CN220566742U - Emergency drain pipe assembly for pipe network - Google Patents

Abstract

The utility model relates to the technical field of water pipe networks, in particular to an emergency drain pipe assembly of a pipe network, which comprises a pipe body and a mounting mechanism, wherein the mounting mechanism comprises two clamping blocks, a connecting shaft, two threaded rods, two supporting plates, two rotating rods and two threaded columns, the two clamping blocks are symmetrically distributed on the outer surface wall of the pipe body, the two clamping blocks are respectively provided with threaded holes, the two threaded rods are respectively matched with the corresponding threaded holes, the two supporting plates are respectively fixedly connected with the corresponding clamping blocks, the symmetrically distributed clamping blocks are driven to move by rotating the two threaded rods, the pipe is clamped, the threaded columns are simultaneously contacted with soil, the rotating rods drill the threaded columns into the soil, and the supporting plates are contacted with the ground to further fix the clamping blocks, so that the pipe body can be clamped and fixed, the pipe body is supported, shaking damage during water source conveying is avoided, and the use stability is improved.

Description

Emergency drain pipe assembly for pipe network

Technical Field

The utility model relates to the technical field of water pipe networks, in particular to an emergency drain pipe assembly of a pipe network.

Background

In the maintenance of carrying out the water pipe network, thereby need install emergent drain pipe and make the water source carry from emergent drain pipe, demolish emergent drain pipe after the water pipe network maintenance, but traditional emergent drain pipe structure is complicated, can't install fast.

The prior art patent CN209012618U discloses emergent drain pipe assembly of pipe network, and the bearing board stretches into in the box culvert and falls on box culvert tip inner wall bottom surface to play the supporting role to the box culvert butt joint, be close to its three limit on the box culvert butt joint board and distribute respectively and butt joint plate hole, conveniently link to each other with face calandria mount pad, after the destruction section of excision box culvert, can conveniently be linked together body and box culvert broken end through the box culvert butt joint, thereby establish emergent drainage system rapidly.

But in the aforesaid prior art, after the emergent body of temporary erection, lack the bottom sprag reinforcing element to the body, lead to the body to take place to rock easily and set up the damage under quick water source transport.

Disclosure of Invention

The utility model aims to provide an emergency drain pipe assembly for a pipe network, which solves the problem that the pipe body is easy to shake and set to be damaged under the rapid water source conveying due to the fact that an emergency pipe body is temporarily installed and a bottom supporting and reinforcing assembly for the pipe body is not needed in the prior art.

In order to achieve the above purpose, the utility model provides a pipe network emergency drain pipe assembly, which comprises a pipe body and a mounting mechanism;

the installation mechanism comprises two clamping blocks, a connecting shaft, two threaded rods, two supporting plates, two rotating rods and two threaded columns, wherein the two clamping blocks are symmetrically distributed on the outer surface wall of the pipe body, one ends of the two threaded rods are fixedly connected with the connecting shaft and symmetrically distributed on the two ends of the connecting shaft, the two clamping blocks are respectively provided with threaded holes, the two threaded rods are respectively matched with the corresponding threaded holes, the two supporting plates are respectively fixedly connected with the corresponding clamping blocks and are respectively located below the corresponding clamping blocks, one ends of the two rotating rods respectively penetrate through the corresponding supporting plates and are fixedly connected with the corresponding threaded columns, and the two rotating rods are respectively rotationally connected with the corresponding supporting plates.

The mounting mechanism further comprises a limiting plate, wherein the limiting plate is fixedly connected with the corresponding threaded rod and is located at one end, far away from the connecting shaft, of the threaded rod.

The mounting mechanism further comprises reinforcing expansion plates, two ends of each reinforcing expansion plate are fixedly connected with one side of the corresponding supporting plate respectively, and the reinforcing expansion plates are distributed between the two supporting plates.

The mounting mechanism further comprises a rotating block, wherein the rotating block is fixedly connected with the corresponding threaded rod and is located at one end, far away from the limiting plate, of the threaded rod.

The mounting mechanism further comprises two rotating handles, wherein the two rotating handles are respectively and fixedly connected with the corresponding rotating rods and are respectively located at one ends, far away from the threaded columns, of the corresponding rotating rods.

The pipe network emergency drain pipe assembly further comprises two reinforcing mechanisms, and the two reinforcing mechanisms are respectively arranged on the corresponding supporting plates.

The reinforcing mechanism comprises two rotating plates and two clamping blocks, wherein the two rotating plates are rotationally connected with the supporting plate and symmetrically distributed on two sides of the supporting plate, the two clamping blocks are fixedly connected with the supporting plate and symmetrically distributed on two sides of the supporting plate, and the two clamping blocks are respectively located above the corresponding rotating plates.

The reinforcing mechanism further comprises a plurality of anti-skid blocks, and the anti-skid blocks are fixedly connected with the corresponding rotating plates respectively and are distributed below the rotating plates in sequence.

According to the pipe network emergency drain pipe assembly, the connecting shaft supports the two threaded rods, the two threaded rods are rotated to drive the symmetrically distributed clamping blocks to move so as to clamp the pipe body, the threaded columns are contacted with soil, the rotating rod is rotated to drill the threaded columns into the soil, the supporting plate is contacted with the ground, the clamping blocks are further fixed, the pipe body can be clamped and fixed through the structure, the pipe body is supported, shaking damage is avoided when a water source is conveyed, and the use stability is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic overall structure of a first embodiment of the present utility model.

Fig. 2 is a top view of the entirety of a first embodiment of the present utility model.

Fig. 3 is a cross-sectional view taken along line A-A of fig. 2 in accordance with the present utility model.

Fig. 4 is a schematic overall structure of a second embodiment of the present utility model.

Fig. 5 is a top view of the entirety of a second embodiment of the present utility model.

Fig. 6 is a sectional view taken along line B-B of fig. 5 of the present utility model.

101-tube body, 102-clamping block, 103-connecting shaft, 104-threaded rod, 105-supporting plate, 106-rotating rod, 107-threaded column, 108-threaded hole, 109-limiting plate, 110-reinforced expansion plate, 111-rotating block, 112-rotating handle, 201-rotating plate, 202-clamping block and 203-anti-skid block.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

First embodiment:

referring to fig. 1 to 3, fig. 1 is a schematic overall structure of a first embodiment of the present utility model, fig. 2 is a top view of the first embodiment of the present utility model, and fig. 3 is a cross-sectional view taken along line A-A of fig. 2.

The utility model provides a pipe network emergency drain pipe assembly, which comprises a pipe body 101 and a mounting mechanism, wherein the mounting mechanism comprises two clamping blocks 102, a connecting shaft 103, two threaded rods 104, two supporting plates 105, two rotating rods 106, two threaded columns 107, a limiting plate 109, a reinforcing expansion plate 110, a rotating block 111 and two rotating handles 112, and the two clamping blocks 102 are respectively provided with threaded holes 108.

For this embodiment, the tube 101 supports the mounting mechanism.

The two clamping blocks 102 are symmetrically distributed on the outer surface wall of the pipe body 101, one ends of the two threaded rods 104 are fixedly connected with the connecting shaft 103 and symmetrically distributed on two ends of the connecting shaft 103, the two clamping blocks 102 are respectively provided with threaded holes 108, the two threaded rods 104 are respectively matched with the corresponding threaded holes 108, the two supporting plates 105 are respectively fixedly connected with the corresponding clamping blocks 102 and are respectively located below the corresponding clamping blocks 102, one ends of the two rotating rods 106 respectively penetrate through the corresponding supporting plates 105 and are fixedly connected with the corresponding threaded columns 107, and the two rotating rods 106 are respectively connected with the corresponding supporting plates 105 in a rotating mode. The connecting shaft 103 supports two threaded rods 104, drives symmetrical distribution through rotating two threaded rods 104 clamping blocks 102 move, clamps the pipe body 101, simultaneously contacts a threaded column 107 with soil, rotates a rotating rod 106, drills the threaded column 107 into the soil, relies on a supporting plate 105 to contact the ground, further completes fixing the clamping blocks 102, can clamp and fix the pipe body 101, supports the pipe body 101, prevents shaking damage during water source conveying, and improves use stability.

Secondly, the limiting plate 109 is fixedly connected with the corresponding threaded rod 104, and is located at one end of the threaded rod 104 away from the connecting shaft 103. The stop plate 109 prevents the clamping block 102 from being disengaged from the threaded rod 104.

Meanwhile, two ends of the reinforcing expansion plate 110 are fixedly connected with one side of the corresponding supporting plate 105, the reinforcing expansion plate 110 is distributed between the two supporting plates 105, the rotating block 111 is fixedly connected with the corresponding threaded rod 104 and is located at one end of the threaded rod 104 far away from the limiting plate 109, and the two rotating handles 112 are fixedly connected with the corresponding rotating rods 106 and are located at one end of the corresponding rotating rods 106 far away from the threaded column 107. The reinforcing expansion plate 110 is used for reinforcing and connecting the two support plates 105, improving stability, and can move along with the two support plates 105 to expand and contract, the rotating block 111 is convenient for driving the threaded rod 104 to rotate, and the rotating handle 112 is convenient for driving the rotating rod 106 to rotate.

When the pipe body 101 is fixed by using the pipe body 101, the connecting shaft 103 supports the two threaded rods 104, the two threaded rods 104 are rotated to drive the symmetrically distributed clamping blocks 102 to move, the pipe body 101 is clamped, meanwhile, the threaded columns 107 are contacted with soil, the rotating rods 106 are rotated to drill the threaded columns 107 into the soil, the supporting plates 105 are contacted with the ground to further fix the clamping blocks 102, the reinforcing expansion plates 110 are used for reinforcing and connecting the two supporting plates 105, stability is improved, the two supporting plates 105 can be moved to expand and contract, the rotating blocks 111 are convenient to drive the threaded rods 104 to rotate, the rotating handles 112 are convenient to drive the rotating rods 106 to rotate, the limiting plates 109 prevent the clamping blocks 102 from being separated from the threaded rods 104, the pipe body 101 can be clamped and fixed, the pipe body is prevented from being damaged when a water source is conveyed, shaking is avoided, and use stability is improved.

Second embodiment:

on the basis of the first embodiment, please refer to fig. 4 to 6, wherein fig. 4 is a schematic overall structure of the second embodiment of the present utility model, fig. 5 is a top view of the second embodiment of the present utility model, and fig. 6 is a cross-sectional view taken along line B-B of fig. 5.

The utility model provides a pipe network emergency drain pipe assembly, which also comprises two reinforcing mechanisms, wherein the reinforcing mechanisms comprise two rotating plates 201, two clamping blocks 202 and a plurality of anti-skid blocks 203.

For the present embodiment, two reinforcing mechanisms are respectively disposed on the corresponding support plates 105. The reinforcement mechanism reinforces the installation of the support plate 105, further improving the support stability.

Wherein, two rotating plates 201 are both rotatably connected with the supporting plate 105 and symmetrically distributed on two sides of the supporting plate 105, two clamping blocks 202 are both fixedly connected with the supporting plate 105 and symmetrically distributed on two sides of the supporting plate 105, and two clamping blocks 202 are respectively located above the corresponding rotating plates 201. After the rotating plate 201 rotates, the rotating plate 201 contacts with the soil, meanwhile, the clamping blocks 202 limit the rotating plate 201, so that the rotating plate 201 cannot continue to rotate upwards, the rotating plate 201 abuts against the ground along with the fact that the threaded column 107 continuously drills into the soil, the contact area with the ground is increased, and reinforcement of the supporting plate 105 is completed.

Secondly, the plurality of anti-skid blocks 203 are respectively and fixedly connected with the corresponding rotating plates 201, and are sequentially distributed below the rotating plates 201. The anti-slip block 203 can improve the anti-slip property of the rotating plate 201 contacting with the ground, and avoid slipping and shifting.

When the support plate 105 is installed by using the utility model, the rotating plate 201 rotates and contacts with soil, meanwhile, the clamping block 202 limits the rotating plate 201, so that the rotating plate 201 cannot continue to rotate upwards, and as the threaded column 107 continuously drills into the soil, the rotating plate 201 is abutted against the ground, so that the contact area with the ground is increased, the reinforcement of the support plate 105 is completed, and the anti-skid property of the rotating plate 201 contacting with the ground can be improved by the anti-skid block 203, so that slipping and shifting are avoided, and the installation of the support plate 105 is reinforced, and the support stability is further improved.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (8)

1. An emergency drain pipe assembly of a pipe network comprises a pipe body and is characterized in that,

the device also comprises a mounting mechanism;

the installation mechanism comprises two clamping blocks, a connecting shaft, two threaded rods, two supporting plates, two rotating rods and two threaded columns, wherein the two clamping blocks are symmetrically distributed on the outer surface wall of the pipe body, one ends of the two threaded rods are fixedly connected with the connecting shaft and symmetrically distributed on the two ends of the connecting shaft, the two clamping blocks are respectively provided with threaded holes, the two threaded rods are respectively matched with the corresponding threaded holes, the two supporting plates are respectively fixedly connected with the corresponding clamping blocks and are respectively located below the corresponding clamping blocks, one ends of the two rotating rods respectively penetrate through the corresponding supporting plates and are fixedly connected with the corresponding threaded columns, and the two rotating rods are respectively rotationally connected with the corresponding supporting plates.

2. The pipe network emergency drain assembly of claim 1, wherein,

the mounting mechanism further comprises a limiting plate, wherein the limiting plate is fixedly connected with the corresponding threaded rod and is located at one end, far away from the connecting shaft, of the threaded rod.

3. The pipe network emergency drain assembly of claim 2, wherein,

the mounting mechanism further comprises reinforcing expansion plates, two ends of each reinforcing expansion plate are fixedly connected with one side of the corresponding supporting plate respectively, and the reinforcing expansion plates are distributed between the two supporting plates.

4. The pipe network emergency drain assembly of claim 3, wherein,

the mounting mechanism further comprises a rotating block, wherein the rotating block is fixedly connected with the corresponding threaded rod and is located at one end, far away from the limiting plate, of the threaded rod.

5. The pipe network emergency drain assembly of claim 4, wherein,

the mounting mechanism further comprises two rotating handles, wherein the two rotating handles are respectively and fixedly connected with the corresponding rotating rods and are respectively positioned at one ends of the corresponding rotating rods, which are far away from the threaded columns.

6. The pipe network emergency drain assembly of claim 5, wherein,

the pipe network emergency drain pipe assembly further comprises two reinforcing mechanisms, and the two reinforcing mechanisms are respectively arranged on the corresponding supporting plates.

7. The pipe network emergency drain assembly of claim 6, wherein,

the reinforcing mechanism comprises two rotating plates and two clamping blocks, wherein the two rotating plates are rotationally connected with the supporting plate and symmetrically distributed on two sides of the supporting plate, the two clamping blocks are fixedly connected with the supporting plate and symmetrically distributed on two sides of the supporting plate, and the two clamping blocks are respectively located above the corresponding rotating plates.

8. The pipe network emergency drain assembly of claim 7, wherein,

the reinforcing mechanism further comprises a plurality of anti-skid blocks, and the anti-skid blocks are fixedly connected with the corresponding rotating plates respectively and are distributed below the rotating plates in sequence.