CN209818241U - Magnetic reciprocating piston compressor - Google Patents

Abstract

The utility model belongs to the compressor field of making relates to reciprocating piston compressor, specifically is a magnetic force reciprocating piston compressor, and its characterized in that includes: compressor cylinder body, piston assembly, cylinder cap, first electro-magnet and second electro-magnet, the inside of compressor cylinder body is provided with piston assembly, the both sides of compressor cylinder body are provided with first electro-magnet and second electro-magnet, be provided with the cylinder cap on first electro-magnet and the second electro-magnet. The utility model provides a problem of the high power consumption in the current equipment use, the energy consumption that has significantly reduced has saved manufacturing cost, has solved the too much vulnerable part loss that leads to of current equipment moving part and has caused the problem that the user cost increases too much, has reduced cycle and the cost of maintenance of later stage equipment overhaul, the utility model belongs to no basic equipment directly puts flat ground and can put on use, has solved current compressor numerous and diverse installation cycle in earlier stage and the design work volume that has significantly reduced.

Description

Magnetic reciprocating piston compressor

Technical Field

The utility model belongs to the compressor field of making relates to reciprocating piston compressor, specifically is a magnetic force reciprocating piston compressor.

Background

The compressor is mainly used for compressing low-pressure gas into high-pressure gas, wherein the reciprocating piston compressor has a wide pressure increasing range, and the mechanical reciprocating piston compressor used in the current market has a wide market application field, such as: the compressor is used in the fields of gas pressurization, such as an inflating pump, a natural gas pressurization conveying station, a natural gas filling station, the chemical industry, an emptying natural gas recovery station, the engineering field, the medical field and the like;

the piston compressor used in the market converts rotary motion into reciprocating linear motion of a piston to enable the piston to form a compression process of gas in a cylinder, the main structure is that a motor drives the rotary motion of a connecting rod connected with a crankshaft supported in a crankcase to convert into linear motion through connecting a crosshead, the crosshead is connected with a piston rod of the piston rod and is provided with a piston body, so that the piston can realize reciprocating motion in the cylinder to perform the compression process of the gas, and the gas in the cylinder is sealed by filling materials to prevent the gas from leaking from the piston rod to achieve the compression process and the sealing process of the gas; compared with the utility model, the structure needs to generate high power consumption of the motor, high consumption of lubricating oil of the crankcase, too many wearing parts with large mechanical vibration (such as a big end and a small end of a connecting rod, a grinding surface of a cross head, filling materials, and the like all belong to high wearing parts), most wearing parts belong to the reciprocating piston molding machine in the compressor industry all over the world, and labor cost and high labor cost are used for assembling one piece of equipment in a complex process of the reciprocating piston compressor assembling process.

SUMMERY OF THE UTILITY MODEL

To the deficiency among the prior art, the utility model provides a magnetic force reciprocating piston compressor.

A magnetic force reciprocating piston compressor, comprising: compressor cylinder body, piston assembly, cylinder cap, first electro-magnet and second electro-magnet, the inside of compressor cylinder body is provided with piston assembly, the both sides of compressor cylinder body are provided with first electro-magnet and second electro-magnet, be provided with the cylinder cap on first electro-magnet and the second electro-magnet.

And an air inlet valve and an air outlet valve are arranged between the compressor cylinder body and the first electromagnet.

And an air inlet valve and an air outlet valve are arranged between the compressor cylinder body and the second electromagnet.

The intake and exhaust valves communicate with the interior space of the compressor cylinder.

The piston assembly comprises a piston and a permanent magnet, and the piston and the permanent magnet are connected with each other to form the piston assembly.

The piston assembly is in contact with the inner wall of the compressor cylinder body and reciprocates in the compressor cylinder body.

The first electromagnet and the second electromagnet are both high-power strong-magnetic electromagnets.

The working principle is as follows:

the utility model adopts the cylinder both ends to install the powerful electromagnet to compress the piston body in the cylinder, the piston body is light compression-resistant cast aluminum, cast aluminum both ends face and electromagnet contact surface installation permanent magnets, the piston body is switched in the matching of the staggering peak of the electromagnet at the cylinder both ends through the powerful electromagnet at the cylinder both ends and the permanent magnet on the piston body to make the piston body do reciprocating motion in the cylinder to carry out the compression process of gas; wherein, in order to reduce the friction force caused by the self weight of the piston body, oil lubrication is respectively carried out on the upper part and the lower part of the ground points of the piston ring and the support ring in the cylinder.

The utility model has the advantages that:

1. the utility model provides a problem of the high power consumption of existing equipment use, the energy consumption that has significantly reduced has saved manufacturing cost.

2. The utility model discloses simple structure has solved the problem that the too much vulnerable part loss that leads to of current equipment moving part caused the use side cost to increase too much.

3. The utility model discloses the cycle and the cost of maintenance of later stage equipment overhaul have been reduced.

4. The utility model belongs to there is not basic equipment directly to put on level land and can put and use, has solved the current compressor in earlier stage numerous and diverse installation cycle and the design work volume that has significantly reduced.

Reference numerals

1. The compressor comprises a compressor cylinder body, 2 air inlet valves, 3 exhaust valves, 4 piston assemblies, 5 permanent magnets, 6 cylinder covers, 7 first electromagnets and 8 second electromagnets.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

The specific implementation mode is as follows:

example 1:

a magnetic force reciprocating piston compressor, comprising: compressor cylinder body 1, piston assembly 4, cylinder cap 6, first electro-magnet 7 and second electro-magnet 8, the inside of compressor cylinder body 1 is provided with piston assembly 4, the both sides of compressor cylinder body 1 are provided with first electro-magnet 7 and second electro-magnet 8, be provided with cylinder cap 6 on first electro-magnet 7 and the second electro-magnet 8.

Example 2:

a magnetic force reciprocating piston compressor, comprising: compressor cylinder body 1, piston assembly 4, cylinder cap 6, first electro-magnet 7 and second electro-magnet 8, the inside of compressor cylinder body 1 is provided with piston assembly 4, the both sides of compressor cylinder body 1 are provided with first electro-magnet 7 and second electro-magnet 8, be provided with cylinder cap 6 on first electro-magnet 7 and the second electro-magnet 8.

An air inlet valve 2 and an air outlet valve 3 are arranged between the compressor cylinder body 1 and the first electromagnet 7.

An air inlet valve 2 and an air outlet valve 3 are arranged between the compressor cylinder body 1 and the second electromagnet 8.

Example 3:

a magnetic force reciprocating piston compressor, comprising: compressor cylinder body 1, piston assembly 4, cylinder cap 6, first electro-magnet 7 and second electro-magnet 8, the inside of compressor cylinder body 1 is provided with piston assembly 4, the both sides of compressor cylinder body 1 are provided with first electro-magnet 7 and second electro-magnet 8, be provided with cylinder cap 6 on first electro-magnet 7 and the second electro-magnet 8.

The piston assembly 4 comprises a piston and a permanent magnet 5, and the piston and the permanent magnet 5 are connected with each other to form the piston assembly 4.

The piston assembly 4 is in contact with the inner wall of the compressor cylinder 1 and reciprocates in the compressor cylinder 1.

The first electromagnet 7 and the second electromagnet 8 are both high-power strong-magnetic electromagnets.

Example 4:

a magnetic force reciprocating piston compressor, comprising: compressor cylinder body 1, piston assembly 4, cylinder cap 6, first electro-magnet 7 and second electro-magnet 8, the inside of compressor cylinder body 1 is provided with piston assembly 4, the both sides of compressor cylinder body 1 are provided with first electro-magnet 7 and second electro-magnet 8, be provided with cylinder cap 6 on first electro-magnet 7 and the second electro-magnet 8.

An air inlet valve 2 and an air outlet valve 3 are arranged between the compressor cylinder body 1 and the first electromagnet 7.

An air inlet valve 2 and an air outlet valve 3 are arranged between the compressor cylinder body 1 and the second electromagnet 8.

The intake valve 2 and the exhaust valve 3 communicate with the internal space of the compressor cylinder 1.

Example 5:

a magnetic force reciprocating piston compressor, comprising: compressor cylinder body 1, piston assembly 4, cylinder cap 6, first electro-magnet 7 and second electro-magnet 8, the inside of compressor cylinder body 1 is provided with piston assembly 4, the both sides of compressor cylinder body 1 are provided with first electro-magnet 7 and second electro-magnet 8, be provided with cylinder cap 6 on first electro-magnet 7 and the second electro-magnet 8.

The piston assembly 4 is in contact with the inner wall of the compressor cylinder 1 and reciprocates in the compressor cylinder 1.

The first electromagnet 7 and the second electromagnet 8 are both high-power strong-magnetic electromagnets.

Example 6:

a magnetic force reciprocating piston compressor, comprising: compressor cylinder body 1, piston assembly 4, cylinder cap 6, first electro-magnet 7 and second electro-magnet 8, the inside of compressor cylinder body 1 is provided with piston assembly 4, the both sides of compressor cylinder body 1 are provided with first electro-magnet 7 and second electro-magnet 8, be provided with cylinder cap 6 on first electro-magnet 7 and the second electro-magnet 8.

The piston assembly 4 comprises a piston and a permanent magnet 5, and the piston and the permanent magnet 5 are connected with each other to form the piston assembly 4.

The piston assembly 4 is in contact with the inner wall of the compressor cylinder 1 and reciprocates in the compressor cylinder 1.

Example 7:

a magnetic force reciprocating piston compressor, comprising: compressor cylinder body 1, piston assembly 4, cylinder cap 6, first electro-magnet 7 and second electro-magnet 8, the inside of compressor cylinder body 1 is provided with piston assembly 4, the both sides of compressor cylinder body 1 are provided with first electro-magnet 7 and second electro-magnet 8, be provided with cylinder cap 6 on first electro-magnet 7 and the second electro-magnet 8.

An air inlet valve 2 and an air outlet valve 3 are arranged between the compressor cylinder body 1 and the first electromagnet 7.

An air inlet valve 2 and an air outlet valve 3 are arranged between the compressor cylinder body 1 and the second electromagnet 8.

The intake valve 2 and the exhaust valve 3 communicate with the internal space of the compressor cylinder 1.

The piston assembly 4 comprises a piston and a permanent magnet 5, and the piston and the permanent magnet 5 are connected with each other to form the piston assembly 4.

The piston assembly 4 is in contact with the inner wall of the compressor cylinder 1 and reciprocates in the compressor cylinder 1.

The first electromagnet 7 and the second electromagnet 8 are both high-power strong-magnetic electromagnets.

The utility model has the advantages that:

1. the utility model provides a problem of the high power consumption of existing equipment use, the energy consumption that has significantly reduced has saved manufacturing cost.

2. The utility model discloses simple structure has solved the problem that the too much vulnerable part loss that leads to of current equipment moving part caused the use side cost to increase too much.

3. The utility model discloses the cycle and the cost of maintenance of later stage equipment overhaul have been reduced.

4. The utility model belongs to there is not basic equipment directly to put on level land and can put and use, has solved the current compressor in earlier stage numerous and diverse installation cycle and the design work volume that has significantly reduced.

Claims (7)

1. A magnetic force reciprocating piston compressor, comprising: compressor cylinder body (1), piston assembly (4), cylinder cap (6), first electro-magnet (7) and second electro-magnet (8), the inside of compressor cylinder body (1) is provided with piston assembly (4), the both sides of compressor cylinder body (1) are provided with first electro-magnet (7) and second electro-magnet (8), be provided with cylinder cap (6) on first electro-magnet (7) and second electro-magnet (8).

2. A magnetic reciprocating piston compressor as claimed in claim 1, wherein: an air inlet valve (2) and an air outlet valve (3) are arranged between the compressor cylinder body (1) and the first electromagnet (7).

3. A magnetic reciprocating piston compressor as claimed in claim 1, wherein: an air inlet valve (2) and an air outlet valve (3) are arranged between the compressor cylinder body (1) and the second electromagnet (8).

4. A magnetic reciprocating piston compressor as claimed in claim 2, wherein: and the air inlet valve (2) and the air outlet valve (3) are communicated with the inner space of the compressor cylinder body (1).

5. A magnetic reciprocating piston compressor as claimed in claim 1, wherein: the piston assembly (4) comprises a piston and a permanent magnet (5), and the piston and the permanent magnet (5) are connected with each other to form the piston assembly (4).

6. A magnetic reciprocating piston compressor as claimed in claim 1, wherein: the piston assembly (4) is in contact with the inner wall of the compressor cylinder body (1) and reciprocates in the compressor cylinder body (1).

7. A magnetic reciprocating piston compressor as claimed in claim 1, wherein: the first electromagnet (7) and the second electromagnet (8) are both strong magnetic electromagnets.