CN214360322U - Distributed sewage treatment device with anti function of floating - Google Patents

Abstract

The utility model discloses a distributed sewage treatment device with anti function of floating belongs to the sewage treatment device field. A distributed sewage treatment device with an anti-floating function comprises a device body, a plurality of fixing pieces, a plurality of embedded pieces and a reinforced concrete bottom plate; the embedded parts are embedded in the reinforced concrete base plate, and the upper parts of the embedded parts penetrate through the upper end of the reinforced concrete base plate and extend to the upper side of the reinforced concrete base plate; the upper parts of the plurality of fixing pieces are all fixed with the bottom end of the equipment body; the lower part of the fixed part is connected with the upper part of the embedded part; the reinforced concrete bottom plate is used for increasing the weight of the equipment body, so that the equipment body is anti-floating, the equipment body and the reinforced concrete bottom plate can be connected into a whole through the embedded part and the fixing part, the equipment body is not easy to float upwards when underground water exists in the foundation pit, the excavation depth of the foundation pit is reduced, and the engineering cost is reduced.

Description

Distributed sewage treatment device with anti function of floating

Technical Field

The utility model relates to a sewage treatment device field, more specifically say, relate to a distributed sewage treatment device with anti function of floating.

Background

In order to effectively improve the urban water environment quality, the centralized collection and treatment technology of urban sewage is continuously improved, and a sewage lifting pump station needs to be built aiming at the drainage areas with lower terrain and in which sewage cannot flow into a municipal sewage pipe network by means of gravity.

The integrated distributed sewage treatment equipment is installed in a fully-buried mode, so that the excavation depth of a foundation pit is large, the engineering cost is increased, and the foundation pit floats out after the integrated sewage treatment equipment is installed due to the underground water.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

To the problem that exists among the prior art, the utility model aims to provide a distributed sewage treatment device with anti function of floating, it can realize making equipment body and reinforced concrete bottom plate connect as an organic wholely through built-in fitting and mounting, and then the difficult come-up of equipment body when having groundwater in making the foundation ditch, has reduced the degree of depth of foundation ditch excavation, reduces engineering cost.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

A distributed sewage treatment device with an anti-floating function comprises a device body, a plurality of fixing pieces, a plurality of embedded pieces and a reinforced concrete bottom plate;

the embedded parts are embedded in the reinforced concrete base plate, and the upper parts of the embedded parts penetrate through the upper end of the reinforced concrete base plate and extend to the upper side of the reinforced concrete base plate;

the upper parts of the plurality of fixing pieces are all fixed with the bottom end of the equipment body;

the lower part of the fixed part is connected with the upper part of the embedded part;

the reinforced concrete bottom plate is used for increasing the weight of the equipment body so as to enable the equipment body to be anti-floating.

Furthermore, the embedded part comprises a first connecting plate, a second positioning hole, a third connecting plate and at least two supporting columns; one end of the support column is embedded in the reinforced concrete bottom plate, and the other end of the support column penetrates through the upper end of the reinforced concrete bottom plate and extends to the reinforced concrete bottom plate to be fixed with the third connecting plate; the lower end of the third connecting plate is contacted with the upper end of the reinforced concrete bottom plate; the number of the first connecting plates is two, and the two first connecting plates are respectively arranged at the left upper end and the right upper end of the third connecting plate; the second positioning hole is formed in the side end of the first connecting plate; the number of the second positioning holes on each first connecting plate is multiple.

Further, the fixing part comprises a first fixing plate, a first positioning hole and a second fixing plate; the first fixing plate is of an inverted U-shaped structure; the number of the second fixing plates is two, and the two second fixing plates are respectively arranged at the left inner side end and the right inner side end of the first fixing plate; the bottom end of the second fixed plate is contacted with the upper end of the third connecting plate; the first positioning holes are formed in the side end of the first fixing plate, the number of the first positioning holes is matched with that of the second positioning holes, and the first positioning holes correspond to the second positioning holes in position; and a bolt is connected between the corresponding first positioning hole and the second positioning hole.

Further, the embedded part comprises a first connecting plate, a third connecting plate and at least two supporting columns; one end of the support column is embedded in the reinforced concrete bottom plate, and the other end of the support column penetrates through the upper end of the reinforced concrete bottom plate and extends to the reinforced concrete bottom plate to be fixed with the third connecting plate; the lower end of the third connecting plate is contacted with the upper end of the reinforced concrete bottom plate; the number of the first connecting plates is two, and the two first connecting plates are respectively arranged at the left upper end and the right upper end of the third connecting plate.

Further, the fixing member includes a first fixing plate and a second fixing plate; the first fixing plate is of an inverted U-shaped structure; the number of the second fixing plates is two, and the two second fixing plates are respectively arranged at the left inner side end and the right inner side end of the first fixing plate; the bottom end of the second fixed plate is contacted with the upper end of the third connecting plate; the inner walls of the first fixing plate and the first connecting plate are welded; the second fixing plate is welded with the third connecting plate.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages of:

this scheme can realize making equipment body and reinforced concrete bottom plate connect as an organic wholely through built-in fitting and mounting, and then make the equipment body difficult come-up when having groundwater in the foundation ditch, has reduced the degree of depth of foundation ditch excavation, reduces engineering cost.

And (II) because the reinforced concrete bottom plate has a certain weight, the anti-floating capacity of the equipment body can be greatly improved by connecting the reinforced concrete bottom plate with the equipment body.

And thirdly, the embedded part and the fixing part are connected through the bolt, so that the embedded part and the fixing part are convenient to mount and dismount.

And fourthly, the embedded part and the fixing part are welded in a mode that the embedded part and the fixing part are connected more stably.

Drawings

Fig. 1 is a schematic front structural view of embodiment 1 of the present invention;

fig. 2 is a schematic front structural view of a fixing member and an embedded member part according to embodiment 1 of the present invention;

fig. 3 is a schematic perspective view of a fixing member and an embedded member part according to embodiment 1 of the present invention;

fig. 4 is a schematic front structural view of a fixing member and an embedded member part according to embodiment 2 of the present invention.

The reference numbers in the figures illustrate:

1, an equipment body;

2, fixing parts, 2-1 first fixing plates, 2-2 first positioning holes and 2-3 second fixing plates;

3, an embedded part, 3-1 a first connecting plate, 3-2 a second positioning hole, 3-3 a third connecting plate and 3-4 a supporting column;

4 reinforced concrete bottom plate.

Detailed Description

Example 1:

referring to fig. 1-3, a distributed sewage treatment apparatus with anti-floating function includes an apparatus body 1, a plurality of fixing members 2, a plurality of embedded members 3, and a reinforced concrete bottom plate 4.

The embedded parts 3 are all embedded in the reinforced concrete bottom plate 4, and the upper parts of the embedded parts 3 penetrate through the upper end of the reinforced concrete bottom plate 4 and extend to the upper side of the reinforced concrete bottom plate 4; the embedded part 3 comprises a first connecting plate 3-1, a second positioning hole 3-2, a third connecting plate 3-3 and at least two supporting columns 3-4; one end of the support column 3-4 is embedded in the reinforced concrete bottom plate 4, and the other end of the support column 3-4 penetrates through the upper end of the reinforced concrete bottom plate 4 and extends to the reinforced concrete bottom plate 4 to be fixed with the third connecting plate 3-3; the lower end of the third connecting plate 3-3 is contacted with the upper end of the reinforced concrete bottom plate 4; the number of the first connecting plates 3-1 is two, and the two first connecting plates 3-1 are respectively arranged at the left upper end and the right upper end of the third connecting plate 3-3; the second positioning hole 3-2 is formed in the side end of the first connecting plate 3-1; the number of the second positioning holes 3-2 on each first connecting plate 3-1 is multiple.

The upper parts of the plurality of fixing pieces 2 are all fixed with the bottom end of the equipment body 1; the fixing part 2 comprises a first fixing plate 2-1, a first positioning hole 2-2 and a second fixing plate 2-3 (the arrangement of the second fixing plate 2-3 can increase the contact area between the first fixing plate 2-1 and the third connecting plate 3-3, and further increase the supporting strength of the third connecting plate 3-3 to the first fixing plate 2-1); the first fixing plate 2-1 is of an inverted U-shaped structure; the number of the second fixing plates 2-3 is two, and the two second fixing plates 2-3 are respectively arranged at the left and right inner side ends of the first fixing plate 2-1; the bottom end of the second fixing plate 2-3 is contacted with the upper end of the third connecting plate 3-3; the first positioning holes 2-2 are formed in the side end of the first fixing plate 2-1, the number of the first positioning holes 2-2 is matched with that of the second positioning holes 3-2, and the positions of the first positioning holes 2-2 are corresponding to those of the second positioning holes 3-2; bolts are connected between the corresponding first positioning holes 2-2 and the corresponding second positioning holes 3-2.

The lower part of the fixing part 2 is connected with the upper part of the embedded part 3.

The reinforced concrete bottom plate 4 is used for increasing the weight of the equipment body 1 so as to make the equipment body 1 float-resistant.

The first positioning hole 2-2 is arranged at the side end of the first fixing plate 2-1, and the second positioning hole 3-2 is arranged at the side end of the first connecting plate 3-1, so that the bolt is in a transverse state when the bolt is connected between the first positioning hole 2-2 and the second positioning hole 3-2, and the bolt is convenient to install and detach.

Example 2:

referring to fig. 4, the embedded part 3 includes a first connecting plate 3-1, a third connecting plate 3-3 and at least two supporting columns 3-4; one end of the support column 3-4 is embedded in the reinforced concrete bottom plate 4, and the other end of the support column 3-4 penetrates through the upper end of the reinforced concrete bottom plate 4 and extends to the reinforced concrete bottom plate 4 to be fixed with the third connecting plate 3-3; the lower end of the third connecting plate 3-3 is contacted with the upper end of the reinforced concrete bottom plate 4; the number of the first connecting plates 3-1 is two, and the two first connecting plates 3-1 are respectively arranged at the left upper end and the right upper end of the third connecting plate 3-3.

The fixing part 2 comprises a first fixing plate 2-1 and a second fixing plate 2-3; the first fixing plate 2-1 is of an inverted U-shaped structure; the number of the second fixing plates 2-3 is two, and the two second fixing plates 2-3 are respectively arranged at the left and right inner side ends of the first fixing plate 2-1; the bottom end of the second fixing plate 2-3 is contacted with the upper end of the third connecting plate 3-3; the inner walls of the first fixing plate 2-1 and the first connecting plate 3-1 are welded; the second fixing plate 2-3 is welded with the third connecting plate 3-3.

The difference between the embodiment 2 and the embodiment 1 is that the fixing member 2 and the embedded part 3 are connected in different manners, and the fixing member 2 and the embedded part 3 in the embodiment 2 are connected by welding, so that the fixing member 2 and the embedded part 3 can be connected more stably by welding.

Claims (5)

1. The utility model provides a distributed sewage treatment device with anti function that floats which characterized in that: the device comprises a device body (1), a plurality of fixing pieces (2), a plurality of embedded parts (3) and a reinforced concrete bottom plate (4);

the embedded parts (3) are all embedded in the reinforced concrete bottom plate (4), and the upper parts of the embedded parts (3) penetrate through the upper end of the reinforced concrete bottom plate (4) and extend to the upper side of the reinforced concrete bottom plate (4);

the upper parts of the fixing pieces (2) are fixed with the bottom end of the equipment body (1);

the lower part of the fixing piece (2) is connected with the upper part of the embedded part (3);

the reinforced concrete bottom plate (4) is used for increasing the weight of the equipment body (1) so as to enable the equipment body (1) to be anti-floating.

2. The decentralized sewage treatment plant with anti-floating function according to claim 1, characterized in that: the embedded part (3) comprises a first connecting plate (3-1), a second positioning hole (3-2), a third connecting plate (3-3) and at least two supporting columns (3-4);

one end of each support pillar (3-4) is embedded in the reinforced concrete bottom plate (4), and the other end of each support pillar (3-4) penetrates through the upper end of the reinforced concrete bottom plate (4) and extends onto the reinforced concrete bottom plate (4) to be fixed with the third connecting plate (3-3);

the lower end of the third connecting plate (3-3) is contacted with the upper end of the reinforced concrete bottom plate (4);

the number of the first connecting plates (3-1) is two, and the two first connecting plates (3-1) are respectively arranged at the upper ends of the left and right sides of the third connecting plate (3-3);

the second positioning hole (3-2) is formed in the side end of the first connecting plate (3-1); the number of the second positioning holes (3-2) on each first connecting plate (3-1) is multiple.

3. The decentralized sewage treatment plant with anti-floating function according to claim 2, characterized in that: the fixing piece (2) comprises a first fixing plate (2-1), a first positioning hole (2-2) and a second fixing plate (2-3);

the first fixing plate (2-1) is of an inverted U-shaped structure;

the number of the second fixing plates (2-3) is two, and the two second fixing plates (2-3) are respectively arranged at the inner side ends of the left side and the right side of the first fixing plate (2-1);

the bottom end of the second fixing plate (2-3) is contacted with the upper end of the third connecting plate (3-3);

the first positioning holes (2-2) are formed in the side end of the first fixing plate (2-1), the number of the first positioning holes (2-2) is matched with the number of the second positioning holes (3-2), and the positions of the first positioning holes (2-2) are corresponding to the positions of the second positioning holes (3-2);

bolts are connected between the corresponding first positioning holes (2-2) and the corresponding second positioning holes (3-2).

4. The decentralized sewage treatment plant with anti-floating function according to claim 1, characterized in that: the embedded part (3) comprises a first connecting plate (3-1), a third connecting plate (3-3) and at least two supporting columns (3-4);

one end of each support pillar (3-4) is embedded in the reinforced concrete bottom plate (4), and the other end of each support pillar (3-4) penetrates through the upper end of the reinforced concrete bottom plate (4) and extends onto the reinforced concrete bottom plate (4) to be fixed with the third connecting plate (3-3);

the lower end of the third connecting plate (3-3) is contacted with the upper end of the reinforced concrete bottom plate (4);

the number of the first connecting plates (3-1) is two, and the two first connecting plates (3-1) are respectively arranged at the left upper end and the right upper end of the third connecting plate (3-3).

5. The decentralized sewage treatment plant with anti-floating function according to claim 4, characterized in that: the fixing piece (2) comprises a first fixing plate (2-1) and a second fixing plate (2-3);

the first fixing plate (2-1) is of an inverted U-shaped structure;

the number of the second fixing plates (2-3) is two, and the two second fixing plates (2-3) are respectively arranged at the inner side ends of the left side and the right side of the first fixing plate (2-1);

the bottom end of the second fixing plate (2-3) is contacted with the upper end of the third connecting plate (3-3);

the first fixing plate (2-1) is welded with the inner wall of the first connecting plate (3-1); the second fixing plate (2-3) is welded with the third connecting plate (3-3).

Images