CN203114632U - Compressor - Google Patents

Abstract

The utility model relates to the technical field of compressors, and in particular relates to a compressor with a pump body component having a thermal-breaking characteristic. The compressor comprises a pump body component thermal-breaking body, a driving component for driving the pump body component thermal-breaking body, an inlet/outlet air pipe assembly and a casing, wherein the pump body component thermal-breaking body and the driving component are respectively arranged in the casing; and the inlet/outlet air pipe assembly comprises an air inlet pipe and an air outlet pipe which are respectively arranged in the casing and are connected with the pump body component thermal-breaking body so as to enable air to enter or exit. By utilizing the thermal-breaking characteristic of the pump body component thermal-breaking body, the heat exchange between a pump body component and refrigerant gas is prevented, so that the heat loss is reduced and the compression efficiency is improved. Therefore, the energy efficiency ratio of the compressor is improved integrally.

Description

A kind of compressor

Technical field

The utility model relates to the Compressor Technology field, particularly the compressor of the disconnected hot body of pump assembly with disconnected thermal property.

Background technique

Compressor, be that a kind of low-pressure gas is promoted is the fluid machinery of pressurized gas, it is the heart of refrigeration system, the refrigerant gas of low-temp low-pressure sucks by suction tude, after by driven unit running drive pump assembly the refrigerant gas that sucks being compressed simultaneously, to the refrigerant gas of steam outlet pipe discharge High Temperature High Pressure, for refrigeration cycle provides power, thus the refrigeration cycle of realization compression → condensation → expansion → evaporation.

During compressor operating, refrigerant gas moves to pressing chamber by piston operation with refrigerant gas and compresses via liquid-storage container inhale chamber, and the refrigerant gas after the compression is opened via valve block and entered in the compressor housing.When refrigerant gas during via liquid-storage container inhale chamber, this moment, induction chamber was low temperature area, upper bearing (metal) in the corresponding pump assembly, lower bearing, piston, slide plate, intermediate plate and cylinder all have half to be in low temperature area, when refrigerant gas sucks, the refrigerant gas of pressing chamber is also simultaneously compressed, this moment, pressing chamber was the high-temperature zone, and the upper bearing (metal) in the corresponding pump assembly, lower bearing, piston, slide plate, intermediate plate and cylinder all have half to be in the high-temperature zone, therefore, half of pump assembly is in low temperature area, its second half be in the high-temperature zone, the heat that causes pump assembly by the high-temperature part heat exchange to the low temperature part, with the refrigerant gas of expansion low temperature area, reduce the density that sucks refrigerant gas, be equivalent to reduce the quality of refrigerant gas, thereby made the heat of pressing chamber fully not be absorbed, caused energy dissipation.Be example with as shown in Figure 1 the pump assembly of rotary compressor in the prior art, explanation makes an explanation: when piston 4 turns round in pump assembly, piston 4 will directly rotate in high-temperature zone and low temperature area, when piston 4 runs to 0 when spending, half is in the high-temperature zone piston 4 surface, its second half be in low temperature area; When piston 4 runs to 180 when spending, the piston 4 of cold junction enters into the high-temperature zone, and the piston 4 in hot junction enters low temperature area, will reduce the intake of gas, has caused the waste of energy.

Aforesaid liquid-storage container and frame set, because the general temperature of refrigerant gas that enters in the liquid-storage container is lower than ambient temperature, cause liquid-storage container internal refrigeration storage agent gas and environment generation heat exchange, the gas density that causes entering induction chamber descends, the energy that sucks reduces, and the refrigerant gas that enters in the compressor housing is high-temperature gas, and its temperature will be far longer than ambient temperature, and its refrigerant gas that has compressed will cause the waste of refrigerant compressed gas energy with environment generation heat exchange.

And, compressor efficiency

,

Wherein,

Be mechanical efficiency,

Be compression efficiency,

Be motor (driven unit) efficient,

Be compressor efficiency.

Further,

Mechanical efficiency

Compression efficiency

Moyor

Under the N-TEC condition, above-mentioned mechanical efficiency value is 0.7～0.8, and the compression efficiency value is 3～5, the moyor value is 0.8～0.9, the compression efficiency value is mechanical efficiency value or moyor value 4～8 times, and therefore under this condition, improving compression efficiency is the best approach.

So according to above-mentioned formula as can be known,

Improve the method one of efficiency: at moyor

The middle efficient that improves motor is optimized the conductive capability of the copper cash in the motor or the shape of iron core, to improve the efficient of motor as far as possible;

Improve the method two of efficiency: mechanical efficiency

In reduce the motor output work as far as possible, usually the method that adopts be the coefficient of reducing friction, and strengthens greasy property, reduces traditional methods such as pressure of part, also is the method that mechanical aspects is raised the efficiency;

Improve the method three of efficiency: from the above, the best mode that improves compressor efficiency is disconnected hot compression, but compressor efficiency can not be disconnected hot compression, be bound to lose, so cause compressor efficiency to descend, and research in this respect is very important, therefore needs badly and proposes a kind of raising compression efficiency, reduces the compressor of the required merit of actual compression as far as possible.

The model utility content

The purpose of this utility model is to avoid above-mentioned deficiency of the prior art and a kind of compressor that can improve compression efficiency is provided.

The purpose of this utility model is achieved through the following technical solutions:

A kind of compressor, comprise pump assembly break hot body, the driven unit that be used for to drive the disconnected hot body of described pump assembly, turnover tracheae assembly and housing, the disconnected hot body of described pump assembly and described driven unit all are arranged in the described housing, described turnover tracheae assembly comprises suction tude and steam outlet pipe, described suction tude and described steam outlet pipe all are arranged at housing, and are connected so that gas can pass in and out with the disconnected hot body of described pump assembly.

Wherein, the disconnected hot body of described pump assembly is the disconnected hot body of stainless steel of pump assembly.

Wherein, the disconnected hot body of stainless steel of described pump assembly comprises static vortex disk break hot body of stainless steel, the disconnected hot body of stainless steel of movable orbiting scroll and the disconnected hot body of stainless steel of bent axle, and described driven unit connects the disconnected hot body of stainless steel of described bent axle and meshes to drive the disconnected hot body of stainless steel of described movable orbiting scroll and the described static vortex disk hot body of stainless steel that breaks.

Wherein, the disconnected hot body of stainless steel of described pump assembly comprises the cylinder hot body of stainless steel that breaks, be located at the compression chamber in the disconnected hot body of stainless steel of cylinder, in compression chamber, make the disconnected hot body of stainless steel of piston of motion, be located at the disconnected hot body of stainless steel of eccentric crankshaft that the disconnected hot body of stainless steel of slide plate in the compression chamber and the disconnected hot body of stainless steel of driven plunger rotate, the outer phase of the end of the disconnected hot body of stainless steel of slide plate and the disconnected hot body of stainless steel of piston touches, the top of described disconnected hot body of stainless steel is provided with the disconnected hot body of stainless steel of upper bearing (metal), and the bottom of the disconnected hot body of stainless steel of described cylinder is provided with the disconnected hot body of stainless steel of lower bearing.

Wherein, the disconnected hot body of stainless steel of described pump assembly comprises the cylinder hot body of stainless steel that breaks, be located at the compression chamber in the disconnected hot body of stainless steel of cylinder, in compression chamber, make the disconnected hot body of stainless steel of piston of motion, be located at the disconnected hot body of stainless steel of eccentric crankshaft that the disconnected hot body of stainless steel of slide plate in the compression chamber and the disconnected hot body of stainless steel of driven plunger rotate, the end of the disconnected hot body of stainless steel of slide plate touches with the outer phase of disconnected hot body of stainless steel piston, the disconnected hot body of stainless steel of described cylinder includes the disconnected hot body of stainless steel of upper cylinder and the disconnected hot body of stainless steel of lower cylinder, be provided with the disconnected hot body of stainless steel of intermediate plate between the disconnected hot body of stainless steel of the disconnected hot body of stainless steel of described upper cylinder and described lower cylinder, the top of the disconnected hot body of stainless steel of described upper cylinder is provided with the disconnected hot body of stainless steel of upper bearing (metal), and the bottom of the disconnected hot body of stainless steel of described lower cylinder is provided with the disconnected hot body of stainless steel of lower bearing.

Wherein, the disconnected hot body of stainless steel of described pump assembly comprises the disconnected hot body of stainless steel of intermeshing female screw and the disconnected hot body of stainless steel of positive screw rod, and the disconnected hot body of stainless steel of air-breathing end cap and the disconnected hot body of stainless steel of exhaust end cap, the disconnected hot body of stainless steel of the disconnected hot body of stainless steel of described female screw and described positive screw rod is set in parallel.

Wherein, the disconnected hot body of described pump assembly is the disconnected thermal sintering body of pump assembly.

Wherein, the disconnected thermal sintering body of described pump assembly comprises static vortex disk break thermal sintering body, the disconnected thermal sintering body of movable orbiting scroll and the disconnected thermal sintering body of bent axle, and described driven unit connects the disconnected thermal sintering body of described bent axle and drives the disconnected thermal sintering body of described movable orbiting scroll and the described static vortex disk thermal sintering body that breaks and mesh to drive the disconnected thermal sintering body of described bent axle.

Wherein, the disconnected thermal sintering body of described pump assembly comprise eccentric crankshaft break thermal sintering body, the disconnected thermal sintering body of cylinder, be located at compression chamber in the disconnected thermal sintering body of cylinder, in compression chamber, do eccentric motion the disconnected thermal sintering body of piston, be located at the disconnected thermal sintering body of eccentric crankshaft that the disconnected thermal sintering body of slide plate in the cylinder compression chamber and the disconnected thermal sintering body of driven plunger rotate, the break outer phase of thermal sintering body of the disconnected thermal sintering body in the end of the disconnected thermal sintering body of slide plate and piston touches.

Wherein, the disconnected thermal sintering body of described pump assembly comprises the disconnected thermal sintering body of intermeshing female screw and the disconnected thermal sintering body of positive screw rod, and the disconnected thermal sintering body of air-breathing end cap and the disconnected thermal sintering body of exhaust end cap, the disconnected thermal sintering body of the disconnected thermal sintering body of described female screw and described positive screw rod is set in parallel mutually.

Wherein, the disconnected thermal sintering body of described pump assembly comprises the cylinder thermal sintering body that breaks, be located at the compression chamber in the disconnected thermal sintering body of cylinder, in compression chamber, make the disconnected thermal sintering body of piston of motion, be located at the disconnected thermal sintering body of eccentric crankshaft that the disconnected thermal sintering body of slide plate in the compression chamber and the disconnected thermal sintering body of driven plunger rotate, the end of the disconnected thermal sintering body of slide plate and the outer phase of disconnected thermal sintering body piston touch, the disconnected thermal sintering body of described cylinder includes the disconnected thermal sintering body of upper cylinder and the disconnected thermal sintering body of lower cylinder, be provided with the disconnected thermal sintering body of intermediate plate between the disconnected thermal sintering body of the disconnected thermal sintering body of described upper cylinder and described lower cylinder, the top of the disconnected thermal sintering body of described upper cylinder is provided with the disconnected thermal sintering body of upper bearing (metal), and the bottom of the disconnected thermal sintering body of described lower cylinder is provided with the disconnected thermal sintering body of lower bearing.

The beneficial effects of the utility model: a kind of compressor, comprise the pump assembly hot body that breaks, be used for driving the driven unit of the disconnected hot body of described pump assembly, turnover tracheae assembly and housing, the disconnected hot body of described pump assembly and described driven unit all are arranged in the described housing, described turnover tracheae assembly comprises suction tude and steam outlet pipe, described suction tude and described steam outlet pipe all are arranged at housing, and be connected so that gas can pass in and out with the disconnected hot body of described pump assembly, disconnected thermal property by the disconnected hot body of pump assembly is to avoid the heat exchange between pump assembly and the refrigerant gas, reduce the loss of energy, improved compression efficiency, thus the whole Energy Efficiency Ratio that has promoted compressor.

Description of drawings

The utility model is described in further detail to utilize accompanying drawing, but the embodiment in the accompanying drawing does not constitute any restriction of the present utility model, for those of ordinary skill in the art, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to the following drawings.

Fig. 1 is the structural representation of rotary compressor middle pump body assembly in the prior art.

Fig. 2 is the embodiment's 2 of a kind of compressor of the present utility model structural representation.

Fig. 3 is the embodiment's 3 of a kind of compressor of the present utility model structural representation.

Fig. 4 is the embodiment's 4 of a kind of compressor of the present utility model structural representation.

Reference character:

11-slide plate, 12-rotary piston, 13-induction chamber, 14-exhaust chamber,

The disconnected hot body of stainless steel of 211-first stator, 212-the first rotor, 213-bent axle, the disconnected hot body of stainless steel of 214-movable orbiting scroll, the disconnected hot body of stainless steel of 215-static vortex disk,

221-second stator, 222-second rotor, the 223-piston hot body of stainless steel that breaks, the 2231-upper piston hot body of stainless steel that breaks, the 2232-lower piston hot body of stainless steel that breaks, the 224-cylinder hot body of stainless steel that breaks, the 2241-upper cylinder hot body of stainless steel that breaks, the 2242-lower cylinder hot body of stainless steel that breaks, the 225-compression chamber, the 226-slide plate hot body of stainless steel that breaks, the 227-eccentric crankshaft hot body of stainless steel that breaks, the 2281-upper bearing (metal) hot body of stainless steel that breaks, the 2282-lower bearing hot body of stainless steel that breaks, the 229-intermediate plate hot body of stainless steel that breaks;

The 3-housing,

The 4-piston.

Embodiment

With the following Examples the utility model is further described.

Embodiment 1

One of embodiment of a kind of compressor of the present utility model, comprise pump assembly break hot body, the driven unit that be used for to drive the disconnected hot body of described pump assembly, turnover tracheae assembly and housing 3, the disconnected hot body of described pump assembly and described driven unit all are arranged in the described housing 3, described turnover tracheae assembly comprises suction tude and steam outlet pipe, described suction tude and described steam outlet pipe all are arranged at housing 3, and are connected so that gas can pass in and out with the disconnected hot body of described pump assembly.The disconnected hot body of above-mentioned pump assembly has the low characteristics of thermal conductivity, and it is different from pump assembly common in the prior art.

Disconnected thermal property by the disconnected hot body of pump assembly reduces the loss of heat to reduce the heat exchange between the disconnected hot body of pump assembly and the refrigerant gas, has improved compression efficiency, thus the whole Energy Efficiency Ratio that has promoted compressor.

Embodiment 2

Two of the embodiment of a kind of compressor of the present utility model, the main technical schemes of present embodiment is identical with embodiment 1, and unaccounted feature adopts the explanation among the embodiment 1 in the present embodiment, no longer gives unnecessary details at this.Present embodiment and embodiment's 1 difference is, as shown in Figure 2, be specially a kind of scroll compressor, described driven unit comprises first stator 211 and the first rotor 212, the disconnected hot body of stainless steel of described pump assembly comprises static vortex disk break hot body of stainless steel 215, the disconnected hot body of stainless steel 214 of movable orbiting scroll and the disconnected hot body of stainless steel 213 of bent axle, and described the first rotor 212 connects the disconnected hot body of stainless steel 213 of described bent axle and drives the disconnected hot body of stainless steel 214 of described movable orbiting scroll and mesh with the disconnected hot body of stainless steel 215 of described static vortex disk to drive the disconnected hot body of stainless steel 213 of described bent axle.

Embodiment 3

Three of the embodiment of a kind of compressor of the present utility model, the main technical schemes of present embodiment is identical with embodiment 1, and unaccounted feature adopts the explanation among the embodiment 1 in the present embodiment, no longer gives unnecessary details at this.Present embodiment and embodiment's 1 difference is, as shown in Figure 3, be specially a kind of rotor-type compressor, described driven unit comprises second stator 221 and second rotor 222, the disconnected hot body of stainless steel of described pump assembly comprises the eccentric crankshaft hot body of stainless steel 227 that breaks, the cylinder hot body of stainless steel 224 that breaks, be located at the compression chamber 225 in the disconnected hot body of stainless steel 224 of cylinder, in compression chamber 225, make the disconnected hot body of stainless steel 223 of piston of eccentric motion, be located at the disconnected hot body of stainless steel 227 of eccentric crankshaft that the disconnected hot body of stainless steel 226 of slide plate in the compression chamber 225 and the disconnected hot body of stainless steel 223 of driven plunger rotate, the outer phase of the disconnected hot body of stainless steel in the end of the disconnected hot body of stainless steel 226 of slide plate and the disconnected hot body of stainless steel 223 of piston touches, described second rotor 222 is connected with the disconnected hot body of stainless steel 227 of eccentric crankshaft, the top of the disconnected hot body of stainless steel 224 of described cylinder is provided with the disconnected hot body of stainless steel 2281 of upper bearing (metal), and the bottom of the disconnected hot body of stainless steel 224 of described cylinder is provided with the disconnected hot body of stainless steel 2282 of lower bearing.

Embodiment 4

Four of the embodiment of a kind of compressor of the present utility model, the main technical schemes of present embodiment is identical with embodiment 1, and unaccounted feature adopts the explanation among the embodiment 1 in the present embodiment, no longer gives unnecessary details at this.Present embodiment and embodiment's 1 difference is, as shown in Figure 4, described driven unit comprises second stator 221 and second rotor 222, the disconnected hot body of stainless steel of described pump assembly comprises the cylinder hot body of stainless steel 224 that breaks, be located at the compression chamber 225 in the disconnected hot body of stainless steel 224 of cylinder, in compression chamber 225, make the disconnected hot body of stainless steel 223 of piston of motion, be located at the disconnected hot body of stainless steel 227 of eccentric crankshaft that the disconnected hot body of stainless steel of slide plate in the compression chamber 225 and the disconnected hot body of stainless steel 223 of driven plunger rotate, the outer phase of the end of the disconnected hot body of stainless steel of slide plate and the disconnected hot body of stainless steel 223 of piston touches, the disconnected hot body of stainless steel 224 of described cylinder includes the disconnected hot body of stainless steel 2241 of upper cylinder and the disconnected hot body of stainless steel 2242 of lower cylinder, be provided with the disconnected hot body of stainless steel 229 of intermediate plate between the disconnected hot body of stainless steel 2242 of the disconnected hot body of stainless steel 2241 of described upper cylinder and described lower cylinder, the top of the disconnected hot body of stainless steel 2241 of described upper cylinder is provided with the disconnected hot body of stainless steel 2281 of upper bearing (metal), and the bottom of the disconnected hot body of stainless steel 2242 of described lower cylinder is provided with the disconnected hot body of stainless steel 2282 of lower bearing.

Embodiment 5

Five of the embodiment of a kind of compressor of the present utility model, the main technical schemes of present embodiment is identical with embodiment 1, and unaccounted feature adopts the explanation among the embodiment 1 in the present embodiment, no longer gives unnecessary details at this.Present embodiment and embodiment's 1 difference is, the disconnected hot body of stainless steel of described pump assembly comprises the disconnected hot body of stainless steel of intermeshing female screw and the disconnected hot body of stainless steel of positive screw rod, and the disconnected hot body of stainless steel of air-breathing end cap and the disconnected hot body of stainless steel of exhaust end cap, the disconnected hot body of stainless steel of the disconnected hot body of stainless steel of described female screw and described positive screw rod is set in parallel.

Embodiment 6

Six of the embodiment of a kind of compressor of the present utility model, the main technical schemes of present embodiment is identical with embodiment 1, and unaccounted feature adopts the explanation among the embodiment 1 in the present embodiment, no longer gives unnecessary details at this.Present embodiment and embodiment's 1 difference is, the disconnected thermal sintering body of described pump assembly comprises static vortex disk break thermal sintering body, the disconnected thermal sintering body of movable orbiting scroll and the disconnected thermal sintering body of bent axle, and described driven unit connects the disconnected thermal sintering body of described bent axle and drives the disconnected thermal sintering body of described movable orbiting scroll and the described static vortex disk thermal sintering body that breaks and mesh to drive the disconnected thermal sintering body of described bent axle.The thermal resistance better performances of the disconnected thermal sintering body of above-mentioned pump assembly.

Embodiment 7

Seven of the embodiment of a kind of compressor of the present utility model, the main technical schemes of present embodiment is identical with embodiment 1, and unaccounted feature adopts the explanation among the embodiment 1 in the present embodiment, no longer gives unnecessary details at this.Present embodiment and embodiment's 1 difference is, the disconnected thermal sintering body of described pump assembly comprise eccentric crankshaft break thermal sintering body, the disconnected thermal sintering body of cylinder, be located at compression chamber 225 in the disconnected thermal sintering body of cylinder, in compression chamber 225, do eccentric motion the disconnected thermal sintering body of piston, be located at the disconnected thermal sintering body of eccentric crankshaft that the disconnected thermal sintering body of slide plate in the cylinder compression chamber 225 and the disconnected thermal sintering body of driven plunger rotate, the break outer phase of thermal sintering body of the disconnected thermal sintering body in the end of the disconnected thermal sintering body of slide plate and piston touches.The thermal resistance better performances of the disconnected thermal sintering body of above-mentioned pump assembly.

Embodiment 8

Eight of the embodiment of a kind of compressor of the present utility model, the main technical schemes of present embodiment is identical with embodiment 1, and unaccounted feature adopts the explanation among the embodiment 1 in the present embodiment, no longer gives unnecessary details at this.Present embodiment and embodiment's 1 difference is, the disconnected thermal sintering body of described pump assembly comprises the intermesh disconnected thermal sintering body of female screw and the disconnected thermal sintering body of positive screw rod, and the disconnected thermal sintering body of air-breathing end cap and the disconnected thermal sintering body of exhaust end cap, the disconnected thermal sintering body of the disconnected thermal sintering body of described female screw and described positive screw rod is in a parallel set.The thermal resistance better performances of the disconnected thermal sintering body of above-mentioned pump assembly.

Embodiment 9

Nine of the embodiment of a kind of compressor of the present utility model, the main technical schemes of present embodiment is identical with embodiment 1, and unaccounted feature adopts the explanation among the embodiment 1 in the present embodiment, no longer gives unnecessary details at this.Present embodiment and embodiment's 1 difference is, the disconnected thermal sintering body of described pump assembly comprises the cylinder thermal sintering body that breaks, be located at the compression chamber 225 in the disconnected thermal sintering body of cylinder, in compression chamber 225, make the disconnected thermal sintering body of piston of motion, be located at the disconnected thermal sintering body of eccentric crankshaft that the disconnected thermal sintering body of slide plate in the compression chamber 225 and the disconnected thermal sintering body of driven plunger rotate, the end of the disconnected thermal sintering body of slide plate and the outer phase of disconnected thermal sintering body piston touch, the disconnected thermal sintering body of described cylinder includes the disconnected thermal sintering body of upper cylinder and the disconnected thermal sintering body of lower cylinder, be provided with the disconnected thermal sintering body of intermediate plate between the disconnected thermal sintering body of the disconnected thermal sintering body of described upper cylinder and described lower cylinder, the top of the disconnected thermal sintering body of described upper cylinder is provided with the disconnected thermal sintering body of upper bearing (metal), and the bottom of the disconnected thermal sintering body of described lower cylinder is provided with the disconnected thermal sintering body of lower bearing.The thermal resistance better performances of the disconnected thermal sintering body of above-mentioned pump assembly.

Should be noted that at last; above embodiment is only in order to illustrate the technical solution of the utility model; but not to the restriction of the utility model protection domain; although with reference to preferred embodiment the utility model has been done to explain; those of ordinary skill in the art is to be understood that; can make amendment or be equal to replacement the technical solution of the utility model, and not break away from essence and the scope of technical solutions of the utility model.

Claims (10)

1. compressor, it is characterized in that: comprise pump assembly break hot body, the driven unit that be used for to drive the disconnected hot body of described pump assembly, turnover tracheae assembly and housing, the disconnected hot body of described pump assembly and described driven unit all are arranged in the described housing, described turnover tracheae assembly comprises suction tude and steam outlet pipe, described suction tude and described steam outlet pipe all are arranged at housing, and are connected so that gas can pass in and out with the disconnected hot body of described pump assembly.

2. a kind of compressor according to claim 1 is characterized in that: the disconnected hot body of described pump assembly is the disconnected hot body of stainless steel of pump assembly.

3. a kind of compressor according to claim 2, it is characterized in that: the disconnected hot body of stainless steel of described pump assembly comprises static vortex disk break hot body of stainless steel, the disconnected hot body of stainless steel of movable orbiting scroll and the disconnected hot body of stainless steel of bent axle, and described driven unit connects the disconnected hot body of stainless steel of described bent axle and meshes to drive the disconnected hot body of stainless steel of described movable orbiting scroll and the described static vortex disk hot body of stainless steel that breaks.

4. a kind of compressor according to claim 2, it is characterized in that: the disconnected hot body of stainless steel of described pump assembly comprises the cylinder hot body of stainless steel that breaks, be located at the compression chamber in the disconnected hot body of stainless steel of cylinder, in compression chamber, make the disconnected hot body of stainless steel of piston of motion, be located at the disconnected hot body of stainless steel of eccentric crankshaft that the disconnected hot body of stainless steel of slide plate in the compression chamber and the disconnected hot body of stainless steel of driven plunger rotate, the outer phase of the end of the disconnected hot body of stainless steel of slide plate and the disconnected hot body of stainless steel of piston touches, the top of the disconnected hot body of stainless steel of described cylinder is provided with the disconnected hot body of stainless steel of upper bearing (metal), and the bottom of the disconnected hot body of stainless steel of described cylinder is provided with the disconnected hot body of stainless steel of lower bearing.

5. a kind of compressor according to claim 2, it is characterized in that: the disconnected hot body of stainless steel of described pump assembly comprises the cylinder hot body of stainless steel that breaks, be located at the compression chamber in the disconnected hot body of stainless steel of cylinder, in compression chamber, make the disconnected hot body of stainless steel of piston of motion, be located at the disconnected hot body of stainless steel of eccentric crankshaft that the disconnected hot body of stainless steel of slide plate in the compression chamber and the disconnected hot body of stainless steel of driven plunger rotate, the end of the disconnected hot body of stainless steel of slide plate touches with the outer phase of disconnected hot body of stainless steel piston, the disconnected hot body of stainless steel of described cylinder includes the disconnected hot body of stainless steel of upper cylinder and the disconnected hot body of stainless steel of lower cylinder, be provided with the disconnected hot body of stainless steel of intermediate plate between the disconnected hot body of stainless steel of the disconnected hot body of stainless steel of described upper cylinder and described lower cylinder, the top of the disconnected hot body of stainless steel of described upper cylinder is provided with the disconnected hot body of stainless steel of upper bearing (metal), and the bottom of the disconnected hot body of stainless steel of described lower cylinder is provided with the disconnected hot body of stainless steel of lower bearing.

6. a kind of compressor according to claim 2, it is characterized in that: the disconnected hot body of stainless steel of described pump assembly comprises the disconnected hot body of stainless steel of intermeshing female screw and the disconnected hot body of stainless steel of positive screw rod, and the disconnected hot body of stainless steel of air-breathing end cap and the disconnected hot body of stainless steel of exhaust end cap, the disconnected hot body of stainless steel of the disconnected hot body of stainless steel of described female screw and described positive screw rod is set in parallel.

7. a kind of compressor according to claim 1 is characterized in that: the disconnected hot body of described pump assembly is the disconnected thermal sintering body of pump assembly.

8. a kind of compressor according to claim 7, it is characterized in that: the disconnected thermal sintering body of described pump assembly comprises static vortex disk break thermal sintering body, the disconnected thermal sintering body of movable orbiting scroll and the disconnected thermal sintering body of bent axle, and described driven unit connects the disconnected thermal sintering body of described bent axle and drives the disconnected thermal sintering body of described movable orbiting scroll and the described static vortex disk thermal sintering body that breaks and mesh to drive the disconnected thermal sintering body of described bent axle.

9. a kind of compressor according to claim 7, it is characterized in that: the disconnected thermal sintering body of described pump assembly comprise eccentric crankshaft break thermal sintering body, the disconnected thermal sintering body of cylinder, be located at compression chamber in the disconnected thermal sintering body of cylinder, in compression chamber, do eccentric motion the disconnected thermal sintering body of piston, be located at the disconnected thermal sintering body of eccentric crankshaft that the disconnected thermal sintering body of slide plate in the compression chamber and the disconnected thermal sintering body of driven plunger rotate, the break outer phase of thermal sintering body of the disconnected thermal sintering body in the end of the disconnected thermal sintering body of slide plate and piston touches.

10. a kind of compressor according to claim 7, it is characterized in that: the disconnected thermal sintering body of described pump assembly comprises the disconnected thermal sintering body of intermeshing female screw and the disconnected thermal sintering body of positive screw rod, and the disconnected thermal sintering body of air-breathing end cap and the disconnected thermal sintering body of exhaust end cap, the disconnected thermal sintering body of the disconnected thermal sintering body of described female screw and described positive screw rod is set in parallel mutually.

Images