CN221032228U - Inflation production line in hollow glass plate - Google Patents

Abstract

The utility model discloses an inflation production line in a hollow glass plate, which comprises a mounting frame, a position adjusting mechanism, an adsorption mechanism and an inflation mechanism; and (3) mounting frame: the four corners of the bottom surface are respectively provided with a supporting leg position adjusting mechanism: the device is arranged on the front side of the inside of the mounting frame; adsorption mechanism: which is arranged inside the position adjusting mechanism; an inflation mechanism: the position of the air charging mechanism corresponds to the position of the adsorption mechanism, the air charging mechanism further comprises a single chip microcomputer, the single chip microcomputer is arranged on the outer side face of the mounting frame, the input end of the single chip microcomputer is electrically connected with an external power supply, the position adjusting mechanism comprises a sliding groove, a screw rod, a position adjusting sliding block, a position adjusting frame, a chain and a chain wheel, the air charging production line in the hollow glass plate is used for accurately adjusting the position of the hollow glass plate when the hollow glass plate is inflated, manual carrying of the hollow glass plate is not needed, and the defective rate of production of the hollow glass plate is reduced.

Description

Inflation production line in hollow glass plate

Technical Field

The utility model relates to the technical field of hollow glass production, in particular to an inflation production line in a hollow glass plate.

Background

The hollow glass plate is composed of two or more layers of flat glass, the periphery of the hollow glass plate is bonded with sealing strips and glass strips by using a high-strength high-air-tightness composite adhesive, the two or more pieces of glass are sealed, the middle of the hollow glass plate is filled with drying gas, and a drying agent is filled in the frame to ensure the dryness of air between the glass plates;

in the prior art, in the process of inflation, for protecting a hollow glass plate, a rubber protection frame is generally installed around a glass plate body, then the hollow glass plate is manually moved to a designated position, and then an external instrument is regulated to inflate:

The problem of the existing part, such as complicated production workshop, is that the rubber protection frame is additionally arranged, but the stress of the glass plate is uneven or knocked, so that the defect rate of the glass plate is improved, and therefore, the hollow glass plate internal inflation production line is provided.

Disclosure of utility model

The utility model aims to overcome the existing defects, provides an air inflation production line in a hollow glass plate, can accurately position the hollow glass plate during air inflation, and can effectively solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an inflatable production line in a hollow glass plate comprises a mounting frame, a position adjusting mechanism, an adsorption mechanism and an inflation mechanism;

and (3) mounting frame: the four corners of the bottom surface are respectively provided with a support leg

Position adjustment mechanism: the device is arranged on the front side of the inside of the mounting frame;

Adsorption mechanism: which is arranged inside the position adjusting mechanism;

An inflation mechanism: the device is arranged on the left side of the inside of the mounting frame, the air charging mechanism corresponds to the left and right positions of the adsorption mechanism, the hollow glass plate is accurately adjusted in position when being inflated, the hollow glass plate is not required to be manually conveyed, and the defective rate of hollow glass plate production is reduced.

Further, the intelligent electric control device further comprises a single chip microcomputer, wherein the single chip microcomputer is arranged on the outer side face of the mounting frame, the input end of the single chip microcomputer is electrically connected with an external power supply, and the electric control device is controlled to normally operate.

Further, position adjustment mechanism includes spout, screw rod, position adjustment slider, position adjustment frame, chain and sprocket, the spout is seted up respectively in the upside inner wall of mounting bracket and the front side of downside inner wall, and the inside of spout is all rotated and is connected with the screw rod, and threaded connection has position adjustment slider respectively on the right side of screw rod, every two transversely adjacent position adjustment sliders respectively with the inside sliding connection of corresponding spout, respectively with a position adjustment frame fixed connection between four position adjustment sliders, the equal fixedly connected with sprocket in left end of screw rod, two sprockets pass through chain drive connection, realize transverse position adjustment.

Further, still include driving motor, driving motor fixed connection is in the right flank lower extreme of mounting bracket, and driving motor's output shaft is fixed connection with the right-hand member of the screw rod of downside, and driving motor's input electricity is connected the output of singlechip, provides driving force for horizontal position adjustment.

Further, adsorption equipment includes mounting panel, guide bar, electric telescopic handle one, glass electric sucking disc, direction slider and connection platform, the guide bar is fixedly connected with in the inside left and right sides of position control frame respectively, both ends are sliding connection respectively to the outer cambered surface of guide bar about, the leading flank of four direction sliders all with the trailing flank fixed connection of a mounting panel, the leading flank fixedly connected with glass electric sucking disc of mounting panel, the trailing flank upper end fixedly connected with connection platform of mounting panel, the downside inner wall fixedly connected with electric telescopic handle one of position control frame, the flexible end and the lower fixed surface of connection platform of electric telescopic handle one are connected, the output of singlechip is connected to the input electricity of electric telescopic handle one, the outside air pump of glass electric sucking disc external connection, realize fore-and-aft position control and place hollow glass board's function.

Further, the inflation mechanism comprises an electric telescopic rod II, an inflation nozzle and an installation table, the electric telescopic rod II is fixedly connected to the left end of the front side face of the installation frame, the installation table is fixedly connected to the telescopic end of the electric telescopic rod II, the inflation nozzle is respectively arranged at the upper end and the lower end of the front side face of the installation table, and the input end of the electric telescopic rod II is electrically connected with the output end of the singlechip to achieve the inflation function.

Further, the inflation mechanism further comprises an argon gas inflator, the argon gas inflator is arranged in the mounting frame, an air outlet pipe of the argon gas inflator is respectively communicated with a corresponding inflation nozzle, the argon gas inflator is externally connected with an external air pump, and an input end of the argon gas inflator is electrically connected with an output end of the singlechip to generate inflation gas.

Compared with the prior art, the utility model has the beneficial effects that: the hollow glass plate internal inflation production line has the following advantages:

When needing to carry out cavity glass board and aerifing, control outside air pump, glass electric sucking disc starts, cavity glass board is placed on the glass electric sucking disc, this moment, regulation and control singlechip, driving motor operation, driving motor's output shaft forward reverse rotation, and then drive the forward reverse rotation of screw rod, and then drive another screw rod forward reverse rotation through chain and sprocket, and then drive position control slider and control the position control, and then drive the position control frame and control the position control, and then drive cavity glass board and control the position control, regulation and control singlechip, an operation of electric telescopic handle, the extension and the shrink of the flexible end of electric telescopic handle one, and then drive the mounting panel through the connection board and carry out upper and lower position control, and then drive glass electric sucking disc and carry out upper and lower position control, and then adjust the height of cavity glass board, make the charging connector aim at the position with cavity glass board, regulate and control singlechip, the air inlet and the charging connector of cavity glass board involutes, this moment, regulate and control argon gas inflator, to the cavity glass board is inflated in the cavity glass board, treat and control the back after the inflation and control singlechip, cavity glass board moves to appointed position right, regulate and control glass electric sucking disc takes place the rotation because of the cavity glass board carries out the density and is greater than air, when the hollow glass board is left in the cavity glass board is convenient to take out, the manual position when the hollow glass board is accurately unloaded to the inside when the hollow glass board is taken down, the manual when the hollow glass board is required to be unloaded to be inflated.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the adsorption mechanism of the present utility model.

In the figure: the device comprises a mounting frame 1, a position adjusting mechanism 2, a sliding groove 21, a screw rod 22, a position adjusting slide block 23, a position adjusting frame 24, a chain 25, a chain wheel 26, an adsorption mechanism 3, a mounting plate 31, a guide rod 32, an electric telescopic rod 33I, a glass electric sucker 34, a guide slide block 35, a connecting table 36, an inflating mechanism 4, an argon inflator 41, an electric telescopic rod 42 II, an inflating nozzle 43, an installing table 44, a supporting foot 5, a single chip microcomputer 6 and a driving motor 7.

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.

Referring to fig. 1-2, the present embodiment provides a technical solution: an inflatable production line in a hollow glass plate comprises a mounting frame 1, a position adjusting mechanism 2, an adsorption mechanism 3 and an inflation mechanism 4;

Mounting bracket 1: the four corners of the bottom surface of the device are respectively provided with a support leg 5, the device further comprises a single chip microcomputer 6, the single chip microcomputer 6 is arranged on the outer side surface of the mounting frame 1, the input end of the single chip microcomputer 6 is electrically connected with an external power supply, and the device is placed on a designated station through the support legs 5;

Position adjustment mechanism 2: the position adjusting mechanism 2 comprises a sliding groove 21, a screw 22, position adjusting sliding blocks 23, a position adjusting frame 24, a chain 25 and a chain wheel 26, wherein the sliding groove 21 is respectively arranged on the front sides of the upper inner wall and the lower inner wall of the mounting frame 1, the screw 22 is rotationally connected to the inner part of the sliding groove 21, the right side of the screw 22 is respectively in threaded connection with the position adjusting sliding blocks 23, every two transversely adjacent position adjusting sliding blocks 23 are respectively in sliding connection with the corresponding sliding groove 21, four position adjusting sliding blocks 23 are respectively fixedly connected with one position adjusting frame 24, the left end of the screw 22 is fixedly connected with the chain wheel 26, the two chain wheels 26 are in transmission connection through the chain 25, the position adjusting mechanism further comprises a driving motor 7, the driving motor 7 is fixedly connected to the lower end of the right side surface of the mounting frame 1, the output shaft of the driving motor 7 is fixedly connected with the right end of the screw 22 on the lower side, the input end of the driving motor 7 is electrically connected with the output end of the singlechip 6, the singlechip 6 is in threaded connection with the driving motor 7, the driving motor 7 is in forward and reverse rotation, the driving screw 22 is driven to rotate in reverse, the forward and then, the driving shaft 22 is driven to rotate in reverse, the position adjusting frame is driven by the chain 25 and the chain 26 drives the other position adjusting frame to rotate in reverse, the left and right position is driven by the left and right position adjusting frame is driven to adjust the position of the left adjusting frame, and the left and the position is driven to adjust the position of the left adjusting frame and is driven to rotate, and the position is further, and the position is adjusted to be driven to adjust the position and the position, and is adjusted to be driven to rotate and the right and the position, and is adjusted;

Adsorption mechanism 3: the suction mechanism 3 comprises a mounting plate 31, a guide rod 32, an electric telescopic rod I33, a glass electric sucking disc 34, guide sliding blocks 35 and a connecting table 36, wherein the guide rod 32 is respectively and fixedly connected to the left side and the right side of the inside of the position adjusting frame 24, the guide sliding blocks 35 are respectively and slidingly connected to the upper end and the lower end of an outer cambered surface of the guide rod 32, the front side surfaces of the four guide sliding blocks 35 are fixedly connected with the rear side surface of the mounting plate 31, the front side surface of the mounting plate 31 is fixedly connected with the glass electric sucking disc 34, the upper end of the rear side surface of the mounting plate 31 is fixedly connected with the connecting table 36, the lower inner wall of the lower side of the position adjusting frame 24 is fixedly connected with the electric telescopic rod I33, the telescopic end of the electric telescopic rod I33 is fixedly connected with the lower surface of the connecting table 36, the input end of the electric telescopic rod I33 is electrically connected with the output end of the single chip microcomputer 6, the external air pump is externally connected to control the external air pump, the glass electric sucking disc 34 is started, a hollow glass plate is placed on the glass electric sucking disc 34, the single chip microcomputer 6 is regulated and controlled to operate, the electric telescopic rod I33 is stretched and contracted, the upper end of the electric telescopic rod I33 is further connected with the electric telescopic rod I33, and then the upper end of the mounting plate 31 is driven by the electric telescopic rod I, the electric telescopic rod I is driven by the electric telescopic rod I and lower end to be aligned with the hollow glass sucking disc 43, and the position of the hollow glass plate 43 is further regulated by the upper position of the hollow glass plate 43, and the position is adjusted by the upper position of the upper air valve 43;

Inflation mechanism 4: the device is arranged on the left side of the inside of the installation frame 1, the inflation mechanism 4 corresponds to the left and right positions of the adsorption mechanism 3, the inflation mechanism 4 comprises an electric telescopic rod II 42, an inflation nozzle 43 and an installation table 44, the electric telescopic rod II 42 is fixedly connected to the left end of the front side surface of the installation frame 1, the installation table 44 is fixedly connected to the telescopic end of the electric telescopic rod II 42, the inflation nozzle 43 is respectively arranged at the upper end and the lower end of the front side surface of the installation table 44, the input end of the electric telescopic rod II 42 is electrically connected with the output end of the single chip microcomputer 6, the inflation mechanism 4 further comprises an argon gas inflator 41, the argon gas inflator 41 is arranged in the inside of the installation frame 1, an air outlet pipe of the argon gas inflator 41 is respectively communicated with the corresponding inflation nozzle 43, an external air pump is connected to the outside of the argon gas inflator 41, the input end of the argon gas inflator 41 is electrically connected with the output end of the single chip microcomputer 6, the air inlet of the hollow glass plate is matched with the inflation nozzle 43, at this moment, the argon gas inflator 41 is inflated into the hollow glass plate, after the inflation is completed, the single chip microcomputer 6 is moved to the appointed position, the hollow glass plate is rotated right, at this moment, the density of the electric suction of the air pump is adjusted and controlled to be larger than the density than the air pump of the hollow glass plate, and then the air pump is left inside the hollow glass plate is manually unloaded.

The utility model provides a working principle of an inflation production line in a hollow glass plate, which comprises the following steps: the device is placed on appointed station through stabilizer blade 5, control outside air pump, glass electric sucking disc 34 starts, hollow glass board places on glass electric sucking disc 34, at this moment, regulate and control singlechip 6, driving motor 7 moves, driving motor 7's output shaft forward reverse rotation, and then drive screw rod 22 forward reverse rotation, and then drive another screw rod 22 forward reverse rotation through chain 25 and sprocket 26, and then drive position control slider 23 and control the position control, and then drive position control frame 24 and control the position control, and then drive hollow glass board and control the position control, regulation and control singlechip 6, electric telescopic rod 33 moves, electric telescopic rod 33's flexible end extension and shrink, and then drive mounting panel 31 through connecting table 36 and carry out upper and lower position control, and then drive glass electric sucking disc 34 and carry out upper and lower position control, and then adjust the height of hollow glass board, make charging connector 43 aim at the position with hollow glass board, regulate and control singlechip 6, hollow glass board's air inlet and charging connector 43 are involution this moment, regulate and control argon gas inflator 41, to hollow glass board is inflated, wait to aerify the back, singlechip 6, the position control frame 24 is controlled about carrying out, and then drive hollow glass board and control the electric sucking disc's manual suction that can take place in the hollow glass board after the hollow glass board is moved to the appointed position, at this moment, the hollow glass board is unloaded to the inside air pump 34 is rotated to the manual air pump that can take place when the hollow glass sucking disc is rotated to the inside the glass plate.

It should be noted that, in the above embodiment, the single-chip microcomputer 6 is specifically configured as a single-chip microcomputer of the type S3C44B0X01-ED80, the first electric telescopic rod 33, the glass electric chuck 34, the argon gas inflator 41, the second electric telescopic rod 42 and the driving motor 7 can be freely configured according to practical application scenarios, the first electric telescopic rod 33 and the second electric telescopic rod 42 suggest to use a DMDT series industrial electric push rod, the glass electric chuck 34 can use GVSL400 to rotatably turn over the glass electric chuck, the driving motor 7 can use a NEMA23 series stepper motor, the argon gas inflator 41 can use ZCL02 hollow glass inflator, and the single-chip microcomputer 6 controls the operation of the first electric telescopic rod 33, the glass electric chuck 34, the argon gas inflator 41, the second electric telescopic rod 42 and the driving motor 7 all adopt methods commonly used in the prior art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (7)

1. An inflatable production line in cavity glass board, its characterized in that: comprises a mounting frame (1), a position adjusting mechanism (2), an adsorption mechanism (3) and an inflation mechanism (4);

Mounting bracket (1): the four corners of the bottom surface are respectively provided with a support leg (5);

Position adjustment mechanism (2): the device is arranged on the front side of the inside of the mounting frame (1);

Adsorption mechanism (3): which is arranged in the position adjusting mechanism (2);

Inflation mechanism (4): the air charging mechanism is arranged on the left side of the inside of the mounting frame (1), and the air charging mechanism (4) corresponds to the left and right positions of the adsorption mechanism (3).

2. A hollow glass inboard inflation line as claimed in claim 1, wherein: the intelligent electric power supply device is characterized by further comprising a singlechip (6), wherein the singlechip (6) is arranged on the outer side face of the mounting frame (1), and the input end of the singlechip (6) is electrically connected with an external power supply.

3. A hollow glass inboard inflation line as claimed in claim 2, wherein: position adjustment mechanism (2) include spout (21), screw rod (22), position control slider (23), position control frame (24), chain (25) and sprocket (26), the upside inner wall and the downside front side of inboard inner wall of mounting bracket (1) are seted up respectively to spout (21), the inside of spout (21) is all rotated and is connected with screw rod (22), the right side of screw rod (22) is threaded connection has position control slider (23) respectively, every two transversely adjacent position control slider (23) respectively with the inside sliding connection of corresponding spout (21), respectively with a position control frame (24) fixed connection between four position control slider (23), the equal fixedly connected with sprocket (26) in left end of screw rod (22), two sprockets (26) are connected through chain (25) transmission.

4. A hollow glass inboard inflation line according to claim 3, wherein: the device further comprises a driving motor (7), wherein the driving motor (7) is fixedly connected to the lower end of the right side face of the mounting frame (1), an output shaft of the driving motor (7) is fixedly connected with the right end of a screw rod (22) at the lower side, and the input end of the driving motor (7) is electrically connected with the output end of the single chip microcomputer (6).

5. A hollow glass inboard inflation line according to claim 3, wherein: the adsorption mechanism (3) comprises a mounting plate (31), guide rods (32), first electric telescopic rods (33), glass electric sucking discs (34), guide sliding blocks (35) and a connecting table (36), wherein the guide rods (32) are fixedly connected to the left side and the right side of the inside of the position adjusting frame (24), the guide sliding blocks (35) are respectively and slidably connected to the upper end and the lower end of the extrados of each guide rod (32), the front side faces of the four guide sliding blocks (35) are fixedly connected with the rear side face of the mounting plate (31), the glass electric sucking discs (34) are fixedly connected to the front side face of the mounting plate (31), the connecting table (36) is fixedly connected to the upper end of the rear side face of the mounting plate (31), the first electric telescopic rods (33) are fixedly connected to the lower side inner wall of the position adjusting frame (24), the telescopic ends of the first electric telescopic rods (33) are fixedly connected to the lower surface of the connecting table (36), and the input ends of the first electric telescopic rods (33) are electrically connected with the output ends of the single-chip microcomputer (6), and the outer air pump is connected to the outside the glass electric sucking discs (34).

6. A hollow glass inboard inflation line as claimed in claim 2, wherein: the inflation mechanism (4) comprises an electric telescopic rod II (42), an inflation nozzle (43) and an installation table (44), the electric telescopic rod II (42) is fixedly connected to the left end of the front side face of the installation frame (1), the installation table (44) is fixedly connected to the telescopic end of the electric telescopic rod II (42), the inflation nozzle (43) is respectively arranged at the upper end and the lower end of the front side face of the installation table (44), and the input end of the electric telescopic rod II (42) is electrically connected with the output end of the single chip microcomputer (6).

7. The hollow glass inboard inflation line of claim 6, wherein: the inflation mechanism (4) further comprises an argon gas inflator (41), the argon gas inflator (41) is arranged in the installation frame (1), an air outlet pipe of the argon gas inflator (41) is respectively communicated with the corresponding inflation nozzle (43), the argon gas inflator (41) is externally connected with an external air pump, and the input end of the argon gas inflator (41) is electrically connected with the output end of the singlechip (6).