CN117754195A - Isolation cabin welding auxiliary tool - Google Patents

Isolation cabin welding auxiliary tool Download PDF

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Publication number
CN117754195A
CN117754195A CN202410194431.XA CN202410194431A CN117754195A CN 117754195 A CN117754195 A CN 117754195A CN 202410194431 A CN202410194431 A CN 202410194431A CN 117754195 A CN117754195 A CN 117754195A
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China
Prior art keywords
frame
sliding
plate
fixedly connected
welding
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CN202410194431.XA
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Chinese (zh)
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CN117754195B (en
Inventor
曾世清
李菊荣
刘艳华
唐海森
刘扬州
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Suzhou Hongji Clean Technology Co ltd
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Suzhou Hongji Clean Technology Co ltd
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Priority to CN202410194431.XA priority Critical patent/CN117754195B/en
Publication of CN117754195A publication Critical patent/CN117754195A/en
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Publication of CN117754195B publication Critical patent/CN117754195B/en
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Abstract

The application discloses an auxiliary welding tool for an isolation cabin, and belongs to the technical field of welding of isolator frames. An isolation cabin welding auxiliary fixture, comprising: the welding platform is provided with a plurality of fixing frames around; the first adjusting mechanism is used for driving the fixing frame to move; the bottom of the movable frame is fixedly connected with a pressing rod; the movable plate is provided with a front fixed plate and a rear fixed plate at one side, and a second adjusting mechanism for driving the movable plate to move is arranged at one side of the movable plate; the third adjusting mechanism is used for driving the front fixed plate and the rear fixed plate to be matched with the movable plate; the movable frame is provided with a first air passage for driving the first support frame to move; the second support frame, be provided with the second air flue on the removal frame for drive the second support frame removes. The application has the effect of improving the working efficiency.

Description

Isolation cabin welding auxiliary tool
Technical Field
The application relates to the technical field of welding of isolator frames, in particular to an auxiliary welding tool for an isolation cabin.
Background
The isolation capsule is a frame structure of a sterile isolator, which is a device for processing biological samples under sterile conditions. It is commonly used in biological laboratory environments for processing biological samples of bacteria, fungi, cell cultures, etc., to ensure that the samples are not contaminated from the outside. Sterile isolators are typically a sealed table or closed apparatus, typically equipped with a highly efficient air filtration system inside to ensure a sterile environment is maintained during operation. The operator can operate through the glove port and other sealing means to avoid contamination of the sample.
When welding the isolation cabin, in order to guarantee the inside environment of aseptic isolator, need weld the isolation cabin to make the inside gap that can not leave of aseptic isolator, through buckling into two C style of calligraphy frames with the isolation cabin panel, then fix isolation cabin panel position, because the isolation cabin panel uses sheet metal material, in order to prevent panel deformation, paste fixed strip and isolation cabin panel tightly afterwards, and fix through the fixed pincers, weld two frames of isolation cabin at last.
To above-mentioned correlation technique, when welding the isolation cabin, because the size of isolation cabin is uneven, need use not equidimension's fixed strip to fix, when welding the isolation cabin of different specification size moreover, need operating personnel to change the fixed strip of different specifications and weld, be unfavorable for improvement work efficiency when improving operating personnel working strength.
Disclosure of Invention
In view of the above, the application provides an auxiliary welding tool for an isolation cabin, which reduces the working strength of operators on one hand and is beneficial to improving the working efficiency on the other hand.
In order to solve the technical problems, the application provides an auxiliary welding tool for an isolation cabin, which comprises the following components: the welding platform is used for supporting the isolation cabin, and a plurality of fixing frames are arranged around the welding platform; the first adjusting mechanism is used for driving the fixing frame to move so as to fix the bottom of the isolation cabin; the welding device comprises a welding platform, a movable frame, a pressing rod, a rotating source and a pressing rod, wherein the welding platform is connected with the welding platform in a sliding mode; the movable plate is connected to the movable frame in a sliding manner, a front fixed plate and a rear fixed plate are arranged on one side of the movable plate, and a second adjusting mechanism for driving the movable plate to move is arranged on one side of the movable plate; the third adjusting mechanism is used for driving the front fixing plate and the rear fixing plate to be matched with the moving plate to fix the top of the isolation cabin; the first support frame is provided with a first air passage and is used for driving the first support frame to move and matched with the moving plate; the second support frame, be provided with the second air flue on the movable frame, be used for driving the second support frame removes and with the mount cooperation.
Through adopting above-mentioned technical scheme, first support frame and second support frame can adapt to the isolation cabin of different size specifications, and preceding fixed plate can be adjusted in order to adapt to the inclination of isolation cabin inclined plane one side, under the effect of mount, hold-down bar, movable plate, preceding fixed plate, back fixed plate, first support frame and second support frame, makes isolation cabin frame keep level to be favorable to reducing operating personnel's working strength and improve work efficiency.
Optionally, a driving shaft of the rotation source is fixedly connected with a driving screw, and the movable frame is in threaded connection with the driving screw.
Optionally, first adjustment mechanism include fixed connection in welding platform's slide rail, a plurality of spacing grooves have been seted up at the slide rail top, slide rail sliding connection has the carriage, sliding connection has the slide bar on the carriage, slide bar bottom fixedly connected with is located stay cord in the carriage, stay cord keep away from slide bar one end fixedly connected with spacing groove complex restriction round pin, be provided with two-way screw rod in the carriage, the equal fixedly connected with first knob in two-way screw rod both ends, threaded connection has first slider on the two-way screw rod, first slider top sliding connection has the second slider, the second slider with first slider sets up perpendicularly, threaded connection has first screw rod in the second slider, mount fixedly connected with in the second slider, the second slider is kept away from mount one end fixedly connected with second knob, first screw rod with two-way screw rod sets up perpendicularly.
Through adopting above-mentioned technical scheme, through the removal drive mount removal of carriage, first slider and second slider, can fix the isolation cabin base angle, for great clamping action, reduce the probability of isolation cabin sheet metal deformation through the mechanism of lead screw slider.
optionally, the second adjustment mechanism includes the second screw rod, the second screw rod with movable plate threaded connection, the second screw rod is kept away from the one end fixedly connected with third knob of movable plate.
Optionally, third adjustment mechanism including set up in the third screw rod in the clamp bar, the third screw rod keep away from the one end fixedly connected with fourth knob of movable frame, the third screw rod with back fixed plate threaded connection, keep away from in the clamp bar one side of third screw rod is provided with the fourth screw rod, the fourth screw rod is kept away from one end fixedly connected with fifth knob of third screw rod, threaded connection has the third slider on the fourth screw rod, preceding fixed plate articulate in third slider bottom, one side fixedly connected with connecting plate of preceding fixed plate is kept away from to third slider bottom, the connecting plate bottom rotates and is connected with the fourth slider, preceding fixed plate bottom rotation is connected with the fifth slider, the fourth slider with the equal threaded connection of fifth slider has the fifth screw rod, the fifth screw rod is kept away from preceding fixed plate one end fixedly connected with sixth knob.
Through adopting above-mentioned technical scheme, the setting of preceding fixed plate can adapt to the isolation cabin of different specifications, can adapt to the angle on isolation cabin inclined plane to enable isolation cabin level and smooth, preceding fixed plate and back fixed plate can reduce the probability that isolation cabin frame outwards outstanding, in order to follow-up welding.
optionally, first gas path includes first gas tube, sliding connection has the second gas tube that the level set up in the first gas tube, the second gas tube keep away from the one end fixed connection of first gas tube in first support frame, the second gas tube set up to hollow tube and with the inside intercommunication of first support frame, first support frame top sliding connection has the slip post, slip post top fixedly connected with push pedal, can the butt keep apart cabin inner wall when the push pedal upwards moves, the push pedal with fixedly connected with first reset spring between the diapire in the first support frame.
Through adopting above-mentioned technical scheme, through first support frame and movable plate mutually supporting and push pedal and hold-down bar mutually supporting can make the isolation cabin sheet metal keep level to be convenient for weld the isolation cabin.
Optionally, the second air flue include vertical fixed set up in the third gas tube at movable frame top, third gas tube inside sliding communication has the fourth gas tube, fourth gas tube inside sliding communication has the fifth gas tube, fifth gas tube bottom fixed communication has the sixth gas tube, the inside all sliding communication of sixth gas tube both sides has the seventh gas tube, seventh gas tube sliding communication in the second support frame, the both sides all sliding communication of second support frame have the bracing piece, can with isolation cabin inner wall butt when the bracing piece removes, every seventh gas tube outside all is provided with the limit frame, the limit frame with fixedly connected with second reset spring between the seventh gas tube, set up on the second support frame with the limit groove of limit frame joint, second support frame sliding connection has the restriction pole that is used for restricting the bracing piece removes, the restriction pole with be provided with third reset spring between the second support frame, third gas tube top with the inside sliding communication of fifth gas tube has the bracing piece, be provided with between the fifth reset spring between the second support frame, the fifth reset spring is provided with between the second support frame.
Through adopting above-mentioned technical scheme, can prevent through the setting of limit frame and restriction pole that the second support frame from expanding when not reaching isolation cabin bottom and causing to hit the machine, be favorable to follow-up welding work's normal clear, and the second support frame removes to stop moving when keeping apart cabin inner wall butt to can adapt to the isolation cabin of different specifications, and then be favorable to reduction and the improvement of work efficiency of operating personnel working strength.
Optionally, the first exhaust pipe of removal frame top intercommunication has, welding platform one side fixedly connected with the second exhaust pipe of first exhaust pipe sliding communication, be provided with in the second exhaust pipe and block the baffle of the inside intercommunication of second exhaust pipe, the baffle is close to welding platform one side fixedly connected with rotor plate, rotor plate with be provided with the clockwork spring that resets between the baffle, the spout has been seted up on the removal frame, it makes to promote to move the rotor plate rotation rotor plate slides in the spout when moving down, the rotor plate rotates and drives the baffle rotates makes the inside intercommunication of second exhaust pipe.
Through adopting above-mentioned technical scheme, remove the movable frame and promote the pivoted board and rotate when removing the frame and move down, the pivoted board rotates the back and can slide in the spout, removes the frame and continues to move down, and the pivoted board rotates and drives the baffle and rotate to open the UNICOM of second exhaust duct, so that follow-up welding process is discharged fume go on, opens the UNICOM before welding work begins and is favorable to keeping the cleanliness factor that keeps keeping apart cabin internal environment.
in summary, compared with the prior art, the application has at least one of the following beneficial technical effects:
1. The first support frame and the second support frame can adapt to the isolation cabins with different sizes, the front fixing plate can be adjusted so as to adapt to the inclination of one side of the inclined plane of the isolation cabin, and under the action of the fixing frame, the pressing rod, the moving plate, the front fixing plate, the rear fixing plate, the first support frame and the second support frame, the isolation cabin frame is kept flat, so that the working strength of operators is reduced, and the working efficiency is improved;
2. Compared with larger clamping actions, the arrangement of the front fixing plate for reducing the deformation probability of the isolation cabin sheet through the mechanism of the lead screw sliding block can adapt to isolation cabins of different specifications, and the angle of the inclined plane of the isolation cabin is correspondingly adjusted, so that the isolation cabin is smooth, and the probability of outward protrusion of the isolation cabin frame can be reduced by the front fixing plate and the rear fixing plate, so that subsequent welding is facilitated;
3. The arrangement of the limiting frame and the limiting rod can prevent the second supporting frame from being unfolded to cause collision when the sixth inflation tube does not reach the bottom of the isolation cabin, so that the follow-up welding work can be normally carried out;
4. The isolation cabin is kept fixed through multiple times of adjustment, so that the welding precision is improved.
Drawings
FIG. 1 is a schematic diagram of an embodiment of the present application;
fig. 2 is a schematic structural view showing a rear fixing plate and a first smoke exhaust duct according to an embodiment of the present application;
Fig. 3 is a schematic structural diagram showing a first support frame and a second support frame according to an embodiment of the present application;
FIG. 4 is a schematic view showing the structure of an isolation cabin according to an embodiment of the present application;
FIG. 5 is a schematic diagram showing the structure of a pull rope and a limiting pin according to an embodiment of the present application;
FIG. 6 is an enlarged view of a portion of the area A of FIG. 1 in accordance with an embodiment of the present application;
FIG. 7 is a schematic view showing the structure of the third screw and the fourth screw according to the embodiment of the present application;
FIG. 8 is a schematic view showing the structure of a fifth screw and a front fixing plate according to an embodiment of the present application;
FIG. 9 is a schematic diagram showing the structure of the first air passage and the second air passage according to the embodiment of the application;
FIG. 10 is a schematic view showing the structure of a push plate and a sliding column according to an embodiment of the present application;
FIG. 11 is a schematic view showing the construction of a third inflation tube and a fourth return spring in accordance with an embodiment of the present application;
FIG. 12 is an enlarged view of a portion of the area B of FIG. 11 according to an embodiment of the present application;
FIG. 13 is a schematic view showing the construction of a restraining bar and a third return spring in accordance with an embodiment of the present application;
Fig. 14 is a schematic view showing the structure of a baffle and a rotating plate according to an embodiment of the present application.
Reference numerals illustrate: 1. a welding platform; 11. a fixing frame; 2. a first adjustment mechanism; 21. a slide rail; 211. a limit groove; 22. a carriage; 23. a slide bar; 231. a pull rope; 232. a limiting pin; 24. a bidirectional screw; 25. a first knob; 26. a first slider; 27. a second slider; 28. a first screw; 29. a second knob; 3. a moving rack; 31. a pressing rod; 32. a rotating source; 321. a drive screw; 33. a moving plate; 34. a front fixing plate; 35. a rear fixing plate; 36. a first smoke exhaust duct; 37. a second smoke exhaust duct; 371. a baffle; 372. a rotating plate; 373. resetting the spring; 374. a chute; 4. a second adjustment mechanism; 41. a second screw; 42. a third knob; 5. a third adjustment mechanism; 51. a third screw; 52. a fourth knob; 53. a fourth screw; 531. a fifth knob; 54. a third slider; 55. a connecting plate; 56. a fourth slider; 57. a fifth slider; 58. a fifth screw; 59. a sixth knob; 6. a first support frame; 7. a first airway; 71. a first inflation tube; 72. a second inflation tube; 73. a sliding column; 74. a push plate; 75. a first return spring; 8. a second support frame; 9. a second airway; 91. a third inflation tube; 911. a fourth inflation tube; 912. a fifth inflation tube; 913. a sixth inflation tube; 914. a seventh inflation tube; 92. a support rod; 93. a limiting frame; 94. a second return spring; 95. a limiting groove; 96. a restraining bar; 961. a third return spring; 97. a fourth return spring; 98. a fifth return spring; 99. and a sixth return spring.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to fig. 1 to 14 of the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, embodiments of the application. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the application, fall within the scope of protection of the application.
Referring to fig. 1, fig. 2, fig. 3 and fig. 4, an auxiliary welding fixture for an isolation cabin comprises a welding platform 1 erected on a horizontal plane, wherein the welding platform 1 is provided with a transverse plate, a vertical plate vertical to the transverse plate and a cuboid supporting table integrally formed with the transverse plate, the supporting table of the welding platform 1 is used for supporting the isolation cabin (referring to fig. 4), four fixing frames 11 are arranged around the welding platform 1, a first adjusting mechanism 2 for driving the fixing frames 11 to move to fix four corners at the bottom of the isolation cabin is arranged on the welding platform 1, a movable frame 3 is slidably connected with the vertical plate of the welding platform 1, a pressing rod 31 is fixedly connected with the bottoms of two sides of the movable frame 3, the pressing rod 31 is parallel to the transverse plate width direction of the welding platform 1, a rotary source 32 is arranged at the top of the vertical plate of the welding platform 1, a transmission screw 321 is fixedly connected with an output shaft of the rotary source 32, the movable frame 3 is in threaded connection with the transmission screw 321 and can perform vertical linear movement, the movable plate 33 is slidably connected with the two sides of the movable frame 3, the movable plate 33 is parallel to the transverse plate direction of the welding platform 1, one side of the movable plate 33 is provided with the first adjusting mechanism 2 for driving the fixing frames 11 to move to fix four corners at the bottom of the isolation cabin, a first side wall 33 is arranged on one side of the movable plate 33, a first side of the movable plate 33 is matched with the movable frame 33, a first side 35 for driving the movable frame 33 is arranged on the fixed side of the movable frame 6, a first side 33 is matched with the fixed side 33, a fixed side 35 is arranged on the movable frame 6, a fixed side of the movable frame 6 is arranged on the movable frame 6, and a fixed side 35 is matched with the movable frame is arranged on the movable frame 6, and is matched side 35, and is arranged on the fixed side 35, and is arranged on the movable side 3, and is matched with the movable side 3, and is in parallel side 3, the movable frame 3 is also provided with two second support frames 8 which are horizontally arranged, the second support frames 8 are vertically arranged with the first support frames 6, gaps which are convenient for welding are formed in the first support frames 6 and the second support frames 8, and the movable frame 3 is also provided with a second air passage 9 which is used for driving the second support frames 8 to be matched with the fixing frames 11 so as to enable the side wall of the bottom of the isolation cabin to be flat.
When the isolation cabin is required to be welded, firstly, two frames of the isolation cabin are placed on the welding platform 1, then four corners of the bottom of the isolation cabin are fixed through the first adjusting mechanism 2, then the rotating source 32 is started to enable the movable frame 3 to move downwards and enable the pressing rods 31 to abut against the top of the isolation cabin, then the second adjusting mechanism 4 drives the movable plate 33 to move and abut against two sides of the isolation cabin, then the third adjusting mechanism 5 drives the front fixing plate 34 and the rear fixing plate 35 to fix the other two sides of the isolation cabin, then the first supporting frame 6 is matched with the movable plate 33 and the second supporting frame 8 is matched with the fixing frame 11 to enable the frames of the isolation cabin to be smooth, so that operators can weld the isolation cabin, the first supporting frame 6 and the second supporting frame 8 can adapt to the isolation cabins with different sizes, and the front fixing plate 34 can be adjusted so as to adapt to the inclination of one side of the inclined plane of the isolation cabin, so that the working strength of the operators is reduced and the working efficiency is improved.
Referring to fig. 1, fig. 4, fig. 5 and fig. 6, the first adjustment mechanism 2 includes two sliding rails 21 fixedly connected to the welding platform 1, the sliding rails 21 are parallel to the direction of the length of the transverse plate of the welding platform 1, a plurality of limiting grooves 211 are respectively formed in the top of each sliding rail 21, two sliding frames 22 are slidably connected to the sliding rails 21, the sliding frames 22 are slidably connected to the moving frames 3, the sliding frames 22 are arranged on two sides of the side walls of the width direction of the welding platform 1, the sliding frames 22 are arranged to be H-shaped sliding frames 22, each sliding frame 22 can slide on the two sliding rails 21, two sliding rods 23 are respectively horizontally and slidably connected to the transverse rod of each sliding frame 22, pull ropes 231 positioned in the vertical rods of the sliding frames 22 are respectively and fixedly connected to the bottoms of each sliding rod 23, two limiting pins 232 matched with the limiting grooves 211 are respectively and fixedly connected to one end of each pull rope 231 far away from the sliding rod 23, two bidirectional screws 24 are respectively arranged in the transverse rod of each sliding frame 22, two ends of each bidirectional screw 24 are fixedly connected to first knobs 25, two first sliding blocks 26 are respectively connected to two sliding blocks 26, each second sliding blocks 27 are respectively connected to two first sliding blocks 27 and second sliding blocks 27 are respectively and two second sliding blocks 11 are respectively and two fixed to each second sliding blocks 27 are respectively and are respectively connected to two second sliding blocks 11 and each second sliding blocks 11 and are respectively and each second sliding blocks 27 is fixedly connected to one second sliding rod 27.
When the fixing frame 11 needs to be adjusted, firstly, an operator moves the slide bar 23, then the slide bar 23 drives the pull rope 231 to move and enables the limiting pin 232 to be separated from the limiting groove 211, then the sliding frame 22 is moved to enable the fixing frame 11 to be close to the isolation cabin, then the first knob 25 is rotated to enable the two-way screw 24 to rotate and enable the two first sliding blocks 26 to be close to each other, so that the fixing frame 11 is close to the isolation cabin, then the second knob 29 is rotated to enable the first screw 28 to rotate, finally the fixing frame 11 is enabled to fix four corners at the bottom of the isolation cabin, the fixing frame 11 is driven to move through the movement of the sliding frame 22, the first sliding blocks 26 and the second sliding blocks 27, the bottom corners of the isolation cabin can be fixed, and compared with larger clamping actions, the probability of deformation of a thin plate of the isolation cabin is reduced through a mechanism of the screw sliding blocks.
Referring to fig. 2, the second adjusting mechanism 4 includes two second screws 41, the second screws 41 are disposed perpendicular to the moving plate 33, the second screws 41 are in threaded connection with the moving plate 33, and one end of each second screw 41, which is far away from the moving plate 33, is fixedly connected with a third knob 42, respectively.
when the moving plate 33 needs to be adjusted, the third knob 42 is rotated first to rotate the second screw 41, and then the moving plate 33 is driven to move and abut against two sides of the isolation cabin, so that the side plates of the isolation cabin cannot protrude outwards, and the subsequent welding work is facilitated.
Referring to fig. 1, 7 and 8, the third adjusting mechanism 5 includes third screws 51 respectively disposed in each pressing rod 31, one end of each third screw 51 extending out of each pressing rod 31 is respectively fixedly connected with a fourth knob 52, the third screws 51 are in threaded connection with a rear fixing plate 35, one side of each pressing rod 31 far away from each third screw 51 is respectively provided with a fourth screw 53, one end of each fourth screw 53 far away from each third screw 51 is respectively fixedly connected with a fifth knob 531, each fourth screw 53 is respectively in threaded connection with a third slider 54, the front fixing plate 34 is hinged to the bottom of each third slider 54, one side of each third slider 54 far away from each front fixing plate 34 is respectively fixedly connected with a connecting plate 55, the bottom of each connecting plate 55 is respectively in rotational connection with a fourth slider 56, the bottom of each front fixing plate 34 is respectively in rotational connection with a fifth slider 57, the fourth slider 56 and the fifth slider 57 are in threaded connection with a fifth screw 58, and one end of each fifth screw 58 far away from the front fixing plate 34 is fixedly connected with a sixth knob 59.
When the front fixing plate 34 and the rear fixing plate 35 need to be adjusted, the fourth knob 52 is rotated to enable the third screw 51 to rotate, then the rear fixing plate 35 moves to be abutted against the side wall of the isolation cabin far away from the inclined plane, and the inclination of one side of the inclined plane of the isolation cabin changes, so that the front fixing plate 34 is hinged to the bottom of the third sliding block 54, then the fifth knob 531 is rotated to enable the fourth screw 53 to rotate, then the third sliding block 54 moves to drive the front fixing plate 34 to be close to the isolation cabin, then the sixth knob 59 is rotated to enable the fifth screw 58 to rotate, and therefore the front fixing plate 34 is attached to the isolation cabin, the arrangement of the front fixing plate 34 can adapt to the isolation cabin with different specifications, and the isolation cabin can be leveled, so that subsequent welding is facilitated.
Referring to fig. 1, 9 and 10, the first air passage 7 includes a first air tube 71 perpendicular to the moving plate 33 (refer to fig. 8), a second air tube 72 is slidably connected in the first air tube 71, one end of the second air tube 72, which is far away from the first air tube 71, is fixedly connected to the first support frame 6, the first support frame 6 is hollow, the second air tube 72 is provided as a hollow tube and is communicated with the interior of the first support frame 6, the top of each first support frame 6 is vertically and slidably connected with a sliding column 73, the top of the sliding column 73 is fixedly connected with a push plate 74, the push plate 74 can abut against the inner top wall of the isolation cabin when moving upwards, and the bottom of the sliding column 73 is fixedly connected with a first return spring 75.
When the first support frame 6 needs to be adjusted, the first air charging pipe 71 is firstly charged, then the second air charging pipe 72 is pushed to move and drive the first support frame 6 to move, then the first support frame 6 is abutted with the inner wall of the isolation cabin, then air flows from the second air charging pipe 72 to the inside of the first support frame 6 and pushes the push plate 74 to move upwards to be abutted with the inner wall of the isolation cabin, and the isolation cabin thin plate can be kept flat through the mutual matching of the first support frame 6 and the moving plate 33 and the mutual matching of the push plate 74 and the compression rod 31, so that the isolation cabin is convenient to weld.
Referring to fig. 9, 11, 12 and 13, the second air flue 9 (refer to fig. 1) comprises two third air inflation pipes 91 vertically and fixedly arranged at the top of the movable frame 3, a fourth air inflation pipe 911 is respectively and slidably communicated in each third air inflation pipe 91, a fifth air inflation pipe 912 is respectively and slidably communicated in each fourth air inflation pipe 911, a sixth air inflation pipe 913 in a shape of a Chinese character kou is fixedly and fixedly communicated at the bottom of the fifth air inflation pipe 912, the communication position of the fifth air inflation pipe 912 and the sixth air inflation pipe 913 is positioned on a pipeline of the sixth air inflation pipe 913 perpendicular to the second support frame 8, both sides of the inner part of each pipeline of the sixth air inflation pipe 913 perpendicular to the second support frame 8 are respectively and slidably communicated with a seventh air inflation pipe 914, both sides of the length direction of the second support frame 8 are respectively and slidably communicated with a support rod 92, when the support rod 92 moves, the support rod 92 can be abutted with the inner wall of the isolation cabin, the outside of one side of every seventh gas tube 914 that keeps away from second support frame 8 all is provided with limit frame 93, fixedly connected with second reset spring 94 between limit frame 93 and the seventh gas tube 914, set up the restriction groove 95 with limit frame 93 joint on the second support frame 8, sliding connection has the restriction pole 96 that is used for restricting the bracing piece 92 removal between second support frame 8, fixedly connected with third reset spring 961 between restriction pole 96 and the second support frame 8, fixedly connected with fourth reset spring 97 between third gas tube 91 top and the fifth gas tube 912 bottom, be provided with two fifth reset springs 98 between two second support frames 8, fifth reset spring 98 passes seventh gas tube 914 and the sixth gas tube 913 setting of every side, be provided with sixth reset spring 99 between two bracing pieces 92 on every second support frame 8 respectively.
When the second support frame 8 needs to be adjusted, firstly, air is filled into the third air charging pipe 91, then the fourth air charging pipe 911 starts to move downwards, then the fifth air charging pipe 912 moves downwards, when the sixth air charging pipe 913 contacts the bottom wall of the isolation cabin, the limiting frame 93 abuts against the bottom wall of the isolation cabin and moves upwards, so that the seventh air charging pipe 914 moves and drives the second support frame 8 to move to abut against the inner side wall of the isolation cabin, the isolation cabin frame is kept flat by being matched with the fixing frame 11, when the second support frame 8 abuts against the inner wall of the isolation cabin, the limiting rod 96 moves to release the limitation of the supporting rod 92, then the supporting rod 92 moves to abut against the inner wall of the isolation cabin, so that the isolation cabin frame is kept flat, the second support frame 8 is unfolded to cause a collision machine when the sixth air charging pipe 913 does not reach the bottom of the isolation cabin through the arrangement of the limiting frame 93 and the limiting rod 96, the normal operation of subsequent welding work is facilitated, and the second support frame 8 stops moving when the second support frame 8 abuts against the inner wall of the isolation cabin, so that the isolation cabin frames can be adapted to different isolation cabins, and the work intensity of operators is reduced and the work efficiency is improved.
Referring to fig. 2 and 14, a first smoke exhaust duct 36 is communicated with the top of the moving frame 3, a second smoke exhaust duct 37 which is in up-down sliding communication with the first smoke exhaust duct 36 is fixedly connected to one side of the welding platform 1, a baffle 371 is arranged in the second smoke exhaust duct 37, the diameter of the baffle 371 is equal to that of the inner wall of the second smoke exhaust duct 37, a rotating plate 372 is fixedly connected to one side of the baffle 371, which is close to the welding platform 1, a reset spring 373 is arranged between the rotating plate 372 and the baffle 371, a sliding groove 374 is formed in the moving frame 3, and when the moving frame 3 moves downwards, the rotating plate 372 is pushed to rotate so that the rotating plate 372 slides in the sliding groove 374, and the rotating plate 372 rotates to drive the baffle 371 to rotate so that the second smoke exhaust duct 37 is communicated with the inside.
When the fume generated by welding needs to be discharged, the movable frame 3 pushes the rotary plate 372 to rotate when the movable frame 3 moves downwards, the rotary plate 372 can slide in the sliding groove 374 after rotating, the movable frame 3 continues to move downwards, and the rotary plate 372 rotates to drive the baffle 371 to rotate, so that the second fume exhaust pipeline 37 is opened to facilitate the fume exhaust in the subsequent welding process, and the opening of the communication before the welding work starts is beneficial to keeping the cleanliness of the environment in the isolation cabin.
The implementation principle of the auxiliary welding tool for the isolation cabin is as follows: firstly, placing two frames of the isolation cabin on the welding platform 1, then, moving a sliding rod 23 by an operator, then, moving a pull rope 231 by the sliding rod 23, and enabling a limiting pin 232 to be separated from a limiting groove 211, then, moving a sliding frame 22 to enable a fixed frame 11 to be close to the isolation cabin, then, rotating a first knob 25 to enable a bidirectional screw 24 to rotate and enable two first sliding blocks 26 to be close to each other, thereby enabling the fixed frame 11 to be close to the isolation cabin, then, rotating a second knob 29 to enable a first screw 28 to rotate, enabling the fixed frame 11 to fix four corners at the bottom of the isolation cabin, then, starting a rotation source 32 to enable the movable frame 3 to move downwards and enable a pressing rod 31 to be abutted against the top of the isolation cabin, then, the third knob 42 is rotated to rotate the second screw 41, then the moving plate 33 is driven to move and abut against two sides of the isolation cabin, the fourth knob 52 is rotated to rotate the third screw 51, then the rear fixing plate 35 is moved and abuts against a side wall of the isolation cabin far away from the inclined plane, and as the inclination of one side of the inclined plane of the isolation cabin is changed, the front fixing plate 34 is hinged to the bottom of the third sliding block 54, then the fifth knob 531 is rotated to rotate the fourth screw 53, then the third sliding block 54 is moved to drive the front fixing plate 34 to approach the isolation cabin, and then the sixth knob 59 is rotated to rotate the fifth screw 58, so that the front fixing plate 34 is attached to the isolation cabin.
Then, the first air tube 71 is inflated, then the second air tube 72 is pushed to move and drive the first support frame 6 to move, then the first support frame 6 is abutted against the inner wall of the isolation cabin, then air flows from the second air tube 72 to the inside of the first support frame 6, the push plate 74 is pushed to move upwards and abut against the inner wall of the isolation cabin, then air is inflated into the third air tube 91, then the fourth air tube 911 starts to move downwards, then the fifth air tube 912 moves downwards, when the sixth air tube 913 contacts the bottom wall of the isolation cabin, the limiting frame 93 abuts against the bottom wall of the isolation cabin and moves upwards, so that the seventh air tube 914 moves and drives the second support frame 8 to move and abut against the inner wall of the isolation cabin, and the limiting rod 96 is matched with the fixing frame 11 to keep the isolation cabin frame flat, when the second support frame 8 abuts against the inner wall of the isolation cabin, the limiting rod 92 is moved to abut against the inner wall of the isolation cabin, the isolation cabin frame is kept flat, then the isolation cabin is welded, after the welding is completed, the first air tube 71 and the third air tube 91 are abutted against the bottom wall of the isolation cabin, so that the first support frame 6 and the second support frame 8 are reset, and finally the welding is not carried out.
Furthermore, it should be noted that, in the description of the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application can be understood by those skilled in the art according to the specific circumstances.
While the foregoing is directed to the preferred embodiments of the present application, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present application, and such modifications and adaptations are intended to be comprehended within the scope of the present application.

Claims (8)

1. An isolation cabin welding auxiliary fixture, which is characterized by comprising:
The welding platform (1) is used for supporting the isolation cabin, and a plurality of fixing frames (11) are arranged around the welding platform (1);
the first adjusting mechanism (2) is used for driving the fixing frame (11) to move so as to fix the bottom of the isolation cabin;
the welding device comprises a movable frame (3), a welding platform (1) and a pressing rod (31), wherein the movable frame (3) is connected to the welding platform (1) in a sliding mode, the bottom of the movable frame (3) is fixedly connected with the pressing rod, and a rotating source (32) for driving the movable frame (3) to vertically move is arranged at the top of the welding platform (1);
The movable plate (33) is connected to the movable frame (3) in a sliding manner, a front fixed plate (34) and a rear fixed plate (35) are arranged on one side of the movable plate (33), and a second adjusting mechanism (4) for driving the movable plate (33) to move is arranged on one side of the movable plate (33);
the third adjusting mechanism (5) is used for driving the front fixing plate (34) and the rear fixing plate (35) to be matched with the moving plate (33) so as to fix the top of the isolation cabin;
the first support frame (6) is provided with a first air channel (7) on the movable frame (3) and is used for driving the first support frame (6) to move and be matched with the movable plate (33);
The second support frame (8), be provided with second air flue (9) on removing frame (3), be used for driving second support frame (8) remove and with mount (11) cooperation.
2. The nacelle welding aid as recited in claim 1, wherein: the driving shaft of the rotation source (32) is fixedly connected with a driving screw (321), and the movable frame (3) is in threaded connection with the driving screw (321).
3. The nacelle welding aid as recited in claim 1, wherein: the first adjusting mechanism (2) comprises a sliding rail (21) fixedly connected with the welding platform (1), a plurality of limit grooves (211) are formed in the top of the sliding rail (21), a sliding frame (22) is connected to the sliding rail (21) in a sliding mode, a sliding rod (23) is connected to the sliding frame (22) in a sliding mode, a pull rope (231) is fixedly connected to the bottom of the sliding rod (23) and located in the sliding frame (22), the pull rope (231) is far away from one end of the sliding rod (23) and fixedly connected with a limit pin (232) matched with the limit grooves (211), a bidirectional screw (24) is arranged in the sliding frame (22), a first knob (25) is fixedly connected to two ends of the bidirectional screw (24), a first sliding block (26) is connected to the upper thread of the bidirectional screw (24), a second sliding block (27) is connected to the top of the first sliding block (26) in a sliding mode, the second sliding block (27) is vertically arranged with the first sliding block (26), a first sliding block (28) is connected to the second fixing frame (27) in a threaded mode, a second fixing frame (11) is fixedly connected to the second fixing frame (27), the first screw (28) is arranged perpendicular to the bidirectional screw (24).
4. The nacelle welding aid as recited in claim 1, wherein: the second adjusting mechanism (4) comprises a second screw rod (41), the second screw rod (41) is in threaded connection with the moving plate (33), and one end, away from the moving plate (33), of the second screw rod (41) is fixedly connected with a third knob (42).
5. The nacelle welding aid as recited in claim 1, wherein: third adjustment mechanism (5) including set up in third screw rod (51) in clamp bar (31), third screw rod (51) keep away from the one end fixedly connected with fourth knob (52) of movable frame (3), third screw rod (51) with back fixed plate (35) threaded connection, keep away from in clamp bar (31) one side of third screw rod (51) is provided with fourth screw rod (53), fourth screw rod (53) are kept away from one end fixedly connected with fifth knob (531) of third screw rod (51), threaded connection has third slider (54) on fourth screw rod (53), preceding fixed plate (34) articulate in third slider (54) bottom, one side fixedly connected with connecting plate (55) of preceding fixed plate (34) are kept away from to third slider (54) bottom, connecting plate (55) bottom rotation is connected with fourth slider (56), preceding fixed plate (34) bottom rotation is connected with fifth slider (57), fourth slider (56) are kept away from with fifth screw rod (58) and fifth screw rod (58) bottom rotation is connected with fifth screw rod (58).
6. The nacelle welding aid as recited in claim 1, wherein: the first air passage (7) comprises a first air charging pipe (71), a second air charging pipe (72) which is horizontally arranged is connected in the first air charging pipe (71) in a sliding mode, one end of the second air charging pipe (72) away from the first air charging pipe (71) is fixedly connected with the first support frame (6), the second air charging pipe (72) is arranged to be a hollow pipe and is communicated with the inside of the first support frame (6), a sliding column (73) is connected to the top of the first support frame (6) in a sliding mode, a push plate (74) is fixedly connected to the top of the sliding column (73), and when the push plate (74) moves upwards, the push plate (74) can be abutted to the inner wall of the isolation cabin, and a first reset spring (75) is fixedly connected between the inner bottom wall of the first support frame (6).
7. The nacelle welding aid as recited in claim 1, wherein: the second air flue (9) comprises a third air charging pipe (91) vertically and fixedly arranged at the top of the movable frame (3), a fourth air charging pipe (911) is slidably communicated inside the third air charging pipe (91), a fifth air charging pipe (912) is slidably communicated inside the fourth air charging pipe (911), a sixth air charging pipe (913) is fixedly communicated at the bottom of the fifth air charging pipe (912), seventh air charging pipes (914) are slidably communicated inside two sides of the sixth air charging pipe (913), the seventh air charging pipe (914) is slidably communicated with the second supporting frame (8), supporting rods (92) are slidably communicated on two sides of the second supporting frame (8), when the supporting rods (92) move, the inner walls of the isolation cabin are abutted, a limiting frame (93) is arranged outside each seventh air charging pipe (914), a second reset spring (94) is fixedly connected between the limiting frame (93) and the seventh air charging pipe (914), a limiting groove (93) is formed in the second supporting frame (8), a limiting rod (96) is connected with the second supporting frame (96) in a limiting mode, the limiting rod (96) is connected with the second supporting frame (8), a fourth reset spring (97) is fixedly connected between the top of the third inflation tube (91) and the bottom of the fifth inflation tube (912), a fifth reset spring (98) is arranged between the two second support frames (8), and a sixth reset spring (99) is arranged between the two support rods (92).
8. The nacelle welding aid as recited in claim 1, wherein: the utility model discloses a welding machine, including welding platform (3) and welding frame (3), welding platform (3) top intercommunication has first exhaust pipe (36), welding platform (1) one side fixedly connected with second exhaust pipe (37) of first exhaust pipe (36) sliding communication, be provided with in second exhaust pipe (37) and block baffle (371) of the inside intercommunication of second exhaust pipe (37), baffle (371) are close to welding platform (1) one side fixedly connected with rotor plate (372), rotor plate (372) with be provided with reset clockwork spring (373) between baffle (371), spout (374) have been seted up on moving frame (3), promote when moving frame (3) down rotor plate (372) rotate and make rotor plate (372) slide in spout (374), rotor plate (372) rotate and drive baffle (371) rotate and make the inside intercommunication of second exhaust pipe (37).
CN202410194431.XA 2024-02-22 2024-02-22 Isolation cabin welding auxiliary tool Active CN117754195B (en)

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US20150123332A1 (en) * 2013-11-06 2015-05-07 Nu-Way Industries, Inc. Clamp System For Welding Applications
KR102038298B1 (en) * 2018-08-31 2019-10-30 한기벽 Semi automatic welding apparatus for manufacturing of float sensor
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CN214770099U (en) * 2021-02-04 2021-11-19 中铁二十三局集团电务工程有限公司 Pipeline welding platform
CN216758807U (en) * 2021-12-27 2022-06-17 中化二建集团有限公司 Aviation oil pipeline construction device for isolating oil gas based on air bag dry ice
CN115383251A (en) * 2022-04-20 2022-11-25 九江市起点实业有限公司 Bridge beam slab reinforcing and welding equipment
CN116604269A (en) * 2023-06-12 2023-08-18 扬州润盈机械有限公司 Frock clamp is used in welding of vehicle vent-pipe

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20150123332A1 (en) * 2013-11-06 2015-05-07 Nu-Way Industries, Inc. Clamp System For Welding Applications
KR102038298B1 (en) * 2018-08-31 2019-10-30 한기벽 Semi automatic welding apparatus for manufacturing of float sensor
CN211465243U (en) * 2019-12-23 2020-09-11 四川久享实业有限公司 Multifunctional welding workbench
CN111975223A (en) * 2020-08-28 2020-11-24 东莞市耀霆五金机械有限公司 3D numerical control laser cutting machine
CN214770099U (en) * 2021-02-04 2021-11-19 中铁二十三局集团电务工程有限公司 Pipeline welding platform
CN216758807U (en) * 2021-12-27 2022-06-17 中化二建集团有限公司 Aviation oil pipeline construction device for isolating oil gas based on air bag dry ice
CN115383251A (en) * 2022-04-20 2022-11-25 九江市起点实业有限公司 Bridge beam slab reinforcing and welding equipment
CN116604269A (en) * 2023-06-12 2023-08-18 扬州润盈机械有限公司 Frock clamp is used in welding of vehicle vent-pipe

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