CN219132283U - Welding machine storage jig frame - Google Patents

Abstract

The utility model relates to a welding machine storage jig frame which comprises a bearing plate, a loading box, an L-shaped plate, a flange plate and at least two universal wheel assemblies. The bearing plate and the loading box are fixed on the frame, and the loading box is relatively positioned above the bearing plate. The L-shaped plate is matched with a flange plate fixed on the frame. The vertical face of L shaped plate passes through track structure with the curb plate and matches, makes L shaped plate can go up and down relative frame. The horizontal plate surface of the L-shaped plate corresponds to the upper part of the upper port of the loading box, and the horizontal plate surface of the L-shaped plate can be selectively close to and far away from the upper end surface of the loading box. The universal wheel assembly is fixedly mounted on the frame and includes a wheel frame with a universal wheel and a thrust screw. The wheel frame is matched with the frame through a sliding rail. The thrust screw rod is matched with the frame and the lower end is connected to the wheel frame. The thrust screw rod can drive the wheel frame to move up and down. This patent helps solving the welding machine and removes between different operation district, especially removes in-process to the high altitude construction district, the inconvenient and the hidden danger of safety problem scheduling problem that exists.

Description

Welding machine storage jig frame

Technical Field

The utility model relates to the technical field of welding machine storage racks.

Background

The use of welders is relatively widespread in the actual production of various industries/fields. The welder mainly comprises a (welder) host/body, cables and accessories. The weight of the welding machine body is relatively large, the welding machine body is laboriously moved when being required to be moved in the use process, meanwhile, the phenomena that the welding machine body cannot be moved together, the welding machine body is easy to lose parts and cables are hung on objects in a skew environment in the moving process and the like often exist in the moving process, the welding machine body, the cables and the parts are more obvious in inconvenience in moving in long-distance moving and high-altitude operation using the welding machine, and meanwhile, potential safety hazards are easy to cause because the cables are not well stored.

Disclosure of Invention

Aiming at the problems of inconvenience, potential safety hazards and the like in the process of moving a welding machine between different operation areas, particularly to an overhead operation area, the utility model provides a welding storage jig which can reduce the labor intensity of workers in the moving process of the welding machine, and can effectively move cables, accessories and the like together with a machine body of the welding machine, so that the transferring process is labor-saving, quick and efficient, and the occurrence probability of the situation that the accessories are lost and the cables are wound on external objects is obviously reduced.

The technical scheme adopted for solving the technical problems is as follows: a welding machine storage jig comprises a bearing plate, a loading box, an L-shaped plate, a flange plate and at least two universal wheel assemblies.

The bearing plate and the loading box are fixed on the frame, and the loading box is relatively positioned above the bearing plate. The vertical spacing formed between the upper end surface of the support plate and the outer bottom surface of the loading box can ensure that the welder body is smoothly placed on the support plate.

The L-shaped plate is matched with a flange plate fixed at the front end and/or the rear end of the frame.

The vertical board face of L shaped plate with the track structure that the marginal board set up through following vertical direction matches, makes L shaped plate can go up and down relative frame.

The horizontal plate surface of the L-shaped plate corresponds to the upper part of the upper port of the loading box, and can be selectively close to and far away from the upper end surface of the loading box along with the lifting movement of the L-shaped plate relative to the frame.

The horizontal plate surface of the L-shaped plate can cover the upper port of the loading box.

A plurality of universal wheel assemblies are fixedly mounted on left and right side cross members of the lower portion of the frame, respectively.

The universal wheel assembly comprises a wheel frame provided with a universal wheel and a thrust screw. The wheel frame is matched with a cross beam of the frame through a linear sliding rail. The thrust screw rod is matched with a threaded through hole arranged on the frame cross beam, and the lower end of the thrust screw rod is connected to the wheel frame.

When the thrust screw rotates relative to the threaded through hole on the frame cross beam, the wheel frame can be selectively driven to move upwards and downwards.

The wheel frame can enable the universal wheel to be contacted with the ground when moving downwards, and the wheel frame can enable the universal wheel to be far away from the ground when moving upwards. In this way, after the welder is moved to the working area, the universal wheels are lifted up to bring the lower ends of the vertical beams of the frame into direct contact with the floor or the floor surface of the overhead frame. On the contrary, when the welder needs to be transferred and moved between two working areas, the universal wheels are put down, the wheels are contacted with the ground, the handle rod on the frame can be held, and the pushing hand is pushed to push the welder to the target position.

Further, the rim plate is fixed to a front side end plate and/or a rear side end plate of the loading cassette. The strip-shaped holes extending in the left-right direction are formed in the flange plate, and the free ends of the vertical plate surfaces of the L-shaped plates penetrate out of the strip-shaped holes downwards.

The front end face and/or the rear end face of the flange plate are/is provided with fastening bolts matched with threaded holes in the flange plate. Screwing the fastening bolt can selectively fix the L-shaped plate relative to the flange plate and enable the L-shaped plate to move up and down relative to the flange plate.

Further, a groove extending along the vertical direction is formed in the vertical panel of the L-shaped plate, and counter bores are formed in the upper end and the lower end of the groove respectively. The bottom surface of the counterbore is further inward than the bottom surface of the groove.

The bolt shank end of the fastening bolt is insertable into the counterbore.

Further, the L-shaped plates are arranged at two ends of the loading box in a front-back opposite way. The free ends of the horizontal plate surfaces of the two L-shaped plates can be opposite to each other and can cover the upper port of the loading box.

Further, a plurality of upright posts are arranged in the middle of the inner bottom surface of the loading box, and the upright posts are relatively distributed at the corners of the polygon. The stand column is sleeved with a cover disc, and an interference fit is formed between a central hole of the cover disc and the stand column. The cover tray may be made of a rubber material.

In use, the cable is wound between the posts and is clamped between the cover disc and the inner bottom surface of the loading box by pressing the cover disc downwards.

Further, a U-shaped concave structure is formed in the middle of the upright post. The U-shaped concave part structure can store the cable in the groove, so that the cable wound on the inner ring of the upright post can be better combined with the upright post, and the cable wound on the upright post can be effectively prevented from being loosened. In particular, when a cover disc is simultaneously arranged on the upright post, the cover disc can restrain the cable wound on the outer side to prevent the cable from loosening from the upright post.

Further, a first foam cushion is laid on the inner bottom surface of the loading box. And a second foam cushion is paved on the lower end surface of the horizontal plate surface of the L-shaped plate. When the L-shaped plate moves downwards to enable the lower end face of the horizontal plate face to be in contact with the upper end face of the loading box, the second sponge cushion can extend into the cavity of the loading box.

When the second sponge cushion stretches into the cavity of the loading box, the second sponge cushion and the first sponge cushion can be contacted or only a small vertical distance is formed between the opposite surfaces of the second sponge cushion and the first sponge cushion, and the vertical distance can be set in the range of 1mm to 8 mm.

Further, in order to buffer the L-shaped plate falling down, an elastic pad is embedded on the upper end surface of the loading box. When the L-shaped plate falls down, the horizontal plate surface of the L-shaped plate is in contact with the elastic pad and cannot be directly in contact with the upper end surface of the loading box.

Further, a sink groove is formed in a central region of the inner bottom surface of the loading cassette. The first sponge cushion is paved on the left side and the right side of the sinking groove, and a U-shaped notch is formed on one side of the first sponge cushion facing the sinking groove.

A bedplate is arranged in the sinking groove, and the upright posts are distributed on the bedplate. The upper end face of the bedplate is lower than the upper end face of the first sponge cushion.

And a wedge block is respectively arranged on the inner bottom surface of the loading box and corresponds to the U-shaped notch on the first sponge cushion.

An elongated channel is provided at the bottom of the platen and the top of the channel forms a wedge surface.

The wedge surface at the upper end of the wedge block can be matched with the wedge surface in the channel, and the bedplate can be pushed upwards or fallen down in the process of pushing and pulling the wedge block to move along the left-right direction relative to the loading box.

Under the scheme designed in the upper section, if the second sponge cushion is correspondingly arranged, the thickness of the portion, corresponding to the upper part of the bedplate, of the second sponge cushion is smaller than the thickness of the portion, opposite to the second sponge cushion.

The beneficial effects of the utility model are as follows: this patent is to solving the welding machine and remove between different operating areas, especially to the in-process that the high altitude construction district removed, the inconvenient and the hidden danger of safety problem scheduling problem that exists, and the welding that provides deposits the bed-jig can alleviate the welding machine and remove in-process workman's intensity of labour, simultaneously can also effectively rule and hold cable and accessory etc. and remove together with the welding machine fuselage, makes transfer process laborsaving, swift, high-efficient to can show the reduction accessory and lose, the cable twines the situation probability of appearing on outside article.

Drawings

Fig. 1 is a schematic structural diagram of the present patent.

Fig. 2 is a schematic cross-sectional view of a portion of the lower part of the frame body.

Fig. 3 is a schematic top view of the cartridge.

Fig. 4 is a schematic view of the mating structure of the loading box corresponding to the L-shaped plate.

In the figure: 10 frames, 101 pushing hands, 102 handle rods, 1 supporting plate, 2 loading boxes, 21 bedplate, 22 sponge cushion I, 23U-shaped notch, 24 wedge blocks, 25 elastic cushion, 26 cover plate, 27 upright posts, 28 sponge cushion II, 3L-shaped plate, 31 groove, 32 counter bores, 4 flange plates, 41 fastening bolts, 5 universal wheel assemblies, 51 wheel frames and 52 thrust screw rods.

Detailed Description

The structures, proportions, sizes, etc. shown in the drawings are shown only in connection with the disclosure of the present utility model, and are not intended to limit the scope of the utility model, which is defined by the claims, but rather by the terms of modification, variation of proportions, or adjustment of sizes, without affecting the efficacy or achievement of the present utility model, should be understood as falling within the scope of the present utility model. Also, the terms such as "upper", "lower", "front", "rear", "middle", and the like are used herein for descriptive purposes only and are not intended to limit the scope of the utility model for which the utility model may be practiced or for which the relative relationships may be altered or modified without materially altering the technical context.

A welder storage jig or welder storage rack as shown in fig. 1 to 4 includes a carrier plate 1, a loading box 2, a pair of L-shaped plates 3, a pair of rim plates 4, and a pair of universal wheel assemblies 5. The support plate 1 and the loading box 2 are fixed to a frame 10, and the loading box 2 is located right above the support plate 1. The L-shaped plates 3 are respectively matched with the flange plates 4 fixed on the front end and the rear end of the frame 10 in a one-to-one correspondence. The vertical plate surface of the L-shaped plate 3 is matched with the flange plate 4 through a track structure arranged along the vertical direction, so that the L-shaped plate 3 can move up and down relative to the frame 10.

The horizontal plate surface of the L-shaped plate 3 is correspondingly arranged above the upper port of the loading box 2, and the horizontal plate surface of the L-shaped plate 3 can be selectively abutted against and separated from the upper end surface of the loading box 3 along with the lifting movement of the L-shaped plate 3 relative to the frame 10. The upper ports of the loading boxes 2 can be covered after the horizontal plate surfaces of the two L-shaped plates 3 are opposite.

The vertical space formed between the upper end surface of the support plate 1 and the outer bottom surface of the loading box 2 can ensure that the welder body is smoothly placed on the support plate 1. When the L-shaped plate moves downwards, the lower end of the vertical plate surface of the L-shaped plate gradually approaches the bearing plate 1. The vertical plate surfaces of the two L-shaped plates can cover an open frame opening formed between the bearing plate 1 and the vertical beam of the frame 10, so that the welding machine body placed on the bearing plate 1 can be prevented from falling off from the frame or the jig frame. When the L-shaped plate 3 moves downwards to the end of the stroke, the lower end of the vertical plate surface can be relatively positioned below the supporting plate 1, can be just to the height position of the supporting plate 1, and can also be relatively positioned at a certain height position above the supporting plate 1.

The L-shaped plate 3 is arranged to cover a frame (window) formed between the bearing plate 1 and the vertical beam of the frame 10 and cover the upper port of the loading box 2, so that a welder body placed on the bearing plate 1 can be effectively protected from falling off from the frame 10, and the safety of the transfer process is ensured; it is also possible to prevent the cables and accessories placed inside the loading box 2 from being lost.

Two of the universal wheel assemblies 5 are fixedly mounted to left and right side cross members of the lower portion of the frame 10, respectively.

The universal wheel assembly 5 comprises a wheel frame 51 provided with universal wheels and a thrust screw 52. The wheel frame 51 is matched with a cross beam of the frame 10 through a linear sliding rail. The thrust screw 52 is matched with a threaded through hole arranged on the cross beam of the frame 10, and the lower end of the thrust screw 52 is connected to the wheel frame 51. The thrust screw 52 can selectively drive the wheel frame 51 to move up and down when rotating relative to the threaded through hole on the cross beam of the frame 10.

The wheel frame 51 can make the universal wheel contact with the ground when moving downwards, and the wheel frame 51 can make the universal wheel away from the ground when moving upwards. In this way, after the welder is moved to the work area, the universal wheels are lifted up to bring the lower end of the vertical beam of the frame 10 into direct contact with the floor or the deck of the overhead frame. Conversely, when the welder needs to be moved from the working area to the working area, the wheels are contacted with the ground when the universal wheels are put down, so that the handle bar 102 on the frame 10 can be held, and the pushing hand 101 is pushed to push the welder to the target position. So that the transfer process of the welding machine is labor-saving and efficient.

As shown in fig. 1 and 4, the flange plate 4 is fixed to the front end plate and the rear end plate of the loading cassette 2.

A strip-shaped hole extending in the left-right direction is formed in the flange plate 4, and the free end of the vertical plate surface of the L-shaped plate 3 penetrates out of the strip-shaped hole downwards.

Fastening bolts 41 are arranged on the front end face and the rear end face of the flange plate 4 and matched with threaded holes on the flange plate 4. Screwing the fastening bolts 41 can selectively fix the L-shaped plate 3 relative to the flange plate 4 and enable the L-shaped plate 3 to move up and down relative to the flange plate 4.

Meanwhile, a groove 31 extending in the vertical direction is provided on the vertical panel of the L-shaped plate 3, and counter bores 32 are provided at the upper and lower ends of the groove 31, respectively. The bottom surface of the counterbore 32 is further inward than the bottom surface of the groove 31.

The shank end of the fastening bolt 41 can be inserted into the counterbore 32. Thus, when the L-shaped plate is positioned at the upper end and the lower end of the travel, the reliability and the safety of the positioning of the L-shaped plate relative to the frame 10 can be effectively ensured, and the operations of placing the welder body on the bearing plate 1 and accommodating cables and accessories in the loading box 2 can be smoothly implemented.

As shown in fig. 4, a pair of L-shaped plates 3 are provided at opposite ends of the loading cassette 2. The free ends of the horizontal plates in the two L-shaped plates 3 can be opposite and can cover the upper port of the loading box 2.

A plurality of upright posts 27 are arranged in the middle of the inner bottom surface of the loading box 2, and the upright posts 27 are distributed in a relatively dispersed manner. As shown in fig. 3, are respectively distributed at the corners of the quadrangle. The upright post 27 is sleeved with a cover disc 26, and an interference fit is formed between a central hole of the cover disc 26 and the upright post 27. The cover tray 26 may be made of a rubber material.

In use, the cable is wound between the respective posts 27 and is clamped between the cover disc 26 and the inner bottom surface of the cassette 2 by pressing down on the cover disc 26.

As shown in fig. 4, a U-shaped recess structure is formed in the middle of the upright post 27. This U-shaped concave part structure that sets up can accomodate the cable in the recess, can make the winding in the inner circle cable on the stand 27 with stand 27 combines better, can effectively avoid winding in the cable on the stand 27 loosen and break away from and drop. In particular, when the cover 26 is simultaneously disposed on the upright 27, the cover 26 can restrain the cable wound on the outside to prevent the cable from being loosened from the upright 27. The arrangement can enable the storage of the cable to be tidier, messy and easy to take and use.

A foam cushion one 22 may be laid on the inner bottom surface of the loading cassette 2. A second foam cushion 28 is laid on the lower end face of the horizontal plate surface of the L-shaped plate 3. When the L-shaped plate 3 moves downwards to enable the lower end face of the horizontal plate face to be in contact with the upper end face of the loading box 2, the second sponge cushion 28 can extend into the cavity of the loading box 2.

When the second foam-rubber cushion 28 is inserted into the cavity of the loading box 2, the second foam-rubber cushion 28 and the first foam-rubber cushion 22 can be contacted or only a small vertical distance is formed between the opposite surfaces of the two, and the vertical distance can be set in the range of 1mm to 8 mm.

As shown in fig. 4, an elastic pad 25 is fitted to the upper end surface of the loading cassette 2 in order to buffer the L-shaped plate 3 from falling down. When the L-shaped plate 3 falls down, the horizontal plate surface of the L-shaped plate 3 is in contact with the elastic pad 25 without being directly in contact with the upper end surface of the loading cassette 2.

As shown in fig. 3 and 4, a sink is formed in a central region of the inner bottom surface of the loading box 2. The first sponge cushion 22 is paved on the left side and the right side of the sinking groove, and U-shaped notches are formed on one side of the first sponge cushion 22 facing the sinking groove.

A bedplate 21 is arranged in the sink, and the upright posts 27 are distributed on the bedplate 21. In the original state, the upper end surface of the platen 21 is made lower than the upper end surface of the foam cushion one 22.

On the inner bottom surface of the loading box 2, a wedge 24 is provided corresponding to the U-shaped notch on the first sponge cushion 22. An elongated channel is provided at the bottom of the platen 21 and the upper top of the channel forms a wedge surface. The upper wedge surface of the wedge block 24 can be matched with the wedge surface in the channel, and the platen 21 can be pushed upwards or fall by gravity when the wedge block 24 is pushed and pulled (manually) to move along the left-right direction relative to the loading box 2. In the design of this section, if the second foam-rubber cushion 28 is provided correspondingly, the thickness of the portion of the second foam-rubber cushion 28 corresponding to the upper portion of the platen 21 is smaller than the thickness of the portion facing the first foam-rubber cushion 22, as shown in fig. 3.

The counter 21 is provided in a counter, and the stand 27 for winding the cable is provided in the counter 21, so that the cable can be sufficiently stored while the thickness of the loading box 2 is made as small as possible. In addition, through setting up foam-rubber cushion one 22 and corresponding foam-rubber cushion two 28 corresponding platen 21 left and right sides, can realize the better accomodating to the accessory, can effectively prevent the accessory to float at will in loading box 2 in the transfer process, can help convenient, swift each accessory that finds needs when using.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. The present utility model is capable of modifications in the foregoing embodiments, as obvious to those skilled in the art, without departing from the spirit and scope of the present utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (10)

1. A welding machine deposits bed-jig, its characterized in that: comprises a bearing plate, a loading box, an L-shaped plate, a flange plate and at least two universal wheel assemblies;

the bearing plate and the loading box are fixed on the frame, and the loading box is relatively positioned above the bearing plate;

the L-shaped plate is matched with the flange plate fixed at the front end and/or the rear end of the frame; the vertical plate surface of the L-shaped plate is matched with the edge plate through a track structure, so that the L-shaped plate can be lifted relative to the frame; the horizontal plate surface of the L-shaped plate is correspondingly arranged above the port of the loading box, and can be selectively close to and far away from the upper end surface of the loading box;

the universal wheel assemblies are fixedly arranged on a left side cross beam and a right side cross beam at the lower part of the frame respectively;

the universal wheel assembly comprises a wheel frame provided with a universal wheel and a thrust screw; the wheel frame is matched with a cross beam of the frame through a linear sliding rail; the thrust screw is matched with a threaded through hole arranged on the frame cross beam, and the lower end of the thrust screw is connected to the wheel frame; the thrust screw can selectively drive the wheel frame to move upwards and downwards.

2. A welder storage jig as defined in claim 1 wherein: the flange plate is fixed on the front side end plate and/or the rear side end plate of the loading box; a strip-shaped hole extending in the left-right direction is formed in the flange plate, and the free end of the vertical plate surface of the L-shaped plate penetrates out of the strip-shaped hole downwards;

the front end face and/or the rear end face of the flange plate are provided with fastening bolts matched with threaded holes in the flange plate;

the fastening bolts can selectively fix the L-shaped plate relative to the flange plate and enable the L-shaped plate to move up and down relative to the flange plate.

3. A welder storage jig as defined in claim 2 wherein: a groove extending along the vertical direction is formed in the vertical panel of the L-shaped plate, and counter bores are formed in the upper end and the lower end of the groove respectively; the bottom surface of the counter bore is positioned inwards relative to the bottom surface of the groove; the shank end of the fastening bolt is insertable into the counterbore.

4. A welder storage jig as defined in any one of claims 1 to 3 wherein: the L-shaped plates are a pair and are oppositely arranged at the two ends of the loading box front and back; the free ends of the horizontal plate surfaces of the two L-shaped plates can be opposite to each other and can cover the upper port of the loading box.

5. A welder storage jig as defined in any one of claims 1 to 3 wherein: a plurality of upright posts are arranged in the middle of the inner bottom surface of the loading box and are distributed in a relatively dispersed manner;

the stand column is sleeved with a cover disc, and an interference fit is formed between a central hole of the cover disc and the stand column.

6. A welder storage jig as defined in claim 5 wherein: the middle part of stand is formed with U-shaped concave part structure.

7. A welder storage jig as defined in claim 5 wherein: a first foam cushion is paved on the inner bottom surface of the loading box; a second foam cushion is paved on the lower end surface of the horizontal plate surface of the L-shaped plate; when the L-shaped plate moves downwards to enable the lower end face of the horizontal plate face to be in contact with the upper end face of the loading box, the second sponge cushion can extend into the cavity of the loading box.

8. A welder storage jig as defined in claim 7 wherein: a sinking groove is formed in the middle area of the inner bottom surface of the loading box; the first sponge cushion is paved on the left side and the right side of the sinking groove, and U-shaped notches are formed on one side of the first sponge cushion facing the sinking groove;

a bedplate is arranged in the sinking groove, and the upright posts are distributed on the bedplate; the upper end face of the bedplate is lower than the upper end face of the first sponge cushion;

a wedge block is arranged on the inner bottom surface of the loading box and corresponds to the U-shaped notch on the first sponge cushion;

a strip-shaped channel is arranged at the bottom of the bedplate, and the upper top surface of the channel is formed into a wedge surface;

the wedge surface at the upper end of the wedge block can be matched with the wedge surface in the channel, and the bedplate can be pushed upwards or fallen down in the process of pushing and pulling the wedge block to move along the left-right direction relative to the loading box.

9. A welder storage jig as defined in any one of claims 1 to 3 wherein:

a first foam cushion is paved on the inner bottom surface of the loading box; a second foam cushion is paved on the lower end surface of the horizontal plate surface of the L-shaped plate; when the L-shaped plate moves downwards to enable the lower end face of the horizontal plate face to be in contact with the upper end face of the loading box, the second sponge cushion can extend into the cavity of the loading box.

10. A welder storage jig as defined in claim 9 wherein: a sinking groove is formed in the middle area of the inner bottom surface of the loading box; the first sponge cushion is paved on the left side and the right side of the sinking groove, and U-shaped notches are formed on one side of the first sponge cushion facing the sinking groove;

a bedplate is arranged in the sink, a plurality of upright posts are arranged on the upper end surface of the bedplate, and the upright posts are distributed in a relatively dispersed manner;

the upper end face of the bedplate is lower than the upper end face of the first sponge cushion;

a wedge block is arranged on the inner bottom surface of the loading box and corresponds to the U-shaped notch on the first sponge cushion;

a strip-shaped channel is arranged at the bottom of the bedplate, and the upper top surface of the channel is formed into a wedge surface;

the wedge surface at the upper end of the wedge block can be matched with the wedge surface in the channel, and the bedplate can be pushed upwards or fallen down in the process of pushing and pulling the wedge block to move along the left-right direction relative to the loading box.

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