CN218001896U - Low-E glass's subregion heat sink - Google Patents

Abstract

The utility model discloses a LOW-E glass's subregion heat sink, including cylinder conveyer, still including setting up the heat sink on cylinder conveyer, the heat sink is including cooling frame, air grid one and middle part air grid two, cooling frame fixes on cylinder conveyer, air grid one is back the shape column structure, air grid one is fixed on the interior roof of cooling frame, middle part air grid two slide to set up in air grid one, cooling frame top symmetry is fixed with the cylinder, the piston rod of cylinder runs through cooling frame top and is fixed with the connecting plate, the top at middle part air grid two is fixed to the connecting plate, the bottom of cooling frame is fixed with the carriage, the top and the bottom of cooling frame all are equipped with the intake pipe, be fixed with the reposition of redundant personnel head in the intake pipe of bottom, reposition of redundant personnel is overhead to be connected with a plurality of outlet ducts, each outlet duct all runs through carriage and the equal slope of outlet duct top is fixed with air grid three, it can not take place to break and cause clean problem to have solved current glass can's inconvenient laminating with another piece of glass after the cooling.

Description

Low-E glass's subregion heat sink

Technical Field

The utility model relates to an electronic jacquard field, in particular to LOW-E glass's subregion heat sink.

Background

Low-E glass is also called Low-emissivity glass, and is a film product formed by plating a plurality of layers of metal or other compounds on the surface of the glass. The coating layer has the characteristics of high visible light transmission and high mid-far infrared ray reflection, so that the coating layer has excellent heat insulation effect and good light transmission compared with common glass and traditional coating glass for buildings.

Glass carries out rapid cooling for adopting the cooling air grid to glass after processing out, current glass's cooling air grid is same high installation when the installation, make glass can't form the shape that middle part small amplitude was encircleed when the cooling, lead to glass can't guarantee all around and another piece glass carry out fine laminating at the in-process of doubling, and current glass is because processing loses and is very easily taking place to break when receiving the cooling of air grid, these broken glass can drop the problem that causes clean inconvenience on the air grid of bottom, to the following solution that proposes of above problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a LOW-E glass's subregion heat sink has solved current glass can't take place to break with the glass of the fine laminating of another piece of glass and wastrel after the cooling and causes clean inconvenient problem.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a LOW-E glass's subregion heat sink, includes the cylinder conveyer, still includes the heat sink of setting on the cylinder conveyer, the heat sink includes cooling frame, air grid one and middle part air grid two, the cooling frame is fixed on the cylinder conveyer, air grid one is back the column structure, air grid one is fixed on the interior roof of cooling frame, middle part air grid two slide and set up in air grid one, cooling frame top symmetry is fixed with the cylinder, the piston rod of cylinder runs through cooling frame top and is fixed with the connecting plate, the top at middle part air grid two is fixed to the connecting plate, the bottom of cooling frame is fixed with the carriage, the top and the bottom of cooling frame all are equipped with intake pipe, the bottom be fixed with the reposition of redundant personnel in the intake pipe, be connected with a plurality of outlet ducts on the reposition of redundant personnel head, each the outlet duct all runs through the carriage just the outlet duct top all inclines to be fixed with air grid three, air grid three tops are equipped with dense hole screen cloth, the carriage top is provided with clean subassembly.

As preferred, clean subassembly includes two backup pads and two screw rods, the both sides at the carriage are fixed to the backup pad symmetry, the wide slot has been seted up on the lateral wall of backup pad, the screw rod rotates and sets up in the wide slot, screw-thread fit has clean board on the screw rod, be fixed with clean brush one on the lateral wall of clean board, the one end that the screw rod was kept away from to clean board is fixed with clean brush two, still be provided with on the carriage and be used for driving two screw rods and carry out pivoted drive assembly, be provided with on the lateral wall of carriage and collect the frame, it places on the interior diapire of cooling frame to collect the frame.

Preferably, the driving assembly comprises two belt pulleys, a first belt and a driving motor, one end of each screw penetrates through the supporting plate, the belt pulleys are fixed on the screws, the first belt is arranged on the two belt pulleys, the two belt pulleys are connected through the first belt, the driving motor is fixed on the supporting frame, and an output shaft of the driving motor is fixed with one side of the screw.

Preferably, be fixed with infrared inductor on the lateral wall of cooling frame, infrared inductor's response end corresponds with the cylinder transmitter, be fixed with the plc controller on the cooling frame, infrared inductor and plc controller electric connection, the plc controller still with cylinder electric connection.

Preferably, a filter screen is fixed in each of the two air inlet pipes.

Has the advantages that: after the LOW-E glass enters the cooling area, the height of the middle air grid is reduced, so that the flow of air received by the middle part of the LOW-E glass is more, the temperature is reduced more quickly, the temperature reduction speed of the middle part is faster than that of the periphery, and the whole glass is in a shape of small-amplitude upward arch in the middle part;

the assembly used for cleaning broken glass is arranged at the bottom of the cooling frame, so that the inconvenience that cleaning is carried out manually in the prior art is changed, the efficiency is improved, and the labor cost is also reduced.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a schematic diagram illustrating an internal structure of a cooling frame according to an embodiment;

FIG. 3 is a schematic structural view of the bottom of the cooling frame according to the embodiment.

Reference numerals: 1. a roller conveyor; 2. a cooling device; 3. a cooling frame; 4. a first air grid; 5. a middle air grid II; 6. a cylinder; 7. a connecting plate; 8. a support frame; 9. an air inlet pipe; 10. a flow dividing head; 11. an air outlet pipe; 12. a third air grid; 13. a dense-hole screen; 14. a cleaning assembly; 15. a support plate; 16. a screw; 17. a wide groove; 18. cleaning the plate; 19. cleaning a first brush; 20. cleaning a second brush; 21. a drive assembly; 22. a collection frame; 23. a belt pulley; 24. a first belt; 25. a drive motor; 26. an infrared sensor; 27. a plc controller; 28. and (5) a filter screen.

Detailed Description

The following is only the preferred embodiment of the present invention, the protection scope is not limited to this embodiment, and all technical solutions belonging to the idea of the present invention should belong to the protection scope of the present invention. It should also be noted that modifications and embellishments within the scope of the present disclosure may be made by those skilled in the art without departing from the principles of the present disclosure.

Referring to fig. 1 to 3, a LOW-E glass partitioned cooling device includes a roller conveyor 1 and a cooling device 2 disposed on the roller conveyor 1, where the cooling device 2 includes a cooling frame 3, a first air grid 4 and a second middle air grid 5, the cooling frame 3 is fixed on the roller conveyor 1, the first air grid 4 is a circular structure, the first air grid 4 is fixed on an inner top wall of the cooling frame 3, the second middle air grid 5 is slidably disposed in the first air grid 4, an infrared sensor 26 is fixed on a side wall of the cooling frame 3, glass is conveyed on the roller conveyor 1, a sensing end of the infrared sensor 26 corresponds to the roller conveyor 1, the infrared sensor 26 senses glass due to continuous conveyance of glass on the roller conveyor 1, a plc controller 27 is fixed on the cooling frame 3, the infrared sensor 26 is electrically connected to the plc controller 27, the infrared sensor 26 transmits a signal to the plc controller 27, and the plc controller 27 processes the signal.

The cylinders 6 are symmetrically fixed at the top of the cooling frame 3, the plc controller 27 is electrically connected with the cylinders 6, the plc controller 27 transmits signals to the cylinders 6, so that the cylinders 6 are controlled to be started, piston rods of the cylinders 6 penetrate through the top of the cooling frame 3 and are fixed with the connecting plates 7, the piston rods of the cylinders 6 can push the connecting plates 7 to move, the connecting plates 7 are fixed at the top of the middle air grid II 5, the connecting plates 7 can push the middle air grid II 5 to reduce the height, after LOW-E glass enters a cooling area in the cooling frame 3, the top and the bottom of the cooling frame 3 are provided with the air inlet pipes 9, cooling gas can enter the cooling frame 3 through the air inlet pipes 9, the two air inlet pipes 9 are both fixed with the filter screens 28, and therefore the gas can be filtered to prevent impurities from entering the cooling frame 3.

At this moment, the roller conveyor 1 can stop running, the height is reduced by the aid of the middle air grid II 5, the flow of air received by the middle of the LOW-E glass is increased, the temperature is reduced more quickly, the temperature reduction speed of the middle is higher than the temperature reduction speed of the periphery, the whole glass is made into a shape of small-amplitude upward arch in the middle, the shape can be attached to another glass in the periphery in the glue clamping process, the edge upwarping is prevented, the glue clamping effect is good, the finished product quality is high, the roller conveyor 1 can be restarted after the temperature reduction is finished, and the cooled LOW-E glass is conveyed out of the temperature reduction frame 3.

The bottom of cooling frame 3 is fixed with carriage 8, be fixed with branch head 10 on the intake pipe 9 of bottom, the cooling gas that gets into in the intake pipe 9 of bottom can shunt through branch head 10, be connected with a plurality of outlet ducts 11 on the branch head 10, gas can enter into in each outlet duct 11, each outlet duct 11 all runs through carriage 8 and 11 tops of outlet duct all slopes and is fixed with three 12 of air grid, gas can be discharged through three 12 of each air grid at last, thereby can accelerate the cooling of LOW-E glass, three 12 tops of air grid are equipped with dense hole screen cloth 13, thereby set up through the slope form of dense hole screen cloth 13 and three 12 of air grid and prevented that the glass piece from dropping in three 12 of air grid when unqualified glass takes place the breakage.

The top of the supporting frame 8 is provided with a cleaning component 14, thereby utilize cleaning component 14 to clean the broken glass that drops, cleaning component 14 includes two backup pads 15 and two screws 16, backup pad 15 symmetry is fixed in the both sides of supporting frame 8, wide groove 17 has been seted up on the lateral wall of backup pad 15, screw 16 rotates and sets up in wide groove 17, still be provided with on the supporting frame 8 and be used for driving two screws 16 and carry out pivoted drive assembly 21, drive assembly 21 includes two belt pulleys 23, belt 24 and driving motor 25, the one end of two screws 16 all runs through backup pad 15 and belt pulley 23 is fixed on screw 16, belt 24 sets up on two belt pulleys 23, two belt pulleys 23 connect through belt 24, driving motor 25 fixes on the supporting frame 8, the output shaft of driving motor 25 is fixed with one side screw 16, when needs to drive two screws 16 and rotate, can start driving motor 25, it rotates to utilize the output shaft of driving motor 25 to drive one side screw 16, the rotation of screw 16 can drive one side belt pulley 23 and rotate, belt pulley 23 can drive belt 24 and carry out the conveying, thereby utilize two belt pulleys 23 to rotate.

Screw-thread fit has cleaning plate 18 on screw rod 16, when screw rod 16 rotated, screw rod 16 can drive rather than screw-thread fit's cleaning plate 18 and slide in wide groove 17, be fixed with cleaning brush 19 on cleaning plate 18's the lateral wall, the slip of two cleaning plate 18 can drive cleaning brush 19 and clean on carriage 8, thereby can promote the broken glass on carriage 8 and remove and collect, the one end that cleaning plate 18 kept away from screw rod 16 is fixed with cleaning brush two 20, thereby utilize cleaning brush two 20 can be to cleaning plate 18 unable contact to reach the position between each outlet duct 11 and clean, be provided with collection frame 22 on carriage 8's the lateral wall, collection frame 22 places on cooling frame 3's interior diapire, thereby cleaning plate 18's continuous movement can push the cullet to collect in collection frame 22.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (5)

1. The LOW-E glass partition cooling device comprises a roller conveyor (1) and is characterized by further comprising a cooling device (2) arranged on the roller conveyor (1), wherein the cooling device (2) comprises a cooling frame (3), a first air grid (4) and a second middle air grid (5), the cooling frame (3) is fixed on the roller conveyor (1), the first air grid (4) is of a circular structure, the first air grid (4) is fixed on the inner top wall of the cooling frame (3), the second middle air grid (5) is arranged in the first air grid (4) in a sliding mode, air cylinders (6) are symmetrically fixed at the tops of the cooling frame (3), piston rods of the air cylinders (6) penetrate through the tops of the cooling frame (3) and are fixed with connecting plates (7), the connecting plates (7) are fixed at the tops of the second middle air grids (5), supporting frames (8) are fixed at the bottoms of the cooling frame (3), air inlet pipes (9) are fixed at the tops of the bottoms of the air inlet pipes (9), and air outlet pipes (11) are connected with three inclined supporting heads (11), the top of the air grid III (12) is provided with a dense-hole screen (13), and the top of the support frame (8) is provided with a cleaning component (14).

2. The LOW-E glass partition cooling device according to claim 1, wherein the cleaning assembly (14) comprises two support plates (15) and two screws (16), the support plates (15) are symmetrically fixed on two sides of the support frame (8), a wide groove (17) is formed in the side wall of each support plate (15), the screws (16) are rotatably arranged in the wide grooves (17), a cleaning plate (18) is arranged on each screw (16) in a threaded fit manner, a first cleaning brush (19) is fixed on the side wall of each cleaning plate (18), a second cleaning brush (20) is fixed at one end, far away from the screws (16), of each cleaning plate (18), a driving assembly (21) used for driving the two screws (16) to rotate is further arranged on each support frame (8), a collecting frame (22) is arranged on the side wall of each support frame (8), and the collecting frame (22) is placed on the inner bottom wall of the cooling frame (3).

3. The LOW-E glass partition cooling device according to claim 2, wherein the driving assembly (21) comprises two belt pulleys (23), a first belt (24) and a driving motor (25), one end of each of the two screws (16) penetrates through the supporting plate (15), the belt pulleys (23) are fixed on the screws (16), the first belt (24) is arranged on the two belt pulleys (23), the two belt pulleys (23) are connected through the first belt (24), the driving motor (25) is fixed on the supporting frame (8), and an output shaft of the driving motor (25) is fixed with the screw (16) on one side.

4. The LOW-E glass partition cooling device according to claim 1, wherein an infrared sensor (26) is fixed on a side wall of the cooling frame (3), a sensing end of the infrared sensor (26) corresponds to the drum conveyor (1), a plc controller (27) is fixed on the cooling frame (3), the infrared sensor (26) is electrically connected with the plc controller (27), and the plc controller (27) is further electrically connected with the cylinder (6).

5. A LOW-E glass zoned cooling device according to claim 1, wherein a filter screen (28) is fixed in each of the two inlet pipes (9).

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