CN115784584B

CN115784584B - Energy-saving cooling device for glass processing

Info

Publication number: CN115784584B
Application number: CN202211391791.6A
Authority: CN
Inventors: 王洪
Original assignee: Chongqing Chongbo Energy Saving Glass Co ltd
Current assignee: Chongqing Chongbo Energy Saving Glass Co ltd
Priority date: 2022-11-08
Filing date: 2022-11-08
Publication date: 2024-04-16
Anticipated expiration: 2042-11-08
Also published as: CN115784584A

Abstract

The invention relates to the technical field of glass processing cooling, in particular to an energy-saving cooling device for glass processing. The glass cooling assembly comprises an outer device frame, an inner cavity accommodating groove, an extracting pipe, a guiding chute, a mounting bottom plate, a liquid feeding pipe and a spray head, wherein the inner cavity accommodating groove is formed in the lower side of the inner part of the outer device frame, the extracting pipe penetrates through the middle of one side of the outer device frame, the guiding chute is symmetrically formed in the upper side of the outer device frame, through the arrangement of the glass cooling assembly, the glass can be vertically cooled under the action of a limiting roller, the glass can be vertically cooled after being processed, the glass is vertically cooled, the residual of cooling liquid on the glass is effectively avoided, the cleaning of the cooling liquid on the glass is facilitated, and meanwhile, the interval between two assembly connecting plates can be adjusted under the action of pushing the assembly, so that the glass with different thicknesses is clamped by the limiting roller, and the application range of the device is effectively increased.

Description

Energy-saving cooling device for glass processing

Technical Field

The invention relates to the technical field of glass processing cooling, in particular to an energy-saving cooling device for glass processing.

Background

Glass is an amorphous inorganic nonmetallic material, which is generally made of various inorganic minerals as main raw materials and a small amount of auxiliary raw materials, and a glass plate is very hot after the production is finished, and cooling is required in order to prevent deformation, facilitate post-treatment and the like, so that a cooling device is required to be used.

For example, publication (bulletin) numbers are: the glass processing cooling device of CN209230114U is provided with the atomizing spray head on the lower spray opening and the upper spray opening, the upper spray opening dissipates heat on the upper part of the glass plate, the lower spray opening dissipates heat on the lower part of the glass plate, and even heat dissipation of the glass plate is further realized.

In the use process of the device, a certain problem still exists, the device sprays and cools through the flat of glass, however, the flat of glass is not beneficial to cleaning of residual cooling liquid after spraying on the glass, and the cooling liquid drops easily on one side of the glass facing downwards, so that when the device cools, no side of the glass facing upwards is sufficient.

Disclosure of Invention

The invention aims to provide an energy-saving cooling device for glass processing, which aims to solve the problems in the process.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an energy-saving cooling device is used in glass processing, glass cooling module is including device frame, inner chamber storage tank, extraction pipe, guide spout, settling bottom plate, liquid feed pipe and shower nozzle, wherein the inner chamber storage tank is seted up in the inside downside of device frame, the extraction pipe runs through and sets up in one side middle part of device frame, and wherein the upside at the device frame is seted up to the guide spout symmetry, settling bottom plate symmetry embedding is in one side of device frame, and wherein liquid feed pipe is fixed in one side of settling bottom plate inside the device frame, the shower nozzle is evenly fixed in one side of settling bottom plate inside the device frame.

Preferably, the two sides of the outer frame of the device are symmetrically provided with movably connected rotating shafts, two of the rotating shafts are sleeved with conveying belts, the conveying belts are arranged transversely across the outer frame of the device, two of the conveying belts are positioned between two placement bottom plates, and through holes are uniformly formed in the conveying belts.

Preferably, the assembly connecting plate is symmetrically arranged on the upper side of the inner part of the outer frame of the device, wherein the lower side of the assembly connecting plate is uniformly provided with the limiting rollers which are movably connected, the limiting rollers are positioned on the upper side of the conveying belt, the upper side of the assembly connecting plate is symmetrically provided with the fixedly connected in-groove sliding plate, and the in-groove sliding plate is positioned in the guide chute.

Preferably, the upper side of the in-groove sliding plate is provided with a fixedly connected quilt top plate, wherein a splayed arrangement is formed between two quilt top plates which are close to each other, one side of the in-groove sliding plate is provided with a fixedly connected elastic reset rod, one side of the elastic reset rod, which is not connected with the in-groove sliding plate, is fixed on the outer frame of the device, and the upper side of the outer frame of the device is provided with a synchronous pushing assembly.

Preferably, the synchronous pushing assembly comprises a supporting frame, a control telescopic rod, a first pushing block, a moving rod, a side shifting plate, a baffle and a second pushing block, wherein the control telescopic rod penetrates through the middle of the supporting frame, the first pushing block is fixed on the lower side of the control telescopic rod, the moving rod is symmetrically arranged on two sides of the first pushing block, the side shifting plate is fixed on one side, close to the first pushing block, of the moving rod, the baffle is sleeved on the moving rod, and the second pushing block is fixed on one side, far away from the first pushing block, of the moving rod. The moving rod is sleeved with a spring, and the spring is positioned between the baffle plate and the side moving plate.

Preferably, the support frame is fixed at the middle part of the upper side of the outer frame of the device, wherein two side shifting plates are positioned at two sides of the first pushing-out block, the baffle plate is fixed on the outer frame of the device, and the second pushing-out block is positioned between the two driven top plates.

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

through the arrangement of the invention, the vertical glass can be limited under the action of the limiting roller, so that the glass can be vertically cooled after being processed, the glass is vertically cooled, the residual of cooling liquid on the glass is effectively avoided, the cleaning of the cooling liquid on the glass is facilitated, and meanwhile, the interval between two assembly connecting plates can be regulated under the action of the pushing component, thereby realizing the clamping of the limiting roller on the glass with different thicknesses, and effectively increasing the application range of the device.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of an outer frame of the device of the present invention.

Fig. 3 is a schematic perspective view of a conveyor belt according to the present invention.

Fig. 4 is a schematic perspective view of the support frame of the present invention.

Fig. 5 is an enlarged schematic view of the invention at a in fig. 2.

In the figure: the device comprises an outer frame 1, a rotating shaft 101, a conveying belt 102, a through hole 103, an assembly connecting plate 104, a limiting roller 105, a groove inner slide plate 106, a cover plate 107, an elastic reset rod 108, an inner cavity accommodating groove 11, an extraction pipe 12, a guiding chute 13, a setting bottom plate 14, a liquid conveying pipe 15, a spray head 16, a supporting frame 2, a control telescopic rod 21, a first pushing block 22, a moving rod 23, a side slide plate 24, a baffle 25 and a second pushing block 26.

Detailed Description

Features and exemplary embodiments of various aspects of the invention are described in detail below. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the invention by showing examples of the invention. The present invention is in no way limited to any particular configuration and algorithm set forth below, but rather covers any modification, substitution, and improvement of elements, components, and algorithms without departing from the spirit of the invention. In the drawings and the following description, well-known structures and techniques have not been shown in order to avoid unnecessarily obscuring the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution: including glass cooling module, glass cooling module is including device frame 1, inner chamber storage tank 11, extraction pipe 12, guide spout 13, settle bottom plate 14, send liquid pipe 15 and shower nozzle 16, wherein the inner chamber storage tank 11 is seted up at the inside downside of device frame 1, extraction pipe 12 runs through the setting at one side middle part of device frame 1, wherein guide spout 13 symmetry is seted up at the upside of device frame 1, settle bottom plate 14 symmetry embedding is in one side of device frame 1, wherein send liquid pipe 15 to fix at one side of settling bottom plate 14 in the inside of device frame 1, shower nozzle 16 evenly fixes at one side of settling bottom plate 14 in the inside of device frame 1. The inner chamber is accomodate groove 11 and can be collected the spun coolant liquid in shower nozzle 15, and utilize the extraction pipe 12 can be to the inner chamber accomodate the inside coolant liquid of accomodating of groove 11 and collect, realize the cyclic utilization of coolant liquid, effectively avoid the waste of coolant liquid, can install the valve on the extraction pipe 12 simultaneously, when the extraction pipe 12 is not used, the valve is in the state of closing, send the liquid pipe 15 to all shower nozzles 16 on the settling bottom plate 14 through the water pump, make the coolant liquid all can be from all shower nozzles 16 blowout.

The two sides of the outer frame 1 of the device are symmetrically provided with the movably connected rotating shafts 101, wherein the two rotating shafts 101 are sleeved with the conveying belts 102, the conveying belts 102 are transversely arranged across the outer frame 1 of the device, the two conveying belts 102 are positioned between the two mounting bottom plates 14, and the conveying belts 102 are uniformly provided with through holes 103. The axis of rotation 101 passes through the pivot to be connected on device frame 1, and one of them axis of rotation 101 drives through the motor and rotates, and glass erects when placing and place on conveyer belt 102 for conveyer belt 102 transports glass, simultaneously under the effect of through-hole 103, the coolant liquid of being convenient for passes conveyer belt 102, gathers the inside of inner chamber storage tank 11.

The upper side of the inside of the device outer frame 1 is symmetrically provided with an assembly connecting plate 104, wherein the lower side of the assembly connecting plate 104 is uniformly provided with movably connected limiting rollers 105, the limiting rollers 105 are all positioned on the upper side of the conveying belt 102, the upper side of the assembly connecting plate 104 is symmetrically provided with fixedly connected in-groove sliding plates 106, and the in-groove sliding plates 106 are positioned in the inside of the guide chute 13. The limiting rollers 105 are connected with the assembly connecting plates 104 through rotating shafts, so that the limiting rollers 105 can rotate, and the limiting rollers 105 on the two assembly connecting plates 104 can limit the positions of the glass erected on the conveying belt 102, so that the glass is prevented from tilting.

The upper side of the in-groove sliding plate 106 is provided with a fixedly connected quilt top plate 107, wherein a splayed arrangement is formed between the two quilt top plates 107 which are close to each other, one side of the in-groove sliding plate 106 is provided with a fixedly connected elastic reset rod 108, one side of the elastic reset rod 108 which is not connected with the in-groove sliding plate 106 is fixed on the device outer frame 1, and the upper side of the device outer frame 1 is provided with a synchronous pushing assembly.

The two assembly links 104 may be brought closer together by the resilient return lever 108.

The synchronous pushing assembly comprises a supporting frame 2, a control telescopic rod 21, a first pushing block 22, a moving rod 23, a side shifting plate 24, a baffle 25 and a second pushing block 26, wherein the control telescopic rod 21 penetrates through the middle of the supporting frame 2, the first pushing block 22 is fixed on the lower side of the control telescopic rod 21, the moving rod 23 is symmetrically arranged on two sides of the first pushing block 22, the side shifting plate 24 is fixed on one side of the moving rod 23 close to the first pushing block 22, the baffle 25 is sleeved on the moving rod 23, and the second pushing block 26 is fixed on one side of the moving rod 23 far away from the first pushing block 22. The moving rod 23 is sleeved with a spring, and the spring is positioned between the baffle 25 and the side shifting plate 24.

The supporting frame 2 is fixed at the upper middle part of the device outer frame 1, wherein two side shifting plates 24 are positioned at both sides of the first pushing block 22, and a baffle 25 is fixed on the device outer frame 1, wherein the second pushing block 26 is positioned between two driven top plates 107.

Under the action of the control telescopic rod 21, the first pushing block 22 is pushed downwards, then the first pushing block 22 pushes the side moving plate 24, the moving rod 23 moves to one side, then the moving rod 23 moves together with the second pushing block 26, the first pushing block 26 pushes against the top plate 107, so that pushing of the two assembly connecting plates 104 is realized, the interval between the two assembly connecting plates 104 can be adjusted, the limiting roller 105 clamps glass with different thicknesses, and the application range of the device is effectively increased.

The different technical features presented in the different embodiments may be combined to advantage. Other variations to the disclosed embodiments can be understood and effected by those skilled in the art in view of the drawings, the description, and the claims. In the claims, the term "comprising" does not exclude other means or steps; the indefinite article "a" does not exclude a plurality; the terms "first," "second," and the like, are used for designating a name and not for indicating any particular order. Any reference signs in the claims shall not be construed as limiting the scope. The functions of the various elements presented in the claims may be implemented by means of a single hardware or software module. The presence of certain features in different dependent claims does not imply that these features cannot be combined to advantage.

Claims

1. The utility model provides an energy-saving cooling device for glass processing, includes glass cooling module, its characterized in that: the glass cooling assembly comprises an outer device frame (1), an inner cavity accommodating groove (11), an extracting pipe (12), a guiding chute (13), a placement bottom plate (14), a liquid feeding pipe (15) and a spray head (16), wherein the inner cavity accommodating groove (11) is formed in the lower side of the inner part of the outer device frame (1), the extracting pipe (12) penetrates through the middle of one side of the outer device frame (1), the guiding chute (13) is symmetrically formed in the upper side of the outer device frame (1), the placement bottom plate (14) is symmetrically embedded in one side of the outer device frame (1), the liquid feeding pipe (15) is fixed on one side, which does not face the inner part of the outer device frame (1), of the placement bottom plate (14), and the spray head (16) is uniformly fixed on one side, which faces the inner part of the outer device frame (1), of the placement bottom plate (14);

the device comprises an outer frame (1), two rotating shafts (101) which are symmetrically arranged on two sides of the outer frame (1) and are movably connected, wherein two rotating shafts (101) are sleeved with conveying belts (102), the conveying belts (102) are arranged transversely to the outer frame (1), the two conveying belts (102) are positioned between two mounting bottom plates (14), and through holes (103) are uniformly formed in the conveying belts (102);

the device comprises an outer frame (1), wherein an assembly connecting plate (104) is symmetrically arranged on the upper side of the inner part of the outer frame (1), limiting rollers (105) which are movably connected are uniformly arranged on the lower side of the assembly connecting plate (104), the limiting rollers (105) are positioned on the upper side of a conveying belt (102), fixedly connected in-groove sliding plates (106) are symmetrically arranged on the upper side of the assembly connecting plate (104), and the in-groove sliding plates (106) are positioned in a guide chute (13);

the upper side of the in-groove sliding plate (106) is provided with a fixedly connected quilt top plate (107), wherein a splayed arrangement is formed between the two quilt top plates (107) which are close to each other, one side of the in-groove sliding plate (106) is provided with a fixedly connected elastic reset rod (108), one side of the elastic reset rod (108) which is not connected with the in-groove sliding plate (106) is fixed on the outer frame (1) of the device, and the upper side of the outer frame (1) of the device is provided with a synchronous pushing assembly;

the synchronous pushing assembly comprises a supporting frame (2), a control telescopic rod (21), a first pushing block (22), a moving rod (23), a side shifting plate (24), a baffle plate (25) and a second pushing block (26), wherein the control telescopic rod (21) penetrates through the middle of the supporting frame (2), the first pushing block (22) is fixed on the lower side of the control telescopic rod (21), the moving rod (23) is symmetrically arranged on two sides of the first pushing block (22), the side shifting plate (24) is fixed on one side, close to the first pushing block (22), of the moving rod (23), the baffle plate (25) is sleeved on the moving rod (23), the second pushing block (26) is fixed on one side, far away from the first pushing block (22), of the moving rod (23), a spring is sleeved on the moving rod (23), and the spring is located between the baffle plate (25) and the side shifting plate (24).

2. An energy efficient cooling apparatus for glass processing according to claim 1, wherein: the support frame (2) is fixed in the middle of the upper side of the device outer frame (1), wherein two side shifting plates (24) are positioned on two sides of the first pushing-out block (22), the baffle plate (25) is fixed on the device outer frame (1), and the second pushing-out block (26) is positioned between two driven-out top plates (107).