CN117588643A - Double heat insulation pipe bracket convenient to adjust - Google Patents

Abstract

The invention relates to the technical field of pipe installation equipment, in particular to a double heat insulation pipe bracket convenient to adjust, which comprises a support upper seat, wherein a movable structure is arranged on the top side of the support upper seat, fixed structures are arranged on two sides of the movable structure, the fixed structures are connected with a reset structure, the support upper seat is connected with a conversion structure, a support structure is arranged on the inner side of the support upper seat, and a sliding structure is arranged on the bottom side of the support upper seat; the installation position of the pipeline can be conveniently adjusted through the moving structure, the pipeline can be wrapped and fixed through the fixing structure, the supporting position can be changed according to requirements when the supporting effect is achieved, the supporting mode of the pipeline can be quickly changed through the resetting structure, the original height of the pipeline is not changed through the switching structure, and the supporting height of the pipeline can be changed according to requirements through the supporting structure.

Description

Double heat insulation pipe bracket convenient to adjust

Technical Field

The invention relates to the technical field of pipe installation equipment, in particular to a double-heat-insulation pipe bracket convenient to adjust.

Background

An insulated conduit saddle is a device used to protect and insulate a conduit. It is usually made of metal or plastic and has good heat insulating properties. The heat insulation pipe bracket has the main functions of reducing heat transfer loss of the pipeline and preventing heat loss and energy waste; and meanwhile, the pipeline is overhead to provide stability and further reduce heat dissipation.

However, the existing heat insulation pipe bracket is usually required to be fixed before the pipe is installed, the position of the pipe is difficult to replace after the pipe is erected, the flexibility of use is lacking, meanwhile, when the maintenance of a single pipe is carried out, the bottom side of the pipe is inconvenient to directly check, on the other hand, the position of the pipe bracket and the position of the base are usually fixed, the installation can be difficult under the condition of some limited space, and the conventional heat insulation pipe bracket is usually provided with a certain supporting height, so that the real-time adjustment of the supporting height is inconvenient to carry out.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a double heat insulation pipe bracket convenient to adjust.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a two thermal-insulated pipe brackets convenient to adjust, includes the support seat of honour, the top side of support seat of honour is equipped with the moving structure, moving structure's both sides are equipped with fixed knot and construct, fixed knot constructs and is connected with reset structure, the support seat of honour is connected with conversion structure, the support seat of honour inboard is equipped with bearing structure, the bottom side of support seat of honour is equipped with sliding structure.

Specifically, the movable structure comprises a cushion block, the middle part fixedly connected with cushion of supporting the seat, fixedly connected with first guide bar on the cushion, first guide bar sliding connection has the seat of bearing, the top side of bearing the seat is the arc groove structure, just bear seat top side and roll and be connected with two balls, the middle part of bearing the seat rotates and is connected with the pivot, fixedly connected with conflict cam in the pivot, the longer end of conflict cam is contradicted in the ball.

Specifically, the middle part threaded connection who bears the seat has adjusting screw, rotate between adjusting screw's tip and the cushion and be connected, the side that bears the seat rotates and is connected with the adjusting sleeve, the tip of adjusting sleeve is "T" type structure, the spiral groove has been seted up to the inboard that bears the seat, the tip of adjusting sleeve rotates with bearing the seat through the spiral groove and is connected, adjusting sleeve and pivot sliding connection, the tip conflict of adjusting sleeve has the packing ring, fixedly connected with second spring between packing ring and the bearing seat.

Specifically, fixed knot constructs including the sliding seat, the both sides that bear the weight of the seat are equipped with a sliding seat respectively, the bottom side sliding connection of sliding seat has the guide rail, fixed cover is installed to the top side of sliding seat, protection pad is installed with the inboard of sliding seat to fixed cover.

Specifically, the inboard sliding connection of sliding seat has the squeeze lever, the protection pad is run through on the top of squeeze lever, fixedly connected with fourth spring between squeeze lever and the sliding seat, the inboard sliding connection of squeeze lever has the inserted bar, fixedly connected with third spring between inserted bar and the squeeze lever, a plurality of constant head tanks have been seted up on the guide rail, the tip of inserted bar is hemisphere face structure, the sphere end of inserted bar passes through constant head tank and guide rail sliding connection.

Specifically, reset structure includes the lifter plate, lifter plate and guide rail fixed connection, the inboard of supporting the seat is equipped with the lifter plate, fixedly connected with fifth spring between lifter plate and the supporting seat, the perpendicular fixedly connected with second guide bar of bottom side of lifter plate, the guide way has been seted up on the supporting seat, the second guide bar passes through guide way and supporting seat sliding connection, the flat groove has been seted up to the both sides of supporting seat, the supporting seat has the traction lever through flat groove sliding connection, the traction lever is rectangular frame structure, first chute has been seted up to the bottom side of lifter plate, the middle part of traction lever is through first chute and lifter plate sliding connection.

Specifically, the conversion structure includes first rack, the middle part sliding connection of supporting the seat of honour has first rack, the both sides of first rack mesh respectively has first gear, fixedly connected with support cam on the first gear, rotate between support cam and the supporting seat of honour and be connected, the tip of support cam is inconsistent with the lifter plate bottom side that the homonymy set up.

Specifically, the side of supporting the seat is rotated and is connected with the control rod, the second spacing groove has been seted up to the side of control rod, the tip of first rack passes through second spacing groove and control rod sliding connection, the tip sliding connection of control rod has the block pole, fixedly connected with first spring between block pole and the control rod, the draw-in groove has been seted up on the seat, the block pole passes through the draw-in groove and the seat is gone up in the support between the looks block.

Specifically, bearing structure includes the mount pad, the downside of supporting the seat of going up is equipped with the mount pad, the downside fixedly connected with supporting shoe of supporting the seat of going up, the first rack downside is located to the supporting shoe, all rotate on mount pad and the supporting shoe and be connected with the connecting rod, the homonymy sets up the other end of connecting rod rotates and is connected with the screw thread piece, both sides screw thread connection has long screw rod between the screw thread piece.

Specifically, sliding structure includes the transmission loop bar, the tip vertical fixedly connected with transmission loop bar of control lever, the inboard sliding connection of transmission loop bar has the telescopic link, the tip fixedly connected with second gear of telescopic link, the side meshing of second gear has the second rack, sliding connection between second rack and the mount pad, the side fixedly connected with sloping block of second rack, the inboard sliding connection of mount pad has the bottom plate, the second chute has been seted up to one side of bottom plate, the bottom plate passes through second chute and sloping block sliding connection.

Specifically, the bottom side of bottom plate rotates and is connected with the gyro wheel, the top side of bottom plate is equipped with protruding slider, the inboard of mount pad is equipped with the third chute, protruding slider passes through sliding connection between third chute and the mount pad.

The beneficial effects of the invention are as follows:

(1) According to the double heat-insulating pipe bracket convenient to adjust, the moving structure is arranged on the top side of the upper support seat, and the pipe can be supported by the moving structure and can be conveniently rotated and longitudinally moved, so that the installation position of the pipe can be conveniently adjusted.

(2) According to the double heat-insulating pipe bracket convenient to adjust, the fixing structures are arranged on two sides of the moving structure, the reset structures are connected with the fixing structures, the upper support seat is connected with the conversion structure, the pipe can be wrapped and fixed through the fixing structures, the supporting position can be changed according to requirements while the supporting effect is achieved, the supporting height of the pipe can be quickly adjusted through the reset structures, the supporting mode of the pipe can be quickly replaced through the conversion structure, meanwhile, the original height of the pipe is not changed, and maintenance is convenient.

(3) According to the double heat-insulating pipe bracket convenient to adjust, the sliding structure is arranged at the bottom side of the supporting upper seat, and the supporting position of a pipeline can be adjusted more conveniently through the sliding structure.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of a dual insulating pipe support according to a preferred embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the portion B shown in FIG. 1;

FIG. 4 is a schematic view of a connection structure of the support upper base and the mounting base shown in FIG. 1;

FIG. 5 is an enlarged view of the structure of the portion C shown in FIG. 4;

FIG. 6 is a schematic view of a connection structure between the support upper base and the support cam shown in FIG. 4;

FIG. 7 is a schematic view of a connection structure of the mounting base and the bottom plate shown in FIG. 4;

FIG. 8 is a schematic view of the connection structure of the base plate and the second rack shown in FIG. 7;

FIG. 9 is a schematic view of the bearing seat shown in FIG. 1;

FIG. 10 is a schematic view of the adjustment sleeve of FIG. 9;

fig. 11 is a schematic diagram of a connection structure between the bearing seat and the spin groove shown in fig. 8.

In the figure: 1. supporting an upper seat; 2. a support structure; 201. a long screw; 202. a mounting base; 203. a screw block; 204. a connecting rod; 205. a support block; 3. a switching structure; 301. a control lever; 302. a support cam; 303. the second limit groove; 304. a first rack; 305. a first gear; 306. a first spring; 307. a clamping rod; 308. a clamping groove; 4. a moving structure; 401. a cushion block; 402. a bearing seat; 403. adjusting a screw; 404. a first guide bar; 405. an adjusting sleeve; 406. a ball; 407. a rotating shaft; 408. a contact cam; 409. a gasket; 410. a rotary groove; 411. a second spring; 5. a fixed structure; 501. a sliding seat; 502. a protective pad; 503. a fixed sleeve; 504. an extrusion rod; 505. a guide rail; 506. a positioning groove; 507. a third spring; 508. a rod; 509. a fourth spring; 6. a reset structure; 601. a traction rod; 602. a lifting plate; 603. a first chute; 604. a second guide bar; 605. a guide groove; 606. a fifth spring; 607. a flat groove; 7. a sliding structure; 701. a transmission loop bar; 702. a telescopic rod; 703. a bottom plate; 704. a second gear; 705. a second rack; 706. a bevel block; 707. a second chute; 708. a roller; 709. a third chute; 710. and a convex sliding block.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-11, the double-insulation pipe bracket convenient to adjust comprises a supporting upper seat 1, wherein a movable structure 4 is arranged on the top side of the supporting upper seat 1, fixed structures 5 are arranged on two sides of the movable structure 4, the fixed structures 5 are connected with a reset structure 6, the supporting upper seat 1 is connected with a conversion structure 3, a supporting structure 2 is arranged on the inner side of the supporting upper seat 1, and a sliding structure 7 is arranged on the bottom side of the supporting upper seat 1.

Specifically, the moving structure 4 includes a spacer 401, a spacer 401 is fixedly connected to the middle of the supporting upper seat 1, a first guide rod 404 is fixedly connected to the spacer 401, a bearing seat 402 is slidably connected to the first guide rod 404, a top side of the bearing seat 402 is in an arc-shaped groove structure, two balls 406 are rotatably connected to the top side of the bearing seat 402, a rotating shaft 407 is rotatably connected to the middle of the bearing seat 402, an abutting cam 408 is fixedly connected to the rotating shaft 407, a longer end of the abutting cam 408 abuts against the balls 406, an adjusting screw 403 is screwed to the middle of the bearing seat 402, a rotating connection is formed between an end of the adjusting screw 403 and the spacer 401, an adjusting sleeve 405 is rotatably connected to a side surface of the bearing seat 402, an end of the adjusting sleeve 405 is in a T-shaped structure, a rotating groove 410 is formed in an inner side of the bearing seat 402, an end of the adjusting sleeve 405 is rotatably connected with the bearing seat 402 through the rotating groove 410, the adjusting sleeve 405 is slidably connected with the rotating shaft 407, an end of the adjusting sleeve 405 abuts against the rotating shaft 407, and a spring 411 is fixedly connected between the end of the adjusting sleeve 405 and the adjusting sleeve 409 and the second bearing seat 402, and a spring washer is fixedly connected to the second bearing seat 402; the pipeline can be supported through the moving structure 4, and simultaneously, the pipeline can be conveniently rotated and longitudinally moved, so that the installation position of the pipeline can be conveniently adjusted, namely: firstly, be located the middle part of device and be equipped with and bear seat 402, the arc recess structure in top position of bearing seat 402, can not take place the skew when guaranteeing to bear the pipeline, the topside symmetry that is located bearing seat 402 is equipped with ball 406 simultaneously, when bearing seat 402 supports the pipeline, the ball 406 of both sides can make things convenient for the pipeline to rotate and vertically slide, it is convenient to carry out rotation adjustment again in the pipeline installation or the maintenance process, and need not to carry out rotation adjustment to the pipeline, the user can press the adjusting collar 405 that is located bearing seat 402 side, make adjusting collar 405 tip slide to the opposite side of whirlpool 410, rotate 180 with adjusting collar 405 this moment, make the longer end of fixed conflict cam 408 in pivot 407 inconsistent with ball 406, thereby play the braking effect to ball 406, thereby make the pipeline that supports can not remove wantonly, in order to adjust the height that supports, the middle part of bearing seat 402 is equipped with adjusting screw 403, can change the supporting height of bearing seat 402 through rotating adjusting screw 403.

Specifically, the fixing structure 5 includes a sliding seat 501, two sides of the bearing seat 402 are respectively provided with a sliding seat 501, a bottom side of the sliding seat 501 is slidingly connected with a guide rail 505, a top side of the sliding seat 501 is provided with a fixing sleeve 503, a protection pad 502 is installed on the inner sides of the fixing sleeve 503 and the sliding seat 501, an extrusion rod 504 is slidingly connected on the inner side of the sliding seat 501, a top end of the extrusion rod 504 penetrates through the protection pad 502, a fourth spring 509 is fixedly connected between the extrusion rod 504 and the sliding seat 501, an insertion rod 508 is slidingly connected on the inner side of the extrusion rod 504, a third spring 507 is fixedly connected between the insertion rod 508 and the extrusion rod 504, a plurality of positioning grooves 506 are formed on the guide rail 505, and an end part of the insertion rod 508 is in a hemispherical structure, and a spherical end of the insertion rod 508 is slidingly connected with the guide rail 505 through the positioning grooves 506; the pipeline can be wrapped and fixed through the fixing structure 5, and the supporting position can be changed as required when the supporting effect is achieved, namely: the two sides of the bearing seat 402 are provided with the sliding seat 501 and the fixed sleeve 503 for carrying out heat insulation support on the pipeline, the sliding seat 501 and the fixed sleeve 503 are fixed and convenient to assemble and disassemble through the screw rod, meanwhile, the sliding seat 501 and the fixed sleeve 503 can be provided with the protection pad 502 convenient to assemble and disassemble, the damaged protection pad 502 is convenient to replace, the heat insulation effect is kept, on the other hand, the sliding seat 501 can carry out sliding adjustment on the guide rail 505, after the installation position is determined, the hemispherical end part of the inserted rod 508 can be embedded into the corresponding positioning groove 506 of the guide rail 505 to play a positioning effect, then, after the pipeline is placed on the sliding seat 501, the extruding rod 504 is pushed by the gravity of the pipeline to slide, and finally, most of the inserted rod 508 is driven to be embedded into the current positioning groove 506, at the moment, the sliding seat 501 is completely fixed, and the installation stability and flexibility are ensured.

Specifically, the reset structure 6 includes a lifting plate 602, the lifting plate 602 is fixedly connected with the guide rail 505, the lifting plate 602 is disposed on the inner side of the upper support seat 1, a fifth spring 606 is fixedly connected between the lifting plate 602 and the upper support seat 1, a second guide rod 604 is vertically and fixedly connected to the bottom side of the lifting plate 602, a guide groove 605 is formed in the upper support seat 1, the second guide rod 604 is slidably connected with the upper support seat 1 through the guide groove 605, flat grooves 607 are formed in two sides of the upper support seat 1, a traction rod 601 is slidably connected with the upper support seat 1 through the flat grooves 607, the traction rod 601 is in a rectangular frame structure, a first chute 603 is formed in the bottom side of the lifting plate 602, and the middle of the traction rod 601 is slidably connected with the lifting plate 602 through the first chute 603; the height of the pipeline support can be quickly adjusted through the reset structure 6, namely: the lifting plate 602 of the installation guide rail 505 is in sliding connection with the supporting upper seat 1, the lifting plate 602 can be kept at the highest position under the action of the second guide rod 604 and the fifth spring 606, when the pipe is required to be supported by the bearing seat 402 by slightly adjusting the supporting height of the pipe, a user can respectively pull the traction rods 601 on two sides to slide towards the other end of the flat groove 607, in the process, the traction rods 601 slide in the first chute 603 on the bottom side of the lifting plate 602 at the same time, the height of the lifting plate 602 is driven to descend, then the end part of the traction rods 601 is sleeved on the side surface of the supporting upper seat 1 to fix the falling state of the lifting plate 602, the supporting mode of the pipe is conveniently converted, and accordingly maintenance operations such as replacement of the protection pad 502 are performed.

Specifically, the conversion structure 3 includes a first rack 304, the middle part of the upper support seat 1 is slidably connected with the first rack 304, two sides of the first rack 304 are respectively engaged with a first gear 305, a support cam 302 is fixedly connected to the first gear 305, the support cam 302 is rotatably connected with the upper support seat 1, an end of the support cam 302 abuts against the bottom side of a lifting plate 602 disposed on the same side, a control rod 301 is rotatably connected to a side of the upper support seat 1, a second limit groove 303 is formed in a side of the control rod 301, an end of the first rack 304 is slidably connected with the control rod 301 through the second limit groove 303, a clamping rod 307 is slidably connected to an end of the control rod 301, a first spring 306 is fixedly connected between the clamping rod 307 and the control rod 301, a clamping groove 308 is formed in the upper support seat 1, and the clamping rod 307 is clamped with the upper support seat 1 through the clamping groove 308; the supporting mode to the pipeline can be quickly replaced through the conversion structure 3, the original height of the pipeline is not changed, and maintenance is convenient, namely: when carrying out the conversion between the support to pipeline through carrying seat 402 and sliding seat 501, in order to avoid changing the damage to pipeline self erect the high operation such as arousing the pipeline, simultaneously accomplish fast to operation such as the maintenance of protection pad 502 and pipeline, the user at first needs to adjust the supporting height who carries seat 402 through adjusting screw 403, make the ball 406 on carrying seat 402 just contradict with the pipeline downside, sliding control lever 301 tip block rod 307 releases the block state this moment, and afterwards rotate control lever 301, make control lever 301 inboard pull first rack 304 through second spacing groove 303 take place the slip, first rack 304 can drive the conflict cam 408 through the transmission effect of first gear 305 and take place to rotate, until the projecting end that makes conflict cam 408 leaves the bottom of lifter plate 602 completely, lifter plate 602 loses the supporting role of conflict cam 408 at this moment, only through the support retaining height of fifth spring 606, simultaneously the pipeline relies on carrying seat 402 to carry out the support, at this moment, the user first needs to tear down the fixed sleeve down, can reduce its height that can reduce lifter plate 601 and its top that can carry out the maintenance of the pipeline, the effect can also be carried out the complete to the maintenance of the pipeline to the complete maintenance of the pipeline through the whole, the effect of the complete maintenance of the pipeline can be realized to the pipeline has been accomplished to the full-automatic repair effect if it is realized to the pipeline has been accomplished to the full-length of the pipeline has been accomplished.

Specifically, the supporting structure 2 includes a mounting seat 202, a mounting seat 202 is provided at the bottom side of the supporting upper seat 1, a supporting block 205 is fixedly connected to the bottom side of the supporting upper seat 1, the supporting block 205 is provided at the bottom side of the first rack 304, the mounting seat 202 and the supporting block 205 are both rotatably connected with a connecting rod 204, the other end of the connecting rod 204 provided at the same side is rotatably connected with a threaded block 203, and a long screw 201 is connected between the threaded blocks 203 at both sides; the support height for the pipe can be varied as desired by the support structure 2, namely: when the device is installed, firstly, the supporting height is required to be determined according to the installation place, compared with the traditional pipe bracket, the pipe bracket is more flexible to use, after the installation seat 202 is arranged at the appointed place, a user only needs to rotate the long screw 201 on the side, and the height between the supporting upper seat 1 and the installation seat 202 can be changed through the connecting rod 204 by moving the threaded block 203, so that the optimal supporting effect on the pipeline is ensured.

Specifically, the sliding structure 7 includes a transmission sleeve rod 701, the end portion of the control rod 301 is vertically and fixedly connected with the transmission sleeve rod 701, the inner side of the transmission sleeve rod 701 is slidably connected with a telescopic rod 702, the end portion of the telescopic rod 702 is fixedly connected with a second gear 704, a second rack 705 is meshed with the side surface of the second gear 704, the second rack 705 is slidably connected with the mounting seat 202, the side surface of the second rack 705 is fixedly connected with an inclined surface block 706, the inner side of the mounting seat 202 is slidably connected with a bottom plate 703, one side of the bottom plate 703 is provided with a second inclined groove 707, the bottom plate 703 is slidably connected with the inclined surface block 706 through the second inclined groove 707, the bottom side of the bottom plate 703 is rotatably connected with a roller 708, the top side of the bottom plate 703 is provided with a convex slide block 710, the inner side of the mounting seat 202 is provided with a third inclined groove 709, and the convex slide block 710 is slidably connected with the mounting seat 202 through the third inclined groove 709; the support position for the pipe can be adjusted more conveniently by the sliding structure 7, namely: when the pipeline is installed, if the supporting position of the pipeline needs to be temporarily adjusted, a user can firstly adjust the pipeline to a state of supporting the pipeline by the bearing seat 402 through the control rod 301, the second gear 704 can be driven to rotate simultaneously by the transmission loop bar 701 and the inner telescopic rod 702 in the rotating process of the control rod 301, the second gear 704 rotates to drive the second rack 705 to slide inwards, the inclined surface block 706 on the side surface of the second rack 705 slides in the chute on the inner side of the bottom plate 703 while the second rack 705 slides, and because the inclined surface block 706 is in a right trapezoid structure, the inclined surface block 706 can push the bottom plate 703 to slide while finally the top side surface of the inclined surface block 706 is in contact with the bottom plate 703, so that the state of the bottom plate 703 is kept at the moment, and in the moving process of the bottom plate 703, the convex sliding block 710 on the top side of the bottom plate 703 can be pushed to move towards the bottom side under the pushing of the third chute 709, and finally the roller 708 on the bottom side of the bottom plate 703 contacts with the ground to support the whole device, and the sliding effect between the balls 406 and the pipeline on the bearing seat 703 can be replaced quickly, and the supporting position of the pipeline can be quickly replaced without deploying conveniently.

When the invention is used, firstly, the bearing seat 402 is arranged in the middle of the device, the arc-shaped groove structure at the top of the bearing seat 402 ensures that the pipeline cannot deviate when bearing, meanwhile, the balls 406 are symmetrically arranged at the top side of the bearing seat 402, when the bearing seat 402 supports the pipeline, the balls 406 at the two sides can facilitate the rotation and longitudinal sliding of the pipeline, the rotation adjustment is convenient in the pipeline installation or maintenance process, when the pipeline is not required to be rotated and adjusted, a user can press the adjusting sleeve 405 arranged at the side surface of the bearing seat 402, the end part of the adjusting sleeve 405 slides to the other side of the rotary groove 410, at the moment, the adjusting sleeve 405 rotates 180 degrees, the longer end of the abutting cam 408 fixed on the rotating shaft 407 abuts against the balls 406, thereby playing a braking role on the balls 406, and preventing the supported pipeline from moving randomly, in order to adjust the supporting height, the middle part of the bearing seat 402 is provided with an adjusting screw 403, the supporting height of the bearing seat 402 can be changed by rotating the adjusting screw 403, two sides of the bearing seat 402 are provided with a sliding seat 501 and a fixed sleeve 503 for carrying out heat insulation supporting on a pipeline, the sliding seat 501 and the fixed sleeve 503 are fixed by the screw to be convenient to disassemble and assemble, meanwhile, a protection pad 502 convenient to disassemble and assemble can be arranged between the sliding seat 501 and the fixed sleeve 503 to replace the damaged protection pad 502 conveniently, the heat insulation effect is kept, on the other hand, the sliding seat 501 can carry out sliding adjustment on the guide rail 505, after the installation position is determined, the hemispherical end part of the inserted rod 508 can be embedded into a positioning groove 506 corresponding to the guide rail 505 to play a positioning effect, then, after the pipeline is arranged on the sliding seat 501, the extrusion rod 504 is pushed to slide by the gravity of the pipeline, and finally, most of the insert rod 508 is driven to be embedded into the current positioning groove 506, at this time, the sliding seat 501 realizes complete fixation, the stability and flexibility of installation are ensured, the lifting plate 602 of the installation guide rail 505 is in sliding connection with the supporting upper seat 1, the lifting plate 602 can be kept at the highest position under the action of the second guide rod 604 and the fifth spring 606, when the supporting height of the pipe needs to be slightly adjusted to be transferred to the bearing seat 402 to support the pipe, a user can pull the traction rods 601 on two sides to slide towards the other end of the flat groove 607 respectively, in the process, the traction rods 601 slide in the first chute 603 on the bottom side of the lifting plate 602 at the same time, meanwhile, the height of the lifting plate 602 is driven to descend, then the end part of the traction rods 601 is sleeved on the side surface of the supporting upper seat 1 to be fixed, the descending state of the lifting plate 602 can be kept, and the supporting mode of the pipe is convenient to be switched, when the pipeline is changed between the support of the bearing seat 402 and the sliding seat 501, in order to avoid the damage to the pipeline caused by changing the erection height of the pipeline, and simultaneously to quickly complete the maintenance operations of the bearing seat 402 and the pipeline, a user needs to adjust the support height of the bearing seat 402 through the adjusting screw 403 to enable the ball 406 on the bearing seat 402 to be just in contact with the bottom side of the pipeline, at the moment, the end part clamping rod 307 of the sliding control rod 301 is released from the clamping state, and then the control rod 301 is rotated, so that the inner side of the control rod 301 pulls the first rack 304 to slide through the second limiting groove 303, the first rack 304 drives the abutting cam 408 to rotate through the transmission action of the first gear 305 until the protruding end of the abutting cam 408 is completely separated from the bottom of the lifting plate 602, the lifting plate 602 loses the supporting function of the abutting cam 408 at this time, only the supporting height of the fifth spring 606 is kept, meanwhile, the pipeline is supported by the bearing seat 402, in order to detach the protection pad 502, a user needs to detach the fixing sleeve 503 at first, at this time, the height of the lifting plate 602 and the sliding seat 501 on the lifting plate can be lowered by pulling the traction rod 601, the inside protection pad 502 is convenient to detach, the insulation material can be replaced without detaching the whole pipe support, meanwhile, if the pipeline is detached, the pipeline can be directly overhauled in all directions by matching with the rotating effect of the bearing seat 402 provided by the pipeline, the working efficiency is improved, when the device is installed, the pipeline is firstly required to be determined according to the installation place, compared with the traditional pipe support, the installation place is more flexible, after the installation seat 202 is arranged at a designated place, the user only needs to rotate the long screw 201 on the side, the height between the upper seat 1 and the installation seat 202 can be changed through the movement of the connecting rod 204, the threaded block 203, the optimal supporting effect of the pipeline is guaranteed, when the pipeline is installed, the pipeline is temporarily adjusted, the position of the pipeline needs to be temporarily adjusted, the pipeline needs to be firstly, the pipeline needs to be directly overhauled through the rotating effect of the bearing seat is provided by the rack bar 402, the rack bar 706 is firstly, the inner side of the sliding block is driven by the rack bar 706 is pushed by the sliding the rack bar 706 to the second inclined plane 706, and the sliding block 706 is simultaneously, the second inclined plane 706 is pushed by the sliding plate 706 is pushed by the sliding rod 706 to the second inclined plane 706 to the sliding plate 706, and the sliding rod 706 is rotated by the sliding rod 706 to the sliding rod 706, and the sliding block 706 is rotated to the sliding rod 706 to the sliding block 706. Thus, the state of the bottom plate 703 is maintained, and in the moving process of the bottom plate 703, the protruding sliding block 710 on the top side of the bottom plate 703 is pushed by the third chute 709, so that the bottom plate 703 moves to the bottom side, and finally pushes the roller 708 on the bottom side of the bottom plate 703 to contact with the ground and support the whole device, and at this time, the supporting position of the pipeline can be quickly replaced by matching with the sliding effect between the balls 406 on the bearing seat 402 and the pipeline, without redeployment, and the device is convenient and quick.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The utility model provides a double heat insulation pipe bracket convenient to adjust, its characterized in that, including supporting upper seat (1), the top side of supporting upper seat (1) is equipped with moving structure (4), moving structure (4) both sides are equipped with fixed knot and construct (5), fixed knot constructs (5) are connected with reset structure (6), supporting upper seat (1) are connected with conversion structure (3), supporting upper seat (1) inboard is equipped with bearing structure (2), the bottom side of supporting upper seat (1) is equipped with sliding structure (7);

the movable structure (4) comprises a cushion block (401), the middle part fixedly connected with cushion block (401) of supporting upper seat (1), fixedly connected with first guide bar (404) on cushion block (401), first guide bar (404) sliding connection has and bears seat (402), the top side of bearing seat (402) is arc groove structure, just bear seat (402) top side roll and be connected with two balls (406), the middle part rotation of bearing seat (402) is connected with pivot (407), fixedly connected with conflict cam (408) on pivot (407), the longer end of conflict cam (408) is contradicted in ball (406).

2. The dual thermally insulated conduit saddle for easy adjustment according to claim 1, wherein: the middle part threaded connection who bears seat (402) has adjusting screw (403), rotate between the tip of adjusting screw (403) and cushion (401) and be connected, the side of bearing seat (402) rotates and is connected with adjusting sleeve (405), the tip of adjusting sleeve (405) is "T" type structure, spiral groove (410) have been seted up to the inboard of bearing seat (402), the tip of adjusting sleeve (405) is through spiral groove (410) and bearing seat (402) rotation connection, adjusting sleeve (405) and pivot (407) sliding connection, the tip of adjusting sleeve (405) is contradicted and is had packing ring (409), fixedly connected with second spring (411) between packing ring (409) and the bearing seat (402).

3. The dual thermally insulated conduit saddle for easy adjustment according to claim 1, wherein: the fixing structure (5) comprises a sliding seat (501), two sides of the bearing seat (402) are respectively provided with a sliding seat (501), the bottom side of the sliding seat (501) is in sliding connection with a guide rail (505), a fixing sleeve (503) is arranged on the top side of the sliding seat (501), and a protection pad (502) is arranged on the inner sides of the fixing sleeve (503) and the sliding seat (501).

4. A dual thermally insulated pipe bracket for easy adjustment as defined in claim 3, wherein: the inside sliding connection of sliding seat (501) has extrusion pole (504), protection pad (502) are run through on the top of extrusion pole (504), fixedly connected with fourth spring (509) between extrusion pole (504) and sliding seat (501), the inboard sliding connection of extrusion pole (504) has inserted bar (508), fixedly connected with third spring (507) between inserted bar (508) and extrusion pole (504), a plurality of constant head tanks (506) have been seted up on guide rail (505), the tip of inserted bar (508) is hemisphere face structure, the sphere end of inserted bar (508) is through constant head tank (506) and guide rail (505) sliding connection.

5. A dual thermally insulated pipe bracket for easy adjustment as defined in claim 3, wherein: reset structure (6) are including lifter plate (602), lifter plate (602) and guide rail (505) fixed connection, the inboard of supporting upper seat (1) is equipped with lifter plate (602), fixedly connected with fifth spring (606) between lifter plate (602) and the supporting upper seat (1), perpendicular fixedly connected with second guide bar (604) of bottom side of lifter plate (602), guide slot (605) have been seted up on supporting upper seat (1), second guide bar (604) pass through guide slot (605) and supporting upper seat (1) sliding connection, flat groove (607) have been seted up to the both sides of supporting upper seat (1), supporting upper seat (1) have traction lever (601) through flat groove (607) sliding connection, traction lever (601) are rectangular frame structure, first chute (603) have been seted up to the bottom side of lifter plate (602), the middle part of traction lever (601) passes through first chute (603) and lifter plate (602) sliding connection.

6. The dual thermally insulated conduit saddle for easy adjustment according to claim 5, wherein: the switching structure (3) comprises a first rack (304), the middle part of the supporting upper seat (1) is slidably connected with the first rack (304), two sides of the first rack (304) are respectively meshed with a first gear (305), a supporting cam (302) is fixedly connected to the first gear (305), the supporting cam (302) is rotatably connected with the supporting upper seat (1), and the end part of the supporting cam (302) is abutted to the bottom side of a lifting plate (602) arranged on the same side.

7. The dual thermally insulated conduit saddle for easy adjustment according to claim 6, wherein: the side of supporting seat (1) rotates and is connected with control rod (301), second spacing groove (303) have been seted up to the side of control rod (301), the tip of first rack (304) is through second spacing groove (303) and control rod (301) sliding connection, the tip sliding connection of control rod (301) has block pole (307), fixedly connected with first spring (306) between block pole (307) and control rod (301), draw-in groove (308) have been seted up on supporting seat (1), block pole (307) are through the looks block between draw-in groove (308) and the supporting seat (1).

8. The dual thermally insulated conduit saddle for easy adjustment according to claim 7, wherein: the supporting structure (2) comprises a mounting seat (202), the mounting seat (202) is arranged on the bottom side of the upper supporting seat (1), a supporting block (205) is fixedly connected to the bottom side of the upper supporting seat (1), the supporting block (205) is arranged on the bottom side of a first rack (304), connecting rods (204) are rotationally connected on the mounting seat (202) and the supporting block (205), threaded blocks (203) are rotationally connected to the other ends of the connecting rods (204) which are arranged on the same side, and long screws (201) are connected between the threaded blocks (203) on two sides.

9. The dual thermally insulated conduit saddle for easy adjustment according to claim 8, wherein: the sliding structure (7) comprises a transmission loop bar (701), the end part of the control rod (301) is vertically and fixedly connected with the transmission loop bar (701), the inner side of the transmission loop bar (701) is slidably connected with a telescopic rod (702), the end part of the telescopic rod (702) is fixedly connected with a second gear (704), the side surface of the second gear (704) is meshed with a second rack (705), the second rack (705) is slidably connected with a mounting seat (202), the side surface of the second rack (705) is fixedly connected with a bevel block (706), the inner side of the mounting seat (202) is slidably connected with a bottom plate (703), one side of the bottom plate (703) is provided with a second chute (707), and the bottom plate (703) is slidably connected with the bevel block (706) through the second chute (707).

10. The dual thermally insulated conduit saddle for easy adjustment according to claim 9, wherein: the bottom side of bottom plate (703) rotates and is connected with gyro wheel (708), the top side of bottom plate (703) is equipped with protruding slider (710), the inboard of mount pad (202) is equipped with third inclined groove (709), sliding connection between protruding slider (710) and mount pad (202) through third inclined groove (709).