CN217602931U - Air compressor system - Google Patents

Abstract

The utility model discloses an air compressor system, including motor, compression host computer, adsorption tower, controller, air inlet pipeline, air outlet pipeline, air exhaust pipeline one, air exhaust pipeline two, set up the first on-off valve on the air inlet pipeline, set up the second on-off valve on air exhaust pipeline one, set up the third on-off valve on air exhaust pipeline two and set up the fourth on-off valve on air outlet pipeline, air inlet pipeline links to each other with the compression host computer input, air outlet pipeline communicates compression host computer output with the adsorption tower, air exhaust pipeline one links to each other the adsorption tower with the compression host computer input, air exhaust pipeline two links to each other with the compression host computer output; when the first on-off valve and the fourth on-off valve are closed simultaneously and the second on-off valve and the third on-off valve are opened simultaneously, the first air extraction pipeline is communicated with the second air extraction pipeline; when the first on-off valve and the fourth on-off valve are opened simultaneously and the second on-off valve and the third on-off valve are closed simultaneously, the air inlet pipeline is communicated with the air outlet pipeline. And flexible switching between positive pressure and negative pressure is realized.

Description

Air compressor system

Technical Field

The utility model relates to an air treatment technical field especially relates to an air compressor system.

Background

The positive pressure system is used for providing compressed air, and the negative pressure system is used for forming negative pressure, so that the positive pressure system and the negative pressure system are required to provide compressed air and negative pressure for many production, assembly and equipment.

The positive pressure system and the negative pressure system in the same place in the prior art usually adopt split type design, and the positive pressure system and the negative pressure system that independently purchase respectively promptly, but the positive pressure system and the negative pressure system that split type arranged area is great usually, are not suitable for small area place to use, greatly crowd and occupy production space, and the positive pressure system and the negative pressure system structure of integral type are complicated, switch inconveniently.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an air compressor system, which not only can provide positive pressure and negative pressure, but also has convenient operation and small occupied area.

The purpose of the utility model is realized by adopting the following technical scheme:

an air compressor system comprises a motor, a compression host, an adsorption tower, a first on-off valve, a second on-off valve, a third on-off valve, a fourth on-off valve, an air inlet pipeline, an air outlet pipeline, an air exhaust pipeline I, an air exhaust pipeline II and a controller, wherein the motor is in transmission connection with the compression host; the first air suction pipeline connects the adsorption tower with the input end of the compression host, the second on-off valve is arranged on the first air suction pipeline, the second air suction pipeline is connected with the output end of the compression host, and the third on-off valve is arranged on the second air suction pipeline; the motor, the first on-off valve, the second on-off valve, the third on-off valve and the fourth on-off valve are respectively electrically connected with the controller; when the first on-off valve and the fourth on-off valve are closed simultaneously and the second on-off valve and the third on-off valve are opened simultaneously, the first air suction pipeline is communicated with the second air suction pipeline and is used for sucking air to generate negative pressure; when the first on-off valve and the fourth on-off valve are opened simultaneously and the second on-off valve and the third on-off valve are closed simultaneously, the air inlet pipeline is communicated with the air outlet pipeline and is used for outputting compressed air.

And further, the air compressor further comprises an air filter, and an outlet of the air filter is connected with an input end of the compression main machine through the air inlet pipeline.

Further, the first on-off valve is arranged between the outlet of the air filter and the input end of the compression main machine.

And furthermore, the compressor further comprises a silencer, and an inlet of the silencer is connected with an output end of the compression main machine through the second suction pipeline.

Further, the third shutoff valve is arranged between the inlet of the silencer and the output end of the compression main machine.

Furthermore, the compressor further comprises a three-way joint A, and the input end of the compressor main machine is respectively connected with the air inlet pipeline and the first air suction pipeline through the three-way joint A.

The output end of the compression host is connected with the air outlet pipeline and the air suction pipeline II through the three-way joint B respectively.

And the adsorption tower is connected with the first air suction pipeline and the first air outlet pipeline through the three-way joint C.

Further, the first on-off valve, the second on-off valve, the third on-off valve and the fourth on-off valve are all pneumatic valves.

Further, the compression main machine is a screw compressor.

Compared with the prior art, the beneficial effects of the utility model reside in that:

in the utility model, when the adsorption tower needs a negative pressure effect, the controller controls the first on-off valve and the fourth on-off valve to be closed simultaneously, the second on-off valve and the third on-off valve are opened simultaneously, at the moment, the air suction pipeline I is communicated with the air suction pipeline II, the motor is started, the compression host sucks air from the adsorption tower, and the sucked air is discharged into the environment through the air suction pipeline I, the compression host and the air suction pipeline II in sequence to realize the negative pressure effect; when the adsorption tower needs a positive pressure effect, the controller controls the first on-off valve and the fourth on-off valve to be opened simultaneously, when the second on-off valve and the third on-off valve are closed simultaneously, the air inlet pipeline and the air outlet pipeline are communicated, the motor is started, air enters the compression host from the air inlet pipeline, the compression host compresses the air, and the compressed air is input into the adsorption tower through the air outlet pipeline to achieve the positive pressure effect. Through the design of first on-off valve, second on-off valve, third on-off valve, fourth on-off valve and controller, only need a compression host computer and a motor can realize the switching of malleation and negative pressure, whole small, area is little, utilizes the controller to realize the break-make of first on-off valve, second on-off valve, third on-off valve, fourth on-off valve, and easy operation is convenient, and the flexibility is strong.

Drawings

FIG. 1 is a schematic view of an air compressor system according to the present disclosure;

in the figure: 1. a motor; 2. compressing the host; 3. an adsorption tower; 4. a first on-off valve; 5. a second on-off valve; 6. a third shutoff valve; 7. a fourth shutoff valve; 8. an air intake line; 9. a three-way joint A; 10. an air pumping pipeline I; 11. an air outlet pipeline; 12. a three-way joint B; 13. an air pumping pipeline II; 14. a three-way joint C; 15. an air cleaner; 16. a silencer.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "horizontal", "vertical", "top", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "one," "another," and the like, are used to distinguish similar elements, and these terms and other similar terms are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or through both elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art. Corresponding reference numbers are used throughout the drawings for identical or corresponding elements (e.g., elements identified as "1XX" and "2XX" are structurally identical and functionally similar).

As shown in fig. 1, for the utility model provides an air compressor system, including motor 1, compression host 2, adsorption tower 3, first on-off valve 4, second on-off valve 5, third on-off valve 6, fourth on-off valve 7, air inlet pipeline 8, air outlet pipeline 11, extraction pipeline one 10, extraction pipeline two 13 and controller, motor 1 is connected with compression host 2 transmission, air inlet pipeline 8 with the input of compression host 2 links to each other, set up on the air inlet pipeline 8 first on-off valve 4, air outlet pipeline 11 with the output of compression host 2 and adsorption tower 3 intercommunication, set up on the air outlet pipeline 11 fourth on-off valve 7; the first air suction pipeline 10 connects the adsorption tower 3 with the input end of the compression host 2, the second on-off valve 5 is arranged on the first air suction pipeline 10, the second air suction pipeline 13 is connected with the output end of the compression host 2, and the third on-off valve 6 is arranged on the second air suction pipeline 13; the motor 1, the first on-off valve 4, the second on-off valve 5, the third on-off valve 6 and the fourth on-off valve 7 are respectively electrically connected with the controller; when the first on-off valve 4 and the fourth on-off valve 7 are closed simultaneously and the second on-off valve 5 and the third on-off valve 6 are opened simultaneously, the air suction pipeline I10 is communicated with the air suction pipeline II 13 and used for sucking air to generate negative pressure; when the first on-off valve 4 and the fourth on-off valve 7 are opened simultaneously and the second on-off valve 5 and the third on-off valve 6 are closed simultaneously, the air inlet pipeline 8 is communicated with the air outlet pipeline 11 and is used for outputting compressed air.

The utility model discloses in, motor 1 is used for driving 2 operation of compressor main unit in order to compress the air, and its pivot of motor 1 accessible is direct to be connected with compressor main unit 2, also can be connected with compressor main unit 2 transmission through mechanisms such as belt drive mechanism, gear drive mechanism or shaft coupling. When the adsorption tower 3 needs a negative pressure effect, the controller controls the first on-off valve 4 and the fourth on-off valve 7 to be closed simultaneously, the second on-off valve 5 and the third on-off valve 6 to be opened simultaneously, at the moment, the air suction pipeline I10 is communicated with the air suction pipeline II 13, the motor 1 is started, the compression host 2 sucks air from the adsorption tower 3, and the sucked air is discharged into the environment through the air suction pipeline I10, the compression host 2 and the air suction pipeline II 13 in sequence to achieve the negative pressure effect; when adsorption tower 3 needs the malleation effect, the first on-off valve 4 of controller control and fourth on-off valve 7 are opened simultaneously, and when second on-off valve 5 and third on-off valve 6 were closed simultaneously, inlet line 8 and air outlet pipeline 11 are linked together, and motor 1 starts, and the air gets into compressor unit 2 from inlet line 8, and compressor unit 2 compresses the air, and the air after the compression realizes the malleation effect in the outlet pipeline 11 input adsorption tower 3. Through the design of first on-off valve 4, second on-off valve 5, third on-off valve 6, fourth on-off valve 7 and controller, only need a compression host 2 and a motor 1 can realize the switching of malleation and negative pressure, whole small, area is little, utilizes the controller to realize the break-make of first on-off valve 4, second on-off valve 5, third on-off valve 6, fourth on-off valve 7, and easy operation is convenient, and the flexibility is strong.

Preferably, an air filter 15 is further included, and an outlet of the air filter 15 is connected with an input end of the compression main machine 2 through the air inlet pipeline 8. Through setting up air cleaner 15 to the impurity in the filtering air, ensure that the compressed air of input has higher cleanliness factor.

Preferably, the first on-off valve 4 is arranged between the outlet of the air filter 15 and the input of the compression main machine 2.

Preferably, a silencer 16 is further included, and an inlet of the silencer 16 is connected with an output end of the compression main machine 2 through the second suction pipeline 13. By providing the silencer 16, a lower noise effect is achieved.

Preferably, said third shut-off valve 6 is arranged between the inlet of the muffler 16 and the output of the compression master 2.

Preferably, the system further comprises a three-way joint A9, and the input end of the main compressor 2 is respectively connected with the air inlet pipeline 8 and the first suction pipeline 10 through the three-way joint A9. The connection through the tee joint A9 is convenient for disassembly and assembly, and meanwhile, the arrangement of pipelines is simplified, and the occupied area is further reduced.

Preferably, the compressor further comprises a three-way joint B12, and the output end of the main compressor 2 is respectively connected with the gas outlet pipeline 11 and the second suction pipeline 13 through the three-way joint B12. The connection through the tee joint B12 is convenient to disassemble and assemble, and meanwhile, the arrangement of pipelines is simplified, and the occupied area is further reduced.

Preferably, the adsorption tower further comprises a three-way joint C14, and the adsorption tower 3 is respectively connected with the first suction line 10 and the gas outlet line 11 through the three-way joint C14. The connection through the tee joint C14 is convenient for disassembly and assembly, and meanwhile, the arrangement of pipelines is simplified, and the occupied area is further reduced.

Preferably, the first on-off valve 4, the second on-off valve 5, the third on-off valve 6 and the fourth on-off valve 7 are all pneumatic valves.

Preferably, the compression main machine 2 is a screw compressor. The screw compressor has simple structure, small volume, few moving parts, simple maintenance and clean and sanitary output compressed air.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. An air compressor system is characterized by comprising a motor (1), a compression host (2), an adsorption tower (3), a first on-off valve (4), a second on-off valve (5), a third on-off valve (6), a fourth on-off valve (7), an air inlet pipeline (8), an air outlet pipeline (11), an air suction pipeline I (10), an air suction pipeline II (13) and a controller, wherein the motor (1) is in transmission connection with the compression host (2), the air inlet pipeline (8) is connected with the input end of the compression host (2), the air inlet pipeline (8) is provided with the first on-off valve (4), the air outlet pipeline (11) is used for communicating the output end of the compression host (2) with the adsorption tower (3), and the air outlet pipeline (11) is provided with the fourth on-off valve (7); the adsorption tower (3) is connected with the input end of the compression host (2) through the air suction pipeline I (10), the second on-off valve (5) is arranged on the air suction pipeline I (10), the air suction pipeline II (13) is connected with the output end of the compression host (2), and the third on-off valve (6) is arranged on the air suction pipeline II (13); the motor (1), the first on-off valve (4), the second on-off valve (5), the third on-off valve (6) and the fourth on-off valve (7) are respectively electrically connected with the controller; when the first on-off valve (4) and the fourth on-off valve (7) are closed simultaneously and the second on-off valve (5) and the third on-off valve (6) are opened simultaneously, the air suction pipeline I (10) is communicated with the air suction pipeline II (13) and is used for sucking air to generate negative pressure; when the first on-off valve (4) and the fourth on-off valve (7) are opened simultaneously and the second on-off valve (5) and the third on-off valve (6) are closed simultaneously, the air inlet pipeline (8) is communicated with the air outlet pipeline (11) and is used for outputting compressed air.

2. An air compressor system according to claim 1, further comprising an air filter (15), the outlet of the air filter (15) being connected to the input of the compression main (2) through the intake line (8).

3. An air compressor system according to claim 2, wherein the first on-off valve (4) is provided between the outlet of the air filter (15) and the input of the compression main unit (2).

4. The air compressor system of claim 1, further comprising a silencer (16), wherein an inlet of the silencer (16) is connected to an output of the compression main unit (2) through the second suction line (13).

5. An air compressor system according to claim 4, wherein the third shut-off valve (6) is arranged between the inlet of the muffler (16) and the output of the compression main (2).

6. The air compressor system according to claim 1, further comprising a three-way joint a (9), wherein the input of the compression main machine (2) is connected to the air inlet pipeline (8) and the suction pipeline one (10) through the three-way joint a (9), respectively.

7. The air compressor system as claimed in claim 1, further comprising a three-way joint B (12), wherein the output end of the compression main unit (2) is connected to the air outlet pipeline (11) and the air suction pipeline two (13) through the three-way joint B (12), respectively.

8. The air compressor system according to claim 1, further comprising a three-way joint C (14), wherein the adsorption tower (3) is connected to the suction line one (10) and the discharge line (11) through the three-way joint C (14), respectively.

9. The air compressor system of claim 1, wherein the first (4), second (5), third (6) and fourth (7) on-off valves are pneumatic valves.

10. The air compressor system of claim 1, wherein the compression main (2) is a screw compressor.

Images