CN116197589A - Automatic welding device for condenser bracket - Google Patents

Abstract

The invention discloses an automatic welding device for a condenser bracket, which belongs to the technical field of condensers and comprises an operation table, two extrusion blocks arranged at the top of the operation table, four first inserting blocks positioned on the two extrusion blocks and four positioning blocks positioned above the operation table, wherein a first motor is arranged on one side surface of the two first fixing plates, which is far away from the center of the operation table, each first motor output shaft is coaxially connected with a first left-right screw rod, a first matching ring is in threaded connection with the positive rotation and the negative rotation of each first left-right screw rod, a first connecting block is arranged at the top of each first matching ring, and two square grooves are formed in the bottom of each extrusion block. When the automatic welding device for the condenser bracket is used, the bracket position indication structure can synchronously move along with the first inserting block, and the relative distance between the first inserting block and the positioning block can be fixed.

Description

Automatic welding device for condenser bracket

Technical Field

The invention belongs to the technical field of condensers, and particularly relates to an automatic welding device for a condenser bracket.

Background

The condenser is a part of a refrigerating system, belongs to a heat exchanger, can convert gas or vapor into liquid, and transfers heat in a pipe into air near the pipe in a quick way, the condenser is in a heat release process in a working process, liquid refrigerant is vaporized into high-temperature low-pressure vapor after absorbing heat of a cooled object in the evaporator, is sucked by the compressor and compressed into high-pressure high-temperature vapor to be discharged into the condenser, releases heat to a cooling medium (water or air) in the condenser, is condensed into high-pressure liquid, throttled into low-pressure low-temperature refrigerant by a throttle valve and enters the evaporator again to absorb heat and vaporize, and achieves the aim of cyclic refrigeration.

The invention patent application of the prior application number 201410378074.9 discloses a fixture device for welding a condenser bracket, which can ensure the multipoint precision of parts and the brazing strength of the parts at the same time, and three quick fixtures distributed at right-angled triangle positions are convenient to match and have the strongest clamping force, so that a product is not easy to loosen, a condenser body can be fixed when the bracket is welded to the condenser, the problem that the condenser body cannot be fixed is solved, but the problem that the relative positions of the condenser and the bracket cannot be fixed still exists, and repositioning is required each time is caused.

Disclosure of Invention

The invention aims to provide an automatic welding device for a condenser bracket, which solves the problems that in the prior art, a condenser body can be fixed when the bracket is welded on the condenser, but the relative position between the condenser and the bracket can not be fixed, so that the distance is required to be measured again for repositioning when each condenser is welded.

In order to achieve the above purpose, the present invention provides the following technical solutions: the automatic welding device for the condenser bracket comprises an operation table, two extrusion blocks arranged at the top of the operation table, four first inserting blocks positioned on the two extrusion blocks and four positioning blocks positioned above the operation table, wherein a first through groove penetrating through the top wall and the bottom wall of the operation table is formed in the center of the top of the operation table, four connecting rods distributed in a rectangular array are arranged at two sides of the first through groove at the bottom of the operation table, a bottom supporting plate is arranged at the bottom of each of the four connecting rods, two electric telescopic rods are arranged at the top of each of the bottom supporting plates, and a top plate for jacking up a condenser body is arranged at the top of each of the two electric telescopic rods;

two second through grooves are formed in the operation table, the two second through grooves are symmetrical about the center of the operation table, a first fixing plate is arranged at one side of each second through groove in the operation table, a second fixing plate is arranged at the other side of each second through groove in the operation table, the two first fixing plates and the two second fixing plates are distributed in a rectangular array, and the two first fixing plates are located at the same side of the bottom of the operation table.

As a preferred embodiment of the invention, a first motor is mounted on a side surface of the two first fixing plates far from the center of the operation table, each first motor output shaft is coaxially connected with a first left-right screw rod, each first left-right screw rod is positioned at the bottom of the second through groove on the side, and one end of each first left-right screw rod far from the first motor is rotatably connected with the second fixing plate on the side of the bottom of the operation table.

As a preferred embodiment of the invention, a first matching ring is connected on the forward rotation and the reverse rotation of each first left-right screw rod in a threaded manner, a first connecting block is arranged at the top of each first matching ring, each first connecting block extends out to the top of the operating platform through a second through groove at the side, and a limit hole penetrating through the side wall of each first connecting block is formed in the top of one side surface of each first connecting block.

As a preferred embodiment of the invention, two square grooves are formed in the bottom of each extrusion block, and each extrusion block is inserted into the tops of two first connecting blocks through the two square grooves in the bottom of each extrusion block.

As a preferred embodiment of the invention, two third fixing plates are arranged at the top of each extrusion block, vertical grooves penetrating through the top wall and the bottom wall of each extrusion block are formed in the top of each extrusion block, and transverse grooves connected with the vertical grooves are formed in the positions, close to each other, of the bottoms of the two extrusion blocks.

As a preferred embodiment of the invention, a limiting rod is arranged between the two third fixing plates at the top of each extrusion block, and two inserting rods acting on limiting holes on the first connecting blocks are inserted into the side surfaces of each extrusion block.

As a preferred embodiment of the invention, a second motor is arranged on one side surface of one of the third fixing plates at the top of each extrusion block, which is far away from the other third fixing plate, an output shaft of each second motor is coaxially connected with a second left-right screw rod, a second matching ring is in threaded connection with the positive rotation and the negative rotation of each second left-right screw rod, a second connecting block is arranged at the bottom of each second matching ring, a first jack is arranged at the bottom of one side surface of each second connecting block, which is close to the center of the operation table, and a second jack is arranged at the top of one side surface of each second connecting block, which is close to the center of the operation table.

As a preferred embodiment of the invention, each first insert block is respectively inserted into the first insertion hole of one of the second connecting blocks, and a limiting plate for limiting the position of the condenser body is arranged at the top of each first insert block.

As a preferred embodiment of the invention, a second insertion block which is sleeved on the limiting rod in a sliding way is inserted into the second insertion hole of each second connection block, and threaded rods are fixed on one side surface of the same second left-right screw rod, which is close to each other, of the two second insertion blocks.

As a preferred embodiment of the invention, the threaded rod of each second insert block is connected with a threaded moving block in a threaded manner, the outer wall of each threaded moving block is provided with a groove, each threaded moving block is rotationally connected with a ferrule through the groove on the threaded moving block, each positioning block is respectively arranged at the bottom of one ferrule, which is close to the center of the operating platform, and all structures on the second insert blocks form a group of bracket position indication structures.

The automatic welding device for the condenser bracket has the technical effects and advantages that:

when the condenser body is welded with the bracket, the automatic welding device of the condenser bracket is selected to enable the condenser body to be placed at the top of the top plate, when the position of the condenser body is restrained by the four first inserting blocks, the two second motors are opened to drive the four second connecting blocks and the four first inserting blocks to move towards the directions close to each other, so that the four first inserting blocks and the limiting plates clamp and limit the condenser body, in the moving process of the four first inserting blocks, the four second connecting blocks also drive the four second inserting blocks to move, and the four second inserting blocks drive the four positioning blocks to move, so that the four positioning blocks can move synchronously with the four first inserting blocks.

When different condensers are replaced, the two first motors are opened to drive the four first connecting blocks to drive the two extruding blocks to move towards the directions close to each other, two sides of the condenser body are clamped, then the two second motors are opened to drive the four second connecting blocks to drive the four first inserting blocks to move towards the directions close to each other, the other two sides of the condenser body are clamped, the four screw thread moving blocks are rotated to drive the four positioning blocks to move according to the size of the condenser, and the positions of the four positioning blocks are adjusted.

When the structure is used for carrying out welding support work on condensers with different thicknesses, according to the thickness of the condenser body, the two electric telescopic rods are opened to drive the top plate to ascend or descend, so that the top of the condenser body and the tops of the two extrusion blocks are flush, and the structure can adjust the position of the structure according to the thickness of the condenser body, so that the top position of the structure is level with the tops of the two extrusion blocks.

Drawings

FIG. 1 is a schematic view of the overall structure of one side of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the other side of the embodiment of the present invention;

FIG. 3 is a schematic view of one side of an operation table and its upper structure according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of another embodiment of the present invention shown in FIG. 3;

FIG. 5 is a schematic view of the embodiment of FIG. 3 with the addition of an electrically powered telescoping rod and top plate in accordance with the present invention;

FIG. 6 is a schematic view of a portion of a structure of an embodiment of the present invention;

FIG. 7 is a detail exploded view of one side of the embodiment of FIG. 6 in accordance with the present invention;

FIG. 8 is a fragmentary view of another side of the embodiment of FIG. 6 according to the present invention;

FIG. 9 is a schematic view of an embodiment of the invention showing the extrusion and its structure from different viewing angles;

FIG. 10 is a schematic diagram of a second motor, a second left-right screw rod, a second connection block and a bracket position indication structure according to an embodiment of the present invention;

FIG. 11 is a detail exploded view of the embodiment of FIG. 10 in accordance with the present invention;

fig. 12 is a schematic view of a bracket position indication structure and a part split view according to an embodiment of the present invention.

In the figure:

101. an operation table; 102. a support leg;

111. a first through groove; 112. a connecting rod; 113. a bottom support plate; 114. an electric telescopic rod; 115. a top plate;

121. a second through slot; 122. a first fixing plate; 123. a second fixing plate;

201. a first motor; 202. a first left-right screw rod; 203. a first mating ring; 204. a first connection block; 205. a limiting hole;

211. extruding a block; 212. a square groove; 213. a third fixing plate; 214. a vertical groove; 215. a transverse slot; 216. a limit rod; 217. a rod;

301. a second motor; 302. a second left-right screw rod; 303. a second mating ring; 304. a second connection block; 305. a first jack; 306. a second jack;

311. a first plug; 312. a limiting plate;

321. a second insert block; 322. a threaded rod; 323. a thread moving block; 324. a groove; 325. a ferrule; 326. and (5) positioning blocks.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-12, an automatic welding device for a condenser bracket includes an operation table 101, two pressing blocks 211 mounted on top of the operation table 101, four first inserting blocks 311 located on the two pressing blocks 211, and four positioning blocks 326 located above the operation table 101, wherein four corners of the bottom of the operation table 101 are respectively provided with a supporting leg 102 for supporting the operation table 101.

In order to clamp and limit the condenser body, as shown in fig. 1-2, 6-9 and 12, two second through grooves 121 are formed on the operation table 101, the two second through grooves 121 are symmetrical about the center of the operation table 101, a first fixing plate 122 is installed at one side of each second through groove 121 on the operation table 101, a second fixing plate 123 is installed at the other side of each second through groove 121 on the operation table 101, the two first fixing plates 122 and the two second fixing plates 123 are distributed in a rectangular array, the two first fixing plates 122 are located at the same side of the bottom of the operation table 101, a first motor 201 is installed on one side of the two first fixing plates 122 away from the center of the operation table 101, the output shaft of each first motor 201 is coaxially connected with a first left-right screw rod 202, each first left-right screw rod 202 is located at the bottom of the second through groove 121 on the side, one end of each first left-right screw rod 202 far away from the first motor 201 is rotationally connected to the second fixing plate 123 on the side of the bottom of the operation table 101, so that two first left-right screw rods 202 are conveniently fixed, a first matching ring 203 is connected to the positive rotation and the negative rotation of each first left-right screw rod 202 in a threaded manner, a first connecting block 204 is arranged at the top of each first matching ring 203, each first connecting block 204 extends out of the top of the operation table 101 through the second through groove 121 on the side, a limiting hole 205 penetrating through the side wall of each first connecting block 204 is formed in the top of one side surface of each first connecting block 204, two square grooves 212 are formed in the bottom of each extrusion block 211, each extrusion block 211 is spliced at the top of the two first connecting blocks 204 through the two square grooves 212 on the bottom of each extrusion block 211, the two first left-right screw rods 202 drive the two extrusion blocks 211 to move, so that the condenser body is conveniently clamped, limiting movement in one direction thereof;

two third fixing plates 213 are installed at the top of each extrusion block 211, vertical grooves 214 penetrating through the top wall and the bottom wall of each extrusion block 211 are formed at the top of each extrusion block 211, transverse grooves 215 connected with the vertical grooves 214 are formed at the positions, close to each other, of the bottoms of the two extrusion blocks 211, two inserting rods 217 acting on limiting holes 205 on the first connecting block 204 are inserted into the side surfaces of each extrusion block 211, one end, close to the center of the operating platform 101, of each inserting rod 217 is inserted into each limiting hole 205 of the first connecting block 204, stability of positions of the two extrusion blocks 211 can be improved, a second motor 301 is installed on one side surface, far away from the other third fixing plate 213, of one third fixing plate 213 at the top of each extrusion block 211, a second left-right screw rod 302 is coaxially connected with the output shaft of each second motor 301, the positive rotation and the reverse rotation of each second left-right rotation screw rod 302 are respectively connected with a second matching ring 303 in a threaded manner, the bottom of each second matching ring 303 is provided with a second connecting block 304, the bottom of each second connecting block 304, which is close to one side surface of the center of the operating platform 101, is provided with a first jack 305, each first inserting block 311 is respectively inserted into the first jack 305 of one second connecting block 304, and the top of each first inserting block 311 is provided with a limiting plate 312 for limiting the position of the condenser body so as to prevent the first inserting block 311 from being unable to contact the condenser body after lifting the condenser body, the condenser body can be limited through the limiting plates 312 after lifting the condenser body, and the limiting plates 312 are used for limiting the condenser body in the second direction, so that the limiting effect on the position of the condenser body is improved.

In order to enable the bracket position indication structure to adjust along with the position of the first inserting block 311, as shown in fig. 10-12, a limiting rod 216 is installed between two third fixing plates 213 at the top of each extrusion block 211, second inserting holes 306 are respectively formed at the top of one side surface of each second connecting block 304, which is close to the center of the operation platform 101, a second inserting block 321 sleeved on the limiting rod 216 is inserted into each second inserting hole 306 of each second connecting block 304, the moving track of four second inserting blocks 321 is limited by the limiting rod 216, threaded rods 322 are respectively fixed on one side surface, which is close to each other, of two second inserting blocks 321 on the same second left-right screw rod 302, threaded rods 322 of each second inserting block 321 are respectively connected with threaded moving blocks 323, grooves 324 are respectively formed on the outer wall of each threaded moving block 323, a ferrule 325 is rotationally connected with the groove 324 through the grooves 324 on the groove, each second inserting block 326 is respectively installed at the bottom of one side of the center of the positioning blocks 325, when the bracket 326 is welded, the bracket 326 is placed at the position of the ferrule 326, the position of the bracket 326 is placed at the position of the ferrule 326, and the position of the bracket is moved towards the second inserting block 321 or the position of the second inserting block is adjusted, and the position of the bracket is moved towards the position of the second positioning block structure, and the position of the bracket is moved towards the position of the bracket structure, and the position of the positioning block is adjusted, and the position of the positioning block is moved towards the position of the bracket, and the position of the positioning block and the position of the positioning block.

In order to raise the height of the condenser body when needed, as shown in fig. 3-5, a first through groove 111 penetrating through the top wall and the bottom wall of the operation table 101 is formed in the center of the top of the operation table 101, four connecting rods 112 distributed in a rectangular array are installed on two sides of the bottom of the operation table 101 located on the first through groove 111, a bottom supporting plate 113 is installed at the bottom of each of the four connecting rods 112, two electric telescopic rods 114 are installed at the top of each of the bottom supporting plates 113, a top plate 115 for jacking the condenser body is installed at the top of each of the two electric telescopic rods 114, and when the height of the condenser body needs to be adjusted, the two electric telescopic rods 114 are opened to drive the top plate 115 to ascend or descend, so that the condenser body is driven to ascend or descend.

When the welding bracket is used for the condenser body, the automatic welding device for the condenser bracket is selected, the condenser body is placed at the top of the top plate 115, the two extrusion blocks 211 are driven by the two first motors 201 to limit the movement of the condenser body in one direction, when the movement of the condenser body in the second direction is required to be limited, the two second motors 301 are opened to drive the two second left-right screw rods 302 to rotate, the two second left-right screw rods 302 drive the four second matching rings 303 to move towards the direction approaching to each other, the four second matching rings 303 drive the four second connecting blocks 304 and the four first inserting blocks 311 to move towards the direction approaching to each other, the four first inserting blocks 311 and the limiting plates 312 clamp and limit the condenser body, in the moving process of the four first inserting blocks 311, the four second connecting blocks 304 also drive the four second inserting blocks 321 to move, the four second inserting blocks 321 drive the four screw thread moving blocks 323 and the four ferrules 325 to move, then drive the four positioning blocks 326 to move, so that the four positioning blocks 326 can move synchronously with the four first inserting blocks 311, the bracket is placed beside the positioning blocks 326 when the condenser body is fixed and welded, the bracket is used for indicating the bracket placement position, when different condensers are replaced, the two first motor 201 is firstly opened to drive the four first matching rings 203 and the four first connecting blocks 204 to move towards the direction of approaching each other, the four first connecting blocks 204 drive the two pressing blocks 211 to move towards the direction of approaching each other to clamp the two sides of the condenser body, then the two second motor 301 is opened to drive the four second matching rings 303 and the four second connecting blocks 304 to move towards the direction of approaching each other, the four second connecting blocks 304 drive the four first inserting blocks 311 to move towards the direction of approaching each other, to the condenser body both sides in addition centre gripping, rotate four screw thread movable blocks 323 and drive four locating pieces 326 and remove according to the size of condenser, adjust the position of four locating pieces 326, this structure is when carrying out the welding stent's to the condenser of different thickness during operation, according to the thickness of condenser body, open two electric telescopic handle 114 and drive roof 115 and rise or descend, make the top of condenser body and the top of two extrusion pieces 211 flush, four first inserts 311 of being convenient for and four limiting plate 312 act on the condenser body, be convenient for carry out the centre gripping to the condenser body.

The foregoing is only a preferred embodiment of the invention, but the scope of the invention is not limited thereto, and any person skilled in the art who is in the field of the invention can apply equivalent substitution or modification to the technical solution and the inventive concept according to the invention within the scope of the invention.

Claims (10)

1. The utility model provides a condenser support automatic welder, includes operation panel (101), installs two extrusion piece (211) at operation panel (101) top, is located four first inserted block (311) on two extrusion piece (211) and is located four locating pieces (326) of operation panel (101) top, its characterized in that: the center of the top of the operation table (101) is provided with a first through groove (111) penetrating through the top wall and the bottom wall of the operation table (101), four connecting rods (112) distributed in a rectangular array are arranged at two sides of the bottom of the operation table (101) and positioned at the two sides of the first through groove (111), bottom supporting plates (113) are arranged at the bottoms of the four connecting rods (112), two electric telescopic rods (114) are arranged at the tops of the bottom supporting plates (113), and a top plate (115) for jacking up a condenser body is arranged at the tops of the two electric telescopic rods (114);

two second through grooves (121) are formed in the operation table (101), the two second through grooves (121) are symmetrical about the center of the operation table (101), a first fixing plate (122) is arranged at one side of each second through groove (121) in the operation table (101), a second fixing plate (123) is arranged at the other side of each second through groove (121) in the operation table (101), the two first fixing plates (122) and the two second fixing plates (123) are distributed in a rectangular array, and the two first fixing plates (122) are located at the same side of the bottom of the operation table (101).

2. The automatic welding device for a condenser bracket according to claim 1, wherein: two all install first motor (201) on the side that operation panel (101) center was kept away from to first fixed plate (122), every first motor (201) output shaft all coaxial coupling has first left and right-handed screw (202), every first left and right-handed screw (202) all are located the bottom of this side second through groove (121), every first left and right-handed screw (202) keep away from the one end of first motor (201) and all rotate second fixed plate (123) of connecting in this side of operation panel (101) bottom.

3. An automatic welding device for a condenser bracket according to claim 2, wherein: each first left-right screw rod (202) is positively rotated and reversely rotated and is connected with a first matching ring (203), each first matching ring (203) is provided with a first connecting block (204) at the top, each first connecting block (204) extends out to the top of the operation table (101) through a second through groove (121) at the side, and each first connecting block (204) is provided with a limiting hole (205) penetrating through the side wall of the first connecting block.

4. A condenser bracket automatic welding apparatus according to claim 3, wherein: two square grooves (212) are formed in the bottom of each extrusion block (211), and each extrusion block (211) is inserted into the tops of two first connecting blocks (204) through the two square grooves (212) in the bottom of each extrusion block.

5. The automatic welding device for a condenser bracket according to claim 4, wherein: two third fixed plates (213) are arranged at the top of each extrusion block (211), vertical grooves (214) penetrating through the top wall and the bottom wall of each extrusion block (211) are formed in the top of each extrusion block (211), and transverse grooves (215) connected to the vertical grooves (214) are formed in the positions, close to each other, of one sides of the bottoms of the extrusion blocks (211).

6. The automatic welding device for a condenser bracket according to claim 5, wherein: a limiting rod (216) is arranged between the two third fixing plates (213) at the top of each extrusion block (211), and two inserting rods (217) acting on the limiting holes (205) on the first connecting blocks (204) are inserted into the side surfaces of each extrusion block (211).

7. The automatic welding device for a condenser bracket according to claim 6, wherein: one of the third fixed plates (213) at the top of each extrusion block (211) is far away from a side surface of the other third fixed plate (213), a second motor (301) is arranged on each side surface, an output shaft of each second motor (301) is coaxially connected with a second left-right screw rod (302), a second matching ring (303) is connected to the positive rotation and the negative rotation of each second left-right screw rod (302) in a threaded manner, a second connecting block (304) is arranged at the bottom of each second matching ring (303), a first jack (305) is arranged at the bottom of each second connecting block (304) close to the center of the operating table (101), and a second jack (306) is arranged at the top of each second connecting block (304) close to the center of the operating table (101).

8. An automatic welding device for a condenser bracket according to claims 1 and 7, wherein: each first inserting block (311) is respectively inserted into a first inserting hole (305) of one second connecting block (304), and a limiting plate (312) for limiting the position of the condenser body is arranged at the top of each first inserting block (311).

9. The automatic welding device for a condenser bracket according to claim 8, wherein: second inserting blocks (321) sleeved on the limiting rod (216) in a sliding mode are inserted into second inserting holes (306) of each second connecting block (304), and threaded rods (322) are fixed on one side face, close to each other, of each second inserting block (321) located on the same second left-right screw rod (302).

10. The automatic welding device for a condenser bracket according to claim 9, wherein: every equal threaded connection has screw thread movable block (323) on threaded rod (322) of second inserted block (321), every all set up recess (324) on screw thread movable block (323) outer wall, every screw thread movable block (323) all are connected with lasso (325) through recess (324) rotation on it, every locating piece (326) are installed respectively in the bottom of one of them lasso (325) near operation panel (101) center one side, all structures constitute a set of support position indication structure on second inserted block (321) and the second inserted block (321).

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