CN220945087U - Needle welding type structural radiator machining clamp - Google Patents

Abstract

The utility model relates to a processing clamp of a needle welding structure radiator, which comprises a bottom plate, wherein four sides of the surface of the bottom plate are respectively provided with a through groove, two sliding rods are connected between the inner walls of two sides in the length direction of the through grooves, the outer surfaces of the two sliding rods are slidably provided with sliding plates, the bottoms of the sliding plates are provided with first connecting rods, and the bottoms of the bottom plate are provided with clamping mechanisms capable of simultaneously driving the four first connecting rods to move; the upper end of the sliding plate is provided with a clamping plate through an adjusting mechanism, and the adjusting mechanism can adjust the position of the clamping plate. The clamping mechanism drives the four first connecting rods to move simultaneously, so that the connecting effect of the sliding plate can be achieved, the four clamping plates are driven to move to the four side faces of the needle welding type radiator simultaneously and to be in butt joint with the needle welding type radiator, the purpose of fixing and positioning is achieved through the butt joint of the four side faces of the needle welding type radiator simultaneously, the manual placement and positioning are not needed, the operation steps are reduced, and the production efficiency and the processing quality are improved.

Description

Needle welding type structural radiator machining clamp

Technical Field

The utility model relates to the technical field of radiators, in particular to a machining clamp for a radiator with a pin welding structure.

Background

A heat sink is a device for reducing heat or thermal energy, which operates on the basis of heat conduction and convection, where a heat source emits heat, which is then conducted to the outside of the heat sink through the surface of the heat sink, and where the heat sink is designed to generally increase the surface area to increase the efficiency of heat transfer by transferring heat from one area to another, thereby maintaining the system or device within a suitable temperature range.

When processing needle welded structure radiator, need use anchor clamps to fix it, but current anchor clamps generally only have fixed function, need the manual work to put it and fix a position to increased operating procedure, reduction in production efficiency, and current anchor clamps often only use to the radiator of specific model, when the radiator model that needs to produce is more, then need prepare many sets of anchor clamps to different models, comparatively troublesome when not only changing the anchor clamps, and increased the purchase cost of anchor clamps.

Disclosure of utility model

The utility model aims to provide a pin welding type structure radiator processing clamp which can be used for positioning and is suitable for radiators of different models.

In order to achieve the above object, the technical scheme of the present utility model is as follows.

The utility model provides a needle welding formula structure radiator adds clamping apparatus, includes the bottom plate, runs through the groove has all been seted up to four sides on bottom plate surface, runs through and is connected with two slide bars between the both sides inner wall of groove length direction, and the surface slidable mounting of two slide bars has the slide, and the head rod is installed to the bottom of slide, and the bottom of bottom plate is provided with the fixture that can drive four head rods and remove simultaneously. The upper end of the sliding plate is provided with a clamping plate through an adjusting mechanism, and the adjusting mechanism can adjust the position of the clamping plate.

Therefore, the four first connecting rods are driven to move simultaneously through the clamping mechanism, the connecting effect of the sliding plates is achieved, the four clamping plates are driven to move to the four side faces of the needle welding type radiator simultaneously and are abutted to the needle welding type radiator, the four side faces of the needle welding type radiator are abutted to each other simultaneously, the purpose of fixing and positioning is achieved, the manual placement and positioning of the needle welding type radiator are not needed, the operation steps are reduced, the production efficiency and the processing quality are improved, the positions of the clamping plates can be adjusted through the setting of the adjusting mechanism, the purpose of fixing the needle welding type radiator of different types can be achieved through adjusting the positions of the four clamping plates, multiple sets of fixtures are not needed, trouble in replacing the fixtures is avoided, the purchasing cost of the fixtures is reduced, and the clamp is convenient to use.

Further, the fixture is including rotating the cylindrical gear post of connecting in the bottom plate bottom, and first pinion rack is all installed to the tip of four head rods, and four first pinion rack all are connected with cylindrical gear post meshing, and electric putter is installed to the bottom of bottom plate, and electric putter telescopic end's end connection has the second pinion rack, and the second pinion rack is connected with cylindrical gear post meshing.

After the needle welding type radiator is placed on the upper surface of the bottom plate, the electric push rod is started, the telescopic end of the electric push rod pushes the second toothed plate to move, the cylindrical gear column is driven to rotate in the moving process of the second toothed plate, and as the four first toothed plates are meshed with the cylindrical gear column, the four first toothed plates and the first connecting rod can be driven to move simultaneously in the rotating process of the cylindrical gear column, and the four clamping plates are driven to abut against the four side surfaces of the needle welding type radiator simultaneously through the connecting effect of the sliding plate, so that the purposes of fixing and positioning are achieved.

Further, adjustment mechanism is including running through the threaded rod that sets up inside the slide and rather than threaded connection, and the tip and the splint rotation of threaded rod are connected, and the side piece is all installed to the both sides surface of slide, and the inside of two side pieces is all run through and is provided with the gag lever post, and the tip and the splint of gag lever post are connected.

When needing to fix the needle welding type radiator of different models, rotatable threaded rod, because splint receive the spacing effect of gag lever post and side piece, so can follow horizontal direction back and forth at the rotatory in-process of threaded rod to reach the purpose to splint position adjustment, through the position of adjusting four splint, can realize the fixed purpose of needle welding type radiator of different models.

Further, the outer surface cover of head rod is equipped with the sliding sleeve, and the surface of sliding sleeve is connected with the second connecting rod, and the tip of second connecting rod is connected with the bottom of bottom plate.

Through the setting of sliding sleeve and second connecting rod, can carry out bearing and direction to the head rod, so improve the stability of head rod and first pinion rack structure.

Further, the upper surface of bottom plate evenly is provided with the ball, and splint setting is in the upside of ball.

Because four splint carry out the location to the needle welding formula radiator, can promote the needle welding formula radiator at the surface slip of bottom plate, until four splint simultaneously with its four side butt, through the setting of ball, frictional resistance when can reducing the needle welding formula radiator and slide, make its more smooth slip, and avoid wearing and tearing.

Further, the fixed block is installed to the bottom of bottom plate, and the telescopic link is installed to the surface mounting of fixed block, and the tip and the second pinion rack of telescopic link are connected.

Through the setting of fixed block and telescopic link, can support the other end of second pinion rack, avoid leading to the junction of second pinion rack and the flexible end of electric putter impaired under the action of gravity, improve the stability of second pinion rack.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a second perspective view of the present utility model;

FIG. 3 is an enlarged schematic view of FIG. 2A;

fig. 4 is a schematic structural view of an adjusting mechanism in the present utility model.

In the figure: 100. a bottom plate; 101. a through groove; 102. a slide bar; 103. a slide plate; 104. a first connecting rod; 105. a clamping plate; 200. a clamping mechanism; 201. a cylindrical gear post; 202. a first toothed plate; 203. an electric push rod; 204. a second toothed plate; 300. an adjusting mechanism; 301. a threaded rod; 302. a side block; 303. a limit rod; 400. a sliding sleeve; 401. a second connecting rod; 500. a ball; 600. a fixed block; 601. a telescopic rod.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-4, a processing fixture for a heat radiator with a pin welding structure comprises a bottom plate 100, through grooves 101 are formed in four sides of the surface of the bottom plate 100, two sliding rods 102 are connected between inner walls of two sides in the length direction of the through grooves 101, sliding plates 103 are slidably mounted on the outer surfaces of the two sliding rods 102, first connecting rods 104 are mounted at the bottoms of the sliding plates 103, and clamping mechanisms 200 capable of simultaneously driving the four first connecting rods 104 to move are arranged at the bottoms of the bottom plate 100. The upper end of the slide plate 103 is provided with a clamping plate 105 through an adjusting mechanism 300, and the adjusting mechanism 300 can adjust the position of the clamping plate 105.

When the fixture is used, the needle-welded radiator is firstly placed on the upper surface of the bottom plate 100, then the clamping mechanism 200 drives the four first connecting rods 104 to move simultaneously, the first connecting rods 104 drive the sliding plates 103 to slide along the surfaces of the two sliding rods 102 and drive the clamping plates 105 to move towards the needle-welded radiator, as the moving distance of the four clamping plates 105 is fixed, and the space surrounded by the four clamping plates 105 is matched with the needle-welded radiator, when one clamping plate 105 is firstly contacted with the needle-welded radiator, the clamping plates can be pushed to move to adjust the positions until the four clamping plates 105 are simultaneously abutted to the four sides of the needle-welded radiator, thereby realizing the purposes of fixing and positioning, eliminating the need of manually placing and positioning the clamping plates, reducing the operation steps, improving the production efficiency and the processing quality, adjusting the positions of the clamping plates 105, and matching the space surrounded by the four clamping plates 105 with the needle-welded radiator, so that the fixing fixtures of different needle-welded radiators are realized, the fixtures do not need to be replaced, the purposes of multiple fixtures are avoided, and the purchase cost is reduced.

Specifically, fixture 200 includes rotating the cylindrical gear post 201 of connecting in bottom plate 100 bottom, first pinion rack 202 is all installed to the tip of four head rods 104, and four first pinion rack 202 all are connected with cylindrical gear post 201 meshing, electric putter 203 is installed to the bottom of bottom plate 100, electric putter 203 telescopic end's end connection has second pinion rack 204, second pinion rack 204 is connected with cylindrical gear post 201 meshing, after the needle welding radiator is placed in bottom plate 100's upper surface, start electric putter 203, electric putter 203's telescopic end promotes second pinion rack 204 and removes, the second pinion rack 204 removes the in-process and drives cylindrical gear post 201 rotation, because four first pinion rack 202 all mesh with cylindrical gear post 201, so at cylindrical gear post 201 rotatory in-process, can drive four first pinion rack 202 and head rods 104 and remove simultaneously, and through slide 103's connection effect, drive four splint 105 and support at needle welding radiator's four sides simultaneously, realize fixed and location's purpose.

Specifically, adjustment mechanism 300 is including running through the threaded rod 301 that sets up in slide 103 inside and rather than threaded connection, threaded rod 301's tip and splint 105 rotate to be connected, side piece 302 is all installed to slide 103's both sides surface, the inside of two side pieces 302 is all run through and is provided with gag lever post 303, and gag lever post 303's tip and splint 105 are connected, when needs are fixed the needle welding radiator of different models, rotatable threaded rod 301, because splint 105 receive the spacing effect of gag lever post 303 and side piece 302, so can follow horizontal direction and reciprocate at threaded rod 301 rotatory in-process, thereby reach the purpose to splint 105 position adjustment, through adjusting the position of four splint 105, can realize the fixed purpose to the needle welding radiator of different models.

Specifically, the sliding sleeve 400 is sleeved on the outer surface of the first connecting rod 104, the second connecting rod 401 is connected to the outer surface of the sliding sleeve 400, the end portion of the second connecting rod 401 is connected with the bottom of the bottom plate 100, and the first connecting rod 104 can be supported and guided through the sliding sleeve 400 and the second connecting rod 401, so that the stability of the structures of the first connecting rod 104 and the first toothed plate 202 is improved.

Specifically, the balls 500 are uniformly arranged on the upper surface of the bottom plate 100, the clamping plates 105 are arranged on the upper sides of the balls 500, and when the four clamping plates 105 are used for positioning the pin-welded radiator, the pin-welded radiator is pushed to slide on the surface of the bottom plate 100 until the four clamping plates 105 are simultaneously abutted against the four sides of the bottom plate, and through the arrangement of the balls 500, the friction resistance of the pin-welded radiator during sliding can be reduced, so that the pin-welded radiator slides more smoothly, and abrasion is avoided.

Specifically, fixed block 600 is installed to the bottom of bottom plate 100, and telescopic link 601 is installed to the surface mounting of fixed block 600, and telescopic link 601's tip is connected with second pinion rack 204, through the setting of fixed block 600 and telescopic link 601, can support the other end of second pinion rack 204, avoids leading to the junction of second pinion rack 204 and the flexible end of electric putter 203 impaired under the action of gravity, improves the stability of second pinion rack 204.

The foregoing detailed description of the utility model has been presented in conjunction with a specific embodiment, and it is not intended that the utility model be limited to such detailed description. Several equivalent substitutions or obvious modifications will occur to those skilled in the art to which this utility model pertains without departing from the spirit of the utility model, and the same should be considered to be within the scope of this utility model as defined in the appended claims.

Claims (6)

1. The utility model provides a needle welding formula structure radiator adds clamping apparatus, includes bottom plate (100), its characterized in that:

The four sides of the surface of the bottom plate (100) are respectively provided with a through groove (101), two sliding rods (102) are connected between the inner walls of the two sides of the through grooves (101) in the length direction, sliding plates (103) are slidably arranged on the outer surfaces of the two sliding rods (102), first connecting rods (104) are arranged at the bottoms of the sliding plates (103), and clamping mechanisms (200) capable of simultaneously driving the four first connecting rods (104) to move are arranged at the bottoms of the bottom plate (100);

The upper end of the sliding plate (103) is provided with a clamping plate (105) through an adjusting mechanism (300), and the adjusting mechanism (300) can adjust the position of the clamping plate (105).

2. The pin-bonded structural heat sink machining fixture of claim 1, wherein:

The clamping mechanism (200) comprises cylindrical gear columns (201) which are rotatably connected to the bottom of the bottom plate (100), first toothed plates (202) are arranged at the ends of the four first connecting rods (104), the four first toothed plates (202) are meshed with the cylindrical gear columns (201), an electric push rod (203) is arranged at the bottom of the bottom plate (100), a second toothed plate (204) is connected to the end of the telescopic end of the electric push rod (203), and the second toothed plate (204) is meshed with the cylindrical gear columns (201).

3. The pin-bonded structural heat sink machining fixture of claim 1, wherein:

The adjusting mechanism (300) comprises a threaded rod (301) penetrating through the inside of the sliding plate (103) and in threaded connection with the threaded rod, the end portion of the threaded rod (301) is rotationally connected with the clamping plate (105), side blocks (302) are mounted on the outer surfaces of two sides of the sliding plate (103), limiting rods (303) are penetrating through the inside of the side blocks (302), and the end portions of the limiting rods (303) are connected with the clamping plate (105).

4. The pin-bonded structural heat sink machining fixture of claim 1, wherein:

The outer surface cover of head rod (104) is equipped with sliding sleeve (400), the surface of sliding sleeve (400) is connected with second connecting rod (401), the tip of second connecting rod (401) with the bottom of bottom plate (100) is connected.

5. The pin-bonded structural heat sink machining fixture of claim 1, wherein:

The upper surface of the bottom plate (100) is uniformly provided with balls (500), and the clamping plate (105) is arranged on the upper side of the balls (500).

6. The pin-bonded structural heat sink machining fixture of claim 2, wherein:

The bottom of bottom plate (100) is installed fixed block (600), telescopic link (601) are installed to the surface of fixed block (600), the tip of telescopic link (601) with second pinion rack (204) are connected.