CN220417002U - Argon filling device for hollow glass processing - Google Patents

Abstract

The utility model relates to an argon filling device for hollow glass processing, which comprises a base, wherein a fixed disc is fixedly arranged on the base, a rotating disc is rotatably arranged on the fixed disc, a rotating hole is formed in the fixed disc, a rotating column matched with the rotating hole is arranged on the rotating disc so as to facilitate the rotation of the rotating disc, a mounting hole is formed in the rotating disc, a clamping structure is rotatably arranged in the mounting hole, hollow glass with different thickness is clamped through the clamping structure, supporting frames are fixedly arranged at two ends of the base, one supporting frame is provided with an electric push rod, an air filling head is fixedly arranged at the front end of the electric push rod and is driven to ascend or descend through the electric push rod, an air filling bag is sleeved on the air filling head, the air filling bag is fixedly connected with the air filling head, and a detection box is slidably arranged on the other supporting frame so as to facilitate the detection of the production quality of the hollow glass filled with argon through the detection box.

Description

Argon filling device for hollow glass processing

Technical Field

The utility model relates to the technical field of glass fiber reinforced plastic grid production equipment, in particular to an argon filling device for hollow glass processing.

Background

Argon is an inert gas with a lower thermal conductivity and specific heat capacity than air, while having stability. When argon gas is filled into the hollow glass, heat convection and heat conduction in the hollow glass can be slowed down, the heat conduction capacity of the whole hollow glass is weakened, heat can be effectively prevented from flowing through glass pieces, in the production process of the hollow glass, the hollow glass is required to be inflated by using an inflating device, but the existing inflating device is used for inflating the hollow glass by penetrating an inflating nozzle into an opening of the glass, and the loss of the filled argon gas is easily caused by a gap between the inflating nozzle and the glass opening in the inflating process, so that the inflating efficiency is reduced, the inflating cost is increased, and whether the argon gas is completely inflated cannot be determined after the hollow glass is restarted by the existing inflating device, so that the production of the hollow glass is not completely inflated, the production quality of the hollow glass is affected, and the production quality of the argon gas-filled glass is reduced.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides an argon filling device for processing hollow glass, which aims to solve the problems in the background art.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cavity glass processing is with filling argon gas device, includes the base, fixedly is provided with the fixed disk on the base, rotationally be provided with the rolling disc on the fixed disk, the rolling hole has been seted up on the fixed disk, be provided with on the rolling disc with rolling hole complex spliced pole to be convenient for the rotation of rolling disc, the mounting hole has been seted up on the rolling disc, the mounting hole is provided with a plurality ofly, rotationally be provided with clamping structure in the mounting hole, through the cavity glass of clamping structure clamping different thickness, the both ends of base are all fixed and are provided with the support frame, one be provided with electric putter on the support frame, electric putter's front end is fixed to be provided with the head of aerifing, drive through electric putter and aerify the head and rise or descend, the cover is equipped with the gas cell on the head of aerify, fixed connection between gas cell and the head, another slidable is provided with the detection case on the support frame.

Preferably, an extension plate is fixedly arranged at the side end of the support frame connected with the inflation head, an air reservoir, a first air pump and a second air pump are fixedly arranged on the extension plate, first connecting pipes are arranged between the air reservoir and the first air pump, between the first air pump and the inflation head, and the first connecting pipes are hoses and are convenient to move along with the extension or contraction of the electric push rod.

In a further preferred embodiment, the air cylinder, the first air pump and the air charging head are communicated through a first connecting pipe, a second connecting pipe is arranged between the second air pump and the air charging bag, the second connecting pipe is a hose, an air extraction pipe is fixedly arranged at the lower end of the air cylinder, the air extraction pipe is communicated with the air cylinder, and the air in the argon cylinder is fed into the air cylinder through the air extraction pipe.

In a further preferred embodiment, a support frame connected with the detection box is provided with a chute, a side end of the detection box is provided with a stopper matched with the chute, the detection box is slidably connected with the chute, a fixing block is detachably arranged on the support frame, and the fixing block is connected with the support frame through a bolt, so that the detection box can slide up and down along the support frame conveniently.

In a further preferred embodiment, the support frame is provided with a first threaded rod rotatably, the first threaded rod is in threaded connection with the detection box, a first motor is fixedly arranged on the fixed block, an output end of the first motor is connected with the first threaded rod, the first threaded rod is driven to rotate by the first motor, so that the detection box is driven to move, a heating plate is detachably arranged at a side end of the detection box, and the detection box is heated by the heating plate.

In a further preferred aspect, the clamping structure comprises a mounting frame and a clamping plate, the mounting frame is rotationally connected with the mounting hole, a second threaded rod is rotationally arranged between the mounting frame and the clamping plate, and the second threaded rod is in threaded connection with the mounting frame and is rotationally connected with the clamping plate, so that hollow glass with different thicknesses can be clamped conveniently.

In a further preferred embodiment, the lower end of the fixed disk is fixedly provided with a second motor, and the output end of the second motor is connected with the rotating column, so that the second motor drives the rotating disk to rotate.

(III) beneficial effects

Compared with the prior art, the utility model provides the argon filling device for processing the hollow glass, which has the following beneficial effects:

1. according to the utility model, the inflation head at the front end of the electric push rod is arranged, the inflation bag is sleeved on the inflation head, the air reservoir, the first inflation pump and the inflation head are communicated through the first connecting pipe, so that argon is inflated into the hollow glass through the inflation head, the air is pumped into the inflation bag through the second air pump while the air is inflated, the inflation bag is inflated and expanded, so that gaps between the inflation head and an inflation opening formed in the hollow glass are filled, loss of argon in the inflation process is reduced, and the hollow glass is inflated conveniently.

2. According to the utility model, the detection box on the support frame at one side is arranged, the heating plate is detachably arranged at the side end of the detection box, after the hollow glass is filled with argon, the second motor drives the rotating disc to rotate, the filled hollow glass is rotated to the lower end of the detection box, the first motor drives the first threaded rod to rotate, the detection box is lowered, the filled glass is surrounded, the interior of the detection box is heated by the heating plate, and whether the temperatures at two sides of the hollow glass meet the requirements is detected, so that whether the hollow glass is filled with argon is determined, and the production quality of the filled argon glass is conveniently improved.

3. According to the utility model, the mounting holes at the upper end of the rotating disc are arranged, the mounting frame is rotatably arranged in the mounting holes, the mounting plates are arranged on the mounting frame, and the distance between the two mounting plates is adjusted by rotating the second threaded rod, so that the mounting frame is convenient for clamping hollow glass with different thicknesses, and meanwhile, a plurality of mounting frames are arranged, so that a plurality of hollow glass can be conveniently and simultaneously installed, the mounting frames are not required to be detached and reinstalled after the inflation is completed, and the inflation efficiency of the hollow glass is improved.

Drawings

FIG. 1 is a schematic diagram of the whole structure of an argon filling device for processing hollow glass;

FIG. 2 is a bottom view of the whole structure of an argon filling device for hollow glass processing in accordance with the present utility model;

FIG. 3 is a schematic diagram of the cooperation structure of a rotating disc and a clamping structure of an argon filling device for hollow glass processing;

FIG. 4 is a schematic diagram showing the cooperation structure of a base and a detection box of an argon filling device for hollow glass processing in the utility model;

fig. 5 is a schematic structural view of a base of an argon filling device for hollow glass processing in the present utility model.

In the figure: 1. a base; 2. a fixed plate; 3. a rotating disc; 4. a rotation hole; 5. rotating the column; 6. a mounting hole; 7. a support frame; 8. an electric push rod; 9. an inflation head; 10. an inflatable bag; 11. a detection box; 12. an extension plate; 13. an air cylinder; 14. a first air pump; 15. a second air pump; 16. a first connection pipe; 17. a second connection pipe; 18. an exhaust pipe; 19. a chute; 20. a limiting block; 21. a fixed block; 22. a first threaded rod; 23. a first motor; 24. a heating plate; 25. a mounting frame; 26. clamping plates are arranged; 27. a second threaded rod; 28. and a second motor.

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 can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1:

referring to fig. 1-5, an argon charging device for hollow glass processing comprises a base 1, wherein a fixed disc 2 is fixedly arranged on the base 1, a rotating disc 3 is rotatably arranged on the fixed disc 2, a rotating hole 4 is formed in the fixed disc 2, a rotating column 5 matched with the rotating hole 4 is arranged on the rotating disc 3, thereby facilitating the rotation of the rotating disc 3, a plurality of mounting holes 6 are formed in the rotating disc 3, a clamping structure is rotatably arranged in the mounting holes 6, hollow glass with different thickness is clamped through the clamping structure, supporting frames 7 are fixedly arranged at two ends of the base 1, an electric push rod 8 is arranged on one supporting frame 7, an air charging head 9 is fixedly arranged at the front end of the electric push rod 8, the air charging head 9 is driven to ascend or descend through the electric push rod 8, the inflatable head 9 is sleeved with the inflatable bag 10, the inflatable bag 10 is fixedly connected with the inflatable head 9, the detection box 11 is slidably arranged on the other supporting frame 7, the clamping structure comprises a mounting frame 25 and a clamping plate 26, the mounting frame 25 is rotationally connected with the mounting hole 6, a second threaded rod 27 is rotationally arranged between the mounting frame 25 and the clamping plate 26, the second threaded rod 27 is in threaded connection with the mounting frame 25 and is rotationally connected with the clamping plate 26, hollow glass with different thicknesses is clamped conveniently, the lower end of the fixed disc 2 is fixedly provided with a second motor 28, the output end of the second motor 28 is connected with the rotating column 5, and the rotating disc 3 is driven to rotate through the second motor 28, so that the whole structure of the whole inflatable device is formed through cooperation of all parts.

Referring to fig. 1-5, in the present embodiment, an extension plate 12 is fixedly disposed at a side end of a support frame 7 connected to an air charging head 9, an air storage tube 13, a first air pump 14 and a second air pump 15 are fixedly disposed on the extension plate 12, first connecting tubes 16 are disposed between the air storage tube 13 and the first air pump 14, and between the first air pump 14 and the air charging head 9, the first connecting tubes 16 are hoses, so as to move along with the extension or contraction of the electric push rod 8, the air storage tube 13, the first air pump 14 and the air charging head 9 are communicated through the first connecting tubes 16, a second connecting tube 17 is disposed between the second air pump 15 and the air charging bag 10, the second connecting tube 17 is a hose, an air extraction tube 18 is fixedly disposed at a lower end of the air storage tube 13, the air extraction tube 18 is communicated with the air storage tube 13, the air in an argon bottle is fed into the air storage tube 13 through the air extraction tube 18, a chute 19 is disposed on the support frame 7 connected to the detection box 11, the side end of the detection box 11 is provided with a limiting block 20 matched with the sliding groove 19, the detection box 11 is in sliding connection with the sliding groove 19, the support frame 7 is detachably provided with a fixed block 21, the fixed block 21 is in bolt connection with the support frame 7, so that the detection box 11 can slide up and down along the support frame 7, a first threaded rod 22 is rotatably arranged in the support frame 7, the first threaded rod 22 is in threaded connection with the detection box 11, a first motor 23 is fixedly arranged on the fixed block 21, the output end of the first motor 23 is connected with the first threaded rod 22, the first threaded rod 22 is driven to rotate by the first motor 23, so as to drive the detection box 11 to move, the side end of the detection box 11 is detachably provided with a heating plate 24, the inside of the detection box 11 is heated by the heating plate 24, so that the hollow glass is inflated and the hollow glass is detected in quality, is convenient for the production of the argon-filled hollow glass.

Example 2:

to sum up, when using whole device to aerify hollow glass, firstly place hollow glass respectively on mounting bracket 25, according to hollow glass's thickness, through threaded connection between second threaded rod 27 and the mounting bracket 25, rotate second threaded rod 27, second threaded rod 27 drives clamping plate 26 and removes, carry out the clamping to hollow glass through the removal of two clamping plates 26, thereby it is tight to press from both sides hollow glass, be convenient for aerify hollow glass, after hollow glass installs, start second motor 28, through the connection between second motor 28 and the pivoted post 5, second motor 28 drives the rotation, thereby drive the pivoted disc 3 and rotate, will need the hollow glass who aerifys rotate to the support frame 7 lower extreme of being connected with the head 9 that aerifys, drive through electric putter 8 and aerify head 9 and go deep into in the gas filling hole of seting up on the hollow glass, with the argon gas fills hollow glass inside.

Example 3:

to sum up, when the inflation head 9 stretches into the gas cylinder of storing the argon gas when seting up the inflation inlet on the hollow glass, stretch into the exhaust tube 18 in the gas cylinder of storing the argon gas, extract the argon gas through first air pump 14, the argon gas gets into the gas receiver 13 through exhaust tube 18, get into first air pump 14 through first connecting pipe 16 between gas receiver 13 and the first air pump 14, get into the first 9 of inflation head 9 through first connecting pipe 16 between first air pump 14 and the inflation head, thereby inflate the hollow glass inside, when the inflation head 9 is inflated, the second air pump 15 pumps the outside air into the gas cell 10 through the second connecting pipe 17, the gas cell 10 inflation, thereby with the gap between the inflation inlet of seting up on inflation head 9 and the hollow glass blocks up, reduce the waste of argon gas, after the hollow glass is inflated and is accomplished, the rotating the support frame 7 that makes the hollow glass that the inflation accomplished is connected with inflation head 9, reach between two support frames 7, through operating personnel rotation mounting bracket 25 inspection whether hollow glass exists damage etc., the hollow glass that the inspection accomplished continues to rotate and send into the hollow glass that will inflate the inspection box 11 lower extreme, first motor 23 drives first threaded rod 22, thereby the hollow glass is passed through the detection box that the temperature of the first threaded rod is passed through the detection box, the hollow glass is passed through the detection box is passed through to the detection 22, the temperature difference between the hollow glass is passed through the inspection box is qualified, and the hollow glass is detected, the air cell 11 is heated, and the temperature is judged, and the air is passed through, and the temperature is detected, and the air is heated, and the temperature is detected.

In summary, in all the above mentioned embodiments, the welding, the bolt and nut matching connection, the bolt or screw connection or other known connection modes may be selected according to the actual situation, and are not described in detail herein, where the above description refers to a fixed connection with writing, and the welding is the priority, although the embodiments of the utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations may be made to these embodiments without departing from the principle and spirit of the utility model, the scope of which is defined by the appended claims and their equivalents.

Claims (7)

1. The utility model provides a cavity glass processing is with filling argon gas device, includes base (1), a serial communication port, fixed disk (2) that is provided with on base (1), rotationally be provided with rolling disc (3) on rolling disc (2), rolling hole (4) have been seted up on rolling disc (2), be provided with on rolling disc (3) with rolling hole (4) complex rotation post (5), mounting hole (6) have been seted up on rolling disc (3), mounting hole (6) are provided with a plurality of, rotationally be provided with clamping structure in mounting hole (6), support frame (7) are all fixed to be provided with in the both ends of base (1), one be provided with electric putter (8) on support frame (7), the front end of electric putter (8) is fixedly provided with and is inflated first (9), the cover is equipped with on inflating first (9) and is inflated and be provided with fixed connection between first (9), another slidable is provided with on support frame (7) with on the case and detects (11).

2. The argon filling device for hollow glass processing according to claim 1, wherein an extension plate (12) is fixedly arranged at the side end of a support frame (7) connected with the air filling head (9), an air storage cylinder (13), a first air pump (14) and a second air pump (15) are fixedly arranged on the extension plate (12), and first connecting pipes (16) are arranged between the air storage cylinder (13) and the first air pump (14) and between the first air pump (14) and the air filling head (9).

3. An argon filling device for hollow glass processing according to claim 2, wherein the air reservoir (13), the first air pump (14) and the air filling head (9) are communicated through a first connecting pipe (16), a second connecting pipe (17) is arranged between the second air pump (15) and the air filling bag (10), an air extraction pipe (18) is fixedly arranged at the lower end of the air reservoir (13), and the air extraction pipe (18) is communicated with the air reservoir (13).

4. The argon filling device for hollow glass processing according to claim 1, wherein a chute (19) is formed in a support frame (7) connected with the detection box (11), a limit block (20) matched with the chute (19) is arranged at the side end of the detection box (11), the detection box (11) and the chute (19) are in sliding connection, a fixing block (21) is detachably arranged on the support frame (7), and the fixing block (21) is in bolt connection with the support frame (7).

5. The argon filling device for hollow glass processing according to claim 4, wherein a first threaded rod (22) is rotatably arranged in the supporting frame (7), the first threaded rod (22) is in threaded connection with the detection box (11), a first motor (23) is fixedly arranged on the fixed block (21), the output end of the first motor (23) is connected with the first threaded rod (22), and a heating plate (24) is detachably arranged at the side end of the detection box (11).

6. The argon filling device for hollow glass processing according to claim 1, wherein the clamping structure comprises a mounting frame (25) and a clamping plate (26), the mounting frame (25) is rotationally connected with the mounting hole (6), a second threaded rod (27) is rotatably arranged between the mounting frame (25) and the clamping plate (26), and the second threaded rod (27) is in threaded connection with the mounting frame (25) and is rotationally connected with the clamping plate (26).

7. The argon filling device for hollow glass processing according to claim 1, wherein a second motor (28) is fixedly arranged at the lower end of the fixed disc (2), and the output end of the second motor (28) is connected with the rotating column (5).