CN212249347U - Pump house - Google Patents

Abstract

The utility model discloses a pump house, which comprises a base and a corner module, wherein the corner module is arranged at the base; the first mounting frame module and the second mounting frame module are both vertical to the base and are arranged along the circumferential direction of the base, and first inserting structures are arranged on the first mounting frame module and the corner module; second plug-in structures are arranged on the first installation frame module and the second installation frame module and on the adjacent second installation module; one side of each first installation frame module is spliced with the corner module through a first splicing structure, the other side of each first installation frame module is spliced with the corresponding second installation frame module through a second splicing structure, and the adjacent second installation frame modules are connected through second splicing structures; the rotating device is rotatably arranged on the base and fixedly connected with the mounting frame modules, and each mounting frame module is fixedly connected with at least one rotating device. Through the utility model provides a current pump house installation dismantle loaded down with trivial details inconvenience, the problem that the installation effectiveness is low.

Description

Pump house

Technical Field

The utility model relates to an intelligent house technical field is used to the water pump, especially relates to an improvement of pump house structure.

Background

Current water pump room structure, including pump room frame and a plurality of luffer boards and the door plant of setting on the pump room frame, the pump room frame is connected gradually by many roof beams and longeron and constitutes, the connection between a plurality of roof beams is fixed mainly to be realized through beating the screw, because the pump room is high, when the crossbeam of pump room top position department is connected fixedly to needs, then need staff's high altitude construction to beat the screw and realize, not only fix a position fixed difficult but also because crossbeam and longeron all adopt the fix with screw, it is loaded down with trivial details to use the many and fixed processes of screw quantity, consuming time power and installation effectiveness are low, when needs are dismantled, then need twist every screw down, it is loaded down with trivial details inconvenient to dismantle.

SUMMERY OF THE UTILITY MODEL

Need beat the fix with screw and lead to the problem that loaded down with trivial details inconvenience, installation effectiveness are low of installation dismantlement for solving among the prior art pump house installation, the utility model provides a pump house structure can realize modular installation and dismantlement, has improved the installation effectiveness, just the utility model provides a pump house structure can rotate the installation for technical staff need not high altitude construction, has eliminated the potential safety hazard.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a pump house comprising: base, frame module, the frame module including:

the corner module is fixedly arranged at the corner position of the base;

an installation frame module including a plurality of first installation frame modules and a plurality of second installation frame modules;

the first installation frame module and the second installation frame module are both vertical to the base and are arranged along the circumferential direction of the base, the first installation frame module is arranged at a position close to the corner module,

the first installation frame module and the corner module are provided with first inserting structures which can be matched with each other;

second inserting structures which can be inserted and matched with each other are arranged on the first installation frame module and the second installation frame module and on the adjacent second installation modules;

one side of each first installation frame module is spliced with the corner module through a first splicing structure, the other side of each first installation frame module is spliced with the corresponding second installation frame module through a second splicing structure, and the adjacent second installation frame modules are connected through second splicing structures;

the rotating devices are rotatably arranged on the base and are arranged along the circumferential direction of the base, and each first mounting frame module and each second mounting frame module are fixedly connected with at least 1 rotating device;

when the first installation frame rotates to a vertical position vertical to the base from a water surface position, the first installation frame module can be respectively inserted into the corner module and the adjacent installation frame module through the first insertion structure and the second insertion structure; when the second installation frame module rotates to the vertical position perpendicular to the base from the water surface position, the second installation frame module can be plugged with the first installation frame module and the adjacent second installation frame module through the second plugging structure or 2 adjacent second installation frame modules.

Furthermore, the device also comprises a top frame, and comprises a first top frame beam, a second top frame beam, a third top frame beam and a fourth top frame beam which are sequentially butted, wherein the first top frame beam, the second top frame beam, the third top frame beam and the fourth top frame beam are respectively arranged around the base and correspond to the base and are opposite to the base in position, the mounting frame module is clamped, and an annular water receiving groove which is arranged along the circumferential direction of the top frame is clamped on the top frame.

Furthermore, the first mounting frame module comprises a first longitudinal beam, a second longitudinal beam, frame beams and a cross beam, wherein the first longitudinal beam and the second longitudinal beam are arranged in parallel, 2 frame beams are arranged and are respectively connected to the end parts of the two ends of the first longitudinal beam and the end parts of the two ends of the second longitudinal beam, and the cross beam is connected between the first longitudinal beam and the second longitudinal beam and is arranged in parallel to the frame beams; the second installation frame module comprises: the frame beam is provided with a plurality of beams, and the beams are connected between the second longitudinal beam and the third longitudinal beam and arranged in parallel to the frame beam.

Furthermore, still including the supporting beam module, the supporting beam module sets up at the top of frame module, and it is including first supporting beam and perpendicular first supporting beam setting and rather than the second supporting beam who is connected, and first supporting beam and second supporting beam tip all are fixed through three kaysers and rather than the relative installation frame module locking in position.

Furthermore, the corner module comprises a corner body and a connector connected with the corner body, the connector and the corner body are fixedly connected through a heat insulation strip, the corner body comprises a first corner surface, a first groove is formed in the first corner surface, a second groove is formed in the connector, two ends of the heat insulation strip are provided with protrusions, and the protrusions at two ends of the heat insulation strip are respectively fixed in the first groove and the second groove in a plug-in manner.

Furthermore, the first inserting structure is arranged between the connecting body and the first longitudinal beam and comprises a first inserting bulge and/or a first inserting groove arranged on the connecting body and a first inserting groove and/or a first inserting bulge arranged on the first longitudinal beam; the second longitudinal beam and the third longitudinal beam are provided with the second inserting structure, and the second inserting structure comprises a second inserting bulge and/or a second inserting groove arranged on the second longitudinal beam and a second inserting groove and/or a second inserting bulge arranged on the third longitudinal beam.

Furthermore, the packaging structure further comprises a packaging cover, wherein a first clamping groove is formed in the second longitudinal beam, a second clamping groove is formed in the third longitudinal beam, two ends of the packaging cover are bent downwards to form 2 clamping protrusions, and the packaging cover is abutted against the second longitudinal beam and the third longitudinal beam and clamped and fixed with the second longitudinal beam and the third longitudinal beam in the first clamping groove and the second clamping groove through the 2 clamping protrusions respectively.

Furthermore, the frame beam, the first longitudinal beam, the second longitudinal beam and the third longitudinal beam are fixedly connected through connecting pieces, and the cross beam, the first longitudinal beam, the second longitudinal beam and the third longitudinal beam are also fixedly connected through the connecting pieces.

Furthermore, the rotating device comprises a rotating seat fixedly connected with the first base body and a rotating part fixedly connected with the second base body, the rotating part is rotatably connected on the rotating seat and comprises a rotating body and a rotating part connected with the rotating body, the rotating part comprises a first rotating part and a second rotating part,

the rotating seat comprises a base, a concave part and a convex part are formed in the base, when the rotating component is inserted into the rotating seat and rotates relative to the rotating seat, the first rotating part is inserted into the concave part and rotates relative to the concave part, and the second rotating part wraps the outer side of the convex part and rotates with the convex part as a rotating center.

Furthermore, the device comprises a placing seat, the placing seat is fixedly connected with the base, a placing position is formed in the placing seat, and the rotating device is arranged in the placing position.

The technical scheme of the utility model prior art relatively has following technological effect:

the utility model provides a pump house, including a plurality of first installing frame modules and a plurality of second installing frame modules that set up along base circumference, fix through pegging graft between first installing frame module, second installing frame module and the corner module, the utility model discloses the frame roof beam that will constitute the pump house forms the module, when the assembly, only needs first installing frame module and second installing frame module of pre-assembling earlier, then with it respectively with adjacent corner module second installing frame module, first installing frame module peg graft fixedly can, install convenient and fast more;

simultaneously the utility model discloses still set up rotating device on the base for each first installing frame module and second installing frame module all at least with 1 rotating device fixed connection, when installing, can be earlier with first installing frame module, second installing frame module is connected with rotating device and is fixed after then upwards rotate the assembly fixed, realized first installing frame module when upwards rotating, the assembly of second installing frame module promptly, then need not the staff like this and connect fixed top crossbeam at high altitude construction, it is more convenient to install.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a first schematic structural diagram of the pump room of the present invention;

FIG. 2 is a schematic structural view II of the pump room of the present invention;

FIG. 3 is a third schematic structural view of the pump room of the present invention;

fig. 4 is a first structural schematic diagram of a frame module of the pump room of the present invention;

fig. 5 is a second schematic structural diagram of the frame module of the pump room of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a partial enlarged view of FIG. 5 at B;

fig. 8 is a schematic structural view of the first top frame beam, the frame beam and the annular water receiving groove of the pump room of the present invention;

fig. 9 is a schematic structural view of the rotating device and the placing seat of the pump room of the present invention;

fig. 10 is a first schematic structural view of the rotating device of the pump room of the present invention;

fig. 11 is a schematic structural diagram of the rotating device of the pump room of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely 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, are not to be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

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 one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The first embodiment is as follows:

the utility model provides an embodiment of pump house, it is shown with reference to fig. 1-11, including: the base 100, the base 100 forms the base of the whole pump room;

the frame module 200 forms a frame of the whole pump room, and is fixedly connected to the base 100, specifically, the frame module 200 in this embodiment is a cube module.

The number of the corner modules 210 is 4, and the corner modules 210 are respectively and fixedly arranged at 4 corner positions of the base 100 and are arc-shaped.

The base 100 is provided with the supporting seat 110 fixedly connected with the base, the supporting seat 110 is correspondingly provided with 4, the corner module 210 is arranged on the supporting seat 110, the corner module 210 is provided with a threaded hole, and the corner module 210 is fixedly connected with the supporting seat 110 through screwing, so that the firmness of the structural connection of the whole pump room is enhanced.

An installation frame module including a plurality of first installation frame modules 220 and a plurality of second installation frame modules 230; the plurality of first installation frame modules 220 and the plurality of second installation frame modules 230 are perpendicular to the base 100 and are arranged along the circumferential direction of the base 100, the first installation frame modules 220 are arranged at positions close to the corner modules 210, that is, the first installation frame modules 220 are arranged on two sides of the corner modules 210.

Preferably, in this embodiment, 1 first installation frame module 220 and a second installation frame module 230 inserted into the first installation frame module 220 are disposed on the front side surface of the cube module, a door body assembly opening 120 is formed between the second installation frame module 230 and the corner module 210 located on the front side surface, and the door body is assembled at the position of the door body assembly opening 120;

both the left and right sides of the cubic module are provided with 1 first mounting frame module 220 and a second mounting frame module 230 adjacent thereto.

On the rear side of the cube module, 2 first mounting frame modules 220 adjacent to the corner module 210 and a second mounting frame module 230 between the 2 first mounting frame modules 220 are disposed.

The first mounting frame module 220 and the corner module 210 are provided with a first plugging structure 300 which can be matched with each other; second inserting structures 400 which can be inserted and matched with each other are arranged on the first installation frame module 220 and the second installation frame module 230 and on the adjacent second installation modules; that is, one side of the first installation frame module 220 is plugged with the corner module 210 through the first plugging structure 300, the other side of the first installation frame module is plugged with the second installation frame module 230 through the second plugging structure 400, and the adjacent second installation frame modules 230 are connected through the second plugging structure 400.

The rotating device 500 is rotatably disposed on the base 100, and a plurality of rotating devices are disposed along the circumferential direction of the base 100, and each of the first installation frame module 220 and the second installation frame module 230 is fixedly connected to at least 1 rotating device 500. When the first and second installation frame modules 220 and 230 are installed, the first and second installation frame modules 220 and 230 may be connected and fixed to the corresponding rotating device 500, and then the first and second installation frame modules 220 and 230 may be assembled by rotating upward.

When the first installation frame rotates from the water surface position to the vertical position perpendicular to the base 100, the first installation frame module 220 can be respectively plugged with the corner module 210 and the adjacent installation frame module through the first plugging structure 300 and the second plugging structure 400; when the second installation frame module 230 rotates from the water surface position to the vertical position perpendicular to the base 100, the second installation frame module 230 can be plugged with the first installation frame module 220 and the second installation frame module 230 adjacent thereto through the second plugging structure 400, or plugged with 2 second installation frame modules 230 adjacent thereto.

Can make first installing frame module 220 and second installing frame module 230 rotate relative to base 100 through the rotating device 500 that sets up, when needs assembly, can rotate first installing frame module 220 or second installing frame module 230 from the horizontal plane to perpendicular face position department and through first grafting structure 300 or second grafting structure 400 grafting fixed can, make the staff need not the roof beam at high altitude construction team frame top and beat the fix with screw, and the installation effectiveness is improved, the potential safety hazard is reduced.

Moreover, in the present embodiment, the first plug structure 300 and the second plug structure 400 are arranged along the rotation direction of the first installation frame module 220 and the second installation frame module 230 during the arrangement, and then the first installation frame module 220 and the second installation frame module 230 can be fixed by rotating the rotation force pushing the installation frame module upwards during the assembly, so that the assembly is simpler, more convenient and faster, and the rotation device 500 can rotate and install during the assembly, so that the assembly is more labor-saving.

The utility model discloses to constitute the frame module 200 formation module in pump room, when the assembly, only need assemble first installing frame module 220 and second installing frame module 230 in advance earlier, then respectively with adjacent corner module 210, first installing frame module 220 or second installing frame module 230 peg graft fixedly can, but realize the installation of modularization, the installation is more swift.

Simultaneously the utility model discloses still set up rotating device 500 on base 100 for each first installing frame module 220 and second installing frame module 230 all at least with 1 rotating device 500 fixed connection, when installing, can be earlier with first installing frame module 220, second installing frame module 230 is connected with rotating device 500 and is fixed the back and then upwards rotate the assembly fixed again, first installing frame module 220 has been realized promptly when upwards rotating, the assembly of second installing frame module 230, then need not the staff like this and connect fixed top crossbeam 224 at high altitude construction, it is more convenient to install.

Further, the first installation frame module 220 includes a first longitudinal beam 221, a second longitudinal beam 222, a frame beam 223 and a cross beam 224, the first longitudinal beam 221 and the second longitudinal beam 222 are arranged in parallel, the frame beam 223 is provided with 2 pieces, which are respectively connected to the end portions of the two ends of the first longitudinal beam 221 and the second longitudinal beam 222, the cross beam 224 is connected between the first longitudinal beam 221 and the second longitudinal beam 222 and is arranged in parallel to the frame beam 223, that is, the first longitudinal beam 221, the second longitudinal beam 222, the frame beam 223 and the cross beam 224 are connected with each other to form the first installation frame module 220 with a plurality of frames, window plates can be installed inside the frames, the first installation frame module 220 can be directly processed and formed in a factory through a standard process, the processing precision can be ensured, and modularization can be realized;

preferably, the first longitudinal beam 221 in this embodiment is provided with a first insertion sliding groove 221-1 arranged along the length direction of the first longitudinal beam 221, the cross beam 224 includes a cross beam body 224-1 and an annular cover 224-2 formed at one end of the cross beam body 224-1, the annular cover 224-2 is formed with a slot 224-3 provided with a notch and arranged along the length direction of the cross beam body 224-1, and a sealing strip adapted to the shape of the slot 224-3 is arranged in the slot 224-3 and abuts against a window plate in the first installation frame module 220, so as to enhance the sealing and waterproof performance of the whole pump room.

The frame beam 223 comprises a frame beam 223 body and second insertion sliding grooves 223-1 formed at two side positions on the frame beam 223 body and arranged along the length direction of the frame beam 223, the first longitudinal beam 221 is inserted into the first insertion sliding groove 221-1 and the second insertion sliding groove 223-1 through connecting pieces to realize the connection and fixation of the first longitudinal beam 221 and the frame beam 223, and the connection mode of the second longitudinal beam 222 and the frame beam 223 is the same as that of the first longitudinal beam 221.

The second longitudinal beam 222 is provided with a third insertion sliding groove 222-2, the cross beam body 224-1 is further provided with a fourth insertion sliding groove 224-4, the two ends of the first longitudinal beam 221, the second longitudinal beam 222 and the cross beam 224 are connected through connecting pieces, preferably, the connecting pieces in the embodiment are L-shaped aluminum connecting pieces, and 2 side walls of the connecting pieces are provided with threaded holes, wherein one side wall is inserted into the first insertion sliding groove 221-1, the other side wall is inserted into the fourth insertion sliding groove 224-4, and then the first longitudinal beam 221 and the cross beam 224 are connected and fixed through screwing in the threaded holes through screws, one side wall of the other connecting piece is inserted into the third insertion sliding groove 222-2, and the other side wall is inserted into the fourth insertion sliding groove 224-4 and screwing is performed to connect the cross beam 224 and the second longitudinal beam 222.

The connecting member is only disposed at the connecting position of the ends of the first longitudinal beam 221 and the cross beam 224, and the connecting member may directly adopt a connecting member structure in the prior art, which is not described herein.

The second mounting frame module 230 includes: the second longitudinal beam 222 and the third longitudinal beam 231 are arranged in parallel, 2 frame beams 223 are arranged at the end parts of the two ends of the second longitudinal beam 222 and the end parts of the two ends of the third longitudinal beam 231, and a plurality of cross beams 224 are arranged and connected between the second longitudinal beam 222 and the third longitudinal beam 231 and are arranged in parallel to the frame beams 223. The second longitudinal beam 222, the third longitudinal beam 231 and the cross beam 224 are also connected and fixed through connecting pieces; the second longitudinal beam 222, the third longitudinal beam 231 and the frame beam 223 are also connected and fixed by a connecting member, and the connection and fixing manner thereof is the same as that of the first mounting frame module 220, which is not described herein again.

Further, the pump room in this embodiment further includes a top frame 240, which includes a first top frame beam 241, a second top frame beam 242, a third top frame beam 243, and a fourth top frame beam 244 that are connected in series, and the first top frame beam, the second top frame beam, the third top frame beam 243, and the fourth top frame beam are respectively arranged around the base 100 and correspondingly clamped with the mounting frame modules that are opposite to the mounting frame beams, and the top frame 240 is clamped with an annular water receiving groove 250 that is arranged along the circumferential direction of the top frame 240. Preferably, the annular water receiving groove 250 in this embodiment is formed by abutting 4 water receiving components, and each water receiving component includes a curved supporting plate 251 for supporting water receiving.

The first top frame beam 241 comprises a top frame beam body 241-1, a top frame protrusion 241-2 and a top frame clamping groove 241-3 which are arranged on the top frame beam body 241-1, and the side, close to the frame beam 223, of the first top frame beam 241 is inserted and fixed through a second insertion sliding groove 223-1, corresponding to the insertion protrusion, on the frame beam 223; the top frame clamping groove 241-3 of the first top frame beam 241 far away from the side of the frame beam 223 is correspondingly clamped and fixed by the curved surface bearing plate 251.

The structures of the second top frame beam 242, the third top frame beam 243, and the fourth top frame beam 244 are the same as the first top frame beam 241 and the connection and matching manner with the frame beam 223 and the water receiving part, which are not described herein again.

Further, still including supporting beam module 260, supporting beam module 260 sets up the top at frame module 200, and it includes first supporting beam 261 and perpendicular first supporting beam 261 setting and rather than the second supporting beam 262 of being connected, and first supporting beam 261 and second supporting beam 262 all set up many, shelter from arranging at frame module 200 top, and fixed roof board that sets up in supporting beam module 260 top, first supporting beam 261 and second supporting beam 262 tip all lock fixedly through three kaysers and rather than the relative installing frame module lock in position. The three-locking latch can be assembled at the end of the first support beam 261 or the second support beam 262 and make the claw extend from the end and be clamped on the corresponding frame beam 223, and then the frame beam 223 and the first support beam 261 or the second support beam 262 are connected and fixed through the adjustment of the hexagon nut.

Further, the corner module 210 includes a corner body 211 and a connector 212 connected to the corner body 211, the connector 212 and the corner body 211 are connected and fixed by a heat insulation strip 213, the corner body 211 includes a first corner surface 211-1, a first groove 211-2 is formed on the first corner surface 211-1, a second groove 212-1 is formed on the connector 212, protrusions 213-1 are disposed at two ends of the heat insulation strip 213, and the heat insulation strip 213 is respectively inserted and fixed into the first groove 211-2 and the second groove 212-1 by the protrusions 213-1 at the two ends.

Specifically, the connecting body 212 includes a first connecting plate and 2 second connecting plates which are sequentially connected and have acute included angles, the first connecting plate is arranged parallel to the first corner surface 211-1, the second connecting plate is provided with a connecting portion 524 which is formed by bending and extending outwards from the second connecting plate, the first inserting structure 300 is arranged between the connecting body 212 and the first longitudinal beam 221, and the first inserting structure 300 includes a first inserting protrusion 310 and/or a first inserting groove 320 which are arranged on the connecting body 212, and a first inserting groove 320 and/or a first inserting protrusion 310 which are arranged on the first longitudinal beam 221; that is, the first insertion structure in this embodiment may be a first insertion protrusion 310 provided on the connecting body 212 and a first insertion groove 320 provided on the first longitudinal beam 221, or a first insertion groove 320 provided on the connecting body 212 and a first insertion protrusion 310 provided on the first longitudinal beam 221, or a first insertion protrusion 310 and a first insertion groove 320 provided on the connecting body 212 at the same time, and correspondingly, a first insertion groove 320 and a second insertion protrusion 410 provided on the first longitudinal beam 221, which are inserted and fixed alternately, so as to ensure the reliability of the insertion connection.

Preferably, in this embodiment, both the first insertion protrusion 310 and the first insertion groove 320 are disposed on the connection body 212, specifically, the first insertion protrusion 310 is disposed on the connection portion 524, and the first insertion protrusion 310, the connection portion 524 and the second connection plate are disposed to surround the first insertion groove 320.

The second longitudinal beam 222 and the third longitudinal beam 231 are provided with the second plug-in structure 400 that can be engaged with each other, and the second plug-in structure 400 includes a second plug-in projection 410 and/or a second plug-in groove 420 provided on the second longitudinal beam 222 and a second plug-in groove 420 and/or a second plug-in projection 410 provided on the third longitudinal beam 231. The arrangement of the second plugging structure 400 on the second longitudinal beam 222 and the third longitudinal beam 231 is the same as that of the first plugging structure 300, and is not described herein again.

Further, the packaging cover 600 is further included, a first clamping groove 222-1 is formed in the second longitudinal beam 222, a second clamping groove 231-1 is formed in the third longitudinal beam 231, two ends of the packaging cover 600 are bent downwards to form 2 clamping protrusions 610, the packaging cover 600 abuts against the second longitudinal beam 222 and the third longitudinal beam 231 and is clamped and fixed with the second longitudinal beam 222 and the third longitudinal beam 231 in the first clamping groove 222-1 and the second clamping groove 231-1 through the 2 clamping protrusions 610, the second longitudinal beam 222 and the third longitudinal beam 231 can be locked and fixed through the packaging cover 600, when disassembly is needed, the packaging cover 600 needs to be opened first, and then the second longitudinal beam 222 and the third longitudinal beam 231 are separated.

Preferably, the rotating device 500 in this embodiment includes a rotating base 510 connected to the base 100 and a rotating member 520 connected to the frame beam 223, the rotating member 520 is rotatably connected to the rotating base 510, the rotating member 520 includes a rotating body 521 and a rotating portion connected to the rotating body 521, the rotating portion includes a first rotating portion 522 and a second rotating portion 523,

the rotating seat 510 comprises a base 511, a concave part 512 and a convex part 513213-1 are formed in the base 511, when the rotating component 520 is inserted into the rotating seat 510 and rotates relative to the rotating seat 510, the first rotating part 522 is inserted into the concave part 512 and rotates relative to the concave part 512, and the second rotating part 523 is wrapped outside the convex part 513213-1 and rotates around the convex part 513213-1.

Preferably, the rotating member 520 further includes a connecting portion 524 connected to the rotating body 521, the connecting portion 524 is a connecting protrusion extending upward from the body, the cross section of the connecting portion 524 is polygonal, and the rotating member 520 is connected and fixed to the frame beam 223 through the connecting portion 524. In a specific arrangement, the connecting portion 524 is slidably inserted into the second insertion sliding groove 223-1 of the frame beam 223.

Preferably, the first rotating part 522 in this embodiment is a first rotating shell which is matched with the inner side profile of the concave part 512 in shape, and the second rotating part 523 is a second rotating shell which is matched with the profile of the convex part 513. A first arc-shaped surface 522-1 is formed on the outer side of the first rotating portion 522, a first rotating arc-shaped surface 512-1 which can be fit with the first arc-shaped surface 522-1 is formed on the inner side of the concave portion 512, the first arc-shaped surface 522-1 is concentric with the first rotating arc-shaped surface 512-1, a second arc-shaped surface 523-1 is formed on the inner side of the second rotating portion 523, a second rotating arc-shaped surface 513-1 which can be fit with the second arc-shaped surface 523-1 is formed on the outer side of the convex portion 513, and the second arc-shaped surface 523-1 is concentric with the second rotating arc-shaped surface 513-1.

During assembly, the first rotating part 522 is inserted into the recessed part 512, the first arc-shaped surface 522-1 on the outer side of the first rotating part is attached to the first rotating arc-shaped surface 512-1, the second rotating part 523 is wrapped on the outer side of the protruding part 513, the second arc-shaped surface 523-1 is attached to the second rotating arc-shaped surface 513-1, when the rotating part 520 rotates relative to the rotating base 510, the first arc-shaped surface 522-1 is attached to the first rotating arc-shaped surface 512-1 and rotates relative to the first rotating arc-shaped surface, the second arc-shaped surface 523-1 is attached to the second rotating arc-shaped surface 513-1 and rotates relative to the second rotating arc-shaped surface, and the first rotating part 522 and the second rotating part 523 are correspondingly matched with the recessed part 512 and the protruding part 513 in a surface contact mode, so that the contact area is large, and the connection strength is.

The embodiment further includes a placing seat 700, the placing seat 700 is fixedly connected with the base 100, preferably, 4 placing seats 700 are provided, and are arranged along four sides of the base 100, two ends of the placing seat 700 are respectively and fixedly connected with the supporting seat 110, a placing position 710 is formed in the placing seat 700, and the rotating device 500 is arranged in the placing position 710.

Preferably, 4 placing positions 710 are provided in the placing seat 700 in the present embodiment, and each frame beam 223 is provided corresponding to 2 rotating devices 500.

In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a specific embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A pump house, characterized in that, including:

a base seat is arranged on the base seat,

a frame module, the frame module comprising:

the corner module is fixedly arranged at the corner position of the base;

an installation frame module including a plurality of first installation frame modules and a plurality of second installation frame modules;

the first installation frame module and the second installation frame module are both vertical to the base and are arranged along the circumferential direction of the base, and the first installation frame module is arranged at a position close to the corner module;

the first installation frame module and the corner module are provided with first inserting structures which can be matched with each other;

second inserting structures which can be inserted and matched with each other are arranged on the first installation frame module and the second installation frame module and on the adjacent second installation modules;

one side of each first installation frame module is spliced with the corner module through a first splicing structure, the other side of each first installation frame module is spliced with the corresponding second installation frame module through a second splicing structure, and the adjacent second installation frame modules are connected through second splicing structures;

the rotating devices are rotatably arranged on the base and are arranged along the circumferential direction of the base, and each first mounting frame module and each second mounting frame module are fixedly connected with at least 1 rotating device;

when the first installation frame module rotates from a water surface position to a vertical position vertical to the base, the first installation frame module can be respectively inserted with the corner module and the installation frame module adjacent to the corner module through the first insertion structure and the second insertion structure; when the second installation frame module rotates to the vertical position perpendicular to the base from the water surface position, the second installation frame module can be plugged with the first installation frame module and the adjacent second installation frame module through the second plugging structure or 2 adjacent second installation frame modules.

2. The pump house of claim 1, wherein:

the installation frame module is clamped and connected with the top frame, and an annular water receiving groove is formed in the top frame in a clamped mode along the circumferential direction of the top frame.

3. The pump house of claim 1, wherein:

the first mounting frame module comprises a first longitudinal beam, a second longitudinal beam, frame beams and a cross beam, wherein the first longitudinal beam and the second longitudinal beam are arranged in parallel, the number of the frame beams is 2, the frame beams are respectively connected to the end parts of the two ends of the first longitudinal beam and the end parts of the two ends of the second longitudinal beam, and the cross beam is connected between the first longitudinal beam and the second longitudinal beam and is arranged in parallel to the frame beams; the second installation frame module comprises: the frame beam is provided with a plurality of beams, and the beams are connected between the second longitudinal beam and the third longitudinal beam and arranged in parallel to the frame beam.

4. The pump house of claim 1, wherein: the frame module is characterized by further comprising a supporting beam module, wherein the supporting beam module is arranged at the top of the frame module and comprises a first supporting beam and a second supporting beam which is perpendicular to the first supporting beam and connected with the first supporting beam, and the end parts of the first supporting beam and the second supporting beam are locked and fixed with the installation frame module opposite to the first supporting beam through three locking locks.

5. The pump house of claim 3, characterized in that:

the corner module comprises a corner body and a connector connected with the corner body, the connector and the corner body are fixedly connected through a heat insulation strip, the corner body comprises a first corner surface, a first groove is formed in the first corner surface, a second groove is formed in the connector, two ends of the heat insulation strip are provided with protruding portions, the heat insulation strip passes through the two ends, and the protruding portions are respectively fixed in the first groove and the second groove in a cartridge mode.

6. The pump house of claim 5, wherein:

the first inserting structure is arranged between the connecting body and the first longitudinal beam and comprises a first inserting bulge and/or a first inserting groove arranged on the connecting body and a first inserting groove and/or a first inserting bulge arranged on the first longitudinal beam; the second longitudinal beam and the third longitudinal beam are provided with the second inserting structure, and the second inserting structure comprises a second inserting bulge and/or a second inserting groove arranged on the second longitudinal beam and a second inserting groove and/or a second inserting bulge arranged on the third longitudinal beam.

7. The pump house of claim 3, characterized in that:

the packaging cover is abutted against the second longitudinal beam and the third longitudinal beam and clamped and fixed with the second longitudinal beam and the third longitudinal beam in the first clamping groove and the second clamping groove respectively through the 2 clamping bulges.

8. The pump house of claim 3, characterized in that:

the frame beam is fixedly connected with the first longitudinal beam, the second longitudinal beam and the third longitudinal beam through connecting pieces, and the cross beam is fixedly connected with the first longitudinal beam, the second longitudinal beam and the third longitudinal beam through the connecting pieces.

9. The pump house of claim 1, wherein: the rotating device comprises a rotating seat fixedly connected with the frame beam and a rotating part fixedly connected with the base, the rotating part is rotatably connected on the rotating seat and comprises a rotating body and a rotating part connected with the rotating body, the rotating part comprises a first rotating part and a second rotating part,

the rotating seat comprises a base, a concave part and a convex part are formed in the base, when the rotating component is inserted into the rotating seat and rotates relative to the rotating seat, the first rotating part is inserted into the concave part and rotates relative to the concave part, and the second rotating part wraps the outer side of the convex part and rotates with the convex part as a rotating center.

10. The pump house of claim 1, wherein: the rotary device comprises a placing seat, wherein the placing seat is fixedly connected with a base, a placing position is formed in the placing seat, and the rotary device is arranged in the placing position.

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