CN112484380A - Liquid drainage structure, equipment support base and refrigeration equipment - Google Patents

Abstract

The invention discloses a liquid discharge structure, an equipment supporting base and refrigeration equipment, and relates to the technical field of containers. The liquid drainage structure specifically comprises a bottom plate, a bottom plate frame structure and at least two second supporting pieces, wherein the bottom plate frame structure is used for supporting the bottom plate, two ends of each second supporting piece are connected to the bottom plate frame structure, a liquid drainage groove used for collecting liquid on the surface of the bottom plate is formed between at least one group of adjacent second supporting pieces, and the liquid drainage groove is provided with a liquid drainage port. Aims to solve the problems that the drainage of the container is deposited at the bottom of the container and the accumulated water is discharged randomly.

Description

Liquid drainage structure, equipment support base and refrigeration equipment

Technical Field

The invention relates to the technical field of containers, in particular to a liquid discharge structure, an equipment supporting base and refrigeration equipment.

Background

The container type integrated freezing station is a highly integrated refrigerating machine room system, which comprises a refrigerating host, a water pump, a group control cabinet, a water treatment device, a cooling tower, various valves and the like, and can directly supply cold air for an air conditioner after being connected with an air conditioner terminal system (a device capable of changing chilled water or a refrigerant into cold air) and provide the required lift of the air conditioner system.

When the container type integrated freezing station operates, the risk of condensation and dew formation of freezing side pipelines and equipment exists, and the situation that dew formation exists on the surfaces of the freezing side pipelines or water leaks at the joints of the equipment often occurs. When this occurs, it can cause standing water to be present on the floor surface inside the integrated freezer. Traditional container flowing back is seted up a plurality of outage on the bottom plate of container, directly discharges the inside water of container on the spot, causes ponding indiscriminate row, is unfavorable for the container to keep apart inner space and outside when the water waste resource.

In order to solve the above technical problem, chinese patent CN204608945U discloses a bottom drainage structure, a container modularized shower stall and a container modularized building in 2015, 9/2, which specifically discloses a bottom drainage structure for a container modularized shower stall, wherein the bottom drainage structure comprises: a bottom frame; the bottom cross beams are arranged in the bottom frame in parallel, and at least one corresponding end of each of at least two adjacent bottom cross beams is provided with a concave part; and the steel floor is laid on the bottom cross beam and provided with a drainage groove, and the drainage groove is attached to the concave part and communicated with a sewer pipeline.

The drainage grooves are formed in the floor of the container, water on the floor inside the container is collected through the drainage grooves, and the container is drained through a sewer pipe connected to one end of the drainage grooves. Although the problem of ponding indiscriminate row has been solved to it, it sets up the water drainage tank on the bottom beam of the bottom plate of container for the partial height of bottom beam reduces, has reduced the support dynamics of bottom beam, has increaseed the potential safety hazard, simultaneously because drainage does not set up any safeguard measure, leads to great filth to enter the water drainage tank along with rivers easily, leads to water drainage tank and sewer pipe junction to block up, influences the drainage.

Disclosure of Invention

The invention mainly aims to provide a liquid discharge structure, an equipment support base and refrigeration equipment, aiming at solving the problems that container drainage is deposited at the bottom of a container and accumulated water is discharged randomly.

In order to achieve the above object, the present invention provides a liquid discharge structure, which includes a bottom plate, a bottom plate frame structure for supporting the bottom plate, and at least two second supporting members with two ends connected to the bottom plate frame structure, wherein a liquid discharge groove for collecting liquid on the surface of the bottom plate is disposed between at least one group of adjacent second supporting members, and the liquid discharge groove is provided with a liquid discharge port.

In an embodiment of the present application, the side wall of the drain tank is fixedly connected to the second supporting members at two sides.

In an embodiment of the present application, the second supporting member is a C-shaped supporting member, and the openings of the second supporting members on two sides of the liquid discharge tank face away from each other or face each other.

In an embodiment of the present application, when at least two liquid discharge grooves are provided, at least two liquid discharge grooves are provided at an interval.

In an embodiment of the present application, a cover plate located in the same plane as the bottom plate is disposed on the liquid discharge tank, and the cover plate is provided with a filtering through hole.

In an embodiment of the present application, the cover plate is provided with a water outlet for connecting a pipeline.

In an embodiment of the present application, the liquid discharge opening is provided with a seamless pipe, and the seamless pipe penetrates through the bottom plate frame structure to communicate the liquid discharge groove with the outside.

In an embodiment of the present application, the bottom plate frame structure is hollow, and the liquid discharge port penetrates through a side wall of the bottom plate frame structure to communicate with the outside.

The application also discloses an equipment supporting base, which comprises the liquid discharge structure.

The application also discloses refrigeration equipment, which comprises the equipment supporting base.

The technical scheme has the following advantages: form between two second support piece and be used for collecting the flowing back groove on bottom plate surface and be arranged in carrying out the leakage fluid dram that discharges with liquid in the flowing back groove, conveniently discharge the ponding on the equipment bottom plate, avoid the condition that ponding infiltration, bottom plate overflow appear in the equipment bottom plate.

Drawings

The invention is described in detail below with reference to specific embodiments and the attached drawing figures, wherein:

FIG. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along the line A-A in FIG. 1;

FIG. 3 is an enlarged schematic view of the novel drain tank.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings and examples. It should be understood that the following specific examples are only for illustrating the present invention and are not to be construed as limiting the present invention.

As shown in fig. 1 to 3, in order to achieve the above object, the present invention provides a drainage structure 100, which includes a bottom surface formed by a plurality of bottom plates 10 arranged at intervals, a bottom plate frame structure 20 supported at the bottom of the bottom surface, the bottom plate frame structure 20 being hollow, a drainage tank 30 disposed between two adjacent bottom plates 10 for collecting liquid on the upper surface of the bottom plates 10 and draining out of a container, drainage ports disposed at two ends of the length of the drainage tank 30 for draining the liquid in the drainage tank 30, a cover plate 40 disposed on the drainage tank 30, a filter through hole 41 disposed on the cover plate 40, the filter through hole 41 for filtering large dirt on the bottom plates 10 to prevent the drainage tank from being blocked.

The bottom plate 10 is made of a metal material, preferably an aluminum alloy material, and the bottom plate 10 made of the aluminum alloy material has the advantages of high strength, corrosion resistance, light weight and the like. Of course, other materials such as weathering steel, stainless steel, etc. may be used as required by the design.

The bottom surface of container is formed by polylith bottom plate 10 concatenation end to end in proper order, is provided with bottom plate frame construction 20 around the bottom surface of container for the bottom surface of supporting container avoids the bottom surface and the ground contact of container. The baseplate frame structure 20 is I-shaped steel in the application, and the I-shaped steel has the advantages of high supporting strength, convenience in installation and the like. The head and the tail of the I-shaped steel are fixedly connected. The i-steel is connected with the bottom plate 10 in a fixed connection manner, for example: and (6) welding. The connection by means of the fixed connection ensures the stability of the connection between the base plate 10 and the base plate frame structure 20.

The bottom surface of the container also comprises a liquid discharge groove 30 made of a metal material, the cross section of the liquid discharge groove 30 is U-shaped, and the liquid discharge groove can be designed into an isosceles trapezoid structure according to the design requirement, and the like, and the details are not repeated. The drain tank 30 is installed between two adjacent bottom plates 10. The drainage grooves 30 and the adjacent bottom plates 10 may be connected by a fixed connection or a movable connection. The connection is fixed, for example, by welding, so that the stability of the connection between the liquid discharge groove 30 and the bottom plate 10 can be ensured, and meanwhile, a gap between the liquid discharge groove 30 and the bottom plate 10 can be avoided, and liquid leakage between the bottom plate 10 and the liquid discharge groove 30 can be avoided. The movable connection mode is adopted for connection, such as clamping connection and the like, so that the liquid discharge groove 30 can be conveniently replaced when the liquid discharge groove 30 is in failure or needs to be replaced. The drain tank 30 is used for collecting the liquid on the upper surface of the bottom plate 10 and draining the liquid out of the container, so that the liquid is prevented from being accumulated for a long time, and the oxidation of the container is accelerated.

Cover plate 40 is covered on the top of liquid discharge tank 30, and cover plate 40 and liquid discharge tank 30 are connected in a movable connection mode, for example, screw connection, so that cover plate 40 can be conveniently detached and installed through screw connection, and liquid discharge tank 30 can be conveniently maintained.

The width of apron 40 is greater than the width of flowing back groove 30, and the length of apron 40 equals the length of flowing back groove 30, and when apron 40 lid was established on flowing back groove 30, the level height of apron 40 was the same with the level height of bottom plate 10, adopts this kind of technical scheme, avoids the unevenness between apron 40 and the bottom plate 10, avoids personnel to be injured. The cover plate 40 is provided with a plurality of filtering through holes 41, liquid on the bottom plate 10 can enter the liquid discharge tank 30 through the filtering through holes 41, and the filtering through holes 41 can be round holes, oval holes and prismatic holes, which are not described in detail herein. In order to facilitate the liquid entering the liquid discharge tank 30, the filter through holes 41 may be chamfered to facilitate the liquid entering the liquid discharge tank 30.

The technical scheme has the following advantages: form between two second support piece and be used for collecting the flowing back groove on bottom plate surface and be arranged in carrying out the leakage fluid dram that discharges with liquid in the flowing back groove, conveniently discharge the ponding on the equipment bottom plate, avoid the condition that ponding infiltration, bottom plate overflow appear in the equipment bottom plate.

Further, the cover plate 40 is formed by connecting a plurality of sub-cover plates end to end in sequence, and at least one sub-cover plate is provided with a pipeline water outlet 42 connected with a liquid inlet pipeline.

Specifically, the cover plate 40 is formed by connecting a plurality of sub-cover plates in sequence. For example, a first sub-cover, a second sub-cover, a third sub-cover. One end of the first sub-cover plate is abutted against one end of the second sub-cover plate, and the other end of the second sub-cover plate is abutted against one end of the third sub-cover plate. Wherein at least one sub-cover plate is provided with a water inlet connected with a liquid inlet pipeline.

Adopt above-mentioned technical scheme, separate into polylith sub-apron through the apron 40 that will be longer, the installation of apron 40 of being convenient for, when finding drain tank 30 and appearing blockking up, only need open the sub-apron of relevant position simultaneously, need not to open whole apron 40, reduced manpower resources's consumption. Set up the water inlet of connecting the inlet channel on one of them at least piece sub-apron, when equipment need carry out the flowing back through the inlet channel, directly connect the inlet channel on pipeline outlet 42, need not to discharge the liquid of inlet channel through filtering through hole 41, avoid the liquid in the pipeline to pile up on bottom plate 10, when having improved flowing back efficiency, also avoided at the flowing back in-process, the situation that the liquid gathers appears once more.

Further, the pipe drainage port 42 is located on the middle sub-cover plate.

By adopting the technical scheme, the distance from the liquid inlet pipeline at the two ends to the pipeline water outlet 42 can be kept to be the nearest. It is of course conceivable that a plurality of pipe drains 42 may be provided.

Further, the pipeline water outlet 42 is in threaded connection with the liquid inlet pipeline.

By adopting the technical scheme, the pipeline water outlet 42 is in threaded connection with the liquid inlet pipeline, so that the liquid inlet pipeline is convenient to discharge liquid without manually holding the pipeline for a long time or additionally arranging a clamping tool when the pipeline discharges the liquid.

Further, the bottom of the bottom plate 10 is further provided with a plurality of second supporting members 50 parallel to the axial direction of the liquid discharge groove 30, two ends of the second supporting members 50 in the axial direction are respectively connected to the two oppositely arranged bottom plate frame structures 20, and two side walls of the liquid discharge groove 30 are respectively connected to two adjacent second supporting members 50.

Specifically, a plurality of second supporting members 50 are disposed at the bottom of the bottom plate 10, and two ends of the second supporting members 50 in the axial direction are respectively connected to two oppositely disposed bottom plate frame structures 20. The second supporting member 50 is connected with the bottom plate frame structure 20 in a fixed connection manner, so that the stability of connection between the second supporting member 50 and the bottom plate frame structure 20 is ensured. The second support member 50 is disposed in the same direction as the axial direction of the liquid discharge tank 30.

By adopting the above technical scheme, the arrangement direction of the second supporting member 50 is the same as the axial direction of the liquid discharge groove 30, so that the depth of the liquid discharge groove 30 does not affect the height of the second supporting member 50, and the second supporting member 50 can provide stable supporting force to the bottom plate 10.

Further, the second supporting member 50 is a C-shaped supporting member, and two side walls of the liquid discharge tank 30 are respectively connected to two C-shaped supporting members with opposite openings.

Specifically, second support piece 50 is the steel of C shape, adopts the steel of C shape, can provide stronger support force and guarantee first bottom plate 10's stability, deviates from or sets up in opposite directions at two adjacent C type second support piece 50's of fluid-discharge tank 30 mounted position department opening direction, adopts this kind of mode, and the both sides wall of the fluid-discharge tank 30 of being convenient for is connected on the second support piece 50 of C shape, guarantees the stability of fluid-discharge tank 30 installation.

Further, the opening of the liquid discharge tank 30 is provided with a blocking plate 60 connected with the top of the two sidewalls respectively for supporting the cover plate 40.

Specifically, the tops of the free ends of the two side walls of the liquid discharge tank 30 are both connected with a blocking plate 60, and the blocking plate 60 is horizontally arranged. The width between the two baffle plates 60 is smaller than the width between the two side walls of the drainage trough 30. With this arrangement, when the liquid discharge groove 30 discharges liquid through the liquid inlet pipe, water droplets are prevented from splashing, and the liquid in the liquid discharge groove 30 is prevented from entering the surface of the bottom plate 10 through the cover plate 40 due to excessive water flow.

Further, both ends of the liquid discharge tank 30 in the axial direction are provided with seamless pipes 70 penetrating through the floor frame structure 20.

Specifically, seamless pipes 70 are connected to both ends of the drain tank 30 in the axial direction, and the seamless pipes 70 pass through the floor frame structure 20 and are fixedly connected to the floor frame structure 20. The seamless pipe 70 in the present application refers to a pipe without any gap on the side wall, and the liquid discharge tank 30 is communicated with the outside through the seamless pipe 70, so that the external liquid discharge pipe can discharge the liquid in the liquid discharge tank 30 to a designated position conveniently.

Further, a valve is provided on the seamless pipe 70.

The discharge control of the liquid discharge groove 30 is realized by arranging the valve, the fixed-point discharge of the liquid in the liquid discharge groove 30 is realized, and the resource waste is avoided.

Further, the end of the seamless pipe 70 extending out of the bottom plate frame structure 20 is provided with internal and/or external threads.

The drainage pipeline is connected with the seamless pipe 70 by arranging the internal and/or external threads on the seamless pipe 70, and no fixing part is needed to be additionally arranged, so that the drainage structure of the container is simpler.

The application also discloses a refrigeration device, which comprises the liquid discharge structure 100.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The liquid drainage structure comprises a bottom plate, a bottom plate frame structure and at least two second supporting pieces, wherein the bottom plate frame structure is used for supporting the bottom plate, two ends of each second supporting piece are connected to the bottom plate frame structure, and the liquid drainage structure is characterized in that a liquid drainage groove used for collecting liquid on the surface of the bottom plate is formed between at least one group of adjacent second supporting pieces, and is provided with a liquid drainage port.

2. The drainage structure of claim 1, wherein the side walls of the drainage channel are fixedly connected to the second support members at both sides.

3. The drainage structure of claim 1, wherein the second support member is a C-shaped support member, and the openings of the second support member on both sides of the drainage channel face away from each other or face each other.

4. The drainage structure of claim 1, wherein when at least two drainage grooves are provided, at least two of the drainage grooves are spaced apart.

5. The drain structure of claim 1, wherein the drain tank is provided with a cover plate in the same plane as the bottom plate, and the cover plate is provided with filter through holes.

6. The drain structure of claim 5, wherein the cover plate is provided with a plumbing drain for connecting a pipe.

7. The drainage structure of claim 1, wherein the drainage port is provided with a seamless pipe which passes through the floor frame structure to connect the drainage trough to the outside.

8. The drain structure of claim 1, wherein the floor frame structure is hollow, and the drain port communicates with the outside through a side wall of the floor frame structure.

9. An equipment support base comprising the drainage arrangement of claims 1 to 8.

10. A refrigeration appliance comprising the appliance support base of claim 9.

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