CN219218202U - Steel pipe coating clamp - Google Patents

Abstract

The utility model discloses a steel pipe coating clamp, relates to the field of steel pipe coating, and solves the problems that in the prior art, when a steel pipe is coated, the steel pipe is clamped, but the clamping part is difficult to coat, the clamp is required to be replaced and adjusted according to the specification of the steel pipe, the clamp is very troublesome, the time is consumed relatively, the labor is consumed relatively, and the whole surface of the steel pipe cannot be coated. The technical characteristics include: a U-shaped base; the first adjusting structure is arranged on the upper surface of the U-shaped base and is used for adjusting; the support structure is arranged on the upper surface of the first adjusting structure and is used for supporting. The steel pipe clamping device can clamp steel pipes of various specifications, reduces manpower consumption and time consumption, can better perform full-scale film coating on the surfaces of the steel pipes, and is relatively simple in structure and convenient to use.

Description

Steel pipe coating clamp

Technical Field

The utility model relates to the technical field of steel pipe coating, in particular to a steel pipe coating clamp.

Background

When in use, the steel pipe is subjected to surface treatment in order to prevent the problems of corrosion, rust, aging and the like, common treatment modes include electroplating, galvanization and the like, wherein the electroplating is carried out on the steel pipe through a solution containing plating metal cations so as to increase the hardness and improve the conductivity, and the galvanization is to plate a layer of zinc on the surface of the steel pipe so as to play roles of attractive appearance, rust prevention and the like.

In the prior art, when a steel pipe is coated, the steel pipe is clamped, but the clamping part is difficult to be coated, the clamp is required to be replaced and adjusted according to the specification of the steel pipe, the steel pipe is very troublesome, the time is relatively consumed, the labor is more consumed, and the whole surface of the steel pipe cannot be coated, so that in order to solve the problem, the design of the steel pipe coating clamp is very necessary.

Disclosure of Invention

The utility model aims to solve the technical problems that in the prior art, when a steel pipe is coated, the steel pipe is clamped, but the clamping part is difficult to coat, the clamp is required to be replaced and adjusted according to the specification of the steel pipe, the clamp is very troublesome, the time is relatively consumed, the labor is more consumed, and the whole surface of the steel pipe cannot be coated.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

steel pipe coating film anchor clamps include:

a U-shaped base;

the first adjusting structure is arranged on the upper surface of the U-shaped base and is used for adjusting;

the support structure is mounted on the upper surface of the first adjusting structure and is used for supporting;

the second adjusting structure is arranged on the upper surface of the supporting structure and is used for adjusting;

the rotating structure is arranged on the upper surface of the second adjusting structure;

the telescopic structure is arranged on the rotating end of the rotating structure;

the clamping structure is arranged on the telescopic structure and is used for clamping the steel tube.

Preferably, the first adjusting structure includes: a pair of electric control slide ways, a pair of electric control slide blocks and a pair of first support plates;

the pair of electric control slide ways are arranged on the upper surface of the U-shaped base, each electric control slide block is arranged on the corresponding electric control slide way, and each first support plate is arranged on the upper surface of the corresponding electric control slide block.

Preferably, the support structure comprises: a pair of support square bars;

each supporting square rod is arranged on the upper surface of the corresponding first supporting plate.

Preferably, the second adjusting structure includes: the device comprises a pair of connecting plates, a pair of first fixing frames, a pair of first electric control telescopic rods and a pair of second supporting plates;

each connecting plate is arranged on the upper surface of the corresponding supporting square rod, each first fixing frame is arranged on the upper surface of the corresponding connecting plate, each first electric control telescopic rod is arranged on the corresponding first fixing frame, and each second supporting plate is arranged on the telescopic end of the corresponding first electric control telescopic rod.

Preferably, the rotating structure includes: a pair of second fixing frames, a pair of rotating motors, a pair of protective shells and a pair of supporting and fixing plates;

each second fixing frame is arranged on the upper surface of the corresponding second supporting plate, each rotating motor is arranged on the corresponding second fixing frame, each protective shell is arranged on the corresponding second fixing frame, and each supporting fixing plate is arranged on the corresponding rotating end of the rotating motor.

Preferably, the telescopic structure comprises: the device comprises a pair of third fixing frames, a pair of second electric control telescopic rods, a pair of connecting limiting plates, two pairs of first fixing support frames and two pairs of first pressure sensors;

each third fixing frame is arranged on a corresponding supporting and fixing plate, each second electric control telescopic rod is arranged on a corresponding third fixing frame, each connecting limiting plate is arranged on a telescopic end of a corresponding second electric control telescopic rod, a pair of rectangular grooves are formed in each connecting limiting plate, each first fixing support frame is arranged at a corresponding rectangular groove, and each first pressure sensor is arranged on a corresponding first fixing support frame.

Preferably, the clamping structure comprises: the device comprises a pair of fixed support rods, four pairs of fourth fixing frames, four pairs of third electric control telescopic rods, four pairs of clamping fixing blocks, four pairs of anti-skid pads, four pairs of second fixed support frames and four pairs of second pressure sensors;

each fixed support rod is arranged on the connecting limiting plate, every two pairs of fourth fixing frames are arranged on the corresponding fixed support rods, each third electric control telescopic rod is arranged on the corresponding fourth fixing frame, each clamping fixing block is arranged on the telescopic end of the corresponding third electric control telescopic rod, each anti-slip pad is arranged on the corresponding clamping fixing block, each second fixed support frame is arranged on the corresponding anti-slip pad, and each second pressure sensor is arranged on the corresponding second fixed support frame.

Preferably, the U-shaped base is provided with a controller, and the U-shaped base is provided with a mains supply interface.

The utility model has the following beneficial effects:

the steel pipe coating clamp can better clamp the steel pipe needing coating, is very convenient, reduces unnecessary trouble, can clamp the steel pipes with various specifications, reduces manpower consumption, reduces time consumption, can better carry out all-around coating on the surface of the steel pipe, and has the advantages of relatively simple structure and convenient use.

Drawings

The utility model is described in further detail below with reference to the drawings and the detailed description.

FIG. 1 is a schematic structural view of a steel pipe coating clamp of the present utility model;

FIG. 2 is a front view of the steel pipe coating clamp of the present utility model;

FIG. 3 is a front view of the steel pipe coating clamp of the present utility model;

FIG. 4 is an enlarged view of a portion of the steel pipe coating clamp of the present utility model;

fig. 5 is a top view of the steel pipe coating jig of the present utility model.

Reference numerals in the drawings denote:

the device comprises a U-shaped base 10, a first adjusting structure 20, a supporting structure 30, a second adjusting structure 40, a rotating structure 50, a telescopic structure 60, a clamping structure 70, a controller 80 and a mains interface 90;

the electronic control slide way 21, the electronic control slide block 22 and the first supporting plate 23;

a support square bar 31;

the connecting plate 41, the first fixing frame 42, the first electric control telescopic rod 43 and the second supporting plate 44;

a second fixing frame 51, a rotary motor 52, a protective housing 53, and a support fixing plate 54;

the third fixing frame 61, the second electric control telescopic rod 62, the connecting limiting plate 63, the first fixing support frame 64 and the first pressure sensor 65;

the fixed support rod 71, the fourth fixed frame 72, the third electric control telescopic rod 73, the clamping fixed block 74, the anti-slip pad 75, the second fixed support frame 76 and the second pressure sensor 77.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, based on the embodiments of the utility model, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of the utility model; it should be noted that, for convenience of description, in the present application, "left side" is "first end", "right side" is "second end", "upper side" is "first end", and "lower side" is "second end" in the current view, and the purpose of this description is to clearly express the technical solution, and should not be construed as unduly limiting the technical solution of the present application.

Referring to fig. 1 to 5, a first adjusting structure 20 on the upper surface of the U-shaped base 10 is used for adjusting, a supporting structure 30 on the upper surface of the first adjusting structure 20 is used for supporting, a second adjusting structure 40 on the upper surface of the supporting structure 30 is used for adjusting, a rotating structure 50 on the upper surface of the second adjusting structure 40 is used for rotating, a telescopic structure 60 on the rotating end of the rotating structure 50 is used for telescopic, and a clamping structure 70 on the telescopic structure 60 is used for clamping a steel pipe.

Preferably, the first adjustment structure 20 comprises: a pair of electrically controlled slides 21, a pair of electrically controlled sliders 22, and a pair of first support plates 23; a pair of electric control slide ways 21 are installed on the upper surface of the U-shaped base 10, each electric control slide block 22 is installed on the corresponding electric control slide way 21, and each first supporting plate 23 is installed on the upper surface of the corresponding electric control slide block 22.

The first supporting plate 23 on the electric control slide block 22 is driven by the electric control slide block 22 on the electric control slide rail 21 to adjust back and forth.

Preferably, the support structure 30 comprises: a pair of support square rods 31; each support square 31 is mounted to the upper surface of the corresponding first support plate 23.

The square bar 31 is supported by the upper surface of the first support plate 23.

Preferably, the second adjustment structure 40 comprises: a pair of connection plates 41, a pair of first fixing frames 42, a pair of first electrically controlled telescopic rods 43, and a pair of second support plates 44; each connecting plate 41 is mounted on the upper surface of the corresponding supporting square rod 31, each first fixing frame 42 is mounted on the upper surface of the corresponding connecting plate 41, each first electric control telescopic rod 43 is mounted on the corresponding first fixing frame 42, and each second supporting plate 44 is mounted on the telescopic end of the corresponding first electric control telescopic rod 43.

The first electric control telescopic rod 43 on the first fixing frame 42 drives the second supporting plate 44 on the telescopic end to be adjusted up and down.

Preferably, the rotating structure 50 includes: a pair of second holders 51, a pair of rotating motors 52, a pair of protective housings 53, and a pair of support holders 54; each second fixing frame 51 is mounted on the upper surface of the corresponding second supporting plate 44, each rotary motor 52 is mounted on the corresponding second fixing frame 51, each protective housing 53 is mounted on the corresponding second fixing frame 51, and each supporting fixing plate 54 is mounted on the rotary end of the corresponding rotary motor 52.

The supporting and fixing plate 54 can be driven to rotate by the rotating motor 52 on the second fixing frame 51.

Preferably, the telescopic structure 60 includes: a pair of third fixing frames 61, a pair of second electric control telescopic rods 62, a pair of connecting limiting plates 63, two pairs of first fixing support frames 64 and two pairs of first pressure sensors 65; each third fixing frame 61 is mounted on the corresponding supporting and fixing plate 54, each second electric control telescopic rod 62 is mounted on the corresponding third fixing frame 61, each connecting limiting plate 63 is mounted on the telescopic end of the corresponding second electric control telescopic rod 62, a pair of rectangular grooves are formed in each connecting limiting plate 63, each first fixing support frame 64 is mounted at the corresponding rectangular groove, and each first pressure sensor 65 is mounted on the corresponding first fixing support frame 64.

The second electric control telescopic rod 62 on the third fixing frame 61 drives the connection limiting plate 63 to stretch.

Preferably, the clamping structure 70 comprises: a pair of fixed support rods 71, four pairs of fourth fixing frames 72, four pairs of third electrically controlled telescopic rods 73, four pairs of clamping fixing blocks 74, four pairs of anti-slip pads 75, four pairs of second fixed support frames 76 and four pairs of second pressure sensors 77; each fixed supporting rod 71 is mounted on the connection limiting plate 63, each two pairs of fourth fixing frames 72 are mounted on the corresponding fixed supporting rods 71, each third electric control telescopic rod 73 is mounted on the corresponding fourth fixing frame 72, each clamping fixing block 74 is mounted on the telescopic end of the corresponding third electric control telescopic rod 73, each anti-slip pad 75 is mounted on the corresponding clamping fixing block 74, each second fixed supporting frame 76 is mounted on the corresponding anti-slip pad 75, and each second pressure sensor 77 is mounted on the corresponding second fixed supporting frame 76.

The third electric control telescopic rod 73 on the fourth fixing frame 72 drives the clamping fixing block 74 and the anti-slip pad 75 to fix and clamp.

Preferably, the U-shaped base 10 is provided with a controller 80, and the U-shaped base 10 is provided with a mains supply interface 90.

The control is used for control by a controller 80 on the U-shaped base 10 and the power supply is used for supplying power by a mains interface 90 on the U-shaped base 10.

Firstly, the U-shaped base 10 is installed at a coating machine, a power supply is connected through a mains supply interface 90 on the U-shaped base 10, the control is performed through a controller 80 on the U-shaped base 10, then the position of a connecting limiting plate 63 is adjusted through a second electric control telescopic rod 62 on a third fixing frame 61 according to the length of a steel pipe, the steel pipe is placed, a clamping fixing block 74 is placed in the steel pipe, then the second electric control telescopic rod 62 on the third fixing frame 61 is started to press a first pressure sensor 65 on a first fixing support frame 64 on the steel pipe, when a certain pressure is sensed, the second electric control telescopic rod 62 on the third fixing frame 61 is stopped, when the steel pipe is fixed through a non-slip mat 75 on the clamping fixing block 74, when the second electric control telescopic rod 77 on the second fixing support frame 76 senses a certain pressure, the third electric control telescopic rod 73 on the fourth fixing frame 72 is stopped, then the height is adjusted through the first electric control telescopic rod 43 on the first fixing frame 42, and when the electric control supporting plate 23 on the electric control sliding block 21 is driven to rotate, the second fixing frame 52 is started, and the coating is simultaneously rotated and the second fixing frame 52 is conveniently.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (8)

1. Steel pipe coating film anchor clamps, its characterized in that includes:

a U-shaped base (10);

the first adjusting structure (20) is arranged on the upper surface of the U-shaped base (10), and the first adjusting structure (20) is used for adjusting;

a support structure (30), the support structure (30) being mounted to an upper surface of the first adjustment structure (20), and the support structure (30) being for support;

a second adjustment structure (40), the second adjustment structure (40) being mounted to an upper surface of the support structure (30), and the second adjustment structure (40) being for adjustment;

a rotating structure (50), wherein the rotating structure (50) is arranged on the upper surface of the second adjusting structure (40);

the telescopic structure (60) is arranged on the rotating end of the rotating structure (50);

and the clamping structure (70) is arranged on the telescopic structure (60), and the clamping structure (70) is used for clamping the steel pipe.

2. The steel pipe coating clamp according to claim 1, characterized in that the first adjustment structure (20) comprises: a pair of electric control slide ways (21), a pair of electric control slide blocks (22) and a pair of first support plates (23);

the pair of electric control slide ways (21) are arranged on the upper surface of the U-shaped base (10), each electric control slide block (22) is arranged on the corresponding electric control slide way (21), and each first support plate (23) is arranged on the upper surface of the corresponding electric control slide block (22).

3. The steel pipe coating clamp according to claim 2, characterized in that the support structure (30) comprises: a pair of support square rods (31);

each supporting square rod (31) is arranged on the upper surface of the corresponding first supporting plate (23).

4. A steel pipe coating clamp according to claim 3, characterized in that the second adjustment structure (40) comprises: a pair of connecting plates (41), a pair of first fixing frames (42), a pair of first electric control telescopic rods (43) and a pair of second supporting plates (44);

each connecting plate (41) is mounted on the upper surface of a corresponding supporting square rod (31), each first fixing frame (42) is mounted on the upper surface of a corresponding connecting plate (41), each first electric control telescopic rod (43) is mounted on a corresponding first fixing frame (42), and each second supporting plate (44) is mounted on the telescopic end of a corresponding first electric control telescopic rod (43).

5. The steel pipe coating clamp according to claim 4, wherein the rotating structure (50) comprises: a pair of second fixing frames (51), a pair of rotating motors (52), a pair of protective housings (53) and a pair of supporting and fixing plates (54);

each second fixing frame (51) is mounted on the upper surface of the corresponding second supporting plate (44), each rotary motor (52) is mounted on the corresponding second fixing frame (51), each protective shell (53) is mounted on the corresponding second fixing frame (51), and each supporting fixing plate (54) is mounted on the rotary end of the corresponding rotary motor (52).

6. The steel pipe coating clamp according to claim 5, wherein the telescopic structure (60) comprises: a pair of third fixing frames (61), a pair of second electric control telescopic rods (62), a pair of connecting limiting plates (63), two pairs of first fixing support frames (64) and two pairs of first pressure sensors (65);

each third fixing frame (61) is installed on a corresponding supporting and fixing plate (54), each second electric control telescopic rod (62) is installed on a corresponding third fixing frame (61), each connection limiting plate (63) is installed on a telescopic end of a corresponding second electric control telescopic rod (62), a pair of rectangular grooves are formed in each connection limiting plate (63), each first fixing support frame (64) is installed at a corresponding rectangular groove, and each first pressure sensor (65) is installed on a corresponding first fixing support frame (64).

7. The steel pipe coating clamp according to claim 6, wherein the clamping structure (70) comprises: the device comprises a pair of fixed support rods (71), four pairs of fourth fixing frames (72), four pairs of third electric control telescopic rods (73), four pairs of clamping fixing blocks (74), four pairs of anti-skid pads (75), four pairs of second fixed support frames (76) and four pairs of second pressure sensors (77);

each fixed supporting rod (71) is mounted on a connecting limiting plate (63), each two pairs of fourth fixing frames (72) are mounted on corresponding fixed supporting rods (71), each third electric control telescopic rod (73) is mounted on corresponding fourth fixing frames (72), each clamping fixing block (74) is mounted on a telescopic end of corresponding third electric control telescopic rod (73), each anti-slip pad (75) is mounted on corresponding clamping fixing block (74), each second fixing supporting frame (76) is mounted on corresponding anti-slip pad (75), and each second pressure sensor (77) is mounted on corresponding second fixing supporting frame (76).

8. The steel pipe coating clamp according to claim 1, wherein a controller (80) is arranged on the U-shaped base (10), and a mains supply interface (90) is arranged on the U-shaped base (10).

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