CN216689705U - Resistance to compression type combination formula retaining module - Google Patents

Abstract

The utility model relates to the technical field of rainwater storage, in particular to a compression-resistant combined water storage module, which comprises an upper module and a lower module, wherein the lower module is arranged at the bottom of the upper module; the upper module comprises an upper grid plate, and the bottom of the upper grid plate is provided with a detachable upper support column; the lower module comprises a lower grid plate, and a detachable lower support column is mounted at the top of the lower grid plate; the upper grid plate and the lower grid plate are provided with a grid plate, and the grid plate is provided with a grid plate hole. According to the pressure-resistant combined water storage module, the two adjacent upper grid plates or the two adjacent lower grid plates can be connected through the left and right connecting modules, the upper grid plates and the lower grid plates which are arranged up and down are connected through the upper and lower connecting modules, the water storage module can be conveniently spliced according to the field requirement, and the pressure-resistant combined water storage module is small in limitation and wide in application range.

Description

Resistance to compression type combination formula retaining module

Technical Field

The utility model relates to the technical field of rainwater storage, in particular to a compression-resistant combined water storage module.

Background

Due to the increasing shortage of water resources, advanced countries in the world pay great attention to research on rainwater utilization and product development water storage modules as devices for collecting rainwater buried and underground. The traditional rainwater utilization water storage module is a box which is assembled by structural plates formed by polypropylene injection molding, a matrix formed by a certain number of plastic modules is buried underground to form a huge water storage tank, impermeable geotextile or one-way permeable geotextile is wrapped around the water storage tank according to engineering requirements, and the rainwater utilization water storage module can be used as a water storage tank or a permeable flood control tank.

However, the existing water storage module is generally formed by one-time injection molding, cannot be completely disassembled, occupies large space during transportation, and causes the transportation cost to be increased; and the mould structure of once injection moulding is complicated, and the die sinking expense is high, and in addition, current retaining module's pressure-bearing capacity is relatively poor, easily receives the extrusion and destroys when burying underground.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides a compression-resistant combined water storage module.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a compression-resistant combined water storage module comprises an upper module and a lower module arranged at the bottom of the upper module;

the upper module comprises an upper grid plate, and the bottom of the upper grid plate is provided with a detachable upper support column;

the lower module comprises a lower grid plate, and a detachable lower support column is mounted at the top of the lower grid plate;

the top of the upper grid plate is provided with an upper connecting module and a lower connecting module, and the top of the upper grid plate and the bottom of the lower grid plate are provided with mounting grooves a corresponding to the upper connecting module and the lower connecting module;

the upper and lower connecting modules comprise connecting columns b inserted in the mounting grooves a, the outer side walls of the connecting columns b are integrally sleeved with connecting sleeves, the maximum diameter of each connecting sleeve is twice that of the connecting column b, and the length of each connecting sleeve is half that of the connecting column b;

the top of the upper grid plate and the top of the lower grid plate are both provided with a plurality of left and right connecting modules, and the top of the upper grid plate and the top of the lower grid plate are both provided with mounting grooves b;

the left and right connecting modules comprise connecting columns c arranged in the mounting grooves b, and the two corresponding connecting columns c are connected through connecting rods.

Specifically, the upper supporting column comprises a supporting cylinder a which is arranged in a circular truncated cone shape and is sealed at the bottom, the mounting port is arranged at the bottom of the supporting cylinder a, and the top of the supporting cylinder a is in threaded connection with the upper grid plate through a fixing cylinder a.

Specifically, the lower support column comprises a support cylinder b which is arranged in a circular truncated cone shape and has a sealed top, the mounting opening is formed in the top of the support cylinder b, and the bottom of the support cylinder b is in threaded connection with the lower grid plate through a fixed cylinder b.

Specifically, the bottom of the supporting cylinder a is connected with the top of the supporting cylinder b through the connecting column a, and the top of the supporting cylinder b is provided with a through hole corresponding to the connecting column a.

Specifically, the fixed cover of lateral wall of spliced pole a has connect the bead, the inside wall that runs through the mouth is provided with the annular groove who corresponds with the bead.

Specifically, the upper module, the lower module, the upper and lower connecting modules and the left and right connecting modules are all made of PVC plastics.

The beneficial effects of the utility model are:

1. in the compression-resistant combined water storage module, the upper module, the lower module, the upper and lower connecting modules and the left and right connecting modules are made of PVC plastics, the hardness and the strength of the materials are high, in addition, the upper grid plate is connected with the lower grid plate through the upper supporting columns and the lower supporting columns, and the upper grid plate is connected in a vertical supporting mode, so that the compression-resistant combined water storage module has good compression resistance.

2. According to the pressure-resistant combined water storage module, the two adjacent upper grid plates or the two adjacent lower grid plates can be connected through the left and right connecting modules, the upper grid plates and the lower grid plates which are arranged up and down are connected through the upper and lower connecting modules, the water storage module can be conveniently spliced according to the field requirement, and the pressure-resistant combined water storage module is small in limitation and wide in application range.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of a pressure-resistant combined water storage module provided by the utility model;

fig. 2 is a schematic structural view of an upper support column and a lower support column of a compression-resistant combined water storage module according to the present invention;

FIG. 3 is an enlarged view of the internal structure shown in FIG. 2;

fig. 4 is a schematic structural view of an upper and lower connection module of a compression-resistant combined water storage module according to the present invention;

fig. 5 is a schematic structural view of a left and right connection module in the pressure-resistant combined water storage module provided by the utility model.

In the figure: 1. an upper module; 101. an upper grid plate; 102. an upper support column; 1021. a support cylinder a; 1022. a fixed cylinder a; 1023. connecting column a; 1024. a rib; 2. a lower module; 201. a lower grid plate; 202. a lower support column; 2021. a support cylinder b; 2022. a fixed cylinder b; 3. an upper connection module and a lower connection module; 301. connecting a column b; 302. a connecting sleeve; 4. the left and right connection modules; 401. connecting a column c; 402. a connecting rod.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-5, the pressure-resistant combined water storage module of the present invention comprises an upper module 1 and a lower module 2 installed at the bottom of the upper module 1;

the upper module 1 comprises an upper grid plate 101, and the bottom of the upper grid plate 101 is provided with a detachable upper support column 102;

the lower module 2 comprises a lower grid plate 201, and a detachable lower support column 202 is installed at the top of the lower grid plate 201;

the top of the upper grid plate 101 is provided with an upper and lower connection module 3, and the top of the upper grid plate 101 and the bottom of the lower grid plate 201 are both provided with mounting grooves a corresponding to the upper and lower connection module 3;

the upper and lower connecting modules 3 comprise a connecting column b301 inserted in the mounting groove a, the outer side wall of the connecting column b301 is integrally sleeved with a connecting sleeve 302, the maximum diameter of the connecting sleeve 302 is twice that of the connecting column b301, and the length of the connecting sleeve 302 is half that of the connecting column b 301;

the top of the upper grid plate 101 and the top of the lower grid plate 201 are both provided with a plurality of left and right connection modules 4, and the top of the upper grid plate 101 and the top of the lower grid plate 201 are both provided with mounting grooves b;

the left and right connection modules 4 include connection posts c401 disposed in the mounting grooves b, and the two corresponding connection posts c401 are connected by a connection rod 402.

When the water storage module b needs to be added on the top of the assembled water storage module a, the lower grid plate 201 of the added water storage module b can be connected with the top of the upper grid plate 101 of the water storage module a through the upper and lower connection modules 3, during installation, the upper and lower connection modules 3 are firstly inserted into the mounting groove a on the top of the upper grid plate 101, then the lower grid plate 201 is placed right above the upper grid plate 101, and the upper and lower connection modules 3 are ensured to be positioned in the mounting groove a at the bottom of the lower grid plate 201.

When the water storage module b needs to be added on the side of the assembled water storage module a, the upper grid plate 101 of the added water storage module b is connected with the upper grid plate 101 of the water storage module a through the left and right connecting modules 4, the lower grid plate 201 of the water storage module b is connected with the lower grid plate 201 of the water storage module a through the left and right connecting modules 4, during connection, the connecting column c401 of the left and right connecting modules 4 is respectively inserted into the mounting groove b at the top of the upper grid plate 101 or the lower grid plate 201, and the connecting rod 402 is also located in the mounting groove b.

Specifically, the upper support column 102 includes a support cylinder a1021 arranged in a truncated cone shape and having a sealed bottom, the mounting port is arranged at the bottom of the support cylinder a1021, and the top of the support cylinder a1021 is in threaded connection with the upper grid plate 101 through a fixed cylinder a 1022.

The upper supporting columns 102 are installed on the upper grid plate 101 in a threaded connection mode, assembly and disassembly are facilitated, the size of the lower module 2 can be reduced to the maximum extent, and in addition, the upper supporting columns 102 can be sequentially sleeved together to reduce the size during transportation. The connecting post a1023 at the bottom of the upper support post 102 may be directly inserted into a through-hole in the lower support post 202 to connect the upper support post 102 and the lower support post 202 together.

Specifically, the lower support column 202 includes a support cylinder b2021 arranged in a truncated cone shape and having a sealed top, the mounting port is arranged at the top of the support cylinder b2021, and the bottom of the support cylinder b2021 is in threaded connection with the lower grid plate 201 through a fixing cylinder b 2022.

The lower support columns 202 are installed on the lower grid plate 201 in a threaded connection mode, assembly and disassembly are facilitated, the size of the lower module 2 can be reduced to the maximum extent, and in addition, the lower support columns 202 can be sequentially sleeved together to reduce the size during transportation.

Specifically, the bottom of the supporting cylinder a1021 is connected with the top of the supporting cylinder b2021 through the connecting column a1023, and the top of the supporting cylinder b2021 is provided with a through hole corresponding to the connecting column a 1023.

Specifically, the outer side wall of the connecting column a1023 is fixedly sleeved with a convex edge 1024, and the inner side wall of the through opening is provided with an annular groove corresponding to the convex edge 1024.

In use, the present invention first mounts the upper support columns 102 on the bottom of the upper grid plate 101 and the lower support columns 202 on top of the lower grid plate 201, then connects the upper support columns 102 and the lower support columns 202 together, and completes the assembly of the single water storage module. When the water storage module b needs to be added on the top of the assembled water storage module a, the lower grid plate 201 of the added water storage module b can be connected with the top of the upper grid plate 101 of the water storage module a through the upper and lower connection modules 3, during installation, the upper and lower connection modules 3 are firstly inserted into the mounting groove a on the top of the upper grid plate 101, then the lower grid plate 201 is placed right above the upper grid plate 101, and the upper and lower connection modules 3 are ensured to be positioned in the mounting groove a at the bottom of the lower grid plate 201. When the water storage module b needs to be added on the side of the assembled water storage module a, the upper grid plate 101 of the added water storage module b is connected with the upper grid plate 101 of the water storage module a through the left and right connecting modules 4, the lower grid plate 201 of the water storage module b is connected with the lower grid plate 201 of the water storage module a through the left and right connecting modules 4, during connection, the connecting column c401 of the left and right connecting modules 4 is respectively inserted into the mounting groove b at the top of the upper grid plate 101 or the lower grid plate 201, and the connecting rod 402 is also ensured to be positioned in the mounting groove b.

It will be evident to those skilled in the art that the utility model 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 attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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 description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The pressure-resistant combined water storage module is characterized by comprising an upper module (1) and a lower module (2) arranged at the bottom of the upper module (1);

the upper module (1) comprises an upper grid plate (101), and the bottom of the upper grid plate (101) is provided with a detachable upper support column (102);

the lower module (2) comprises a lower grid plate (201), and a detachable lower support column (202) is mounted at the top of the lower grid plate (201);

the top of the upper grid plate (101) is provided with an upper connecting module and a lower connecting module (3), and the top of the upper grid plate (101) and the bottom of the lower grid plate (201) are provided with mounting grooves a corresponding to the upper connecting module and the lower connecting module (3);

the upper and lower connecting modules (3) comprise a connecting column b (301) inserted in the mounting groove a, the outer side wall of the connecting column b (301) is integrally sleeved with a connecting sleeve (302), the maximum diameter of the connecting sleeve (302) is twice that of the connecting column b (301), and the length of the connecting sleeve (302) is half of that of the connecting column b (301);

the top of the upper grid plate (101) and the top of the lower grid plate (201) are both provided with a plurality of left and right connection modules (4), and the top of the upper grid plate (101) and the top of the lower grid plate (201) are both provided with mounting grooves b;

the left and right connecting modules (4) comprise connecting columns c (401) arranged in the mounting grooves b, and the two corresponding connecting columns c (401) are connected through connecting rods (402).

2. The pressure resistant modular water storage module of claim 1, wherein: the upper supporting column (102) comprises a supporting cylinder a (1021) which is arranged in a circular truncated cone shape and is sealed at the bottom, the bottom of the supporting cylinder a (1021) is provided with a mounting hole, and the top of the supporting cylinder a (1021) is in threaded connection with the upper grid plate (101) through a fixing cylinder a (1022).

3. The pressure resistant modular water storage module of claim 2, wherein: the lower support column (202) comprises a support cylinder b (2021) which is arranged in a round table shape and has a sealed top, the top of the support cylinder b (2021) is provided with an installation port, and the bottom of the support cylinder b (2021) is in threaded connection with the lower grid plate (201) through a fixed cylinder b (2022).

4. A pressure resistant modular water storage module according to any of claims 2 or 3, wherein: the bottom of a support section of thick bamboo a (1021) is connected with the top of a support section of thick bamboo b (2021) through connecting column a (1023), the top of a support section of thick bamboo b (2021) is provided with the through-hole that corresponds with connecting column a (1023).

5. The pressure resistant modular water storage module of claim 4 wherein: the lateral wall of spliced pole a (1023) is fixed to be cup jointed bead (1024), the inside wall of running through the mouth is provided with the annular groove who corresponds with bead (1024).

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