CN209818912U - High-temperature-difference transmission pipe breakage-proof structure - Google Patents

Abstract

A high temperature difference transmission pipe breakage preventing structure comprises: the device comprises a fixed end, a connecting column, a longitudinal sliding structure, a transverse sliding structure, a fixing groove and a transmission pipe. The fixed end is connected with the transmission pipe ring sleeve, the bottom end of the fixed end is connected with the connecting column, the connecting column is connected with the sliding groove of the longitudinal sliding structure, the bottom end of the longitudinal sliding structure is connected with the transverse sliding structure, and the transverse sliding structure is connected with the sliding groove of the fixed groove. Wherein, the stiff end includes: the fixed casing, round pearl chain, top spread groove, fixing bolt and bottom mounting. Compared with the prior art, the utility model, the fixed end is fixed by the deformable wheel bead chain, which satisfies the pipelines with various calibers and shapes, and can completely grasp the pipe body, thereby improving the firmness; the sliding structure adopts a spring device, so that the rebound is more moderate, and the service life of the pipeline is prolonged.

Description

High-temperature-difference transmission pipe breakage-proof structure

Technical Field

The utility model relates to a chemical pipeline transmission, concretely relates to disconnected structure is prevented to poor transmission pipe of high temperature.

Background

In the chemical production process, the raw materials are transmitted through the pipeline, and in some long-distance transmission processes, the temperature of the raw materials is obviously changed, so that the high temperature difference of the inner wall of the pipeline can influence the pipeline, and the pipeline is displaced all around.

And in the in-process of solving this problem, on the one hand, the bore size shape of pipeline differs, and if the size is improper, not only the installation is difficult for traditional fixed mode, and the fastness is also very poor. At the same time, under strong tension and contraction, there is insufficient damping, which severely reduces the life of the pipe.

In order to solve the above problems, we have made a series of improvements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a disconnected structure is prevented to poor transmission pipe of high temperature to overcome the above-mentioned shortcoming and not enough that prior art exists.

A high temperature difference transmission pipe breakage-proof structure is characterized by comprising: the device comprises a fixed end, a connecting column, a longitudinal sliding structure, a transverse sliding structure, a fixing groove and a transmission pipe, wherein the fixed end is connected with a transmission pipe ring sleeve, the bottom end of the fixed end is connected with the connecting column, the connecting column is connected with a sliding groove of the longitudinal sliding structure, the bottom end of the longitudinal sliding structure is connected with the transverse sliding structure, and the transverse sliding structure is connected with the sliding groove of the fixing groove;

wherein the fixed end includes: the wheel bead chain is connected with the fixed shell, the top end connecting groove is connected with the fixed shell through the fixing bolt, and the bottom fixing piece is connected with the fixed shell through a buckle.

Further, the connection post includes: the fixed casing is provided with a first screw rod, a second screw rod and a fixing piece, wherein the first screw rod and the second screw rod are connected with the bottom end of the fixed casing, the bottom ends of the first screw rod and the second screw rod are connected with the fixing piece, the fixing piece is of a cuboid structure, and a groove body is arranged on the fixing piece.

Further, the longitudinal sliding structure includes: the sliding block is arranged in the longitudinal sliding groove cover, and the longitudinal sliding spring is arranged between the sliding block and the longitudinal sliding groove cover.

Further, the lateral sliding structure includes: the sliding device comprises an upper sliding groove structure, a lower sliding groove structure, an inner groove, an outer cover plate, a transverse sliding spring and sliding groove columns, wherein the upper sliding groove structure is connected with two sides of a fixed plate through bolts, the upper sliding groove structure and the lower sliding groove structure are provided with groove bodies, the groove bodies of the upper sliding groove structure and the lower sliding groove structure are in through connection with the sliding groove columns, the lower sliding groove structure is in contact with the bottom end of a fixed groove, the inner groove is formed in the upper end of the upper sliding groove structure and the lower end of the lower sliding groove structure, the top end of the outer cover plate is welded with the upper sliding groove structure, the bottom end of the outer cover plate is welded with the lower sliding groove structure, the transverse sliding spring is arranged in the.

Further, fixing holes are formed in two sides of the fixing groove.

The utility model has the advantages that:

compared with the prior art, the utility model, the fixed end is fixed by the deformable wheel bead chain, which satisfies the pipelines with various calibers and shapes, and can completely grasp the pipe body, thereby improving the firmness; the sliding structure adopts a spring device, so that the rebound is more moderate, and the service life of the pipeline is prolonged.

Description of the drawings:

fig. 1 is a structural diagram of the present invention.

Reference numerals:

a fixed end 100, a fixed case 110, a ball chain 120, a top end coupling groove 130, a fixing bolt 140, and a bottom end fixing member 150.

A connecting column 200, a first screw 210, a second screw 220 and a fixing piece 230.

A longitudinal sliding structure 300, a fixing plate 310, a longitudinal sliding groove cover 320, a slider 330, and a longitudinal sliding spring 340.

A lateral sliding structure 400, an upper chute structure 410, a lower chute structure 420, an inner chute 430, an outer cover plate 440, a lateral sliding spring 450, a chute post 460, a roller 461.

A fixing groove 500, a fixing hole 510, and a transfer pipe 600.

Detailed Description

The present invention will be further described with reference to the following examples. It should be understood that the following examples are illustrative only and are not intended to limit the scope of the present invention.

Example 1

Fig. 1 is a structural diagram of the present invention.

As shown in fig. 1, a high temperature difference transfer pipe breakage preventing structure includes: the device comprises a fixed end 100, a connecting column 200, a longitudinal sliding structure 300, a transverse sliding structure 400, a fixing groove 500 and a transmission tube 600, wherein the fixed end 100 is connected with the transmission tube 600 in a ring sleeve mode, the bottom end of the fixed end 100 is connected with the connecting column 200, the connecting column 200 is connected with the longitudinal sliding structure 300 in a sliding groove mode, the bottom end of the longitudinal sliding structure 300 is connected with the transverse sliding structure 400, and the transverse sliding structure 500 is connected with the fixing groove 600 in a sliding groove mode.

Wherein the fixing end 100 includes: the wheel bead chain mechanism comprises a fixed shell 110, a wheel bead chain 120, a top end connecting groove 130, a fixing bolt 140 and a bottom end fixing piece 150, wherein a connecting buckle is arranged on the fixed shell 110, the wheel bead chain 120 is connected with the fixed shell 110, the top end connecting groove 130 is connected with the fixed shell 110 through the fixing bolt 140 in a sliding groove mode, and the bottom end fixing piece 150 is connected with the fixed shell 110 in a buckling mode.

The connection post 200 includes: the first screw 210, the second screw 220 and the fixing member 230, the first screw 210 and the second screw 220 are connected with the bottom end of the fixed casing 110, the bottom ends of the first screw 210 and the second screw 220 are connected with the fixing member 230, the fixing member 230 is a cuboid structure, and the fixing member 230 is provided with a groove body.

The longitudinal sliding structure 300 includes: the fixing plate 310 is welded with the longitudinal sliding groove cover 320, two sides of the fixing plate 310 are connected with the transverse sliding structure 400 through bolts, a sliding groove is formed in the longitudinal sliding groove cover 320, the sliding block 330 is arranged in the longitudinal sliding groove cover 320, and the longitudinal sliding spring 340 is arranged between the sliding block 330 and the longitudinal sliding groove cover 320.

The lateral sliding structure 400 includes: go up spout structure 410, lower spout structure 420, interior groove 430, outer cover plate 440, lateral sliding spring 450 and spout post 460, go up spout structure 410 and be connected with fixed plate 310 both sides through the bolt, go up spout structure 410 and lower spout structure 420 and be equipped with the cell body, the cell body and the spout post 460 through connection of going up spout structure 410 and lower spout structure 420, lower spout structure 420 contacts with fixed slot 500 bottom, upper end and the lower extreme of lower spout structure 420 of last spout structure 410 are located to interior groove 430, the top of outer cover plate 440 welds with last spout structure 410, the bottom and the lower spout structure 420 of outer cover plate 440 weld, lateral sliding spring 450 locates in outer cover plate 440, spout post 460 both ends are equipped with gyro wheel 461, gyro wheel 461 is connected with interior groove 430. In the figure, the symmetrical lateral sliding structure 400 is omitted because the overall perspective effect makes the whole of the structure more blurred.

Fixing holes 510 are formed at both sides of the fixing groove 500.

The principle of the present invention is that the wheel bead chain 120 is sleeved on the transmission pipe 600 to be fixed, and the bottom fixing member 150 has two ends with buttons, wherein the bottom fixing member 150 is connected with the fixing housing 110 by a buckle, and the buckle is fixed after the vertical calibration. The top end connecting groove 130 is connected with the sliding groove of the fixed casing 110, and can be adjusted by sliding the top end connecting groove 130 according to a specific diameter, and then fixed by the fixing bolt 140. And then connected with the bottom end fixing member 150 by the first screw 210 and the second screw 220, and then connected with the longitudinal sliding structure 300 by the fixing member 230, thereby performing a driving function. The fixed plate 310 serves as a supporting platform, and carries a longitudinal sliding groove cover 320 thereon, and the first screw 210 and the second screw 220 cooperate with the slider 330 to provide a buffer space for the longitudinal movement of the transfer tube 600 in the sliding groove of the longitudinal sliding groove cover 320, and then cooperate with the longitudinal sliding spring 340 to enhance the buffer performance thereof. On the other hand, the two ends of the fixed casing 110 are further fixed with the upper chute structure 410 of the transverse sliding structure 400, and the upper chute structure 410 and the lower chute structure 420 are combined up and down to form a movable slide rail structure. A groove body is arranged between the upper chute structure 410 and the lower chute structure 420, the groove body is connected with the chute column 460 in a penetrating way, rollers 461 are arranged at two ends of the chute column 460, and an inner groove 430 is arranged on the upper chute structure 410 and the lower chute structure 420. The track formed by the upper chute structure 410 and the lower chute structure 420 is further connected to the fixing groove 500, and when the transfer tube 600 needs to be connected transversely, the transfer tube 600 extends to the transverse sliding structure 400 through the chute column 460, and the upper chute structure 410 and the lower chute structure 420 are driven to move transversely along the fixing groove 500 by the rotation of the roller 461 in the inner groove 430. The fixing groove 500 itself is fixed by the fixing hole 510. Meanwhile, two ends of the upper chute structure 410 and the lower chute structure 420 are covered by the outer cover plate 440, and two ends of the outer cover plate 440 are provided with transverse sliding springs 450 for buffering and supplementing.

The above description has been made of the embodiments of the present invention, but the present invention is not limited thereto, and various changes may be made without departing from the spirit of the present invention.

Claims (5)

1. A high temperature difference transmission pipe breakage-proof structure is characterized by comprising: the device comprises a fixed end (100), a connecting column (200), a longitudinal sliding structure (300), a transverse sliding structure (400), a fixing groove (500) and a transmission tube (600), wherein the fixed end (100) is connected with the transmission tube (600) in a ring sleeve mode, the bottom end of the fixed end (100) is connected with the connecting column (200), the connecting column (200) is connected with the longitudinal sliding structure (300) in a sliding groove mode, the bottom end of the longitudinal sliding structure (300) is connected with the transverse sliding structure (400), and the transverse sliding structure (400) is connected with the fixing groove (500) in a sliding groove mode;

wherein the fixing end (100) comprises: fixed casing (110), round pearl chain (120), top spread groove (130), fixing bolt (140) and bottom mounting (150), be equipped with connection buckle on fixed casing (110), round pearl chain (120) are connected with fixed casing (110), top spread groove (130) are connected with fixed casing (110) spout through fixing bolt (140), bottom mounting (150) are connected with fixed casing (110) buckle.

2. The high temperature difference transmission pipe breakage-proof structure of claim 1, characterized in that: the connection column (200) comprises: first screw rod (210), second screw rod (220) and mounting (230), first screw rod (210) and second screw rod (220) are connected with the bottom of fixed casing (110), the bottom of first screw rod (210) and second screw rod (220) is connected with mounting (230), mounting (230) are the cuboid structure, be equipped with the cell body on mounting (230).

3. The high temperature difference transmission pipe breakage-proof structure of claim 1, characterized in that: the longitudinal sliding structure (300) comprises: the sliding block structure comprises a fixing plate (310), a longitudinal sliding groove cover (320), a sliding block (330) and a longitudinal sliding spring (340), wherein the fixing plate (310) is welded with the longitudinal sliding groove cover (320), two sides of the fixing plate (310) are connected with a transverse sliding structure (400) through bolts, a sliding groove is formed in the longitudinal sliding groove cover (320), the sliding block (330) is arranged in the longitudinal sliding groove cover (320), and the longitudinal sliding spring (340) is arranged between the sliding block (330) and the longitudinal sliding groove cover (320).

4. The high temperature difference transmission pipe breakage-proof structure of claim 1, characterized in that: the lateral sliding structure (400) includes: the sliding device comprises an upper chute structure (410), a lower chute structure (420), an inner chute (430), an outer cover plate (440), a transverse sliding spring (450) and chute columns (460), wherein the upper chute structure (410) is connected with two sides of a fixing plate (310) through bolts, the upper chute structure (410) and the lower chute structure (420) are provided with chutes, the chutes of the upper chute structure (410) and the lower chute structure (420) are communicated with the chute columns (460), the lower chute structure (420) is in contact with the bottom end of a fixing groove (500), the inner chute (430) is arranged at the upper end of the upper chute structure (410) and the lower end of the lower chute structure (420), the top end of the outer cover plate (440) is welded with the upper chute structure (410), the bottom end of the outer cover plate (440) is welded with the lower chute structure (420), the transverse sliding spring (450) is arranged in the outer cover plate (440), and rollers (461) are arranged at two ends of the sliding groove column (460), and the rollers (461) are connected with the inner groove (430).

5. The high temperature difference transmission pipe breakage-proof structure of claim 1, characterized in that: fixing holes (510) are formed in the two sides of the fixing groove (500).