CN215105835U

CN215105835U - Rainwater module

Info

Publication number: CN215105835U
Application number: CN202120667107.7U
Authority: CN
Inventors: 李金平
Original assignee: Nanjing Blue Collar New Material Technology Co ltd
Current assignee: Nanjing Blue Collar New Material Technology Co ltd
Priority date: 2021-03-31
Filing date: 2021-03-31
Publication date: 2021-12-10
Anticipated expiration: 2031-03-31

Abstract

The utility model provides a convenient rainwater module of adjacent rainwater module high-speed joint about with from top to bottom when using. The anti-compression device is in a cuboid shape enclosed by an upper compression-resistant plate, a lower compression-resistant plate and four side plates which are all hollowed out, wherein the upper compression-resistant plate is provided with an upper elastic block, and the lower compression-resistant plate is provided with a lower elastic block; the upper end surface of the side plate is provided with an inclined upper sinking groove, and the lower end surface of the side plate is provided with an inclined lower sinking groove; the inner side of the upper surface of the lower compression-resistant plate is provided with an upper side edge which extends downwards and is contacted with the upper part of the inner side surface of the side plate, and the inner side of the upper surface of the lower compression-resistant plate is provided with a lower side edge which extends upwards and is contacted with the lower part of the inner side surface of the side plate; the upper elastic block and the lower elastic block are respectively contacted with the bottom surface of the upper sinking groove and the bottom surface of the sinking groove, and the upper part and the lower part of the inner side surface of the side plate are respectively contacted with the upper side edge and the lower side edge.

Description

Rainwater module

Technical Field

The utility model relates to a rainwater module technical field.

Background

CN207727749U discloses a sponge city rainwater module, which is used for solving the problems of large volume and low transportation efficiency of the existing rainwater module, the technical proposal comprises a horizontally arranged connecting plate, the connecting plate is connected with a round upright post which improves the bearing capacity of the module, the connecting plate is provided with a connecting seat, the lower part of the connecting seat is clamped with a first supporting column, the upper part of the connecting seat is clamped with a second supporting column, one ends of the first supporting column and the second supporting column, which are far away from the connecting seat, are provided with a fixing structure for fixing the two supporting columns, one side of the connecting plate is provided with a dovetail groove, one side of the connecting plate, which is opposite to the dovetail groove, is provided with a dovetail block matched with the dovetail groove, the side edges of two adjacent connecting plates which are not provided with the dovetail blocks for connection are provided with connecting pieces for fixing, the utility model detachably connects the connecting plate in the rainwater module with the vertical supporting column, the volume is reduced and the transportation is convenient after the device is disassembled.

But because its connecting plate becomes to dismantle with vertical support column and is connected, whole rainwater module intensity is low, can not bear great pressure.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a convenient rainwater module with about from top to bottom adjacent rainwater module high-speed joint, compressive capacity are strong, can coincide after dismantling and conveniently transport when using.

The utility model discloses a rainwater module, is the cuboid shape that is enclosed by the upper compression plate 1, lower compression plate 2, four curb plates 5 of equal fretwork, and upper supporting cylinder 3 is located upper compression plate 1 lower part and links to each other with upper compression plate 1 is integrative, and lower supporting cylinder 4 is located lower compression plate 2 upper portion and links to each other with lower compression plate 2 is integrative, and upper supporting cylinder 3 lower extreme contacts with lower supporting cylinder 4 upper end; the upper compression plate 1 is provided with an upper elastic block 11 which extends out of the lower surface of the upper compression plate 1 in a normal state, and the lower compression plate 2 is provided with a lower elastic block 21 which extends out of the upper surface of the lower compression plate in the normal state; an upper sinking groove 51 is formed in the upper end face of the side plate 5, which is in contact with the lower surface of the upper compression plate, the bottom surface 53 of the upper sinking groove is inclined, and the depth of the upper sinking groove 51 far away from the center of the cuboid rainwater module is larger than that of the upper sinking groove close to the center of the cuboid rainwater module; a sinking groove 52 is arranged on the lower end surface of the side plate 5 which is contacted with the upper surface of the lower compression-resistant plate; the bottom surface 54 of the sink is inclined, and the depth of the sink 52 far away from the center of the rectangular rainwater module is larger than that of the sink near the center of the rectangular rainwater module; the inner side of the lower surface of the upper pressure resisting plate 1 is provided with an upper side edge 12 which extends downwards and is contacted with the upper part of the inner side surface of the side plate 5, and the inner side of the upper surface of the lower pressure resisting plate 2 is provided with a lower side edge 22 which extends upwards and is contacted with the lower part of the inner side surface of the side plate 5; the upper spring block 11 and the lower spring block 21 are respectively contacted with the bottom surface 53 and the bottom surface 54 of the upper sink, and the upper part and the lower part of the inner side surface of the side plate 5 are respectively contacted with the upper edge 12 and the lower edge 22.

The utility model has the advantages that: the upper and lower

elastic blocks

11 and 21 are in contact with the inclined upper and

lower sinker bottoms

53 and 54, respectively, so that the side plate 5 has a tendency to move toward the center of the rectangular parallelepiped rainwater module, so that the upper and lower inner side surfaces of the side plate 5 are in contact with the upper and

lower side edges

12 and 22, respectively. The rainwater module is simple in integral structure and organically forms a whole.

The upper supporting cylinder 3 is integrally connected with the upper compression-resistant plate 1, and the lower supporting cylinder 4 is integrally connected with the lower compression-resistant plate 2, so that the compression-resistant and bearing capacity is high compared with a split structure; go up the compression resistant board 1, lower compression resistant board 2, four curb plates 5 enclose into the cuboid shape, go up compression resistant board lower surface and 5 up end contact of curb plate, terminal contact under lower compression resistant board upper surface and the curb plate 5, simultaneously curb plate 5's medial surface upper portion, the lower part respectively with from the last lateral margin 12 of 1 lower surface downwardly extending of last compression resistant board, the lower lateral margin 22 contact of upwards extending from lower compression resistant board 2 upper surfaces, the cuboid shape of mutual support has been constituteed, non-deformable, stability is high, can bear great load in vertical direction and horizontal direction.

In the rainwater module, the upper elastic block 11 is elastically connected with the upper compression-resisting plate 1 through the upper elastic plate 15 extending in the horizontal direction, and the lower elastic block 21 is elastically connected with the lower compression-resisting plate 2 through the lower elastic plate 25 extending in the horizontal direction.

In the rainwater module, the inner side surface of the side plate 5 is provided with an upper cross brace 61 and a lower cross brace 62 which extend inwards and are respectively contacted with the outer wall of the upper support cylinder 3 and the outer wall of the lower support cylinder 4.

The side plate 5 is respectively contacted with the outer wall of the upper supporting cylinder 3 and the outer wall of the lower supporting cylinder 4 through the upper cross support 61 and the lower cross support 62, so that the stability of the shape is increased, and meanwhile, a larger horizontal load can be borne.

In the rainwater module, the upper supporting cylinder 3 is in a conical shape with a large upper part and a small lower part; the lower support cylinder 4 is in a conical shape with a small upper part and a big lower part.

During transportation, the upper pressure-resistant plate 1, the lower pressure-resistant plate 2, the four side plates 5 and the like can be not assembled together, the side plates 5 are independently stacked together, meanwhile, the upper supporting cylinder 3 and the lower supporting cylinder 4 are both cones, the upper supporting cylinder 3 and the upper pressure-resistant plate 1 which are integrally connected can be nested and stacked together with the lower pressure-resistant plate 2, namely, the upper supporting cylinder 3 extends into the corresponding lower supporting cylinder 4, so that the size is reduced, and the transportation cost is reduced.

Foretell rainwater module, the structure that 3 lower extremes of upper strut and 4 upper ends of lower strut contact is the plug structure: the lower end of the upper support cylinder 3 and the upper end of the lower support cylinder 4 are provided with a plug 81 and a socket 82, and the plug is plugged with the socket. Preferably, the plug 81 has a buckle 811, the inner wall of the socket 82 is provided with a slot 821, and the buckle 811 hooks the slot 821 when the plug is inserted into the socket.

In the rainwater module, two opposite side surfaces of the upper pressure resisting plate 1 are provided, one side surface is provided with a protruding upper tenon 16, and the other side surface is provided with an upper groove 17 matched with the upper tenon 16; the lower pressure resisting plate 2 has two opposite sides, one side having a protruding lower tenon 26 and the other side having a lower groove 27 for fitting the lower tenon 26. Preferably, the upper convex tenon 16 and the lower convex tenon 26 are trapezoidal in cross section; the upper groove 17 and the lower groove 27 are both trapezoidal grooves.

Two opposite side surfaces of the upper pressure resisting plate 1 are provided, one side surface is provided with a protruding upper tenon 16, and the other side surface is provided with an upper groove 17 matched with the upper tenon 16; the lower pressure resisting plate 2 has two opposite sides, one side having a protruding lower tenon 26 and the other side having a lower groove 27 for fitting the lower tenon 26. When two adjacent rainwater modules are connected, the upper convex tenon 16 of one rainwater module is matched with the upper groove 17 of the other rainwater module, and the lower convex tenon 26 of one rainwater module is matched with the lower groove 27 of the other rainwater module, so that the connection is convenient and rapid, and the connection is reliable. The sections of the trapezoidal upper tenon 16 and the trapezoidal lower tenon 26 are matched with the upper groove 17 and the lower groove 27 of the trapezoidal groove, and two adjacent rainwater modules cannot be loosened after being connected.

In the rainwater module, one of the upper end surface of the upper pressure-resistant plate 1 and the lower end surface of the lower pressure-resistant plate 2 is provided with a pin shaft 91, and the other surface is provided with a pin hole 92 opposite to the pin shaft.

In the up end of going up resistance to compression board 1 and the lower terminal surface of resistance to compression board 2, have round pin axle 91 on one face, have on the another side with the round pin pinhole 92 to, for example, have pinhole 92 on the up end of going up resistance to compression board 1, have downwardly extending's round pin axle 91 on the lower terminal surface of resistance to compression board 2 down, when two rainwater modules pile up from top to bottom like this, the round pin axle 91 on the resistance to compression board 2 can stretch into the pinhole 92 on the resistance to compression board 1 in the rainwater module of next place in the last rainwater module, it is more firm that upper and lower rainwater module piles up.

Drawings

FIG. 1 is a schematic perspective view of a rain module (with one side panel removed);

FIG. 2 is a perspective view of the connection of the side plates, the lower compression plate, etc.;

FIG. 3 is another perspective view of the connection of the side plates, lower compression plates, etc.;

FIG. 4 is a schematic side view of the connection between the upper support cylinder and the lower support cylinder;

FIG. 5 is a perspective view of the connection of the upper support cylinder and the lower support cylinder;

FIG. 6 is a side panel perspective view;

FIG. 7 is another perspective view of the side panel;

FIG. 8 is a partial perspective view of the side panel;

fig. 9 is a partial perspective view of the lower platen.

In the figure: the upper compression-resistant plate comprises an upper compression-resistant plate 1, an upper elastic block 11, an upper side edge 12, an upper elastic plate 15, an upper convex tenon 16 and an upper groove 17;

the lower compression-resistant plate 2, the lower elastic block 21, the lower side edge 22, the lower elastic plate 25, the lower tenon 26 and the lower groove 27;

an upper support cylinder 3 and a lower support cylinder 4;

the side plate 5, an upper sinking groove 51, a lower sinking groove 52, an upper sinking groove bottom surface 53 and a lower sinking groove bottom surface 54;

an upper cross brace 61, a lower cross brace 62, a plug 81, a buckle 811, a socket 82, a slot 821, a,

Pin shaft 91, pinhole 92.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Please refer to the rainwater module shown in fig. 1, which is a rectangular parallelepiped shape surrounded by an upper compression-resistant plate 1, a lower compression-resistant plate 2, and four side plates 5 all hollowed out. Two opposite side surfaces of the upper pressure resisting plate 1 are provided, one side surface is provided with a protruding upper tenon 16, and the other side surface is provided with an upper groove 17 matched with the upper tenon 16; the lower pressure resisting plate 2 has two opposite sides, one side having a protruding lower tenon 26 and the other side having a lower groove 27 for fitting the lower tenon 26.

16 conical upper supporting cylinders 3 with large upper parts and small lower parts are positioned at the lower parts of the upper compression-resistant plates 1 and are integrally connected with the upper compression-resistant plates 1 at the upper parts of the upper compression-resistant plates; and 16 conical lower supporting cylinders 4 with small upper parts and large lower parts are positioned at the upper parts of the lower compression plates 2 and are integrally connected with the lower compression plates 2 at the lower parts of the lower compression plates.

The upper supporting cylinder 3 and the lower supporting cylinder 4 are formed by a plurality of arc sections in the circumferential direction. The supporting cylinder effectively supports the whole body, the supporting cylinders are uniformly distributed, the whole stress uniformity is ensured, the overall compression resistance can be enhanced by the multi-section arc-shaped Chinese style supporting cylinder, the service life is prolonged, and the phenomena of fracture, deformation and bending are greatly reduced.

Referring to fig. 9, one of the lower ends of the upper support cylinder 3 and the upper end of the lower support cylinder 4 has a plug 81, the other has a socket 82, the plug 81 has a buckle 811, the inner wall of the socket 82 is provided with a slot 821, and when the plug is plugged into the socket, the buckle 811 hooks the slot 821.

The upper spring block 11, the upper side edge 12, the upper spring plate 15, the upper tenon 16 and the upper groove 17 are similar to the lower spring block 21, the lower side edge 22, the lower spring plate 25, the lower tenon 26 and the lower groove 27 respectively, and can be seen in fig. 5 and 9.

Referring to fig. 8, the upper end surface of the side plate 5 contacting with the lower surface of the upper compression plate is provided with an upper sinking groove 51, the bottom surface 53 of the upper sinking groove is inclined, and the depth of the upper sinking groove 51 far away from the center of the rectangular parallelepiped rainwater module is larger than the depth of the upper sinking groove 51 near the center of the rectangular parallelepiped rainwater module (i.e. the depth is deeper outside and shallower inside); the lower end face of the side plate 5, which is in contact with the upper surface of the lower compression-resistant plate, is provided with a sinking groove 52, the bottom surface 54 of the sinking groove is inclined, and the depth of the sinking groove 52 far away from the center of the cuboid rainwater module is larger than the depth of the sinking groove 52 close to the center of the cuboid rainwater module (namely, the depth is deep outside and shallow inside); the upper pressure resisting plate 1 has an upper edge 12 extending downward on the inner side of the lower surface thereof and contacting the upper portion of the inner surface of the side plate 5, and has a lower edge 22 extending upward on the inner side of the upper surface of the lower pressure resisting plate 2 and contacting the lower portion of the inner surface of the side plate 5.

The upper spring block 11 is elastically connected with the upper compression-resistant plate 1 through an upper spring plate 15 extending in the horizontal direction, and the lower spring block 21 is elastically connected with the lower compression-resistant plate 2 through a lower spring plate 25 extending in the horizontal direction.

The inner side surface of the side plate 5 is provided with an upper cross brace 61 and a lower cross brace 62 which extend inwards and are respectively contacted with the outer wall of the upper support cylinder 3 and the outer wall of the lower support cylinder 4.

When the upper and lower end faces of the side plate are respectively contacted with the lower surface of the upper compression resisting plate 1 and the upper surface of the lower compression resisting plate 2, and the upper spring block 11 and the lower spring block 21 are respectively contacted with the upper bottom surface 53 and the lower bottom surface 54 of the sinking groove, the upper part and the lower part of the inner side face of the side plate 5 are respectively contacted with the upper side edge 12 and the lower side edge 22, and meanwhile, the upper cross support 61 and the lower cross support 62 are respectively contacted with the outer wall of the upper support barrel 3 and the outer wall of the lower support barrel 4.

Two opposite side surfaces of the pressure resisting plate 1 are provided, wherein one side surface is provided with a protruding trapezoidal upper tenon 16, and the other side surface is provided with a trapezoidal upper groove 17 matched with the upper tenon 16; referring to fig. 9, the lower compression plate 2 has on opposite sides thereof a projecting trapezoidal lower tongue 26 and a matching trapezoidal lower groove 27 for the lower tongue 26.

The upper end face of the upper pressure-resistant plate 1 is provided with 8 pin holes 92, the lower end face of the lower pressure-resistant plate 2 is provided with 8 pin shafts 91 extending downwards, and therefore when two rainwater modules are stacked up and down, the pin shafts 91 on the lower pressure-resistant plate 2 in the upper rainwater module can extend into the pin holes 92 on the upper pressure-resistant plate 1 in the lower rainwater module.

Claims

1. The rainwater module is the cuboid shape that is enclosed by last resist board (1), lower resist board (2), four curb plates (5) of equal fretwork, characterized by: the upper supporting cylinder (3) is positioned at the lower part of the upper pressure resisting plate (1) and integrally connected with the upper pressure resisting plate (1), the lower supporting cylinder (4) is positioned at the upper part of the lower pressure resisting plate (2) and integrally connected with the lower pressure resisting plate (2), and the lower end of the upper supporting cylinder (3) is contacted with the upper end of the lower supporting cylinder (4); the upper compression-resisting plate (1) is provided with an upper elastic block (11) which extends out of the lower surface of the upper compression-resisting plate (1) in a normal state, and the lower compression-resisting plate (2) is provided with a lower elastic block (21) which extends out of the upper surface of the lower compression-resisting plate in the normal state; an upper sinking groove (51) is formed in the upper end face of the side plate (5) which is in contact with the lower surface of the upper compression plate, the bottom surface (53) of the upper sinking groove is inclined, and the depth of the upper sinking groove (51) far away from the center of the cuboid rainwater module is larger than the depth of the upper sinking groove (51) close to the center of the cuboid rainwater module; a sunken groove (52) is formed in the lower end face of the side plate (5) which is in contact with the upper surface of the lower compression plate; the bottom surface (54) of the sinking groove is inclined, and the depth of the sinking groove (52) far away from the center of the cuboid rainwater module is greater than that of the sinking groove close to the center of the cuboid rainwater module; the inner side of the lower surface of the upper pressure resisting plate (1) is provided with an upper side edge (12) which extends downwards and is contacted with the upper part of the inner side surface of the side plate (5), and the inner side of the upper surface of the lower pressure resisting plate (2) is provided with a lower side edge (22) which extends upwards and is contacted with the lower part of the inner side surface of the side plate (5); the upper elastic block (11) and the lower elastic block (21) are respectively contacted with the bottom surface (53) of the upper sinking groove and the bottom surface (54) of the sinking groove, and the upper part and the lower part of the inner side surface of the side plate (5) are respectively contacted with the upper side edge (12) and the lower side edge (22).

2. A stormwater module as claimed in claim 1, wherein: the upper elastic block (11) is elastically connected with the upper pressure resisting plate (1) through an upper elastic plate (15) extending in the horizontal direction, and the lower elastic block (21) is elastically connected with the lower pressure resisting plate (2) through a lower elastic plate (25) extending in the horizontal direction.

3. A stormwater module as claimed in claim 1, wherein: the inner side surface of the side plate (5) is provided with an upper cross support (61) and a lower cross support (62) which extend inwards and are respectively contacted with the outer wall of the upper support cylinder (3) and the outer wall of the lower support cylinder (4).

4. A stormwater module as claimed in claim 1, wherein: the upper supporting cylinder (3) is in a conical shape with a large upper part and a small lower part; the lower supporting cylinder (4) is in a conical shape with a small upper part and a big lower part.

5. A stormwater module as claimed in claim 1, wherein: the structure that upper support section of thick bamboo (3) lower extreme and lower support section of thick bamboo (4) upper end contacted is the plug structure: the lower end of the upper supporting cylinder (3) and the upper end of the lower supporting cylinder (4) are provided with a plug (81) and a socket (82), and the plug is plugged with the socket.

6. A stormwater module as claimed in claim 5, wherein: the plug (81) is provided with a buckle (811), the inner wall of the socket (82) is provided with a clamping groove (821), and when the plug is plugged with the socket, the buckle (811) hooks the clamping groove (821).

7. A stormwater module as claimed in claim 1, wherein: two opposite side surfaces of the upper pressure resisting plate (1) are provided, one side surface is provided with a protruding upper tenon (16), and the other side surface is provided with an upper groove (17) matched with the upper tenon (16); the two opposite sides of the lower pressure resisting plate (2) are provided with a protruding lower tenon (26) on one side and a lower groove (27) matched with the lower tenon (26) on the other side.

8. A stormwater module as claimed in claim 7, wherein: the sections of the upper tenon (16) and the lower tenon (26) are both trapezoidal; the upper groove (17) and the lower groove (27) are both trapezoidal grooves.

9. A stormwater module as claimed in claim 1, wherein: one of the upper end surface of the upper pressure resisting plate (1) and the lower end surface of the lower pressure resisting plate (2) is provided with a pin shaft (91), and the other surface is provided with a pin hole (92) opposite to the pin shaft.