CN217758603U - Assembled sluice - Google Patents

Abstract

The utility model relates to the field of hydraulic engineering, and discloses an assembled sluice, which comprises a sluice body section consisting of a plurality of components and upstream and downstream connecting sections connected to two ends of the sluice body section, wherein the sluice body section comprises a sluice head section, a hole body section and a bent fixed above the sluice head section, the bent is fixed in an opening and closing machine room through a plurality of connecting components, the hole body section comprises a plurality of prefabricated hole body sectional blocks, and the sluice head section and the hole body sectional blocks are spliced and connected through mortise and tenon joints; the upstream and downstream connecting sections comprise a connecting bottom plate and a pair of triangular plates, and the pair of triangular plates are assembled and connected to two sides of the connecting bottom plate through a plurality of connecting components; the pair of the set squares is spliced and spliced with the gate head section, the bent frames and the tunnel body segment block far away from the farthest position of the gate head section through the splicing ports. Compared with the prior art, the utility model discloses constitute by prefabricated assembly module, only need carry out assembly work at the job site, need not the secondary and pour alright completion and build.

Description

Assembled sluice

Technical Field

The utility model relates to a hydraulic engineering technical field, in particular to assembled sluice.

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. A large number of water gates are needed to adjust the direction of water flow and the water quantity in an irrigation area, the current water gate is usually built in a concrete cast-in-place mode, the construction process is long, the related construction process is complicated, a large number of construction equipment is needed, a large number of operators are involved in construction, and the produced work and material waste is also large. Therefore, the construction mode is long in construction time, low in efficiency and high in cost.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: to the problem that exists among the prior art, the utility model provides an assembled sluice comprises prefabricated assembly module, only needs to carry out assembly work at the job site, need not the secondary and pour alright completion and build.

The technical scheme is as follows: the utility model provides an assembled sluice, including a sluice body section and upstream and downstream connecting sections connected at two ends of the sluice body section, wherein the sluice body section comprises a sluice head section, a hole body section and a bent frame fixed above the sluice head section, and an opening and closing machine room is fixed on the bent frame through a plurality of connecting components;

the tunnel body section comprises a plurality of prefabricated tunnel body sectional blocks, and the plurality of tunnel body sectional blocks, the gate head section and the tunnel body sectional blocks are spliced and connected through mortise and tenon interfaces;

the upstream and downstream connecting sections comprise a connecting bottom plate and a pair of triangular plates, and the pair of triangular plates are assembled and connected to two sides of the connecting bottom plate through a plurality of connecting components;

and the triangular plates, the gate head section, the bent frames and the tunnel body segment block which is far away from the farthest position of the gate head section are spliced and spliced through the splicing ports.

Furthermore, the tunnel body segment blocks are all of a square annular structure, one side of the gate head section, which is close to the tunnel body segment blocks, is inwards sunken to form a groove of a step structure, one side of the tunnel body segment block, which is far away from the farthest position of the gate head section, is outwards protruded to form a square step structure, and the other side of the gate head section is spliced and spliced with a pair of the triangular plates through the splicing ports; and one side of the rest of the hole body segment blocks protrudes outwards to form a square step structure, the other side of the hole body segment blocks is sunken inwards to form a groove of the step structure, and the groove of the step structure is matched with the square step structure.

Further, the side of the tunnel body segment block which is far away from the gate head section and is close to the triangular plate extends upwards for a distance which is matched with the height of the triangular plate.

Furthermore, when the plurality of the hole body section blocks and the gate head section and the hole body section blocks are spliced and connected, waterproof structures are arranged at the upper end and the lower end of a splicing seam between the square step structure and the groove of the step structure.

Furthermore, the waterproof structure comprises a rubber strip, a polyethylene foaming joint filling plate and a bi-component polysulfide sealant which are sequentially arranged from inside to outside.

Furtherly, the floodgate head section with it is fixed to utilize buried bolt and steel member in advance between the framed bent.

Further, the structure of the interface is: the corresponding ends of the triangular plate, the gate head section, the bent frame and the tunnel body section block at the farthest position away from the gate head section are provided with trapezoidal notches; when the triangular plate is spliced with the gate head section and the bent frame, the trapezoidal notches of the triangular plate are matched with the trapezoidal notches of the gate head section and the bent frame in position, and splicing blocks matched with the two trapezoidal notches are inserted into every two trapezoidal notches; when the set-square is pegged graft with the hole body segmentation piece of keeping away from the farthest of floodgate head section, the trapezoidal notch of set-square matches with the trapezoidal notch position of the hole body segmentation piece of keeping away from the farthest of floodgate head section, and inserts in two liang of trapezoidal notches and matches the piece of pegging graft with two trapezoidal notches.

Further, the headstock gear room includes four sides side wall and roof structure, the four sides side wall with between the framed bent, the roof structure with all through a plurality of coupling assembling erection joint between the side wall, it is a plurality of coupling assembling all includes that the L type buries piece, L type embedded screw rod and nut, it is a plurality of the L type buries the piece and fixes through buried bolt and relative wherein two sides side wall outside end, roof structure medial surface respectively, it is a plurality of L type embedded screw rod set up in framed bent top, other two sides side wall outside end four sides side wall upper end just the L type buries the piece with the L type embedded screw rod corresponds the position and sets up the through-hole, L type embedded screw rod inserts in the through-hole and pass through the nut is fixed.

Further, the connection bottom plate includes a plurality of, the set-square is respectively through coupling assembling erection joint in a plurality of connection bottom plates that set up side by side.

Further, it is a plurality of coupling assembling all includes that the L type buries piece, the pre-buried screw rod of L type and nut, the set-square lower extreme sets up the flange, the connecting plate with the flange correspond the position set up with the notch that the flange matches, it is a plurality of the L type bury the piece respectively through pre-buried bolt with the set-square bottom outside is fixed, it is a plurality of the pre-buried screw rod of L type set up in the connecting plate outside end just the L type bury the piece with the pre-buried screw rod of L type corresponds the position and sets up the through-hole, the pre-buried screw rod of L type inserts in the through-hole and pass through the nut is fixed.

Has the beneficial effects that:

1. the utility model discloses a prefabricate each component, transport it again to the scene and assemble, can accomplish the construction of small-size floodgate. The construction period is shortened, and the efficiency is improved; the material waste and the equipment waste during the respective construction of the small water gate are reduced, and the engineering cost is reduced; all parts are produced in a centralized way, so that the quality is easier to control and the engineering quality is ensured. With building structure's mortise and tenon interface application to the hydraulic engineering field, when the erection joint, its connection structure is stable, and the length can be selected according to actual need to the hole section, and the practicality is strong.

2. The utility model discloses utilize waterproof construction when the body section in the hole is connected, waterproof construction is that both ends all set up about the concatenation seam, and water-proof effects is better like this, and it is waterproof to compare in traditional rubber strip, the utility model discloses it is waterproof to carry out the secondary at utilizing polyethylene foaming joint sealing board, bi-component polysulfide sealant on this technique, and water-proof effects is better.

3. The utility model discloses being close to in the hole body segmentation piece of the farthest department of keeping away from the floodgate first section one side of set-square upwards extends one section distance, when being connected with the upper and lower stream linkage segment, can with the assembly that the set-square matches more, when carrying out interface grafting, the grafting piece is convenient more and is inserted in the dovetail groove.

4. The utility model discloses utilize the grafting piece to insert a pair of dovetail groove in, to being connected between two components more stable like this, be difficult for droing, peg graft the tenon fourth of the twelve earthly branches in the building structure, use the water conservancy completely on, be favorable to on-the-spot assembly structure's stability.

5. The utility model discloses to being connected between the upper and lower stream linkage segment, headstock and the framed bent, utilize coupling assembling to connect, coupling assembling buries piece and the pre-buried screw rod of L type for pre-buried L type in the component, and after the main needs butt joint inserts the through-hole between the two, it is fixed to utilize the nut, and the assembly quality is simple, connects stably.

6. The utility model discloses to connect the bottom plate and set the polylith into, be convenient for transportation and field installation.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the split structure of the present invention;

fig. 3 is a schematic structural view of the connection assembly of the present invention;

FIG. 4 is an enlarged schematic view of the present invention between the tunnel sections;

FIG. 5 is a schematic view of the waterproof structure between the tunnel sections and between the tunnel section and the brake head section of the present invention;

FIG. 6 is a schematic view of the connection between the gate head section and the bent frame of the present invention;

FIG. 7 is a schematic view of the connection between the bent frame and the hoist room of the present invention;

fig. 8 is a schematic diagram of the structure of the plug block of the present invention.

The structure comprises 1-upstream and downstream connecting sections, 101-triangular plates, 102-connecting bottom plates, 103-convex plates, 104-notches, 2-gate body sections, 201-gate head sections, 202-hole body sections, 203-hole body section blocks, 204-cube step structures, 205-grooves, 206-rubber strips, 207-polyethylene foam caulking plates, 208-two-component polysulfide sealant, 3-bent frames, 4-opening and closing machine rooms, 401-side walls, 402-roof structures, 5-connecting assemblies, 501-L embedded parts, 502-L embedded screws, 503-nuts, 504-through holes, 6-inserting ports, 601-trapezoidal notches, 602-inserting blocks, 7-steel members and 8-embedded bolts.

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.

Referring to fig. 1 to 8, the utility model discloses an assembled sluice, including sluice body section 2 and the upper and lower trip linkage segment 1 of connection at sluice body section 2 both ends, sluice body section 2 includes sluice head section 201, hole body section 202 and is fixed in the framed bent 3 of sluice head section 201 top, is fixed with through a plurality of coupling assembling on framed bent 3 and opens and close computer lab 4.

The tunnel body section 202 comprises a plurality of prefabricated tunnel body section blocks 203, and the plurality of tunnel body section blocks 203 are connected with one another through mortise and tenon joints, and the gate head section 201 is connected with the tunnel body section blocks 203 through mortise and tenon joints.

The upstream and downstream connecting section 1 comprises a connecting bottom plate 102 and a pair of triangular plates 101, and the pair of triangular plates 101 are assembled and connected to two sides of the connecting bottom plate 102 through a plurality of connecting components.

The pair of the triangular plates 101 are spliced and spliced with the gate head section 201 and the bent frames 3 and the tunnel body segment block 203 which is far away from the farthest position of the gate head section 201 through the splicing ports.

For the way of the tenon-and-mortise joint splicing connection, referring to fig. 4 and 5, the hole body segment blocks 203 are all of a square ring structure, one side of the gate head section 201 close to the hole body segment blocks 203 is recessed inwards to form a groove 205 of a step structure, one side of the hole body segment block 203 far away from the farthest position of the gate head section 201 is protruded outwards to form a square step structure 204, and the other side of the gate head section 201 and a pair of triangular plates are spliced and spliced through the splicing ports; one side of the rest of the cavity body segment blocks 203 protrudes outwards to form a square step structure 204, the other side of the rest of the cavity body segment blocks is sunken inwards to form a groove 205 of the step structure, and the groove 205 of the step structure is matched with the square step structure 204. When the tunnel section 202 is assembled, the adjacent tunnel segment 203 is spliced with the square step structure 204 through the groove 205 of the step structure, and the gate head section 201 and the tunnel segment 203 close to the gate head section 201 are spliced with the square step structure 204 through the groove 205 of the step structure.

The side of the body segment 203 furthest from the gate head section 201 adjacent the triangle 101 extends upwardly a distance that matches the height of the triangle 101.

In addition, when the plurality of the hole body section blocks 203 and the brake head section 201 are connected with the hole body section blocks 203 in an assembling mode, the upper end and the lower end of a splicing seam between the square step structure 204 and the groove 205 of the step structure are provided with waterproof structures. In the present embodiment, the waterproof structure includes a rubber strip 206, a polyethylene foam caulking plate 207, and a two-component polysulfide sealant 208, which are sequentially disposed from inside to outside. When the hole body section 202 is assembled, the waterproof structure is embedded into the splicing seam position along the periphery of the square annular structure, the adjacent hole body segment blocks 203 are spliced with the square stepped structure 204 through the groove 205 of the stepped structure, the gate head section 201 and the hole body segment blocks 203 close to the gate head section 201 are also spliced together with the waterproof structure along the periphery of the square annular structure along the splicing seam position, and the groove 205 of the stepped structure is spliced with the square stepped structure 204.

Utilize buried bolt 8 and steel member 7 fixed between first section 201 of floodgate and the framed bent 3, see fig. 6, set up the through-hole of 2 lines of 3 rows on the steel member 7, correspond with buried bolt 8 positions in advance, go the back on the steel member 7 card, the nut is twisted on to buried bolt 8 in advance, first section 201 of floodgate just can be fixed with framed bent 3 like this.

The structure of the plug interfaces between the triangle 101 and the gate head section 201, the bent frame 3 and the hole body segment block 203 farthest away from the gate head section 201 is as follows: the corresponding ends of the triangular plate 101, the brake head section 201, the bent 3 and the hole body section block 203 which is far away from the brake head section 201 are provided with trapezoidal notches 601, and the width of the outer side end of each trapezoidal notch 601 is smaller than that of the inner side end. When the set square 101 is spliced with the gate head section 201 and the bent 3, the trapezoidal notch 601 of the set square 101 is matched with the positions of the trapezoidal notches 601 of the gate head section 201 and the bent 3, and the inserting block 602 matched with the two trapezoidal notches 601 is inserted into every two trapezoidal notches 601. When the triangular plate 101 is inserted into the hole body segment 203 far away from the farthest position of the gate head section 201, the trapezoidal notch 601 of the triangular plate 101 is matched with the trapezoidal notch 601 of the hole body segment 203 far away from the farthest position of the gate head section 201 in position, and the insertion blocks 602 matched with the two trapezoidal notches 601 are inserted into every two trapezoidal notches 601. This allows the connection of the upstream and downstream connecting sections 1 and the gate shaft section 2.

Referring to fig. 7, the utility model discloses hoist engine room 4 includes four sides side wall 401 and roof structure 402, also all through a plurality of coupling assembling connections between four sides side wall 401 and framed bent 3, between roof structure 402 and the side wall 401. The connecting bottom plate 102 comprises a plurality of blocks, the triangular plates 101 are also respectively assembled and connected on the connecting bottom plates 102 arranged side by side through connecting components, and referring to fig. 2, the connecting bottom plate 2 is split into 2 blocks.

The connecting components comprise L-shaped embedded parts 501, L-shaped embedded screws 502 and nuts 503, when the connecting components are used for assembling the hoist room 4, the L-shaped embedded parts 501 are fixed with the outer side ends of the two opposite side walls 401 and the inner side surface of the roof structure 402 through embedded bolts, the L-shaped embedded screws 502 are arranged at the top end of the bent frame 3, the outer side ends of the other two side walls 401 and the upper ends of the four side walls 401, through holes 504 are formed in the positions, corresponding to the L-shaped embedded parts 501 and the L-shaped embedded screws 502, of the L-shaped embedded screws 502, the L-shaped embedded screws 502 are inserted into the through holes 504 and are fixed through the nuts 503.

In the process of assembling the upstream and downstream connecting sections 1 by using the connecting assembly, the lower end of the triangular plate 101 is provided with the convex plate 103, the corresponding positions of the connecting bottom plate 102 and the convex plate 103 are provided with the notches 104 matched with the convex plate 103, the L-shaped embedded pieces 501 are fixed with the outer side of the bottom end of the triangular plate 101 through embedded bolts respectively, the L-shaped embedded screws 502 are arranged at the outer side end of the connecting bottom plate 102, the positions of the L-shaped embedded pieces 501 corresponding to the L-shaped embedded screws 502 are provided with through holes 504, and the L-shaped embedded screws 502 are inserted into the through holes 504 and fixed through nuts 503.

The assembling process comprises the following steps:

each component is prefabricated from a factory, a plurality of sections of the hole body section blocks 203, the gate head section 201 and a section of the hole body section block 203 extending upwards for a distance are selected, the structure of the upstream and downstream connecting section 1, the bent frames 3 and the opening and closing machine room 4 are selected and transported to a construction site, the gate head section 201 and the hole body section blocks 203 are assembled at first, the waterproof structure is installed according to the waterproof structure installation method during assembly, after the assembly, the upstream and downstream connecting section 1 is assembled by the aid of the connecting assembly, the upstream and downstream connecting section 1 is inserted into two sides of the gate body section 2 by the aid of the inserting block 602, the bent frames 3 are installed above the gate head section 201 after the assembly is completed, and then the whole opening and closing machine room 4 and the bent frames 3 below are fixedly installed by the aid of the connecting assembly.

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 (10)

1. An assembled water gate is characterized by comprising a gate body section (2) and upstream and downstream connecting sections (1) connected to two ends of the gate body section (2), wherein the gate body section (2) comprises a gate head section (201), a hole body section (202) and a bent frame (3) fixed above the gate head section (201), and an opening and closing machine room (4) is fixed on the bent frame (3) through a plurality of connecting components;

the tunnel body section (202) comprises a plurality of prefabricated tunnel body sectional blocks (203), and the plurality of tunnel body sectional blocks (203) and the gate head section (201) are connected with the tunnel body sectional blocks (203) in an assembling mode through mortise and tenon joints;

the upstream and downstream connecting section (1) comprises a connecting bottom plate (102) and a pair of triangular plates (101), and the pair of triangular plates (101) are assembled and connected to two sides of the connecting bottom plate (102) through a plurality of connecting components;

the triangular plates (101) are spliced and spliced with the gate head section (201) and the bent frames (3) and the tunnel body segment block (203) which is far away from the farthest position of the gate head section (201) through the splicing ports.

2. The assembled sluice of claim 1, wherein the mortise and tenon joint is specifically: the hole body section blocks (203) are all of a square annular structure, one side, close to the hole body section blocks (203), of the gate head section (201) is inwards recessed to form a groove (205) of a step structure, one side, far away from the farthest position of the gate head section (201), of the hole body section blocks (203) is outwards protruded to form a square step structure (204), and the other side of the hole body section blocks is spliced and spliced with a pair of triangular plates (101) through a splicing opening; one side of the rest of the cavity body sectional blocks (203) protrudes outwards to form a square step structure (204), the other side of the cavity body sectional blocks is sunken inwards to form a groove (205) of the step structure, and the groove (205) of the step structure is matched with the square step structure (204).

3. Assembled floodgate according to claim 2, characterized in that the side of the tunnel body segment (203) that is the furthest away from the floodgate head section (201) that is close to the set square (101) extends a distance upwards and it matches the height of the set square (101).

4. The fabricated water gate as claimed in claim 2, wherein, when the plurality of hole body segments (203) and the gate head section (201) are connected with the hole body segments (203) in an assembling manner, waterproof structures are arranged at the upper end and the lower end of a splicing seam between the square step structure (204) and the groove (205) of the step structure.

5. The fitted sluice according to claim 4, wherein said waterproof structure is a rubber strip (206), a polyethylene foam caulking plate (207), and a two-component polysulfide sealant (208) arranged in sequence from inside to outside.

6. The fabricated water gate according to claim 1, characterized in that the gate head section (201) and the bent frame (3) are fixed by embedded bolts (8) and steel members (7).

7. The fabricated floodgate of claim 1, wherein the socket is configured to: the corresponding ends of the triangular plate (101), the brake head section (201), the bent frame (3) and the hole body section block (203) far away from the brake head section (201) are provided with trapezoidal notches (601); when the triangular plate (101) is spliced with the brake head section (201) and the bent frame (3), the trapezoidal notches (601) of the triangular plate (101) are matched with the positions of the trapezoidal notches (601) of the brake head section (201) and the bent frame (3), and splicing blocks (602) matched with the trapezoidal notches (601) are inserted into every two trapezoidal notches (601); when the triangular plate (101) is spliced with the hole body section block (203) far away from the farthest of the gate head section (201), the trapezoidal notch (601) of the triangular plate (101) is matched with the trapezoidal notch (601) of the hole body section block (203) far away from the farthest of the gate head section (201) in position, and the inserting block (602) is inserted into every two trapezoidal notches (601) and matched with every two trapezoidal notches (601).

8. The assembled sluice of claim 1, wherein the open/close machine room (4) comprises four side walls (401) and a roof structure (402), the four side walls (401) and between the bent frames (3), the roof structure (402) and all through a plurality of connecting components assembled connection between the side walls (401), a plurality of the connecting components include that the L-type embedded parts (501), L-type embedded screws (502) and nuts (503) are included, a plurality of the L-type embedded parts (501) are fixed with the relative outer ends of the two side walls (401) and the inner side of the roof structure (402) through embedded bolts respectively, a plurality of the L-type embedded screws (502) are arranged at the top end of the bent frame (3), the outer ends of the other two side walls (401) and the upper ends of the four side walls (401) and the L-type embedded parts (501) and the through holes (504) are arranged at the corresponding positions of the L-type embedded screws (502), and the L-type embedded screws (502) are inserted into the through holes (504) and pass through the nuts (503) are fixed.

9. The fabricated floodgate of claim 1, wherein the connection base plate (102) comprises a plurality of blocks, and the set square (101) is assembled and connected to the plurality of connection base plates (102) arranged side by side through connection components, respectively.

10. The assembled sluice according to claim 1 or 9, wherein the plurality of connecting members comprise L-shaped embedded parts (501), L-shaped embedded screws (502) and nuts (503), the lower end of the triangular plate (101) is provided with a convex plate (103), the connecting bottom plate (102) and the convex plate (103) are provided with notches (104) matched with the convex plate (103) at corresponding positions, the L-shaped embedded parts (501) are fixed at the outer side of the bottom end of the triangular plate (101) through embedded bolts, the L-shaped embedded screws (502) are arranged at the outer end of the connecting bottom plate (102) and the L-shaped embedded parts (501) are provided with through holes (504) at corresponding positions, and the L-shaped embedded screws (502) are inserted into the through holes (504) and fixed through the nuts (503).

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