CN220320477U - Shockproof stable pipe clamp - Google Patents

Abstract

The utility model discloses a shockproof stable pipe clamp, which relates to the field of pipe clamps and comprises a base seat and a lower clamping groove, wherein an electric telescopic adjusting frame is arranged at the upper end of the base seat, a transverse connecting plate is connected to the upper end of the electric telescopic adjusting frame, an upper connecting plate is connected to the lower end of the transverse connecting plate, an upper clamping groove is formed in the lower surface of the upper connecting plate, and the lower clamping groove is formed below the upper clamping groove. This stable pipe clamp takes precautions against earthquakes adopts auxiliary assembly's setting can be more compact when last clamping groove and lower clamping groove carry out the centre gripping to the pipeline body, can avoid the use of long-time like this to cause the phenomenon that the pipeline body to appear becoming flexible to drop to easily cause the emergence of incident, the setting of stable subassembly can weaken the shock sense that produces when putting afterwards, reaches the effect of making an uproar that falls simultaneously, then the setting of coupling assembling can carry out the adjustment of position with it as required, also can adjust the height of base.

Description

Shockproof stable pipe clamp

Technical Field

The utility model relates to the technical field of pipe clamps, in particular to a shockproof stable pipe clamp.

Background

The pipe clamp is a device for fixing a pipeline, and is often arranged on a guide rail, the guide rail can be welded on a foundation or fixed by screws, then a guide rail nut is pushed into the guide rail, the guide rail nut is turned by 90 degrees, the lower pipe clamp body is embedded into the nut, a pipe to be fixed is placed, the upper pipe clamp body and a cover plate are placed, and the pipe clamp is fixed by screws.

The utility model as in application number CN201820734992.4 discloses a fastening pipe clamp, which has strong fixation fastness to a pipeline, can prevent the first bolt and the nut from falling off, has long service life, but has single structure form, clamps objects in vibration environment for a long time, easily causes loosening of the bolts, and can fall off after a long time, so that the pipe clamp loses the effect of clamping the objects.

Accordingly, in view of the above, an improvement has been made in view of the conventional structure and drawbacks, and a vibration-proof stable pipe clamp is provided.

Disclosure of Invention

The utility model aims to provide a shockproof stable pipe clamp, which solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a shockproof stable formula pipe clamp, includes base and lower clamp groove, electric telescopic adjustment frame is installed to the upper end of base, and electric telescopic adjustment frame's upper end is connected with transverse connection board, transverse connection board's lower extreme is connected with the linking board, and goes up the lower surface of linking board and seted up the clamp groove, down clamp groove sets up in the below of last clamp groove, go up clamp groove and clamp groove's inboard annular down and be provided with the auxiliary assembly that is used for the centre gripping to be stable, and auxiliary assembly includes bracing piece, gasbag and inflation portion, the end connection of bracing piece has the gasbag, and inflation portion has been seted up on the surface of gasbag.

Further, the outside of electronic flexible adjustment frame is provided with the coupling assembling that is used for quick travel and steady rest, the outside in last clamping groove and lower clamping groove is connected with the connection hangers.

Further, the connecting assembly comprises a threaded rod and a rotary handle, and the rotary handles are arranged on the left side and the right side of the threaded rod.

Further, the connecting assembly further comprises a thread groove and a supporting base plate, the inner side of the base seat is provided with the thread groove, and the end part of the threaded rod is provided with the supporting base plate.

Further, the connecting assembly further comprises an anti-slip particle strip and universal wheels, the lower end of the supporting base plate is provided with the anti-slip particle strip, and the universal wheels are arranged between the two supporting base plates.

Further, the inside of connecting the hangers is run through and is had the bolt, the inside of lower double-layered groove is provided with the dogtooth.

Further, a stabilizing component for weakening shock sense is arranged between the two electric telescopic adjusting frames, and comprises a damping rod, a damping spring and a lower joint plate, wherein the damping spring is wound on the surface of the damping rod, and the lower joint plate is arranged at the upper end of the damping rod.

Further, the middle parts of the inner sides of the upper clamping groove and the lower clamping groove are provided with rubber cushion pads, and the inner sides of the rubber cushion pads are provided with pipeline bodies.

The utility model provides a shockproof stable pipe clamp, which has the following beneficial effects: this steady type pipe clamp takes precautions against earthquakes adopts auxiliary assembly's setting can be more compact when pressing from both sides the groove and pressing from both sides the groove down and carry out the centre gripping to the pipeline body, can avoid long-time use like this to cause the phenomenon that the pipeline body to appear not hard up dropping effectively to easily cause the emergence of incident, the setting of steady assembly can weaken the shock sense that produces when putting afterwards, reaches the effect of making an uproar that falls simultaneously, then connecting assembly's setting can carry out the adjustment of position with it as required, also can adjust the height of base, avoid directly making contact with ground.

1. According to the auxiliary assembly, when the pipeline body is placed between the upper clamping groove and the lower clamping groove, the convex teeth can be prevented from sliding, then the air bags can be connected through the supporting rods, the air bags are inflated through the inflation parts, and then the rubber buffer pad can be attached to the surface of the pipeline body after the air bags are inflated, so that the pipeline body is more stable in use, the phenomenon of loosening caused by the use is avoided, and the usability of the device is improved.

2. When the connecting component is required to move in position after clamping the pipeline body, the universal wheels can be used for moving the device in position, and then the rotary handle can be held by hand to rotate the threaded rod along the inside of the threaded groove after the connecting component is moved to a proper position, so that when the supporting base plate rotates to the supporting and ground, the friction force between the supporting base plate and the ground is improved through the anti-slip particle strips, and the stability of the device can be improved.

3. The electric telescopic adjusting frame can be arranged to adjust the height according to the size of the pipeline body, so that the transverse connecting plate drives the upper connecting plate to adjust along with the upper connecting plate during adjustment, the electric telescopic adjusting frame is suitable for clamping pipeline bodies with different thicknesses, shock sense generated when the pipeline body is placed on the lower clamping groove by the stabilizing component can weaken acting force born by the lower connecting plate through the damping spring, and then the damping rod can effectively avoid deviation of the damping spring while weakening the acting force.

Drawings

FIG. 1 is a schematic view of the overall structure of a vibration-proof stabilized pipe clamp of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of the vibration-damping stabilized pipe clamp of FIG. 1A according to the present utility model;

fig. 3 is a schematic perspective view of a lower clamping groove of a vibration-proof stable pipe clamp.

In the figure: 1. a base; 2. an electric telescopic adjusting frame; 3. a transverse connection plate; 4. a connection assembly; 401. a threaded rod; 402. rotating the handle; 403. a thread groove; 404. a support backing plate; 405. an anti-slip particle strip; 406. a universal wheel; 5. an upper splice plate; 6. an upper clamping groove; 7. a lower clamping groove; 8. a stabilizing assembly; 801. a damping rod; 802. a damping spring; 803. a lower splice plate; 9. connecting a hanging lug; 10. a bolt; 11. a pipe body; 12. an auxiliary component; 1201. a support rod; 1202. an air bag; 1203. an inflation part; 13. a rubber cushion pad; 14. convex teeth.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1, a vibration-proof stable pipe clamp comprises a base seat 1 and a lower clamping groove 7, wherein an electric telescopic adjusting frame 2 is arranged at the upper end of the base seat 1, the upper end of the electric telescopic adjusting frame 2 is connected with a transverse connecting plate 3, the electric telescopic adjusting frame 2 can be adjusted in height according to the size of a pipeline body 11, so that the transverse connecting plate 3 drives an upper connecting plate 5 to be adjusted along with the upper connecting plate during adjustment, the vibration-proof stable pipe clamp is suitable for clamping pipeline bodies 11 with different thicknesses, a connecting assembly 4 for quick movement and stable support is arranged outside the electric telescopic adjusting frame 2, the connecting assembly 4 comprises a threaded rod 401 and a rotary handle 402, the rotary handles 402 are arranged at the left side and the right side of the threaded rod 401, the connecting assembly 4 also comprises a threaded groove 403 and a support pad 404, the inner side of the base seat 1 is provided with the threaded groove 403, and the end of the threaded rod 401 is provided with the support pad 404, the connecting component 4 further comprises anti-slip particle strips 405 and universal wheels 406, the lower ends of the supporting base plates 404 are provided with the anti-slip particle strips 405, the universal wheels 406 are arranged between the two supporting base plates 404, when the connecting component 4 needs to move in position after clamping the pipeline body 11, the connecting component 4 can move in position through the universal wheels 406, then after moving to a proper position, the threaded rod 401 can be rotated along the inside of the threaded groove 403 by holding the rotating handle 402, when the supporting base plates 404 are rotated to support and ground, the friction force between the supporting base plates 404 and the ground is improved through the anti-slip particle strips 405, so that the stability of the device can be improved, the connecting lugs 9 are connected to the outer parts of the upper clamping grooves 6 and the lower clamping grooves 7, bolts 10 penetrate through the inner parts of the connecting lugs 9, the inner parts of the lower clamping grooves 7 are provided with convex teeth 14, be provided with the stable subassembly 8 that weakens the shock sense between two electric telescopic adjustment framves 2, and stable subassembly 8 includes damping pole 801, damping spring 802 and lower linking board 803, the surface winding of damping pole 801 is connected with damping spring 802, and lower linking board 803 is installed to the upper end of damping pole 801, the shock sense accessible damping spring 802 that stable subassembly 8 produced when pipeline body 11 is placed down on double-layered groove 7 weakens the effort that lower linking board 803 received, then damping pole 801 can avoid damping spring 802 to appear the deviation effectively when weakening.

As shown in fig. 2 and 3, the lower end of the transverse connection plate 3 is connected with an upper connection plate 5, the lower surface of the upper connection plate 5 is provided with an upper clamping groove 6, a lower clamping groove 7 is arranged below the upper clamping groove 6, the inner sides of the upper clamping groove 6 and the lower clamping groove 7 are annularly provided with an auxiliary component 12 for clamping stability, the auxiliary component 12 comprises a supporting rod 1201, an air bag 1202 and an inflating part 1203, the end part of the supporting rod 1201 is connected with the air bag 1202, the surface of the air bag 1202 is provided with the inflating part 1203, the auxiliary component 12 can avoid sliding when the pipeline body 11 is placed between the upper clamping groove 6 and the lower clamping groove 7, then the air bag 1202 can be connected through the supporting rod 1201, so that the inside of the air bag 1202 is inflated through the inflating part 1203, then the air bag 1202 can enable the rubber cushion 13 to be more adhered to the surface of the pipeline body 11, the auxiliary component 12 can be more stable in use, the phenomenon that looseness is caused in use is avoided in use is facilitated, the inner side middle parts of the upper clamping groove 6 and the lower clamping groove 7 are provided with the rubber cushion 13, and the inner sides of the upper clamping groove 7 are provided with the rubber cushion 11.

In summary, this shockproof stable pipe clamp, when in use, firstly, according to the structure shown in fig. 1, fig. 2 and fig. 3, when the pipe clamp is used to clamp the pipeline body 11, at this time, the electric telescopic adjusting frame 2 is fixed by penetrating the base seat 1 through the screw, meanwhile, the electric telescopic adjusting frame 2 and the transverse connecting plate 3 are in tenon joint connection, then the universal wheel 406 is used to move the base seat 1 according to the position of the pipeline body 11, thus after moving in proper position, the user holds the rotary handle 402 to rotate it clockwise, in the rotating process, the threaded rod 401 rotates clockwise along the inside of the thread groove 403, at this time, the threaded rod 401 and the supporting pad 404 are in tenon joint connection, then the supporting pad 404 also adjusts in the rotating process, so that when the supporting pad 404 contacts the ground, the threaded rod 401 rotates, the threaded rod 401 and the thread groove 403 form the thread joint, then the supporting pad 404 is pressed by the user to make the anti-slip particle strip 405 and the ground more fit between the ground, thus, after that the appropriate position is moved, the user holds the rotary handle 402 by holding the rotary handle 402, in the threaded rod 401 rotates clockwise along the inside of the thread groove 403, at this time, the threaded rod 401 rotates clockwise along the inside of the thread groove 403, the thread groove 401, then the supporting pad 404 is also adjusted along the thread groove 401 in the rotating process, then the supporting pad 404, then adjusts accordingly, the supporting pad 404 in the rotating process, and the rotation is adjusted accordingly, in the rotating process, the rotation is carried out, and the rotation is carried out, the rotation, and the electric handle is made by the support plate 3, and the vibration pad, and the vibration damping plate 3, and the vibration damping plate is made by the vibration damping device, and the vibration damping device 7, and the vibration damping device. When the electric telescopic adjusting frame 2 starts to work, the upper connecting plate 5 can be driven to downwards adjust, so that when the upper clamping groove 6 is attached to the upper surface of the pipeline body 11, the air bag 1202 is inflated along the inflation part 1203 through the external inflation equipment, the acting force generated by the air bag 1202 after re-inflation can promote the rubber cushion pad 13 to be attached to the inner side of the pipeline body 11, so that the rubber cushion pad 13 is attached to the pipeline body 11 more, and then a user holds the bolt 10 to penetrate through the connecting lugs 9 to fix the upper clamping groove 6 and the lower clamping groove 7, thereby ensuring the stability of the pipeline body 11 and avoiding shaking of the pipeline body 11 when in use.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a stable formula pipe clamp takes precautions against earthquakes, includes base (1) and lower clamp groove (7), its characterized in that, electronic flexible adjustment frame (2) are installed to the upper end of base (1), and the upper end of electronic flexible adjustment frame (2) is connected with transverse connection board (3), the lower extreme of transverse connection board (3) is connected with and links up board (5), and goes up the lower surface of linking board (5) and seted up and go up clamp groove (6), lower clamp groove (7) are seted up in the below of last clamp groove (6), the inboard annular of going up clamp groove (6) and lower clamp groove (7) is provided with auxiliary assembly (12) that are used for the centre gripping to be stable, and auxiliary assembly (12) include bracing piece (1201), gasbag (1202) and inflation portion (1203), the end connection of bracing piece (1201) has gasbag (1202), and inflation portion (1203) have been seted up on the surface of gasbag (1202).

2. The shockproof stable pipe clamp according to claim 1, characterized in that a connecting component (4) used for quick movement and stable support is arranged outside the electric telescopic adjusting frame (2), and connecting lugs (9) are connected to the outer parts of the upper clamping groove (6) and the lower clamping groove (7).

3. A vibration-proof stable pipe clamp according to claim 2, characterized in that the connection assembly (4) comprises a threaded rod (401) and a rotary handle (402), the rotary handles (402) being mounted on the left and right sides of the threaded rod (401).

4. A vibration-proof stable pipe clamp according to claim 3, characterized in that the connecting assembly (4) further comprises a thread groove (403) and a support pad (404), the inside of the base seat (1) is provided with the thread groove (403), and the end of the threaded rod (401) is provided with the support pad (404).

5. The vibration-proof stable pipe clamp according to claim 4, wherein the connecting assembly (4) further comprises a slip-proof particle strip (405) and a universal wheel (406), the slip-proof particle strip (405) is arranged at the lower end of the support pad (404), and the universal wheel (406) is arranged between the two support pads (404).

6. Shockproof stable pipe clamp according to claim 2, characterized in that the inside of the connecting lugs (9) is penetrated by bolts (10), and the inside of the lower clamping groove (7) is provided with teeth (14).

7. The vibration-proof stable pipe clamp according to claim 1, wherein a vibration-proof stabilizing component (8) is arranged between the two electric telescopic adjusting frames (2), the stabilizing component (8) comprises a damping rod (801), a damping spring (802) and a lower connecting plate (803), the damping spring (802) is wound on the surface of the damping rod (801), and the lower connecting plate (803) is arranged at the upper end of the damping rod (801).

8. The vibration-proof stable pipe clamp according to claim 1, characterized in that the middle parts of the inner sides of the upper clamping groove (6) and the lower clamping groove (7) are provided with rubber buffer pads (13), and the inner sides of the rubber buffer pads (13) are provided with pipeline bodies (11).