CN219259872U - Sealing mechanism of argon inflator - Google Patents

Abstract

The utility model relates to a sealing mechanism of an argon inflator, which comprises a base, wherein a rotating mechanism for changing the position of glass is arranged on the bottom wall of an inner cavity of the base, a fixing device is fixed on the upper surface of the rotating mechanism, hollow glass is fixed in the fixing device, an inflation tube and a sealing tube are communicated with the upper surface of the fixing device, and a limiting mechanism for limiting the rotating mechanism is arranged on the bottom wall of the inner cavity of the base. This sealing mechanism of argon gas inflator is through rotating seat, first installation piece, infrared emitter, bull stick, fixed plate, pivot, motor, slider, cylinder, infrared receiver and the cooperation of second installation piece make the cavity glass of accomplishing processing and carry out the position exchange for the cavity glass of accomplishing processing under rotary mechanism's effect to make the workman can process the cavity glass of another side when dismantling, thereby make work efficiency improve greatly.

Description

Sealing mechanism of argon inflator

Technical Field

The utility model relates to the technical field of hollow glass inflation, in particular to a sealing mechanism of an argon inflator.

Background

The hollow glass is a novel building material with good heat insulation, sound insulation, attractive appearance and applicability and capable of reducing the self weight of a building, two or three pieces of glass are used, a high-strength high-air-tightness composite adhesive is used for bonding the glass pieces and an aluminum alloy frame containing a drying agent, the manufactured high-efficiency sound insulation and heat insulation glass is required to be inflated with argon after the hollow glass is processed, heat convection and heat conduction in the hollow glass can be slowed down, the heat conduction capacity of the whole hollow glass is weakened, the heat absorbed by the outer piece of glass is effectively prevented from flowing indoors, the hollow glass is required to be taken down after the hollow glass is inflated with argon, the hollow glass is required to be input with sealing liquid for sealing, the inflated argon is leaked in the taking down process, and the processing of the hollow glass is further influenced, and therefore the hollow glass argon inflating device with a sealing mechanism is designed.

According to the utility model, when hollow glass is mounted on a mounting plate, the limiting block moves in the limiting groove under the action of the threaded rod through adjusting the threaded rod, so that the supporting plate is driven to move and then close to the side wall of the hollow glass, clamping is carried out on the hollow glass by two side clamping plates while contacting, dropping of the hollow glass in the argon filling process is prevented by matching with the mounting plate and the supporting rod, argon filling can be carried out on the hollow glass at the same time, and the hollow glass clamping device is suitable for clamping hollow glass with different sizes, and therefore the working efficiency is improved.

The above-mentioned patent still has certain defect, accomplishes the cavity glass who fills argon gas through the sealed tube and seals also to accomplish simultaneously the argon gas work of filling into to a plurality of cavity glass through a plurality of mounting brackets, but need stop equipment operation and let the workman spend certain time to dismantle cavity glass after filling, lead to work efficiency to descend greatly, need dismantle one by one and then consume more time simultaneously after accomplishing because of having a plurality of cavity glass to carry out work simultaneously.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a sealing mechanism of an argon inflator, which has the advantages of high working efficiency and the like, and solves the problems that after the inflation is finished, equipment operation is required to be stopped, and workers take a certain time to detach hollow glass, so that the working efficiency is greatly reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the sealing mechanism of the argon inflator comprises a base, wherein a rotating mechanism for changing the position of glass is arranged on the bottom wall of an inner cavity of the base, a fixing device is fixed on the upper surface of the rotating mechanism, hollow glass is fixed in the fixing device, an inflation tube and a sealing tube are communicated with the upper surface of the fixing device, and a limiting mechanism for limiting the rotating mechanism is arranged on the bottom wall of the inner cavity of the base;

the rotary mechanism comprises a motor fixed on the bottom wall of an inner cavity of a base, a rotary shaft connected inside the base in a rotary mode is fixed on the outer side of an output shaft of the motor, a rotary seat is fixed on the top end of the rotary shaft, sliding blocks connected inside the base in a sliding mode are fixed on the bottom wall of the inner cavity of the rotary seat, two fixing plates are fixed on the left side and the right side of the rotary seat, a rotary rod is connected to one side, opposite to the fixing plates, of the rotary rod, a roller attached to the inner cavity wall of the base is fixed on the outer side of the rotary rod, a first mounting block is fixed on the upper surface of the rotary seat, an infrared emitter is fixed on the left side of the first mounting block, two second mounting blocks are fixed on the upper surface of the base, and an infrared receiver is fixed on one side, opposite to the second mounting blocks.

Further, the diapire of base inner chamber is equipped with the mounting hole, the inside of mounting hole is fixed with first bearing, the inside at first bearing is fixed to the pivot.

Further, the opposite sides of the two adjacent fixing plates are provided with mounting grooves, second bearings are fixed in the mounting grooves, and the rotating rods are fixed in the second bearings.

Further, the bottom wall of the inner cavity of the base is provided with a sliding groove, the sliding block is in clearance fit with the base through the sliding groove, and the cross section of the sliding block is T-shaped.

Further, the two infrared receivers are symmetrical to each other left and right by taking the central axis of the rotating seat as a symmetry line, the upper surface of the base is provided with a rotating groove, and the length of the rotating seat is smaller than that of an inner cavity of the rotating groove.

Further, stop gear is including fixing the electric putter at base inner chamber diapire, the outside of electric putter output shaft is fixed with the lifter plate, the upper surface of lifter plate is fixed with the locating plate.

Further, a first positioning groove and a second positioning groove are formed in the lower surface of the rotating seat, the positioning plate is inserted into the first positioning groove and the second positioning groove, and the first positioning groove is located on the left side of the second positioning groove.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

1. this sealing mechanism of argon gas inflator is through rotating seat, first installation piece, infrared emitter, bull stick, fixed plate, pivot, motor, slider, cylinder, infrared receiver and the cooperation of second installation piece make the cavity glass of accomplishing processing and carry out the position exchange for the cavity glass of accomplishing processing under rotary mechanism's effect to make the workman can process the cavity glass of another side when dismantling, thereby make work efficiency improve greatly.

2. This sealing mechanism of argon gas inflator carries out spacingly through the cooperation of electric putter, lifter plate and locating plate to rotating the seat under stop gear's effect, makes it fixed after rotatory in place to avoided leading to its drive to be aerifing or sealed cavity glass one rotatory cause the problem of processing failure because of the mistake start motor, reached stability and the security that has improved equipment operation.

Drawings

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

FIG. 2 is a schematic view of a rotary mechanism according to the present utility model;

fig. 3 is a schematic view of a limiting mechanism according to the present utility model.

In the figure: 1 a rotating mechanism, 101 a rotating seat, 102 a first mounting block, 103 an infrared transmitter, 104 a rotating rod, 105 a fixing plate, 106 a rotating shaft, 107 a motor, 108 a sliding block, 109 a roller, 110 an infrared receiver, 111 a second mounting block, 2 a fixing device, 3 an inflation tube, 4 a sealing tube, 5 hollow glass, 6 a base, 7 a limiting mechanism, 701 an electric push rod, 702 a lifting plate and 703 a positioning plate.

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, a sealing mechanism of an argon gas inflator in this embodiment includes a base 6, a rotary mechanism 1 for changing a glass position is disposed on a bottom wall of an inner cavity of the base 6, a fixing device 2 is fixed on an upper surface of the rotary mechanism 1, hollow glass 5 is fixed in the fixing device 2, an inflation tube 3 and a sealing tube 4 are communicated with an upper surface of the fixing device 2, a limiting mechanism 7 for limiting the rotary mechanism 1 is disposed on a bottom wall of the inner cavity of the base 6, an inflation device for inflating argon gas is fixed on a left side of the base 6, electrical components appearing in the sealing mechanism are electrically connected with a main controller and a power supply, and the main controller can be conventional known equipment for controlling a computer and the like, and the power connection technology disclosed in the prior art is not repeated herein.

Referring to fig. 2, in order to improve the working efficiency, the rotating mechanism 1 in this embodiment includes a motor 107 fixed on the bottom wall of the inner cavity of the base 6, a rotating shaft 106 rotationally connected to the inner cavity of the base 6 is fixed on the outer side of the output shaft of the motor 107, a rotating base 101 is fixed on the top end of the rotating shaft 106, a sliding block 108 slidingly connected to the bottom wall of the inner cavity of the base 6 is fixed on the bottom wall of the inner cavity of the rotating base 101, the motor 107 drives the rotating shaft 106 to rotate through the output shaft, and drives the rotating base 101 to rotate together through the rotating shaft 106, the two sliding blocks 108 rotate together with the rotating base 101, so as to drive the two hollow glass 5 to exchange positions, two fixing plates 105 are fixed on the left side and the right side of the rotating base 101, a rotating rod 104 is rotationally connected to one side of the two fixing plates 105, a roller 109 attached to the inner cavity wall of the base 6 is fixed on the outer side of the rotating rod 104, a first mounting block 102 is fixed on the left side of the first mounting block 102, an infrared transmitter 103 is fixed on the upper surface of the base 6, two second mounting blocks 111 are fixed on the upper surface of the outer side of the rotating base 6, two opposite sides of the two second mounting blocks 111 are both fixed with infrared receivers 110, when the infrared transmitters 103 are rotated by the infrared transmitter 103, the infrared transmitter is turned off, and the infrared receiver 107 is turned off by the right side of the infrared receiver 5, and the infrared transmitter is turned off, and the infrared receiver 5.

In this embodiment, the bottom wall of the inner cavity of the base 6 is provided with a mounting hole, a first bearing is fixed in the mounting hole, a rotating shaft 106 is fixed in the first bearing, the rotating shaft 106 is rotationally connected in the base 6 through the first bearing, mounting grooves are formed in opposite sides of two adjacent fixing plates 105, a second bearing is fixed in the mounting grooves, a rotating rod 104 is fixed in the second bearing, the rotating rod 104 is rotationally connected in the fixing plates 105 through the second bearing, a sliding groove is formed in the bottom wall of the inner cavity of the base 6, a sliding block 108 is in clearance fit with the base 6 through the sliding groove, the cross section of the sliding block 108 is in a T shape, the left and right shaking of the rotating seat 101 is prevented through the matching of the sliding block 108 and the sliding groove, the central axes of the rotating seat 101 are symmetrical to each other, the rotating grooves are formed in the upper surface of the base 6, the length of the rotating seat 101 is smaller than the length of the inner cavity of the rotating grooves, and the models of the infrared emitter 103 and the infrared receiver 110 are FBCA30/TBSA30.

The rotary mechanism 1 is configured to exchange positions between the hollow glass 5 to be processed and the hollow glass 5 to be processed by the cooperation of the rotary base 101, the first mounting block 102, the infrared emitter 103, the rotary rod 104, the fixing plate 105, the rotary shaft 106, the motor 107, the sliding block 108, the roller 109, the infrared receiver 110 and the second mounting block 111, so that a worker can process the hollow glass 5 on the other side while detaching the hollow glass, thereby greatly improving the working efficiency.

Referring to fig. 3, in order to prevent the hollow glass 5 in the inflation from rotating due to the false start of the device, the limiting mechanism 7 in the present embodiment includes an electric push rod 701 fixed on the bottom wall of the inner cavity of the base 6, a lifting plate 702 is fixed on the outer side of the output shaft of the electric push rod 701, a positioning plate 703 is fixed on the upper surface of the lifting plate 702, the electric push rod 701 drives the lifting plate 702 to move downwards through the output shaft, and drives two positioning plates 703 to move downwards together through the lifting plate 702 and gradually separate from the rotating base 101 so as to contact the limitation of the rotating base 101.

In this embodiment, the lower surface of the rotating seat 101 is provided with a first positioning groove and a second positioning groove, the positioning plate 703 is inserted into the first positioning groove and the second positioning groove, the first positioning groove is located at the left side of the second positioning groove, the control mode of the present utility model is controlled by the controller, the control circuit of the controller can be implemented by simple programming of a person skilled in the art, the supply of the power source also belongs to the common general knowledge in the art, and the present utility model is mainly used for protecting the mechanical device, so the present utility model does not explain the control mode and the circuit connection in detail.

It should be noted that, the limiting mechanism 7 limits the rotating seat 101 through the cooperation of the electric push rod 701, the lifting plate 702 and the positioning plate 703, so that the rotating seat is fixed after rotating in place, thereby avoiding the problem that the motor 107 is started by mistake to drive the hollow glass 5 which is being inflated or sealed to rotate so as to cause processing failure, and improving the stability and safety of equipment operation.

The working principle of the embodiment is as follows:

(1) The left hollow glass 5 is inflated by argon and is sealed, the electric push rod 701 is started, the electric push rod 701 drives the lifting plate 702 to move downwards through the output shaft, the lifting plate 702 drives the two positioning plates 703 to move downwards together and gradually separate from the first positioning grooves, the rotating mechanism 1 can be started after the first positioning grooves are completely separated from the positioning plates 703, the limiting mechanism 7 limits the rotating seat 101 through the cooperation of the electric push rod 701, the lifting plate 702 and the positioning plates 703, so that the rotating seat 101 is fixed after rotating in place, and the problem that the rotating seat fails in processing due to the fact that the rotating hollow glass 5 which is inflated or sealed is driven by the motor 107 is started by mistake is avoided, and the stability and the safety of equipment operation are improved.

(2) The motor 107 is started after the limiting mechanism 7 contacts and limits, the motor 107 drives the rotating shaft 106 to rotate through the output shaft, the rotating seat 101 is driven to rotate together through the rotating shaft 106, the two sliding blocks 108 rotate together with the rotating seat 101, meanwhile, the fixing plates 105 on the left side and the right side drive the roller 109 to roll on the inner cavity wall of the base 6, when the infrared rays emitted by the infrared ray emitter 103 are received by the infrared ray receiver 110 on the right side, the motor 107 is closed, the position of the processed hollow glass 5 and the position of the unprocessed hollow glass 5 can be exchanged, then the unprocessed hollow glass 5 can be inflated through the inflation device, workers detach the processed hollow glass 5 on the other side and replace the unprocessed hollow glass 5, and the rotation mechanism 1 enables the processed hollow glass 5 and the hollow glass 5 to be exchanged through the cooperation of the rotating seat 101, the first mounting block 102, the infrared ray emitter 103, the rotating rod 104, the fixing plate 105, the rotating shaft 106, the motor 107, the sliding blocks 108, the roller 109 and the infrared ray receiver 110, and the second mounting block 111, so that the processed hollow glass 5 can be detached, and the other side can be detached, and the work efficiency of workers can be greatly improved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a sealing mechanism of argon gas inflator, includes base (6), its characterized in that: the bottom wall of the inner cavity of the base (6) is provided with a rotating mechanism (1) for changing the position of glass, the upper surface of the rotating mechanism (1) is fixedly provided with a fixing device (2), hollow glass (5) is fixed in the fixing device (2), the upper surface of the fixing device (2) is communicated with an air charging pipe (3) and a sealing pipe (4), and the bottom wall of the inner cavity of the base (6) is provided with a limiting mechanism (7) for limiting the rotating mechanism (1);

the rotary mechanism (1) comprises a motor (107) fixed on the bottom wall of an inner cavity of a base (6), a rotating shaft (106) rotationally connected to the inner side of the base (6) is fixed on the outer side of an output shaft of the motor (107), a rotating seat (101) is fixed on the top end of the rotating shaft (106), sliding blocks (108) slidingly connected to the inner side of the base (6) are fixed on the bottom wall of the inner cavity of the rotating seat (101), two fixing plates (105) are fixed on the left side and the right side of the rotating seat (101), a rotating rod (104) is rotationally connected to one side opposite to the fixing plates (105), a roller (109) attached to the inner cavity wall of the base (6) is fixed on the outer side of the rotating rod (104), a first mounting block (102) is fixed on the upper surface of the rotating seat (101), an infrared emitter (103) is fixed on the left side of the first mounting block (102), two second mounting blocks (111) are fixed on the upper surface of the base (6), and infrared receivers (110) are fixed on one side opposite to the second mounting blocks (111).

2. The sealing mechanism for an argon inflator of claim 1, wherein: the bottom wall of the inner cavity of the base (6) is provided with a mounting hole, a first bearing is fixed in the mounting hole, and the rotating shaft (106) is fixed in the first bearing.

3. The sealing mechanism for an argon inflator of claim 1, wherein: and the two adjacent fixed plates (105) are provided with mounting grooves on opposite sides, second bearings are fixed in the mounting grooves, and the rotating rod (104) is fixed in the second bearings.

4. The sealing mechanism for an argon inflator of claim 1, wherein: the sliding block (108) is in clearance fit with the base (6) through the sliding groove, and the cross section of the sliding block (108) is T-shaped.

5. The sealing mechanism for an argon inflator of claim 1, wherein: the two infrared receivers (110) are symmetrical to each other left and right by taking the central axis of the rotating seat (101) as a symmetry line, a rotating groove is formed in the upper surface of the base (6), and the length of the rotating seat (101) is smaller than that of an inner cavity of the rotating groove.

6. The sealing mechanism for an argon inflator of claim 1, wherein: the limiting mechanism (7) comprises an electric push rod (701) fixed on the bottom wall of the inner cavity of the base (6), a lifting plate (702) is fixed on the outer side of an output shaft of the electric push rod (701), and a positioning plate (703) is fixed on the upper surface of the lifting plate (702).

7. The sealing mechanism for an argon inflator of claim 6, wherein: the lower surface of the rotating seat (101) is provided with a first positioning groove and a second positioning groove, the positioning plate (703) is inserted into the first positioning groove and the second positioning groove, and the first positioning groove is positioned on the left side of the second positioning groove.

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