CN115091084A - Automatic welding machine for pressure gauge production - Google Patents

Abstract

The application relates to an automatic welding machine for pressure gauge production, which comprises a horizontally arranged machine table, a conveying frame arranged on the machine table and used for conveying workpieces, and a first conveying device arranged on the machine table and used for conveying an elastic pipe to a processing position, set up in the second conveyer that is used for transporting the air inlet piece to the processing position of board, set up in the welding set of board, the level sets up be used for transporting the work piece to the loading attachment of first conveyer and second conveyer department and set up in the heating device of board, first conveyer and second conveyer distribute along carriage length direction, first conveyer drive elasticity pipe removes along carriage width direction, second conveyer drive air inlet piece removes along carriage length direction, welding set is located the processing position department, heating device is located between first conveyer and the second conveyer. This application has the function of improving machining efficiency.

Description

Automatic welding machine for pressure gauge production

Technical Field

The application relates to a manometer welding field especially relates to an automatic weld machine for manometer production.

Background

In modern industrial production, most production equipment all are equipped with the manometer, thereby constantly check out test set's internal pressure condition, the manometer generally includes the watchcase, admit air the piece, elasticity pipe and pointer, admit air the piece and set firmly in the watchcase, the elasticity pipe sets firmly in the watchcase, adopt welded mode fixed connection usually between the one end of elasticity pipe and the piece of admitting air, the other end and the pointer fixed connection of elasticity pipe, the pointer rotates and sets up in the watchcase, the work produced gas enters into the elasticity pipe from the piece of admitting air, the elasticity pipe produces deformation and drives the pointer and take place the deflection, thereby measure the atmospheric pressure value.

In the prior art, in the welding process of the elastic tube and the air inlet piece, the air inlet piece needs to be heated independently, one end of the elastic tube is abutted against one end of the air inlet piece, and finally, the tin wire is abutted against the air inlet piece, so that the elastic tube and the air inlet piece are welded together through the melting of the tin wire.

In view of the above-mentioned related art, the inventor believes that the welding process of the air inlet piece and the elastic tube, which is usually manual welding, is time-consuming and labor-consuming.

Disclosure of Invention

In order to make the welding of air inlet and elastic tube labour saving and time saving, this application provides an automatic weld machine for manometer production.

The application provides an automatic weld machine for manometer production adopts following technical scheme:

an automatic welding machine for pressure gauge production comprises a horizontally arranged machine table, a conveying frame arranged on the machine table and used for conveying workpieces, a first conveying device arranged on the machine table and used for conveying an elastic pipe to a processing position, a second conveying device arranged on the machine table and used for conveying an air inlet piece to the processing position, a welding device arranged on the machine table, a horizontally arranged feeding device used for conveying workpieces to the first conveying device and the second conveying device, and a heating device arranged on the machine table, wherein the first conveying device and the second conveying device are distributed along the length direction of the conveying frame, the first conveying device drives the elastic pipe to move along the width direction of the conveying frame, the second conveying device drives the air inlet piece to move along the length direction of the conveying frame, and the welding device is positioned at the processing position, the heating device is positioned between the first transportation device and the second transportation device.

Through adopting above-mentioned technical scheme, start loading attachment and carry elasticity pipe and air inlet part to first conveyer and second conveyer department respectively, first conveyer transports the processing position of conveyer with the elasticity pipe, the second conveyer transports air inlet part earlier through heating device, start heating device heats up the air inlet part, transport air inlet part to processing position and elasticity pipe butt again, start welding set this moment and go out tin, thereby the melting is in the same place elasticity pipe and air inlet part welding when the tin silk touches high temperature air inlet part, need not manual welding, time saving and labor saving, thereby machining efficiency has been promoted.

Optionally, first conveyer includes first mounting panel, first cylinder, lift cylinder and the first clamping jaw cylinder of sliding, first mounting panel is followed the board direction of height is vertical set up in carriage width direction one side, first cylinder that slides set up in first mounting panel, the lift cylinder set up in the piston rod of first cylinder that slides, the first cylinder drive that slides the lift cylinder is followed carriage width direction slides, the first clamping jaw cylinder set up in the piston rod of lift cylinder, the lift cylinder drive the first clamping jaw cylinder is followed the board direction of height slides.

Through adopting the above technical scheme, when transporting the elasticity pipe, start first cylinder drive lift cylinder that slides and slide to the elasticity pipe directly over, start the lift cylinder this moment and drive first clamping jaw cylinder and go up and down and be close to the elasticity pipe, restart first clamping jaw cylinder at this moment and manage the centre gripping with the elasticity, restart lift cylinder makes first clamping jaw cylinder drive elasticity pipe and rise, restart first cylinder that slides, make the lift cylinder drive the elasticity pipe through first clamping jaw cylinder and remove to the processing position directly over along carriage width direction, restart lift cylinder drive first clamping jaw cylinder and place the elasticity pipe in the processing position, need not manual transportation elasticity pipe, convenient and fast.

Optionally, the second conveyer includes that the second slides cylinder, third cylinder and the second clamping jaw cylinder of sliding, the second slide cylinder set up in the board, the third slide cylinder set up in the piston rod of second cylinder of sliding, the second cylinder drive that slides the third cylinder is followed carriage width direction slides, the second clamping jaw cylinder has a plurality ofly, the piston rod of third cylinder that slides is provided with the second mounting panel, the second clamping jaw cylinder all set up in the second mounting panel, a plurality of the second clamping jaw cylinder is followed carriage length direction distributes, the third cylinder drive that slides the second clamping jaw cylinder is followed carriage length direction slides.

Through adopting above-mentioned technical scheme, when the transportation air inlet piece, start the second cylinder that slides and drive the third cylinder that slides and drive the second clamping jaw cylinder and slide and be close to the carriage, start the second clamping jaw cylinder this moment with the centre gripping of air inlet piece, start the third cylinder that slides afterwards and drive the second clamping jaw cylinder and remove along carriage length direction and transport air inlet piece to the processing position, need not manual transportation air inlet piece, convenient and fast.

Optionally, the welding device comprises a connecting rod, a clamping rod and a tin outlet pipe, the connecting rod is arranged on the first mounting plate in a vertically rotating mode in the height direction of the machine table, the clamping rod rotates to penetrate through the connecting rod, and the tin outlet pipe penetrates through the clamping rod.

Through adopting above-mentioned technical scheme, all transport to the processing position back when elastic tube and air inlet, go out the tin pipe and begin to carry out the tin silk, the tin silk melts when touching high temperature air inlet to with air inlet and elastic tube welded fastening, when needs adjustment outlet duct mouth of pipe position, rotate the connecting rod, the connecting rod drives the supporting rod and rotates, and the supporting rod drives out the tin pipe and rotates to best welding position, convenient and fast.

Optionally, loading attachment includes vibration dish and material loading rail, the material loading rail has two, material loading rail one end all connect in the material loading mouth of vibration dish, one of them the material loading rail is kept away from vibration dish one end connect in under the carriage just is located first clamping jaw cylinder, another material loading rail connect in the carriage just right to second clamping jaw cylinder.

Through adopting above-mentioned technical scheme, add man-hour, start the vibration dish and carry air inlet and elastic tube to the carriage from two material loading rails respectively, one of them material loading rail carries the elastic tube to first clamping jaw cylinder below, and another material loading rail carries air inlet to second clamping jaw cylinder department, need not the manual work and places the work piece in first conveyer and second conveyer department, and is high-efficient swift.

Optionally, the heating device includes a heating source and a heating coil, the heating source is connected to the piston rod of the lifting cylinder, and the heating coil is connected to the heating source.

Through adopting the above-mentioned technical scheme, when admitting air the piece and carrying to heating device department, start the heating source, make the heating coil intensifie, restart first cylinder that slides, first cylinder that slides is close to the carriage through lift cylinder drive heating source, thereby make the heating coil be located admit air the piece directly over, restart lift cylinder, the lift cylinder drives the heating source and descends, the heating source drives the heating coil and descends and support tight piece that admits air, thereby heat the piece that admits air, present piece that admits air is when welding simultaneously, latter work piece heats in step, the time is saved, and the processing efficiency is improved.

Optionally, the board is provided with the finishing device who is used for the arrangement air inlet piece, the finishing device includes third mounting panel, fourth cylinder, lifting cylinder, revolving cylinder and the third clamping jaw cylinder of sliding, the third mounting panel vertical set up in the board, the fourth cylinder that slides set up in the third mounting panel, the lifting cylinder set up in the piston rod of fourth cylinder that slides, revolving cylinder set up in the piston rod of lifting cylinder, the fourth cylinder drive that slides the lifting cylinder is followed carriage length direction slides, the third clamping jaw cylinder set up in revolving cylinder's rotation end, the third clamping jaw cylinder is located the carriage top.

Through adopting above-mentioned technical scheme, the material loading rail is carrying the air inlet to the carriage after, after the air inlet took place the skew at the mounted position of carriage, start the fourth cylinder that slides and pass through revolving cylinder drive third clamping jaw cylinder and remove to the air inlet department of offset, start the lifting cylinder afterwards and make third clamping jaw cylinder fall air inlet department, start the third clamping jaw cylinder this moment with the air inlet centre gripping, start revolving cylinder afterwards and drive third clamping jaw cylinder and rotate, thereby put the air inlet rotation to the tram, thereby it takes place the probability that the skew influences the normal transportation air inlet of second conveyer to have reduced the air inlet.

Optionally, the board is provided with unloader, unloader includes fifth cylinder, the sixth cylinder that slides, fourth clamping jaw cylinder and unloading rail, the fifth cylinder that slides set up in the board, the sixth cylinder that slides set up in the piston rod of the fifth cylinder that slides, the fifth cylinder drive that slides the sixth cylinder that slides is followed carriage width direction slides, the fourth clamping jaw cylinder has a plurality ofly, the piston rod of the sixth cylinder that slides is provided with the fourth mounting panel, the sixth cylinder drive that slides the fourth mounting panel is followed carriage length direction slides, the fourth clamping jaw cylinder set up in the fourth mounting panel, it is a plurality of the fourth clamping jaw cylinder is followed carriage length direction distributes, the unloading rail slope set up in the board.

By adopting the technical scheme, after the air inlet part and the elastic pipe are conveyed to the processing position, the sixth sliding cylinder is started to drive the fourth clamping jaw cylinder to move to the processing position and face the air inlet part, the fifth sliding cylinder is started to drive the sixth sliding cylinder to drive the fourth clamping jaw cylinder to slide and approach the air inlet part, the fourth clamping jaw cylinder is started to clamp the air inlet part again, the welding device is started to weld a workpiece at the moment, the fifth sliding cylinder is started to drive the fourth clamping jaw cylinder to slide through the sixth sliding cylinder after welding to take out the welded workpiece from the conveying frame, the sixth sliding cylinder is started to drive the fourth clamping jaw cylinder to move towards the blanking rail, the fifth sliding cylinder is started to drive the clamping jaw cylinder to move to the position right above the blanking rail, finally the clamping jaw cylinder is started to place the workpiece on the blanking rail, the workpiece slides out of the blanking rail under the action of gravity, and manual blanking is not needed, is convenient and quick.

In summary, the present application includes at least one of the following beneficial technical effects:

1. manual welding is not needed, time and labor are saved, and machining efficiency is improved.

2. The workpiece to be welded is heated in the welding process, so that the time is saved, and the machining efficiency is further improved.

3. Need not artifical material loading, convenient and fast

4. Need not artifical unloading, convenient and fast.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is an enlarged view of a portion B in fig. 1.

Fig. 4 is an enlarged view of a portion C in fig. 1.

Fig. 5 is a schematic view of the overall structure at another angle in the present embodiment.

Fig. 6 is an enlarged view of a portion D in fig. 5.

Description of reference numerals: 1. a machine platform; 2. a conveying frame; 3. a first transport device; 301. a first mounting plate; 302. a first slipping cylinder; 303. a lifting cylinder; 304. a first jaw cylinder; 4. a second transport device; 401. a second slipping cylinder; 402. a third slipping cylinder; 403. a second jaw cylinder; 5. a welding device; 501. a connecting rod; 502. a clamping rod; 503. discharging the tin tube; 6. a heating device; 601. a heating source; 602. a heating coil; 7. pressing a plate; 8. a second mounting plate; 9. a feeding device; 901. a vibrating pan; 902. a feeding rail; 10. a finishing device; 1001. a third mounting plate; 1002. a fourth slipping cylinder; 1003. a lifting cylinder; 1004. a rotating cylinder; 1005. a third jaw cylinder; 11. a blanking device; 1101. a fifth slipping cylinder; 1102. a sixth slipping cylinder; 1103. a fourth jaw cylinder; 1104. a blanking rail; 12. a water spray pipe; 13. and a fourth mounting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses an automatic weld machine for manometer production.

An automatic welding machine for pressure gauge production, refer to fig. 1, comprising a horizontally arranged machine table 1, a conveying frame 2 fixedly arranged on the machine table 1 and used for conveying workpieces, a first conveying device 3 arranged on the machine table 1 and used for conveying elastic pipes to a processing position, a second conveying device 4 arranged on the machine table 1 and used for conveying air inlet parts to the processing position, a welding device 5 arranged on the machine table 1, a horizontally arranged feeding device 9 used for conveying workpieces to the first conveying device 3 and the second conveying device 4, and a heating device 6 arranged on the machine table 1, wherein the first conveying device 3 and the second conveying device 4 are distributed along the length direction of the conveying frame 2, the first conveying device 3 drives the elastic pipes to move along the width direction of the conveying frame 2, the second conveying device 4 drives the air inlet parts to move along the length direction of the conveying frame 2, the first conveying device 3 and the second conveying device 4 are respectively positioned at two sides of the width direction of the conveying frame 2, the transport direction mutually perpendicular of first conveyer 3 and second conveyer 4, the processing position is located the intersection of the two transportation orbit, welding set 5 is located processing position department, heating device 6 is located between first conveyer 3 and the second conveyer 4, start loading attachment 9 and carry the elasticity pipe to first conveyer 3 and second conveyer 4 department with the part of admitting air respectively, first conveyer 3 transports the elasticity pipe to the processing position of carriage 2, second conveyer 4 transports the part of admitting air and passes through heating device 6 earlier, start heating device 6 and heat up the part of admitting air, again with the part of admitting air transport to processing position and elasticity pipe butt, start welding set 5 this moment and go out tin, thereby the melting is in the same place elasticity pipe and the part welding of admitting air when the tin silk touches high temperature part of admitting air, need not manual welding, time saving and labor saving, thereby machining efficiency has been promoted.

Referring to fig. 1 and 2, the first transportation device 3 includes a first mounting plate 301 disposed on the machine platform 1, a first sliding cylinder 302 disposed on the first mounting plate 301, a lifting cylinder 303 disposed on the first sliding cylinder 302, and a first clamping jaw cylinder 304 disposed on the lifting cylinder 303, the first mounting plate 301 is vertically fixed on one side of the width direction of the transportation frame 2 along the height direction of the machine platform 1, the first sliding cylinder 302 is a rodless cylinder, the first sliding cylinder 302 is fixed on the first mounting plate 301, the lifting cylinder 303 is fixed on a piston rod of the first sliding cylinder 302, the first sliding cylinder 302 drives the lifting cylinder 303 to slide along the width direction of the transportation frame 2, the first clamping jaw cylinder 304 is fixed on a piston rod of the lifting cylinder 303, the lifting cylinder 303 drives the first clamping jaw cylinder 304 to slide along the height direction of the machine platform 1, when transporting the elastic tube, the first sliding cylinder 302 is started to drive the lifting cylinder 303 to slide right above the elastic tube, at the moment, the lifting cylinder 303 is started to drive the first clamping jaw cylinder 304 to lift and close to the elastic tube, the first clamping jaw cylinder 304 is restarted to clamp the elastic tube, the lifting cylinder 303 is restarted to drive the first clamping jaw cylinder 304 to drive the elastic tube to lift, the first sliding cylinder 302 is restarted to drive the lifting cylinder 303 to drive the elastic tube to move to the position right above the processing position along the width direction of the conveying frame 2 through the first clamping jaw cylinder 304, the lifting cylinder 303 is restarted to drive the first clamping jaw cylinder 304 to place the elastic tube at the processing position, a pressing plate 7 is fixedly welded to a clamping jaw of the first clamping jaw cylinder 304, the pressing plate 7 is positioned between two clamping jaws of the first clamping jaw, the width of the pressing plate 7 is smaller than that of the elastic tube, when the elastic tube is clamped by the first clamping jaw cylinder 304, one end of the pressing plate 7, which faces the conveying frame 2, is abutted to the elastic tube, when the elastic tube is placed at the processing position by the first clamping jaw cylinder 304, the tilting probability of the elastic tube is reduced, the elastic tube does not need to be transported manually, and the operation is convenient and fast.

Referring to fig. 1 and 3, the second transportation device 4 includes a second sliding cylinder 401 disposed on the machine platform 1, a third sliding cylinder 402 disposed on the second sliding cylinder 401, and a second clamping jaw cylinder 403 disposed on the third sliding cylinder 402, the second sliding cylinder 401 is fixedly disposed on the machine platform 1, the third sliding cylinder 402 is fixedly disposed on a piston rod of the second sliding cylinder 401, the second sliding cylinder 401 drives the third sliding cylinder 402 to slide along the width direction of the transportation frame 2, the second clamping jaw cylinders 403 are provided with a plurality of cylinders, the piston rod of the third sliding cylinder 402 is fixedly provided with a second mounting plate 8, the second clamping jaw cylinders 403 are all fixedly disposed on the second mounting plate 8, the plurality of second clamping jaw cylinders 403 are distributed along the length direction of the transportation frame 2, the third sliding cylinder 402 drives the second clamping jaw cylinder 403 to slide along the length direction of the transportation frame 2, when the air inlet member is transported, the second sliding cylinder 401 is started to drive the third sliding cylinder 402 to drive the second clamping jaw cylinder 403 to slide close to the transportation frame 2, at the moment, the second clamping jaw air cylinder 403 is started to clamp the air inlet part, and then the third sliding air cylinder 402 is started to drive the second clamping jaw air cylinder 403 to move along the length direction of the conveying frame 2 to transport the air inlet part to a processing position, so that the air inlet part does not need to be transported manually, and the air inlet part is convenient and quick to use.

Referring to fig. 1, welding set 5 is including setting up in the connecting rod 501 of first mounting panel 301, set up in the supporting rod 502 of connecting rod 501 and set up in the play tin pipe 503 of supporting rod 502, connecting rod 501 sets up in first mounting panel 301 along the vertical rotation of 1 direction of height of board, supporting rod 502 rotates to wear to locate connecting rod 501, it wears to locate supporting rod 502 to go out tin pipe 503, it is connected with the tin machine that sends out to go out tin pipe 503, all transport to the processing position back when elastic tube and the piece that admits air, it begins to carry out the tin silk to go out tin pipe 503, the tin silk melts when touching the high temperature piece that admits air, thereby it is fixed with elastic tube welded fastening to admit air, when needs adjustment outlet duct mouth of pipe position, rotate connecting rod 501, connecting rod 501 drives supporting rod 502 and rotates, supporting rod 502 drives out tin pipe 503 and rotates to best welding position, and convenience and quickness.

Referring to fig. 1, 2 and 3, the feeding device 9 includes a vibration plate 901 and two feeding rails 902 disposed on the vibration plate 901, one end of each feeding rail 902 is fixedly connected to the feeding port of the vibration plate 901, one end of each feeding rail 902 for conveying an elastic tube away from the vibration plate 901 is close to the transportation frame 2 and located right below the first clamping jaw cylinder 304, the other end of each feeding rail 902 for conveying an air inlet member is fixedly connected to the transportation frame 2 and right opposite to the second clamping jaw cylinder 403, when processing is performed, the vibration plate 901 is activated to convey the air inlet member and the elastic tube to the transportation frame 2 from the two feeding rails 902, respectively, one feeding rail 902 conveys the elastic tube to below the first clamping jaw cylinder 304, the other feeding rail 902 conveys the air inlet member to the second clamping jaw cylinder 403, without manually placing the workpiece at the first transportation device 3 and the second transportation device 4, high efficiency and rapidness.

Referring to fig. 1, the heating device 6 includes a heating source 601 for generating heat and a heating coil 602 connected to the heating source 601, the heating source 601 is connected to a piston rod of the lifting cylinder 303, the heating source 601 and the first mounting plate 301 are located on the same side of the carriage 2, the heating source 601 and the first clamping jaw cylinder 304 move synchronously, the heating source 601 provides heat for the heating coil 602, when an air inlet is conveyed to the heating device 6, the heating source 601 is started to heat the heating coil 602, the first sliding cylinder 302 is restarted, the first sliding cylinder 302 drives the heating source 601 to be close to the carriage 2 through the lifting cylinder 303, so that the heating coil 602 is located right above the air inlet, the lifting cylinder 303 is restarted, the lifting cylinder 303 drives the heating source 601 to descend, the heating source 601 drives the heating coil 602 to descend to abut against the air inlet, so as to heat the air inlet and heat the air inlet to the melting point of the tin wire, and the high temperature has no influence on the air inlet, meanwhile, when the previous air inlet piece is welded, the next workpiece is heated synchronously, so that the time is saved, and the machining efficiency is improved.

Referring to fig. 1 and 4, a machine table 1 is provided with a collating device 10 for collating air intake parts, the collating device 10 includes a third mounting plate 1001 disposed on the machine table 1, a fourth sliding cylinder 1002 disposed on the third mounting plate 1001, a lifting cylinder 1003 disposed on the fourth sliding cylinder 1002, a rotating cylinder 1004 disposed on the lifting cylinder 1003, and a third clamping jaw cylinder 1005 disposed on the rotating cylinder 1004, the third mounting plate 1001 is vertically and fixedly disposed on the machine table 1 and is on the same side as the first mounting plate 301, the fourth sliding cylinder 1002 is a rodless cylinder, the fourth sliding cylinder 1002 is fixedly disposed on the third mounting plate 1001, the lifting cylinder 1003 is a rodless cylinder, the lifting cylinder 1003 is fixedly disposed on a sliding block of the fourth sliding cylinder 1002, the rotating cylinder 1004 is fixedly disposed on a piston rod of the lifting cylinder 1003, the fourth sliding cylinder 1002 drives the lifting cylinder 1003 to slide along the length direction of the conveying frame 2, the third clamping jaw 1005 is fixedly disposed on a rotating end of the rotating cylinder 1004, third clamping jaw cylinder 1005 is located directly over carriage 2, it is carrying the air inlet piece to the carriage 2 back to go up material rail 902, after the air inlet piece takes place the skew at the locating position of carriage 2, start fourth cylinder 1002 that slides and drive third clamping jaw cylinder 1005 through revolving cylinder 1004 and remove to the air inlet piece department of offset, start lifting cylinder 1003 afterwards and make third clamping jaw cylinder 1005 fall to air inlet piece department, start third clamping jaw cylinder 1005 with the centre gripping of air inlet piece this moment, start revolving cylinder 1004 afterwards and drive third clamping jaw cylinder 1005 and rotate, thereby put the air inlet piece rotation to the correct position, thereby it takes place the skew to influence the probability that second conveyer 4 normally transported the air inlet piece to have reduced the air inlet piece.

Referring to fig. 5 and 6, the machine table 1 is provided with a blanking device 11, the blanking device 11 is on the same side as the first transportation device 3, the blanking device 11 includes a fifth sliding cylinder 1101 disposed on the machine table 1, a sixth sliding cylinder 1102 disposed on the fifth sliding cylinder 1101, a fourth clamping jaw cylinder 1103 disposed on the sixth sliding cylinder 1102, and a blanking rail 1104 disposed on the machine table 1, the fifth sliding cylinder 1101 is fixedly disposed on the machine table 1, the sixth sliding cylinder 1102 is fixedly disposed on a piston rod of the fifth sliding cylinder 1101, the fifth sliding cylinder 1101 drives the sixth sliding cylinder 1102 to slide along the width direction of the transportation frame 2, the fourth clamping jaw cylinders 1103 are provided in plurality, the piston rod of the sixth sliding cylinder 1102 is fixedly provided with a fourth mounting plate 13, the sixth sliding cylinder 1102 drives the fourth mounting plate 13 to slide along the length direction of the transportation frame 2, the fourth clamping jaw cylinder 1103 is fixedly disposed on the fourth mounting plate 13, and the fourth clamping jaw cylinders 1103 are distributed along the length direction of the transportation frame 2, the blanking rail 1104 is obliquely and fixedly arranged on the machine table 1, when the air inlet part and the elastic tube are conveyed to the processing position, the sixth sliding cylinder 1102 is started to drive the fourth clamping jaw air cylinder 1103 to move to the processing position and face the air inlet part, the fifth sliding cylinder 1101 is started to drive the sixth sliding cylinder to drive the fourth clamping jaw air cylinder 1103 to slide to be close to the air inlet part, the fourth clamping jaw air cylinder 1103 is started to clamp the air inlet part, the welding device 5 is started to weld a workpiece at the moment, a water spray pipe 12 for cooling is arranged between clamping jaws of the fourth clamping jaw air cylinder 1103, the workpiece is cooled after molten tin wires enter the air inlet part and the elastic tube, the welding process is accelerated, the fifth sliding cylinder 1101 is started to drive the fourth clamping jaw air cylinder 1103 to slide through the sixth sliding cylinder 1102 after welding is finished, the welded workpiece is taken out from the conveying frame 2, the sixth sliding cylinder 1102 is started to drive the fourth clamping jaw air cylinder 1103 to move towards the blanking rail 1104, and then, the fifth sliding cylinder 1101 is started to drive the clamping jaw cylinder to move right above the blanking rail 1104, finally, the clamping jaw cylinder is started to place the workpiece on the blanking rail 1104, the workpiece slides out of the machine table 1 from the blanking rail 1104 under the action of gravity, manual blanking is not needed, and the operation is convenient and fast.

The implementation principle of the embodiment is as follows: starting a vibration disc 901, conveying air inlet parts to the conveying frame 2 through the feeding rail 902 and facing the second clamping jaw air cylinder 403, conveying elastic parts to a port of the feeding rail 902 and located under the first clamping jaw air cylinder 304, starting the first conveying device 3 to convey the elastic pipe to a processing position, taking an intersection point of motion tracks of the first sliding air cylinder 302 and the third sliding air cylinder 402 as the processing position, simultaneously starting the second conveying device 4 to convey the air inlet parts to the heating device 6 first, enabling the heating coil 602 to heat the air inlet parts, starting the second conveying device 4 to convey the air inlet parts to the processing position when the air inlet parts are heated to a melting point of a tin wire, starting the blanking device 11 to clamp and fix the air inlet parts at the processing position, starting the tin feeder to weld the air inlet parts at the processing position, and simultaneously heating the next air inlet part when the former air inlet part is welded, after the former welding, the blanking device 11 performs blanking, and the latter is conveyed to the machining position.

The above is a preferred embodiment of the present application, and the scope of protection of the present application is not limited by the above, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an automatic weld machine for manometer production which characterized in that: comprises a horizontally arranged machine table (1), a conveying frame (2) which is arranged on the machine table (1) and used for conveying workpieces, a first conveying device (3) which is arranged on the machine table (1) and used for conveying an elastic pipe to a processing position, a second conveying device (4) which is arranged on the machine table (1) and used for conveying an air inlet piece to the processing position, a welding device (5) which is arranged on the machine table (1), a horizontally arranged feeding device (9) which is used for conveying workpieces to the first conveying device (3) and the second conveying device (4) and a heating device (6) which is arranged on the machine table (1), wherein the first conveying device (3) and the second conveying device (4) are distributed along the length direction of the conveying frame (2), and the first conveying device (3) drives the elastic pipe to move along the width direction of the conveying frame (2), the second conveying device (4) drives the air inlet piece to move along the length direction of the conveying frame (2), the welding device (5) is located at a processing position, and the heating device (6) is located between the first conveying device (3) and the second conveying device (4).

2. The automatic welding machine for pressure gauge production according to claim 1, characterized in that: first conveyer (3) include first mounting panel (301), first cylinder (302), lift cylinder (303) and first clamping jaw cylinder (304) of sliding, first mounting panel (301) are followed board (1) direction of height is vertical set up in carriage (2) width direction one side, first cylinder (302) that slides set up in first mounting panel (301), lift cylinder (303) set up in the piston rod of first cylinder (302) that slides, first cylinder (302) drive that slides lift cylinder (303) are followed carriage (2) width direction slides, first clamping jaw cylinder (304) set up in the piston rod of lift cylinder (303), lift cylinder (303) drive first clamping jaw cylinder (304) are followed board (1) direction of height slides.

3. The automatic welding machine for the production of pressure gauges according to claim 2, characterized in that: the second transportation device (4) comprises a second sliding cylinder (401), a third sliding cylinder (402) and a second clamping jaw cylinder (403), the second sliding cylinder (401) is arranged on the machine table (1), the third sliding cylinder (402) is arranged on a piston rod of the second sliding cylinder (401), the second sliding cylinder (401) drives the third sliding cylinder (402) to slide along the width direction of the conveying frame (2), a plurality of second clamping jaw air cylinders (403), a piston rod of the third sliding air cylinder (402) is provided with a second mounting plate (8), the second clamping jaw cylinders (403) are arranged on the second mounting plate (8), a plurality of the second clamping jaw cylinders (403) are distributed along the length direction of the conveying frame (2), the third sliding cylinder (402) drives the second clamping jaw cylinder (403) to slide along the length direction of the conveying frame (2).

4. The automatic welding machine for the production of pressure gauges according to claim 3, characterized in that: welding set (5) include connecting rod (501), supporting rod (502) and go out tin pipe (503), connecting rod (501) are followed the vertical rotation of board (1) direction of height set up in first mounting panel (301), supporting rod (502) rotate and wear to locate connecting rod (501), it wears to locate to go out tin pipe (503) supporting rod (502).

5. The automatic welding machine for pressure gauge production according to claim 4, characterized in that: loading attachment (9) are including vibration dish (901) and material loading rail (902), material loading rail (902) have two, material loading rail (902) one end all connect in the material loading mouth of vibration dish (901), one of them material loading rail (902) are kept away from vibration dish (901) one end connect in carriage (2) and be located under first clamping jaw cylinder (304), another material loading rail (902) connect in carriage (2) and just right to second clamping jaw cylinder (403).

6. The automatic welding machine for pressure gauge production according to claim 5, characterized in that: heating device (6) include heating source (601) and heating coil (602), heating source (601) connect in the piston rod of lift cylinder (303), heating coil (602) connect in heating source (601).

7. The automatic welding machine for pressure gauge production according to claim 6, characterized in that: the machine table (1) is provided with a sorting device (10) for sorting the air inlet parts, the sorting device (10) comprises a third mounting plate (1001), a fourth sliding cylinder (1002), a lifting cylinder (1003), a rotating cylinder (1004) and a third clamping jaw cylinder (1005), the third mounting plate (1001) is vertically arranged on the machine table (1), the fourth sliding cylinder (1002) is arranged on the third mounting plate (1001), the lifting cylinder (1003) is arranged on a piston rod of the fourth sliding cylinder (1002), the rotating cylinder (1004) is arranged on a piston rod of the lifting cylinder (1003), the fourth sliding cylinder (1002) drives the lifting cylinder (1003) to slide along the length direction of the conveying frame (2), the third clamping jaw cylinder (1005) is arranged at the rotating end of the rotating cylinder (1004), the third clamping jaw cylinder (1005) is positioned above the conveying frame (2).

8. The automatic welding machine for pressure gauge production according to claim 7, characterized in that: the blanking device (11) is arranged on the machine table (1), the blanking device (11) comprises a fifth sliding cylinder (1101), a sixth sliding cylinder (1102), a fourth clamping jaw cylinder (1103) and a blanking rail (1104), the fifth sliding cylinder (1101) is arranged on the machine table (1), the sixth sliding cylinder (1102) is arranged on a piston rod of the fifth sliding cylinder (1101), the fifth sliding cylinder (1101) drives the sixth sliding cylinder (1102) to slide along the width direction of the conveying frame (2), the fourth clamping jaw cylinder (1103) is provided with a plurality of clamping jaws, the piston rod of the sixth sliding cylinder (1102) is provided with a fourth mounting plate (13), the sixth sliding cylinder (1102) drives the fourth mounting plate (13) to slide along the length direction of the conveying frame (2), and the fourth clamping jaw cylinder (1103) is arranged on the fourth mounting plate (13), a plurality of fourth clamping jaw air cylinders (1103) are distributed along the length direction of the conveying frame (2), and the discharging rail (1104) is obliquely arranged on the machine table (1).

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