CN212107849U - Novel hydrogen compression skid-mounted equipment - Google Patents

Abstract

The utility model discloses a novel hydrogen compression skid-mounted device, which comprises a heat exchanger, a beam, an electrical control cabinet, a compressor, a skid body, a stand column, a pipeline system, an I-shaped steel beam and a ceiling; the vertical columns are arranged around the prying body and are perpendicular to the prying body, the cross beam is arranged at the top of the adjacent vertical columns, and the prying body, the vertical columns and the cross beam form a rectangular frame structure; the electric control cabinet, the compressor and the pipeline system are dispersedly arranged in the frame structure; the heat exchanger is arranged on the long-edge beam on one side, and is vertically suspended on the long-edge beam; the skid-mounted hydrogen storage box adopts an open structure design, so that the skid-mounted hydrogen storage box is convenient to install and maintain, and can be quickly discharged if hydrogen is leaked.

Description

Novel hydrogen compression skid-mounted equipment

Technical Field

The utility model relates to a hydrogen supercharging equipment field especially relates to a novel hydrogen compression sled dress equipment and system.

Background

With the development of the hydrogen energy industry in China, the demand of hydrogen pressurization equipment in China is continuously increased, and various types of hydrogen pressurization equipment emerge endlessly, but the hydrogen pressurization equipment in the prior art is often integrally packaged or assembled by a whole machine, so that the equipment is difficult to maintain or has overhigh maintenance cost when being used by later customers, and in the prior art, skid-mounted equipment arranged by the whole machine cannot be quickly discharged when hydrogen is leaked.

Therefore, the hydrogen compression skid-mounted equipment which is low in maintenance cost, easy to maintain and better in safety performance needs to be invented.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above problem, a novel hydrogen compression sled dress equipment is provided for solve among the prior art hydrogen compression sled dress equipment and maintain the difficulty, the maintenance cost is high, and the problem that the security performance is not high.

The scheme is realized as follows:

a novel hydrogen compression skid-mounted device comprises a heat exchanger, a cross beam, an electrical control cabinet, a compressor, a skid body, a stand column, a pipeline system, an I-shaped steel beam and a ceiling; the vertical columns are arranged around the prying body and are perpendicular to the prying body, the cross beam is arranged at the top of the adjacent vertical columns, and the prying body, the vertical columns and the cross beam form a rectangular frame structure; the electric control cabinet, the compressor and the pipeline system are dispersedly arranged in the frame structure.

Preferably, the cross beams comprise long-edge cross beams and short-edge cross beams, the upper parts of the long edges of the prying bodies are correspondingly arranged as long-edge cross beams, the upper parts of the short edges of the prying bodies are correspondingly arranged as short-edge cross beams, the heat exchanger is arranged on the long-edge cross beam on one side and is vertically suspended on the long-edge cross beams,

preferably, the electrical control cabinet is arranged on the pry body, the electrical control cabinet is arranged on the opposite end face of the heat exchanger, the compressor is arranged at the center of the pry body, and the compressor, the heat exchanger and the electrical control cabinet are spaced at a certain distance.

Preferably, the pipeline system is arranged on a short side of one side of the prying body, and the pipeline system is vertically arranged between the short side of the prying body and the short side beam.

Preferably, the I-shaped steel beam is arranged between the two long-edge beams, the I-shaped steel beam provides a connecting stress point for the top, the ceiling is arranged at the top of the frame structure, and the ceiling is connected with the upright columns and the I-shaped steel beam, so that the ceiling is more stable to mount.

Preferably, the i-shaped steel beam is arranged corresponding to the compressor.

Preferably, the lower end of the ceiling is provided with an air exchange plate, and the air exchange plate is arranged around the lower edge of the ceiling.

Preferably, the heat exchanger, the compressor, the pipeline system and the prying body structure are all detachable structures, and the ceiling and a cross beam on the side face are also detachably connected.

As preferred, be provided with the ceiling supporting seat between ceiling and the crossbeam, the ceiling supporting seat evenly sets up at long limit crossbeam and minor face crossbeam, and the ceiling supporting seat makes between ceiling and the crossbeam certain distance in interval compare with prior art, the beneficial effects of the utility model are that:

1. the overall structure of this scheme is the frame nature structure to the mode that the connection can be dismantled in the adoption is connected, can make things convenient for the manufacturing and the transportation of single subassembly on the one hand, and also can make things convenient for the later stage to maintain and maintain hydrogen compression sled dress equipment, and this application wholly adopts frame fretwork form setting, has reduced when hydrogen takes place to leak, gathers inside hydrogen compression sled dress equipment, has eliminated the possibility of hydrogen gathering, has promoted safety in performance.

2. Through the device, the functions of hydrogen compression, hydrogen precooling, hydrogen filling and the like with downstream equipment are realized more safely, and the safety performance of hydrogen in the compression process is improved.

Drawings

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

fig. 2 is a schematic view of the position of the ceiling in the present invention;

fig. 3 is a schematic view of the overall structure of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3 at C;

in the figure: 1. a heat exchanger; 2. a cross beam; 3. an electrical control cabinet; 4. a compressor; 5. a pry body; 6. a piping system; 7. an I-beam; 8. a ceiling; 9. a column; 21. a long-side beam; 22. a short-side beam; 10. a ventilation plate; 11. a ceiling supporting seat.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "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 being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise. Heat exchanger, detachable cross beam, electrical control cabinet, compressor, prying body, pipeline system, I-shaped steel beam and ceiling

Example 1

Referring to fig. 1 to 4, the present invention provides a technical solution:

a novel hydrogen compression skid-mounted device comprises a heat exchanger 1, a cross beam 2, an electrical control cabinet 3, a compressor 4, a skid body 5, a stand column 9, a pipeline system 6, an I-shaped steel beam 7 and a ceiling 8; the vertical columns 9 are arranged around the prying body 5, the vertical columns 9 are perpendicular to the prying body 5, the cross beams 2 are arranged at the top of the adjacent vertical columns 9, and the prying body 5, the vertical columns 9 and the cross beams 2 form a rectangular frame structure;

sled body 5 is the rectangle structure, crossbeam 2 includes long limit crossbeam 21 and minor face crossbeam 22, the correspondence of long limit upper portion of sled body 5 sets up to long limit crossbeam 21, the correspondence of minor face upper portion of sled body 5 sets up to minor face crossbeam 22, heat exchanger 1 sets up on long limit crossbeam 21 of one side, heat exchanger 1 hangs the setting perpendicularly on long limit crossbeam 21, electrical control cabinet 3 sets up on sled body 5, electrical control cabinet 3 sets up on the opposition terminal surface of heat exchanger 1, compressor 4 sets up at sled body 5 central point and puts, and compressor 4 and heat exchanger 1 and electrical control cabinet 3 equal certain distance at an interval, can make things convenient for when the device takes place to damage, maintains the device.

The compressor 4 communicates with a pipe system 6, by means of which compressor 4 the compression of hydrogen is achieved. The radiator realizes the elimination to inside heat, guarantees the security of inside subassembly.

Pipe-line system 6 sets up on one side minor face of sled body 5, pipe-line system 6 sets up perpendicularly and sled 5 minor face and the position between the minor face crossbeam 22, and the area of whole pipeline can be reduced to pipe-line system 6 that sets up perpendicularly to simple structure, operation maintenance is convenient, and the reasonable layout of pipeline makes whole equipment compacter.

I-steel beam 7 sets up the position between two long limit crossbeams 21, I-steel beam 7 provides the connection stress point for the top, and is that holistic frame construction is more firm, ceiling 8 sets up the top position at frame construction, and ceiling 8 is connected with stand 9 and crossbeam 2, makes more firm of ceiling 8 installation.

Be provided with ceiling supporting seat 11 between ceiling 8 and crossbeam 2, ceiling supporting seat 11 evenly sets up at long limit crossbeam 21 and minor face crossbeam 22, and ceiling supporting seat 11 makes certain distance in interval between ceiling 8 and the crossbeam 2, makes things convenient for hydrogen to discharge in time and goes, reduces the installation of 8 air blowers of ceiling, reduces manufacturing cost.

I-steel beam 7 corresponds the setting with compressor 4, and I-steel beam 7 can regard as the guide rail of hoist and mount 4 aircraft nose calabashes of compressor, and the diaphragm and the maintenance are changed to compressor 4 of being convenient for. The maintenance difficulty is reduced.

In order to ensure positive heat dissipation, the lower end of the ceiling 8 is provided with an air exchange plate 10, and the air exchange plate 10 is arranged around the lower edge of the ceiling 8.

The parts of the heat exchanger 1 are independently arranged in a detachable mode, when the heat exchanger 1 is used for a long time, the heat exchange pipeline can be blocked or damaged, the damaged heat exchange pipeline and the blocked parts can be independently replaced, and the maintenance cost is reduced.

Compressor 4, pipe-line system 6, sled body 5 structure all adopt detachable construction, conveniently make and maintain, ceiling 8 and a side crossbeam 2 also for can dismantling the connection, the compressor 4 of being convenient for hoist and mount from the side or above when assembling compressor 4, simplify the installation procedure, practice thrift installation time, reduce installation intensity.

The overall structure of this scheme is the frame nature structure to the mode that the connection can be dismantled in the adoption is connected, can make things convenient for the manufacturing and the transportation of single subassembly on the one hand, and also can make things convenient for the later stage to maintain and maintain hydrogen compression sled dress equipment, and this application wholly adopts frame fretwork form setting, has reduced when hydrogen takes place to leak, gathers inside hydrogen compression sled dress equipment, has eliminated the possibility of hydrogen gathering, has promoted safety in performance.

Through the device, the functions of hydrogen compression, hydrogen precooling, hydrogen filling and the like with downstream equipment are realized more safely, and the safety performance of hydrogen in the compression process is improved.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a novel hydrogen compression sled dress equipment which characterized in that: the device comprises a heat exchanger, a cross beam, an electrical control cabinet, a compressor, a prying body, a stand column, a pipeline system, an I-shaped steel beam and a ceiling; the vertical columns are arranged around the prying body and are perpendicular to the prying body, the cross beam is arranged at the top of the adjacent vertical columns, and the prying body, the vertical columns and the cross beam form a rectangular frame structure; the electric control cabinet, the compressor and the pipeline system are dispersedly arranged in the frame structure.

2. The novel hydrogen compression skid-mounted device of claim 1, wherein: the crossbeam includes long limit crossbeam and minor face crossbeam, the correspondence of long limit upper portion of the sled body sets up to long limit crossbeam, the correspondence of minor face upper portion of the sled body sets up to the minor face crossbeam, the heat exchanger sets up on the long limit crossbeam of one side, the heat exchanger hangs the setting perpendicularly on long limit crossbeam.

3. The novel hydrogen compression skid-mounted device of claim 2, wherein: the electric control cabinet is arranged on the prying body, the electric control cabinet is arranged on the opposite end face of the heat exchanger, the compressor is arranged at the center of the prying body, and the compressor, the heat exchanger and the electric control cabinet are spaced at a certain distance.

4. The novel hydrogen compression skid-mounted device of claim 3, wherein: the pipeline system is arranged on the short edge of one side of the prying body and is vertically arranged between the short edge of the prying body and the short edge beam.

5. The novel hydrogen compression skid-mounted device of claim 4, wherein: the I-shaped steel beam is arranged between the two long-edge cross beams, the I-shaped steel beam provides a connection stress point for the top, the ceiling is arranged at the top of the frame structure, and the ceiling is connected with the stand columns and the I-shaped steel beam, so that the ceiling is more stable to mount.

6. The novel hydrogen compression skid-mounted device of claim 5, wherein: the I-shaped steel beam is arranged corresponding to the compressor.

7. The novel hydrogen compression skid-mounted device of claim 6, wherein: the lower end of the ceiling is provided with an air exchange plate, and the air exchange plate is arranged around the lower edge of the ceiling.

8. The novel hydrogen compression skid-mounted device of claim 7, wherein: the components of the heat exchanger are independently and detachably arranged.

9. The novel hydrogen compression skid-mounted device as claimed in any one of claims 1 to 7, wherein: the heat exchanger, the compressor, the pipeline system and the prying body structure all adopt detachable structures, and the ceiling and a cross beam on the side face are also detachably connected.

10. The novel hydrogen compression skid-mounted device of claim 9, wherein: a ceiling supporting seat is arranged between the ceiling and the cross beam, the ceiling supporting seat is uniformly arranged on the long-edge cross beam and the short-edge cross beam, and the ceiling supporting seat enables the ceiling and the cross beam to be spaced at a certain distance.

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