CN211991576U - Welding fixing device of three-drawer pipe frame - Google Patents

Abstract

The utility model discloses a welded fastening device of three pipe racks, it includes: the rotary positioning platform comprises a fixed part and a rotary part which is rotationally connected with the fixed part; the workbench is fixedly connected with the fixed part and arranged below the rotary positioning platform; and the pipe frame component fixing frame is connected with the rotating part, and an electromagnetic fixing table is arranged on the pipe frame component fixing frame and used for fixing the pipe frame component under the action of magnetic force. The utility model discloses can fix pipe support part, make things convenient for the workman to weld, effectively improve the yield of three extraction pipe supports.

Description

Welding fixing device of three-drawer pipe frame

Technical Field

The utility model relates to a welding equipment technical field, in particular to welded fastening device of three pipe racks of taking out.

Background

The three-drawer pipe frame is a product formed by welding a plurality of iron pipes and iron supports, the existing manufacturing mode of the three-drawer pipe frame is to place two or more pipe frame components on a workbench, then each pipe frame component is welded by welding equipment, however, the pipe frame components are welded together when the pipe frame components are not fixed, the welding difficulty of workers can be increased, various deformation or the situation that the welding is not in place can also be caused after the welding of the three-drawer pipe frame is finished, and the yield of the three-drawer pipe frame is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a welded fastening device of three pipe racks, this welded fastening device of three pipe racks can fix pipe rack part, makes things convenient for the workman to weld, effectively improves the yield of three pipe racks.

In order to realize the purpose, the technical scheme of the utility model is that:

a welded fastening device for a three-drawer frame comprises:

the rotary positioning platform comprises a fixed part and a rotary part which is rotationally connected with the fixed part;

the workbench is fixedly connected with the fixed part and arranged below the rotary positioning platform;

and the pipe frame component fixing frame is connected with the rotating part, and an electromagnetic fixing table is arranged on the pipe frame component fixing frame and used for fixing the pipe frame component under the action of magnetic force.

Adopt the welded fastening device of three pipe racks of taking out of above-mentioned structure, it fixes pipe support parts with the help of the magnetic force effect of electromagnetism fixed station to liberation workman's both hands, make the workman can utilize the hand of vacating to adjust the position of another pipe support part, so that weld pipe support part together better, when reducing workman's the welding degree of difficulty, can also prevent to appear warping or the not in place condition of welding. Moreover, the worker can also rotate the rotating part on the fixing part, so that the electromagnetic fixing table can rotate, the relative position of the pipe frame component on the electromagnetic fixing table is changed, and multi-point welding is realized. In addition, the pipe frame component is fixed by magnetic force, so that the pipe frame component can be applied to pipe frame components with irregular shapes, and a fixing mode using a special clamp instead of a special shape is adopted.

Further, the fixed part and the rotating part are coaxially arranged and are connected through a rotating shaft.

Further, the rotating parts are all made of magnetizer materials;

a magnetic adsorption mechanism is arranged in the fixed part;

when the magnetic adsorption mechanism is in a working state, the fixed part is fixedly connected with the rotating part under the action of magnetic force;

when the magnetic adsorption mechanism is in a non-working state, the rotating part rotates around the axis direction where the rotating shaft is located on the fixing part under the action of external force.

Furthermore, an accommodating space for accommodating the magnetic adsorption mechanism is arranged at the periphery of the fixing part;

the magnetic adsorption mechanism includes:

a first magnetizer, the upper end of which is contacted with the upper end of the fixing part, and the lower end of which is contacted with the lower end of the fixing part;

a second magnetizer, the upper end of which is contacted with the upper end of the fixing part, and the lower end of which is contacted with the lower end of the fixing part;

the left end of the first non-magnetizer is connected with the upper end of the first magnetizer, and the right end of the first non-magnetizer is connected with the upper end of the second magnetizer;

the left end of the second non-magnetizer is connected with the lower end of the first magnetizer, and the right end of the second non-magnetizer is connected with the lower end of the second magnetizer;

when the first magnetizer, the second magnetizer, the first non-magnetizer and the second non-magnetizer are connected, a magnet accommodating space is formed between the first magnetizer and the second magnetizer, and a magnet capable of rotating in the radial direction is arranged in the magnet accommodating space.

Further, when both poles of the magnet are in a horizontal state, both poles of the magnet are in contact with the first magnetizer and the second magnetizer, respectively;

when the two poles of the magnet are in the vertical state, the two poles of the magnet are respectively in contact with the first non-magnetic conductive body and the second non-magnetic conductive body.

Further, the electromagnetic fixing table includes:

the fixed station shell is connected with the pipe frame component fixing frame at two ends, the interior of the fixed station shell is of a hollow structure, and the fixed station shell is made of magnetizer materials;

and the electromagnet is positioned in the fixed table shell and is in contact with the fixed table shell.

Furthermore, the workbench is also provided with a working switch which is electrically connected with the control device and used for sending a working signal or a stop signal to the control device;

the electromagnet is electrically connected with the control device and used for being electrified after receiving a working signal sent by the control device or being powered off after receiving a stop signal sent by the control device.

Further, the working switch is a foot switch and is positioned at the lower end of the workbench.

For a better understanding and an implementation, the present invention is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a front view of the welding fixture of the three-leg pumping rack of the present invention;

FIG. 2 is a top view of the welding fixture of the triple-tube rack of the present invention;

FIG. 3 is a partial schematic view of a rotary positioning platform in the welding fixture of the triple-leg rack of the present invention;

FIG. 4 is a partial schematic view of a rotational positioning platform in the welding fixture of the triple-leg rack of the present invention;

fig. 5 is a partial schematic view of a rotational positioning platform in the welding fixture of the three-drawer frame of the present invention.

[ reference numerals ]

100 rotating positioning stage 110, 120, rotating part

111 accommodating space 112 first magnetizer

113 second magnetizer 114 first non-magnetizer

115 second non-electromagnet 116 magnet

117 magnet switch 121 rotating handle

200 workbench 210 foot switch

300 pipe support part fixing frame 310 electromagnetic fixing table

400 pipe support part

Detailed Description

In order to fully understand the objects, features and effects of the present invention, the conception, specific structure and technical effects of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 5, a welding fixture for a three-drawer frame includes:

a rotary positioning platform 100, which comprises a fixed part 110 and a rotary part 120 rotationally connected with the fixed part 110;

a table 200 connected and fixed to the fixing portion 110, and disposed below the rotary positioning platform 100;

and a pipe rack component fixing frame 300 connected to the rotating part, on which an electromagnetic fixing table 310 is provided to fix the pipe rack component by a magnetic force.

Adopt the welded fastening device of three pipe racks of taking out of above-mentioned structure, it fixes pipe support part 400 with the help of the magnetic force effect of electromagnetism fixed station 310 to liberation workman's both hands make the workman can utilize the hand of vacating to adjust the position of another pipe support part, so that weld pipe support part together better, when reducing workman's the welding degree of difficulty, can also prevent to appear and warp or weld the condition not in place. Moreover, the worker can also rotate the rotating part on the fixing part, so that the electromagnetic fixing table can rotate, the relative position of the pipe frame component on the electromagnetic fixing table is changed, and multi-point welding is realized. In addition, the pipe frame component is fixed by magnetic force, so that the pipe frame component can be applied to pipe frame components with irregular shapes, and a fixing mode using a special clamp instead of a special shape is adopted.

Further, the fixed part 110 with the rotating part 120 is coaxial setting, and connects through a rotation axis, and the workman rotates the rotating part operation, makes the rotating part can rotate on the fixed part to realize the rotation of electromagnetism fixed station, change the relative position of pipe support part then, realize the multiple spot welding, make things convenient for the workman to operate. Specifically, a rotating handle 121 is provided on the rotating portion, which facilitates a worker to rotate the rotating portion by means of the rotating handle 121.

Further, the rotating portion 120 is made of a magnetic conductor material;

a magnetic adsorption mechanism is arranged in the fixing part 110;

when the magnetic adsorption mechanism is in a working state, the fixed part is fixedly connected with the rotating part under the action of magnetic force;

when the magnetic adsorption mechanism is in a non-working state, the rotating part rotates around the axis direction where the rotating shaft is located on the fixing part under the action of external force. The magnetic adsorption mechanism is connected through a magnet switch 117, and the working state of the magnetic adsorption mechanism is changed by the magnet switch, so that the rotating part is fixed on the fixing part by means of magnetic force, and misoperation caused by rotation of the rotating part when the pipe frame component is welded is prevented.

Further, an accommodating space 111 for accommodating the magnetic attraction mechanism is provided at the periphery of the fixing portion 110;

as shown in fig. 3 to 5, the magnetic attraction mechanism includes:

a first magnetizer 112 having an upper end contacting with the upper end of the fixing portion and a lower end contacting with the lower end of the fixing portion;

a second magnetic conductor 113 having an upper end contacting the upper end of the fixing portion and a lower end contacting the lower end of the fixing portion;

a first non-magnetizer 114 having a left end connected to the upper end of the first magnetizer and a right end connected to the upper end of the second magnetizer;

a second non-magnetizer 115 having a left end connected to the lower end of the first magnetizer and a right end connected to the lower end of the second magnetizer;

when the first magnetizer, the second magnetizer, the first non-magnetizer and the second non-magnetizer are connected, a magnet accommodating space is formed between the first magnetizer and the second magnetizer, and a magnet 116 capable of rotating in the radial direction is arranged in the magnet accommodating space. The magnet 116 is connected to the magnet switch 117, and the magnet is rotated by the magnet switch, so that the magnet is radially rotated to change the operating state of the magnetic adsorption mechanism.

It should be noted that the magnetizer is a soft magnetic material, such as pure iron; the non-magnetizer is brass.

Further, as shown in fig. 4 and 5, when both poles of the magnet are in a horizontal state, both poles of the magnet are in contact with the first and second magnetic conductors, respectively; the N pole and the S pole are respectively opposite to the two magnetizers, and at the moment, the N pole, the second magnetizer, the rotating part and the S pole form magnetic induction line closure so that the rotating part can be firmly attached to the fixing part;

when the two poles of the magnet are in the vertical state, the two poles of the magnet are respectively in contact with the first non-magnetic conductive body and the second non-magnetic conductive body. The magnetic induction lines form closed circuits in the two magnetizers respectively, and the rotating part rotates on the fixing part easily.

Further, the electromagnetic fixing table includes:

the fixed station shell is connected with the pipe frame component fixing frame at two ends, the interior of the fixed station shell is of a hollow structure, and the fixed station shell is made of magnetizer materials;

and the electromagnet is positioned in the fixed table shell and is in contact with the fixed table shell. The electromagnet is controlled to be electrified, and the fixed table shell made of the magnetizer material is magnetized, so that the fixed table shell has magnetic force, and the pipe frame component is adsorbed; and when the pipe support component is not required to be adsorbed, the electromagnet can be controlled to be powered off, so that the fixed platform shell is demagnetized, and the adsorption on the pipe support component is relieved.

Furthermore, the workbench is also provided with a working switch which is electrically connected with the control device and used for sending a working signal or a stop signal to the control device;

the electromagnet is electrically connected with the control device and used for being electrified after receiving a working signal sent by the control device or being powered off after receiving a stop signal sent by the control device.

Further, the working switch is a foot switch 210 which is located at the lower end of the workbench, so that a worker can conveniently control the electrification and the outage of the electromagnet by using the foot switch.

The utility model discloses an application method does, and the workman will need welded pipe support part one to place on the fixed station casing to through the circular telegram of foot switch control electro-magnet, thereby adsorb pipe support part one. And after the pipe frame component I is fixed, a worker grasps the pipe frame component II by hands, changes the position of the pipe frame component II and finally completes welding.

The present invention is not limited to the above embodiment, and if various modifications or variations of the present invention do not depart from the spirit and scope of the present invention, they are intended to be covered if they fall within the scope of the claims and the equivalent technology of the present invention.

Claims (8)

1. The utility model provides a welded fastening device of three pipe racks, its characterized in that includes:

the rotary positioning platform comprises a fixed part and a rotary part which is rotationally connected with the fixed part;

the workbench is fixedly connected with the fixed part and arranged below the rotary positioning platform;

and the pipe frame component fixing frame is connected with the rotating part, and an electromagnetic fixing table is arranged on the pipe frame component fixing frame and used for fixing the pipe frame component under the action of magnetic force.

2. The weld fixture of a triple tubing hanger of claim 1, wherein:

the fixed part with the rotating part is coaxial setting, and connects through a pivot.

3. The weld fixture of a triple tubing hanger of claim 2, wherein:

the rotating parts are all made of magnetizer materials;

a magnetic adsorption mechanism is arranged in the fixed part;

when the magnetic adsorption mechanism is in a working state, the fixed part is fixedly connected with the rotating part under the action of magnetic force;

when the magnetic adsorption mechanism is in a non-working state, the rotating part rotates around the axis direction where the rotating shaft is located on the fixing part under the action of external force.

4. The weld fixture of a triple tubing hanger of claim 3, wherein:

the periphery of the fixing part is provided with an accommodating space for accommodating the magnetic adsorption mechanism;

the magnetic adsorption mechanism includes:

a first magnetizer, the upper end of which is contacted with the upper end of the fixing part, and the lower end of which is contacted with the lower end of the fixing part;

a second magnetizer, the upper end of which is contacted with the upper end of the fixing part, and the lower end of which is contacted with the lower end of the fixing part;

the left end of the first non-magnetizer is connected with the upper end of the first magnetizer, and the right end of the first non-magnetizer is connected with the upper end of the second magnetizer;

the left end of the second non-magnetizer is connected with the lower end of the first magnetizer, and the right end of the second non-magnetizer is connected with the lower end of the second magnetizer;

when the first magnetizer, the second magnetizer, the first non-magnetizer and the second non-magnetizer are connected, a magnet accommodating space is formed between the first magnetizer and the second magnetizer, and a magnet capable of rotating in the radial direction is arranged in the magnet accommodating space.

5. The weld fixture of a triple tubing hanger of claim 4, wherein:

when the two poles of the magnet are in a horizontal state, the two poles of the magnet are respectively contacted with the first magnetizer and the second magnetizer;

when the two poles of the magnet are in the vertical state, the two poles of the magnet are respectively in contact with the first non-magnetic conductive body and the second non-magnetic conductive body.

6. The weld fixture of a triple tubing hanger of claim 1, wherein:

the electromagnetic fixing table includes:

the fixed station shell is connected with the pipe frame component fixing frame at two ends, the interior of the fixed station shell is of a hollow structure, and the fixed station shell is made of magnetizer materials;

and the electromagnet is positioned in the fixed table shell and is in contact with the fixed table shell.

7. The weld fixture of a triple tubing hanger of claim 6, wherein:

the workbench is also provided with a working switch which is electrically connected with the control device and used for sending a working signal or a stop signal to the control device;

the electromagnet is electrically connected with the control device and used for being electrified after receiving a working signal sent by the control device or being powered off after receiving a stop signal sent by the control device.

8. The weld fixture of a triple tubing hanger of claim 7, wherein:

the working switch is a foot switch and is positioned at the lower end of the workbench.

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