of gear shaft 701 has the one end of drive gear shaft 5, and the other end of gear shaft 701 runs through one side of embedded cooling groove 702, and rotate with the inner wall of embedded cooling groove 702 and be connected, embedded cooling groove 702 has two sets altogether, and inlay respectively in the upper and lower both ends of support 1, the outside threaded connection of gear shaft 701 has cooling fan 703, cooling fan 703's both sides sliding connection has cooling chute 704, and cooling chute 704's length equals embedded cooling groove 702's length, cooling fan 703 threaded connection gear shaft 701's mode in through two sets of cooling mechanisms 7 can effectually cool down simultaneously to the upper and lower two sides of glass, gear shaft 701 rotates simultaneously and can drive cooling fan 703 forward and backward and can fully cool down each position, increase the cooling effect.

In this embodiment, as shown in fig. 1 and fig. 4, the fixing mechanism 9 includes a lower hollow heat insulation board 901, four fixing boards 902 are fixedly connected around the upper part of the lower hollow heat insulation board 901, a threaded fixing shaft 903 is connected to the center of the fixing board 902, one end of the threaded fixing shaft 903 is attached to a heat insulation rubber push plate 904, the other end is a controllable rotary switch, fixing sliding blocks 905 are fixedly connected to the lower sides of the heat insulation rubber push plate 904, fixing sliding grooves 906 are slidably connected to the lower sides of the fixing sliding blocks 905, the fixing sliding grooves 906 are embedded in the upper surface of the lower hollow heat insulation board 901, and hollow glass is fixed in a manner that the heat insulation rubber push plate 904 is pushed to slide in the fixing sliding grooves 906 by the threaded fixing shafts 903 rotating in four directions in the fixing mechanism 9, so that hollow glass with different sizes can be effectively fixed.

In this embodiment, as shown in fig. 1 and 3, the control motor 2 drives the control gear 4 to engage with the two sets of transmission gear shafts 5 to rotate through the rotating connection motor shaft 3, and the transmission gear shafts 5 are of a structure with central cylindrical rotating shafts of two end gears, and the central cylindrical rotating shafts of the transmission gear shafts 5 are rotationally connected in the fixed bearing 6 on one side of the fixed connection bracket 1, and the manner of driving the multiple sets of gear shafts to rotate through the control motor 2 can effectively control the forward and backward movement of the cooling fan 703, so that the multiple positions of the hollow glass can be conveniently controlled.

In this embodiment, as shown in fig. 1 and 2, the handle 10 forms a sliding connection structure with the fixed embedded groove 8 embedded in the central surface of the bracket 1 through the lower hollow heat insulation board 901 in the fixed connection fixing mechanism 9, and the hollow glass to be cooled can be easily placed into the fixing mechanism 9 through the mode that the handle 10 drives the integral fixing mechanism 9 to slide in the fixed embedded groove 8 embedded in the bracket 1, so as to prevent the interference of taking and storing of the hollow glass by the support column of the bracket 1.

In this embodiment, as shown in fig. 1 and fig. 2, four threaded positioning shafts 11 are provided, and a through connection structure is formed between four corners of a lower hollow heat insulation plate 901 and an upper hollow heat insulation plate 12 above in a fixed connection fixing mechanism 9 respectively, and a positioning nut 13 is in threaded connection with the top end of each threaded positioning shaft 11, so that hollow glass with different heights can be effectively fixed in a manner of fixing the threaded positioning shafts 11 penetrating between the lower hollow heat insulation plate 901 and the upper hollow heat insulation plate 12 through the positioning nuts 13, and meanwhile, ventilation of a cooling mechanism 7 can be ensured by the design of upper and lower hollows, and cooling efficiency is improved.

The application method and the advantages of the utility model are as follows: this cavity glass is with solid heat sink, when using, the working process is as follows:

as shown in fig. 1, 2, 3 and 4, firstly, a user pulls the fixing mechanism 9 away through the handle 10, and puts hollow glass which needs to be cooled into the fixing mechanism 9; then the fixing mechanism 9 is pushed to reset, the screw thread fixing shafts 903 in four directions of the lower hollow heat insulation plate 901 are adjusted to drive the front heat insulation rubber push plate 904 to slide in the fixing sliding groove 906 so as to fix the position of hollow glass, and the positioning nuts 13 are screwed to adjust the upper hollow heat insulation plate 12 to be above the hollow glass and fix the hollow glass; then, the control motor 2 is started to drive the plurality of groups of gear shafts to rotate so as to control the cooling fans 703 in the upper and lower groups of cooling mechanisms 7 to reciprocate, so that the hollow glass is cooled; finally, after the hollow glass is cooled, the cooled hollow glass can be taken out by adjusting the positioning nut 13 and the threaded fixing shaft 903.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a cavity glass is with solid heat sink, includes support (1), its characterized in that: one side fixedly connected with control motor (2) of support (1), one side rotation of control motor (2) is connected with motor shaft (3), one end fixedly connected with control gear (4) of motor shaft (3), the upper and lower both sides meshing of control gear (4) has the one end of drive gear axle (5), the center rotation of drive gear axle (5) is connected with fixed bearing (6), the other end meshing of drive gear axle (5) has cooling mechanism (7), the top of cooling mechanism (7) is embedded to have fixed embedded groove (8), the top sliding connection of fixed embedded groove (8) has fixed establishment (9), one side fixedly connected with handle (10) of fixed establishment (9), the four corners fixedly connected with screw thread location axle (11) of fixed establishment (9), the top of screw thread location axle (11) is run through and is gone up fretwork (12), the top threaded connection of screw thread location axle (11) has positioning nut (13).

2. The solid cooling device for hollow glass of claim 1, wherein: the cooling mechanism (7) comprises two groups of gear rotating shafts (701), the cooling mechanism (7) is provided with two groups of cooling fans (703), one end of each gear rotating shaft (701) is meshed with one end of each transmission gear shaft (5), the other end of each gear rotating shaft (701) penetrates through one side of each embedded cooling groove (702) and is rotationally connected with the inner wall of each embedded cooling groove (702), the embedded cooling grooves (702) are provided with two groups of cooling fans (703) which are respectively embedded at the upper end and the lower end of the support (1), the outer side threads of each gear rotating shaft (701) are connected with cooling sliding grooves (704) in a sliding manner, and the length of each cooling sliding groove (704) is equal to that of each embedded cooling groove (702).

3. The solid cooling device for hollow glass of claim 1, wherein: fixed establishment (9) are including lower fretwork heat insulating board (901), four fixed plates (902) of fixedly connected with all around of top of lower fretwork heat insulating board (901), the center threaded connection of fixed plate (902) has screw thread fixed axle (903), the laminating of screw thread fixed axle (903) one end has thermal-insulated rubber push pedal (904), and the other end is controllable rotary switch, the both sides below fixedly connected with fixed slider (905) of thermal-insulated rubber push pedal (904), the below sliding connection of fixed slider (905) has fixed spout (906), and fixed spout (906) are embedded in lower fretwork heat insulating board (901) upper surface.

4. The solid cooling device for hollow glass of claim 1, wherein: the control motor (2) drives the control gear (4) to be meshed with the two groups of transmission gear shafts (5) to rotate through the rotating connection motor shaft (3), the transmission gear shafts (5) are of structures of central cylindrical rotating shafts of gears at two ends, and the central cylindrical rotating shafts of the transmission gear shafts (5) are rotationally connected in a fixed bearing (6) at one side of the fixed connection support (1).

5. A solid cooling device for hollow glass according to claim 3, wherein: the handle (10) and the fixed embedded groove (8) embedded in the central surface of the bracket (1) form a sliding connection structure through the lower hollow heat insulation plate (901) in the fixed connection fixing mechanism (9).

6. A solid cooling device for hollow glass according to claim 3, wherein: the four threaded positioning shafts (11) are connected with each other in a penetrating mode through the four corners of the lower hollow heat insulation plate (901) in the fixed connection fixing mechanism (9) and the upper hollow heat insulation plate (12) above, and the top end of each threaded positioning shaft (11) is connected with a positioning nut (13) in a threaded mode.