CN212336163U - Assembled pump station based on tenon fourth of twelve earthly branches structure - Google Patents

Assembled pump station based on tenon fourth of twelve earthly branches structure Download PDF

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Publication number
CN212336163U
CN212336163U CN202020616843.5U CN202020616843U CN212336163U CN 212336163 U CN212336163 U CN 212336163U CN 202020616843 U CN202020616843 U CN 202020616843U CN 212336163 U CN212336163 U CN 212336163U
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China
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side wall
water outlet
section
shaped groove
main station
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徐鹏飞
王丽
吴昌新
陈坚
王星梅
郭瑞
林旭
陈冬冬
李竞春
邢杰
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Huai'an City Water Conservancy Survey And Design Institute Co ltd
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Huai'an City Water Conservancy Survey And Design Institute Co ltd
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Abstract

The utility model relates to the technical field of hydraulic engineering, a assembled pump station based on tenon fourth of twelve earthly branches structure is disclosed, including import U type groove section, main website body section, play pool section and go out the water connection section, import U type groove section with main website body section one side is connected, main website body section through a outlet pipe with go out the water pool section intercommunication, go out pool section output and go out the water connection section and be connected; each part of import U type groove section, main website body section, play pond section and play water linkage segment is the assembled, is based on tenon fourth of the twelve earthly branches structural connection between the accessory of each part, still sets up the pore of putting into waterproof material in tenon fourth of the twelve earthly branches structural connection terminal surface department. Compared with the prior art, the utility model discloses based on mortise-tenon joint structural connection, connect compactly, make the connection between the accessory become flexonics by original rigid connection, can bear bigger load and warp, fill into waterproof material in the stagnant water pore, so both solved the flexonics problem, can also realize the prevention of seepage function.

Description

Assembled pump station based on tenon fourth of twelve earthly branches structure
Technical Field
The utility model relates to a hydraulic engineering technical field, in particular to assembled pump station based on tenon fourth of twelve earthly branches structure.
Background
The prefabricated assembly type structure is a modern building structure mode, adopts the assembly type structure, mainly completes the main structure of a building in a mode of on-site assembly according to the reservation of a manufacturer, and has good adaptability on some places with poor construction conditions. In recent years, with the proposal of sustainable development concept, the research on fabricated concrete buildings is more and more in the building industry, which provides a good foundation for the popularization of the technology in China.
The assembled structure mainly lies in the connection relation between the accessories, in the building industry, the tenon-and-mortise structure is a common wood connection mode and is built by main components such as upright posts, cross beams, purlins and the like, and joints among the components are matched by tenon-and-mortise to form an elastic frame. The modern building field mainly adopts a mortise and tenon joint principle as a mortise and tenon joint reinforced concrete structure. The tenon fourth of twelve earthly branches is very exquisite utility model, this kind of component connected mode for chinese traditional timber structure becomes the special flexible construction body that has surpassed contemporary building framed bent, frame or steelframe, not only can bear great load, allows to produce certain deformation moreover, offsets certain seismic energy through the deformation under seismic load, reduces the earthquake response of structure.
The number of small and medium-sized gates and stations in hydraulic engineering is large, the structure types are complicated, and although a lot of work is done, the difference between the design standardization and the construction assembly is large. With the development of the BIM technology, favorable conditions are created for parameterization and standardized design application of assembled small and medium-sized gates and stations.
At present, in the technical field of hydraulic engineering, for example, pump stations, water gates and the like rarely use assembled structures, and basically use concrete to pour in situ and form integrally, so that the mode has the advantages of long construction period, high pollution, high cost and difficulty in quality control. In addition, if the small and medium-sized brake and station adopt an assembly type, the accessories of the small and medium-sized brake and station mainly adopt a wet connection mode, namely, two components are connected together through welding or machinery, and then concrete is poured. The disadvantage of this connection is that the secondary casting is present at the joint and the cast-in-place workload is still very large.
The common tenon-and-mortise structure connection mode is mostly used for building timber structure, does not need waterproof prevention of seepage, but the water conservancy field still needs to consider the prevention of seepage problem between the connection of assembled part. The assembling type is also an important characteristic of the assembling type of the water conservancy industry different from the assembling type of the building industry, and is also a difficult point of the assembling type of the water conservancy engineering.
Disclosure of Invention
The purpose of the invention is as follows: to the problem that exists among the prior art, the utility model provides an assembled pump station based on mortise-tenon joint structure changes the pump station into the assembled structure, adopts mortise-tenon joint structural connection between each part moreover, connect compactly, make the connection between the accessory become flexible connection by original rigid connection, can bear bigger load and warp, the assembly need not carry out the secondary pouring after accomplishing, set up the stagnant water pore in each part hookup location, fill into waterproof material in the stagnant water pore, both solved the flexible connection problem like this, can also realize stagnant water prevention of seepage function.
The technical scheme is as follows: the utility model provides an assembled pump station based on mortise and tenon structure, which comprises an inlet U-shaped groove section, a main station body section, a water outlet pool section and a water outlet connecting section, wherein the inlet U-shaped groove section is connected with one side of the main station body section, the main station body section is communicated with the water outlet pool section through a water outlet pipe, and the output end of the water outlet pool section is connected with the water outlet connecting section;
the inlet U-shaped groove section comprises an inlet U-shaped groove bottom plate, an inlet U-shaped groove left side wall, an inlet U-shaped groove right side wall and an inlet U-shaped groove supporting beam which are arranged from bottom to top respectively, and the connecting ends of the inlet U-shaped groove bottom plate and the inlet U-shaped groove left side wall, the inlet U-shaped groove bottom plate and the inlet U-shaped groove right side wall are connected by adopting rope sleeve structures; the connecting ends of the inlet U-shaped groove supporting beam and the left side wall of the inlet U-shaped groove and the connecting ends of the inlet U-shaped groove supporting beam and the right side wall of the inlet U-shaped groove are connected by a dovetail groove structure;
the main station body section comprises a main station bottom plate, a main station side wall A, at least one main station side wall B and a main station top cover plate which are arranged from bottom to top respectively, and the main station bottom plate is connected with the main station side wall A, the main station side wall A is connected with the main station side wall B, and the main station side wall B is connected with the main station top cover plate through a dovetail groove structure;
the water outlet pool section comprises a water outlet pool bottom plate, at least one water outlet pool side wall A and a water outlet pool side wall B which are arranged from bottom to top respectively, and the connecting surfaces of the water outlet pool bottom plate and the water outlet pool side wall A as well as the water outlet pool side wall A and the water outlet pool side wall B are connected by adopting a dovetail groove structure;
the water outlet connecting section comprises a prefabricated culvert pipe and a water outlet U-shaped groove section, one end of the prefabricated culvert pipe is communicated with the output end of the water outlet pool section, and the other end of the prefabricated culvert pipe is communicated with the water outlet U-shaped groove section.
Furthermore, two connecting ends of the connecting surfaces of the inlet U-shaped groove bottom plate, the inlet U-shaped groove left side wall, the inlet U-shaped groove right side wall, the main station bottom plate, the main station side wall A, the main station side wall B, the main station top cover plate, the outlet pool bottom plate, the outlet pool side wall A and the outlet pool side wall B are all inwards sunken to form a through hole channel, and waterproof materials are placed in the hole channel.
Furthermore, the waterproof material is a rubber strip clamped into the pore channel when each accessory is installed or a polyurethane adhesive injected from one side of the pore channel after the accessories are connected.
Further, import U type groove left and right side wall is the right angled triangle structure that the structure is the same, main website side wall A is the U-shaped structure with main website side wall B, and its U-shaped open end corresponds with the right-angle side of the import U type groove left and right side wall of right angled triangle, another right-angle side and the import U type groove bottom plate of the import U type groove left and right side wall of right angled triangle adopt the rope sling structural connection.
Further, import U type groove bottom plate, import U type groove left side wall, import U type groove right side wall all inwards cave in and form the bar groove with main website body section contact department, every bar groove combination on import U type groove bottom plate, import U type groove left side wall, the import U type groove right side wall forms the U-shaped groove, main website body section also inwards caves in with the side that this U-shaped groove corresponds the position and forms the U-shaped groove, import U type groove section with when main website body section is connected, U-shaped rubber waterstop is placed to the U-shaped inslot that the symmetry set up, and pours into pitch to the U-shaped inslot.
Furthermore, a water pump is arranged on the main station bottom plate of the main station body section and connected with the water outlet pipe, the water outlet pipe penetrates through the main station side wall B of the main station body section and is communicated with the water outlet pool side wall A of the water outlet pool section, and the output end of the water outlet pool section is communicated with the water outlet U-shaped groove section through a prefabricated culvert pipe.
Furthermore, a pair of cross beams is arranged on the main station side wall A, and the water outlet pipe is fixed between the pair of cross beams.
Furthermore, the joints of the main station side wall B and the water outlet pool side wall A with the water outlet pipe are provided with first square through holes with the outer diameter larger than that of the water outlet pipe, the joints of the water outlet pool side wall A and the water outlet U-shaped groove with the prefabricated culvert pipe are provided with second square through holes with the outer diameter larger than that of the prefabricated culvert pipe, and when the water outlet pipe is connected with the main station body section and the water outlet pool section, the first square through holes are sealed through second-stage concrete pouring; when the prefabricated culvert pipe is connected with the water outlet pool section and the water outlet U-shaped groove section, the second square through hole is sealed through second-stage concrete pouring.
Furthermore, a driving motor is further fixed on the main station top cover plate, and the output end of the driving motor is connected with the input end of the water pump.
Has the advantages that:
1. the utility model discloses set up the pump station into the assembled, divide into 4 parts of import U type groove section, main website body section, play pond section and play water linkage segment, pump station easy dismounting does not need on-the-spot integral casting like this, and the work load is little.
2. The utility model discloses also set 4 parts of pump station to the assembled, based on tenon fourth of the twelve earthly branches structural connection between each accessory of 4 parts, including fag end structure, dovetail structural connection, connect compactly, make the connection between the accessory become flexible connection by original rigid connection, can bear bigger load and warp.
3. The utility model discloses still set up the pore that runs through on connecting the face between each accessory, add waterproof material in the pore, can prevent the condition that the in-process disappearance infiltration that each part used after the assembly like this, play prevention of seepage effect.
4. The utility model discloses use U-shaped rubber waterstop and pour into pitch at the U-shaped inslot at the junction of two parts of import U type groove section, main website body section, can prevent to seep water between import U type groove section, the main website body section, but also can make between import U type groove section, the main website body section slightly warp a few millimeters by the up-and-down motion, and the flexibility degree is better, can bear bigger load and warp.
5. The utility model discloses use second stage concrete placement's aim at the junction between outlet pipe and main website body section, outlet pipe and play pond section, prefabricated culvert pipe and the U type groove section of play water: the water outlet pipe, the main station body section, the water outlet pool section and the water outlet U-shaped groove section are of rigid structures, the joints of the water outlet pipe, the main station body section and the water outlet pool section are difficult to guarantee sealing connection, and the prefabricated culvert pipe, the water outlet pool section and the water outlet U-shaped groove section are sealed and impermeable through secondary concrete pouring.
Drawings
FIG. 1 is a schematic diagram of the overall composition of the assembled pump station based on the tenon-and-mortise structure of the present invention;
FIG. 2 is a sectional view of the overall structure of the assembled pump station based on the tenon-and-mortise structure of the utility model;
FIG. 3 is a schematic view of the U-shaped groove section of the utility model;
FIG. 4 is a schematic diagram of the main station body segment of the present invention;
FIG. 5 is a schematic view of the water outlet tank of the present invention;
fig. 6 is the utility model discloses go out water linkage segment split sketch map.
Wherein, 1-inlet U-shaped groove section, 101-inlet U-shaped groove bottom plate, 102-inlet U-shaped groove left side wall, 103-inlet U-shaped groove right side wall, 104-inlet U-shaped groove support beam, 2-main station body section, 201-main station bottom plate, 202-main station side wall A, 203-main station side wall B, 204-main station top cover plate, 205-water pump, 206-water outlet pipe, 207-cross beam, 208-driving motor, 209-first square through hole, 3-water outlet pool section, 301-water outlet pool bottom plate, 302-water outlet pool side wall A, 303-water outlet pool side wall B, 304-second square through hole, 4-water outlet connecting section, 401-prefabricated culvert pipe, 402-water outlet U-shaped groove section, 5-second stage concrete, 6-pore channel, 7-trash rack, 8-strip-shaped groove and 9-U-shaped rubber waterstop.
Detailed Description
The present invention will be described in detail with reference to the accompanying drawings.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
The utility model discloses mainly be in order to solve pump station, sluice assembled component connection's problem in the hydraulic engineering field, disclose an assembled pump station based on tenon fourth of twelve earthly branches structure, connect based on tenon fourth of twelve earthly branches principle (rope sling structure, tenon fourth of twelve earthly branches structures such as dovetail structure) between each part to adopt the mode that the stagnant water pore irritated the bonding agent to carry out whole stagnant water prevention of seepage, be flexonics between each part, can bear bigger load and warp.
This pump station includes import U type groove section 1, main website body section 2, play pool section 3 and goes out water linkage segment 4, refers to figure 1, and import U type groove section 1 is connected with main website body section 2 one side, main website body section 2 is through a outlet pipe 206 and play pool section 3 intercommunication, and 3 outputs in play pool section are connected with play water linkage segment 4. The details of the components are as follows, and see fig. 2.
The inlet U-shaped groove section 1 comprises an inlet U-shaped groove bottom plate 101, an inlet U-shaped groove left wall 102, an inlet U-shaped groove right wall 103 and an inlet U-shaped groove supporting beam 104 which are arranged from bottom to top respectively, and the inlet U-shaped groove left wall 102 and the inlet U-shaped groove right wall 103 are symmetrically arranged on the inlet U-shaped groove bottom plate 101. Referring to the attached figure 2, the left and right side walls (102, 103) of the inlet U-shaped groove are in a right-angled triangle structure with the same structure, and one right-angled side is connected with the bottom plate 101 of the inlet U-shaped groove by adopting a rope sleeve structure. The other straight edge is aligned with one side of the inlet U-shaped groove bottom plate 101. An inlet U-shaped groove supporting beam 104 is positioned above the inlet U-shaped groove left wall 102 and the inlet U-shaped groove right wall 103, and two ends of the inlet U-shaped groove supporting beam 104 are connected with the inlet U-shaped groove left wall 102 and the inlet U-shaped groove right wall 103 through dovetail groove structures.
The main station body section 2 comprises a main station bottom plate 201, a main station side wall A202, at least one main station side wall B203 and a main station top cover plate 204, the main station side wall B203 can be overlapped according to the actual needs on site, the main station side walls are arranged from top to bottom, and when a plurality of main station side walls B203 are arranged, the main station side wall B203 at the bottom is connected with the main station side wall A202, the main station side wall B203 at the top is connected with the main station top cover plate 204, 2 or 3 main station side walls B203 can be arranged, in the embodiment, for convenience of description, only one main station side wall B203 is used, the main station bottom plate 201 and the main station side wall A202, the main station side wall A202 and the main station side wall B203, the connection surfaces of the main station. Referring to fig. 4, the master station side wall a202 and the master station side wall B203 are both U-shaped structures, referring to the exploded view in fig. 4, the master station side wall a202 is located below the master station side wall B203, the two are inserted in a dovetail groove structure, and the U-shaped opening end of the U-shaped side wall corresponds to the right-angle side of the direct triangle of the inlet U-shaped groove left side wall 102 and the inlet U-shaped groove right side wall 103 of the inlet U-shaped groove section 1. A trash rack 7 is inserted into the joint of the main station body section 2 and the inlet U-shaped groove section 1, referring to the attached drawing 2, and the trash rack 7 is inserted into the U-shaped opening end position of the main station body section 2.
The effluent pool section 3 includes an effluent pool bottom plate 301, at least one effluent pool side wall a302, and an effluent pool side wall B303, which are respectively arranged from bottom to top, in this embodiment, the effluent pool side wall a302 is the same as the master station side wall B203, the number is not limited, and the number is set according to actual needs on site, and for convenience of description in this embodiment, one effluent pool side wall a302 is used. The connection surfaces of the bottom plate 301 of the water outlet pool and the side wall A302 of the water outlet pool and the side wall B303 of the water outlet pool are all connected by a dovetail groove structure. The effluent pool section 3 is a square pool with an opening at the upper end, one side of the left side and the right side of the square pool is communicated through an effluent pipe 206, and the other side of the left side and the right side of the square pool is communicated through a prefabricated culvert pipe 401. Therefore, the outlet side wall a302 and the outlet side wall B303 are also square.
The water outlet connecting section 4 comprises a prefabricated culvert pipe 401 and a water outlet U-shaped groove section 402, one end of the prefabricated culvert pipe 401 is communicated with the output end of the water outlet pool section 3, and the other end of the prefabricated culvert pipe is communicated with the water outlet U-shaped groove section 402.
In order to realize the purpose of seepage prevention, the utility model is characterized in that 1) the bottom plate 101 of the inlet U-shaped groove is arranged between the left side wall and the right side wall (102, 103) of the inlet U-shaped groove; 2) between the master station bottom plate 201 and the master station side wall A202; 3) between the master station side wall a202 and the master station side wall B203; 4) between the master station side wall B203 and the master station top cover plate 204; 5) between the bottom plate 301 of the water outlet pool and the side wall A302 of the water outlet pool; 6) two connecting ends of a connecting surface between the side wall A302 of the water outlet pool and the side wall B303 of the water outlet pool are both inwards sunken to form a through hole channel 6, and waterproof materials are placed in the hole channel 6. Namely, each connecting end face at the connecting face connected by adopting a dovetail groove connection and a rope sleeve structure is inwards sunken to form a through hole channel 6.
The utility model discloses a play the purpose of prevention of seepage, the waterproof material of adding can be for the polyurethane adhesive that the card advances the rubber strip that link up in the pore 6 or the accessory is connected the back and is poured into from pore one side into when each accessory is installed. After in the pore 6 is assembled with the rubber strip card, for example adopt the fag end structural connection between U type grooved bottom board 101 and the import U type groove left side wall 102, form pore 6 at the connection terminal surface, fill in after assembling U type grooved bottom board 101 and import U type groove left side wall 102 behind the rubber strip, the infiltration condition can not appear. Or the bottom plate 101 of the U-shaped groove and the left wall 102 of the inlet U-shaped groove are connected by adopting a rope sleeve structure, then liquid polyurethane adhesive is filled from an inlet at one side of the hole 6, the polyurethane adhesive is slightly expanded after solidification, gaps between connecting surfaces can be blocked, and water seepage is avoided, as shown in figure 3, the black line part in figure 3 is the hole 6, and the polyurethane adhesive is injected into the hole 6 or is clamped into a rubber strip.
The junction between U type groove section 1 and main website body section 2 also needs to accomplish prevention of seepage water purpose, in order to realize both connections and prevention of seepage, the utility model provides a following technical scheme:
the side surfaces of the contact parts of the inlet U-shaped groove bottom plate 101, the inlet U-shaped groove left wall 102 and the inlet U-shaped groove right wall 103 and the main station body section 2 are all inwards recessed to form strip-shaped grooves 8, so that 3 strip-shaped grooves 8 are formed on the same section, each strip-shaped groove 8 on the inlet U-shaped groove bottom plate 101, the inlet U-shaped groove left wall 102 and the inlet U-shaped groove right wall 103 is combined to form a U-shaped groove, the side surfaces of the main station body section 2 corresponding to the U-shaped grooves are also inwards recessed to form a U-shaped groove, when the inlet U-shaped groove section 1 is connected with the main station body section 2, the U-shaped rubber water stop belts 9 are placed in the U-shaped grooves symmetrically arranged on the inlet U-shaped groove section 1 and the main station body section 2, and when the inlet U-shaped groove section 1 is connected with the main station body section 2, asphalt is poured into the U-shaped grooves to connect the U-shaped grooves together, and the, the U-shaped groove section 1 and the main station body section 2 can move up and down slightly and deform a few millimeters slightly, so that the connection between the accessories is changed from original rigid connection into flexible connection, and larger load and deformation can be borne.
A water pump 205 is fixed on the main station bottom plate 201 of the main station body section 2, the water pump 205 is connected with a water outlet pipe 206, the water outlet pipe 206 penetrates through a main station side wall B203 of the main station body section 2 and is communicated with a water outlet tank side wall A302 of the water outlet tank section 3, and the output end of the water outlet tank section 3 is communicated with a water outlet U-shaped groove section 402 through a prefabricated culvert pipe 401. Referring to fig. 2, a pair of beams 207 is provided on the main station side wall a202, and the water outlet pipe 206 is fixed between the pair of beams 207. The main station top cover plate 204 is also fixed with a driving motor 208, and the output end of the driving motor 208 is connected with the input end of the water pump 205 and used for controlling the opening and closing of the water pump 205.
The utility model discloses what main website body section 2 used in above-mentioned embodiment is main website bottom plate 201, a main website side wall A202, a main website side wall B203 and main website lamina tecti 204, but can increase main website side wall A202 or main website side wall B203's number according to actual need, main website body section 2's height just can adjust strong adaptability according to actual need like this. For example, one master station side wall a202 and 2 master station side walls B203 may be used, one master station side wall B203 is connected to the upper side of the master station side wall a202 through a dovetail groove structure, and the other master station side wall B203 is connected to the upper side of the master station side wall B203 through a dovetail groove structure. The height of the main station body section 2 is increased.
Because the water outlet pipe 206 needs to pass through the side walls of the main station body section 2 and the water outlet tank section 3, the prefabricated culvert pipe 401 needs to pass through the side walls of the water outlet tank section and the water outlet U-shaped groove section, but it is determined that the water penetration does not occur at the passing position, the water outlet pipe 206, the main station body section 2, the water outlet pool section 3 and the water outlet U-shaped groove section 402 are all rigid structures, the sealing connection is difficult to ensure at the joint, if the water pipe is simply passed through the side wall, the water seepage situation can occur, the utility model is provided with a first square through hole 209 with the outer diameter larger than that of the water outlet pipe 206 at the connection part of the main station side wall B202 and the water outlet pool side wall A302 with the water outlet pipe 206, and a second square through hole 304 with the outer diameter larger than that of the prefabricated culvert pipe 401 at the connection part of the water outlet pool side wall A302 and the water outlet U-shaped groove 402 with the prefabricated culvert pipe 401, when the water outlet pipe 206 is connected with the main station body section 2 and the water outlet pool section 3, the first square through hole 209 is cast and sealed by the second-stage concrete 5. When the prefabricated culvert pipe 401 is connected with the effluent pool section 3 and the effluent U-shaped groove section 402, the second square through hole 304 is also sealed by pouring the second-stage concrete 5.
The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (9)

1. An assembled pump station based on a mortise and tenon structure is characterized by comprising an inlet U-shaped groove section (1), a main station body section (2), a water outlet pool section (3) and a water outlet connecting section (4), wherein the inlet U-shaped groove section (1) is connected with one side of the main station body section (2), the main station body section (2) is communicated with the water outlet pool section (3) through a water outlet pipe (206), and the output end of the water outlet pool section (3) is connected with the water outlet connecting section (4);
the inlet U-shaped groove section (1) comprises an inlet U-shaped groove bottom plate (101), inlet U-shaped groove left and right side walls (102 and 103) and an inlet U-shaped groove supporting beam (104), and connecting ends of the inlet U-shaped groove bottom plate (101) and the inlet U-shaped groove left side wall (102) and the inlet U-shaped groove bottom plate (101) and the inlet U-shaped groove right side wall (103) are connected by adopting a rope sleeve structure; the connecting ends of the inlet U-shaped groove supporting beam (104) and the inlet U-shaped groove left side wall (102) and the inlet U-shaped groove supporting beam (104) and the inlet U-shaped groove right side wall (103) are connected by a dovetail groove structure;
the main station body section (2) comprises a main station bottom plate (201), a main station side wall A (202), at least one main station side wall B (203) and a main station top cover plate (204), wherein the main station bottom plate (201) and the main station side wall A (202), the main station side wall A (202) and the main station side wall B (203) are arranged from bottom to top, and connecting surfaces between the main station side wall B (203) and the main station top cover plate (204) are connected in a dovetail groove structure;
the water outlet pool section (3) comprises a water outlet pool bottom plate (301), at least one water outlet pool side wall A (302) and a water outlet pool side wall B (303) which are arranged from bottom to top respectively, the water outlet pool bottom plate (301) and the water outlet pool side wall A (302) are arranged, and connecting surfaces between the water outlet pool side wall A (302) and the water outlet pool side wall B (303) are connected by adopting a dovetail groove structure;
the water outlet connecting section (4) comprises a prefabricated culvert pipe (401) and a water outlet U-shaped groove section (402), one end of the prefabricated culvert pipe (401) is communicated with the output end of the water outlet pool section (3), and the other end of the prefabricated culvert pipe is communicated with the water outlet U-shaped groove section (402).
2. The assembled pump station based on the mortise and tenon joint structure according to claim 1, wherein the inlet U-shaped groove bottom plate (101) and the left and right side walls (102, 103) of the inlet U-shaped groove, the main station bottom plate (201) and the main station side wall A (202), the main station side wall A (202) and the main station side wall B (203), the main station side wall B (203) and the main station top cover plate (204), two connecting ends of the connecting surfaces of the outlet pool bottom plate (301) and the outlet pool side wall A (302) and the outlet pool side wall B (303) are all inwards recessed to form a through hole channel (6), and waterproof materials are placed in the hole channel (6).
3. The assembled pump station based on the mortise and tenon joint structure according to claim 2, wherein the waterproof material is a rubber strip clamped in the hole (6) when each accessory is installed or a polyurethane adhesive injected from one side of the hole (6) after the accessories are connected.
4. The assembled pump station based on the mortise and tenon joint structure according to claim 1, wherein the left and right side walls (102, 103) of the inlet U-shaped groove are of a right-angled triangle structure with the same structure, the main station side wall A (202) and the main station side wall B (203) are of a U-shaped structure, the U-shaped opening end of the U-shaped structure corresponds to the right-angled side of the left and right side walls (102, 103) of the inlet U-shaped groove, and the other right-angled side of the left and right side walls (102, 103) of the inlet U-shaped groove of the right-angled triangle is connected with the bottom plate (101) of the inlet U-shaped groove by a rope sleeve.
5. The assembled pump station based on mortise and tenon joint structure of claim 4, characterized in that, the contact department of import U type groove bottom plate (101), import U type groove left side wall (102), import U type groove right side wall (103) and main website body section (2) all inwards caves in and forms bar groove (8), form the U-shaped groove after bar groove (8) on import U type groove bottom plate (101), import U type groove left side wall (102), import U type groove right side wall (103) are connected and are assembled, main website body section (2) also inwards caves in with the side of the U-shaped groove corresponding position on import U type groove section (1) forms the U-shaped groove, import U type groove section (1) with when main website body section (2) is connected, U-shaped rubber waterstop (9) are placed to the U-shaped inslot that the symmetry set up, and to the U-shaped inslot pouring pitch.
6. The assembled pump station based on the mortise and tenon joint structure according to claim 1, wherein a water pump (205) is arranged on a main station bottom plate (201) of the main station body section (2), the water pump (205) is connected with a water outlet pipe (206), the water outlet pipe (206) penetrates through a main station side wall B (203) of the main station body section (2) and is communicated with a water outlet pool side wall A (302) of the water outlet pool section (3), and an output end of the water outlet pool section (3) is communicated with the water outlet U-shaped groove section (402) through a prefabricated culvert pipe (401).
7. The assembled pump station based on the mortise and tenon joint structure according to claim 6, wherein a pair of cross beams (207) is arranged on the main station side wall A (202), and the water outlet pipe (206) is fixed on the pair of cross beams (207).
8. The assembled pump station based on the mortise and tenon joint structure according to claim 6, wherein a first square through hole (209) with the outer diameter larger than that of the water outlet pipe is formed in the joints of the main station side wall B (203) and the water outlet pool side wall A (302) and the water outlet pipe (206), a second square through hole (304) with the outer diameter larger than that of the prefabricated culvert pipe (401) is formed in the joints of the water outlet pool side wall A (302) and the water outlet U-shaped groove section (402) and the prefabricated culvert pipe (401), and when the water outlet pipe (206) is connected with the main station body section (2) and the water outlet pool section (3), the first square through hole (209) is cast and sealed through second-stage concrete (5); when the prefabricated culvert pipe (401) is connected with the water outlet pool section (3) and the water outlet U-shaped groove section (402), the second square through hole (304) is also sealed by pouring second-stage concrete (5).
9. The assembled pump station based on the mortise and tenon joint structure according to claim 6, wherein a driving motor (208) is further fixed on the main station top cover plate (204), and an output end of the driving motor (208) is connected with an input end of the water pump (205).
CN202020616843.5U 2020-04-22 2020-04-22 Assembled pump station based on tenon fourth of twelve earthly branches structure Active CN212336163U (en)

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Application Number Priority Date Filing Date Title
CN202020616843.5U CN212336163U (en) 2020-04-22 2020-04-22 Assembled pump station based on tenon fourth of twelve earthly branches structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020616843.5U CN212336163U (en) 2020-04-22 2020-04-22 Assembled pump station based on tenon fourth of twelve earthly branches structure

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Publication Number Publication Date
CN212336163U true CN212336163U (en) 2021-01-12

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Country Link
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