CN205047390U - Energy -efficient semi -hermetic refrigerating compressor unit - Google Patents

Abstract

The utility model provides an energy -efficient semi -hermetic refrigerating compressor unit belongs to the refrigeration plant field, including the compressor organism, this compressor organism includes the internal motor chamber, subassembly and drive assembly breathe in, the internal motor chamber and the subassembly separate disposing that breathes in, the inside in internal motor chamber is equipped with the synchronous inverter motor of permanent magnetism, it is equipped with suction channel in the subassembly to breathe in, drive assembly includes the input shaft, this input shaft with the synchronous inverter motor's of permanent magnetism motor shaft is coaxial, the synchronous inverter motor of permanent magnetism still includes stator and rotor, this rotor and motor shaft fixed connection. The compressor of this kind of structure can improve the operating efficiency of motor, plays energy -conserving effect, and its inner structure design is compact, reasonable, makes motor life longer, the compressor adopts global design, manufacturing from taking frequency -variable controller, detects the tracking to compressor's operating parameter, has realized compressor's energy -efficient operation, intelligent control and protection.

Description

A kind of energy-efficient semi-hermetic refrigerating compressor unit

Technical field

The utility model relates to art of refrigeration units, in particular to the energy-efficient semi-hermetic refrigerating compressor unit of one.

Background technique

Semi-hermetic refrigerating compressor unit mostly is piston type or screw type, all adopts built-in asynchronous motor in existing semi-hermetic refrigerating compressor unit, to reach the object of driven compressor.The semi-hermetic refrigerating compressor unit of this structure is the current mainstream product in the market, can play good compression refrigeration effect, drives the development of whole refrigeration industry in recent years.

But in this semi-hermetic refrigerating compressor unit, due to the change of working conditions of compressor, required motor power is also change, in order to meet the operation of each operating mode of compressor, motor allocating power must be configured by this compressor maximum shaft power operating mode, to guarantee the normal operation of compressor under each operating mode.And often the required air horsepower of compressor actual operating mode is less, therefore, the motor of Normal squeezing machine all runs between 30 ~ 60% of rated load, and this greatly reduces the operational efficiency of built-in asynchronous motor.Meanwhile, the rotating speed of asynchronous motor and its rotating magnetic field rotating speed have certain speed discrepancy, cause that its speed adjusting performance is poor, power factor is lower, underloading time efficiency low.

The existence of these problems governs the development of whole chiller plant industry, solves not in time, can cause serious energy consumption waste, with the demand for development of the seriously energy-saving and emission-reduction of inadaptable country.

Model utility content

The utility model provides a kind of energy-efficient semi-hermetic refrigerating compressor unit, is intended to solve the problem.

The utility model is achieved in that

A kind of energy-efficient semi-hermetic refrigerating compressor unit, comprise compressor block, this compressor block comprises built-in motor chamber, getter assembly and transmitting assemblies; Described built-in motor chamber and getter assembly are separated and are arranged, the inside in described built-in motor chamber is provided with permanent-magnet synchronous variable-frequency motor, be provided with air intake passage in described getter assembly, described transmitting assemblies comprises input shaft, and this input shaft is coaxial with the motor shaft of described permanent-magnet synchronous variable-frequency motor; Described permanent-magnet synchronous variable-frequency motor also comprises stator and rotor, this rotor is coaxial with motor shaft, the two ends of described stator are connected with end cap, one of them end cap is closed, another end cap offers through hole, described rotor housing is located at stator interior by two end caps, and described motor shaft passes described through hole away from one end of rotor.

Or compressor mechanical driving part and air intake passage, be separated with the permagnetic synchronous motor that compressor carries, guarantee the irony powder of compressor abrasion irony powder and refrigeration system, can not motor cavity be entered.This refrigeration compressor has efficient, energy-conservation characteristic, and Security is higher, can improve its working life.

Further, described permanent-magnet synchronous variable-frequency motor is connected with frequency-variable controller, and this frequency-variable controller is located at the outside of compressor block, and described frequency-variable controller and compressor block are integral type structure.

The work of permanent-magnet synchronous variable-frequency motor can be controlled by frequency-variable controller.Frequency-variable controller and compressor block unitary design in this refrigeration compressor, have the convenient advantage of installing and using, can also guarantee that frequency-variable controller has good cooling effect and moisture protection; Also there is good anti-electromagnetic interference capability.As long as user is by the pressure signal of refrigeration system or the temperature signal cooling thing during use, feed back to compressor variable frequency controller, automatic loading or the off-load of refrigeration compressor can be realized easily, and ensure compressor electric motor operate in maximum energy-saving state under required Energy transmission.Compressor, according to the load variations of refrigeration system, determines the running speed of compressor automatically, to guarantee that compressor electric motor runs under being in energy-efficient state always, to reach energy-conservation object,

In order to ensure the stable operation of permanent-magnet synchronous variable-frequency motor, we are specially the good cooling structure of design of electrical motor.This motor housing adopts double layer construction design, can in this interlayer, spray cryogen (or by air-breathing cooling motor), or adopts and pass into refrigeration oil or normal-temperature water to reach the object of cooling motor.

Further, the outside of described permanent-magnet synchronous variable-frequency motor is provided with cooling structure, and this cooling structure is double layer construction, is connected with cold oil or normal-temperature water in its interlayer.Further, the outside of described permanent-magnet synchronous variable-frequency motor is provided with cooling structure, and this cooling structure is double layer construction, is connected with refrigeration agent in its interlayer.

The heat of cooled object drawn at low temperatures by refrigeration agent, is then transferred to cooling water or air at relatively high temperatures.The effect of cooling can be reached by the refrigeration of refrigeration agent.

Further, described compressor block inside comprises oil sump, and the bottom of this oil sump is fixed with permanent magnet.

By the permanent magnet be arranged in oil sump, ferromagnetic substance is adsorbed, can prevent these ferromagnetic substances from moving further and entering built-in motor chamber, play the effect of protection permanent-magnet synchronous variable-frequency motor.

Further, described air intake passage is provided with filtrating equipment, and this filtrating equipment comprises mesh filters and magnetic absorption part.

Mesh filters can filter out oarse-grained impurity in air, plays the effect of proterctive equipment internal structure.Magnetic absorption part can adsorb ferromagnetic substance.The filtrating equipment of this structure is arranged on and air intake passage can reduces further the possibility that system metallic dust and ferromagnetic substance enter compressor.

Further, described magnetic absorption part ferromagnetic material is made.

Further, described magnetic absorption part neodymium iron boron is made.In material known today, neodymium iron boron is that in all magnet, magnetic force is the strongest.Different according to the ratio of each composition of the formula of neodymium iron boron, magnetic force can improve, and can reduce.

Further, described transmitting assemblies comprises male rotor and female rotor, and described male rotor and female rotor are screw-rod structure, and male rotor is coaxial with described motor shaft, and male rotor and female rotor engage each other.

Further, described transmitting assemblies comprises the bent axle be connected with motor shaft, on this bent axle, interval arranges two groups of driving mechanisms, and first group of driving mechanism comprises the first connecting rod, wrist pin and the piston that are connected successively, and second group of driving mechanism comprises the second connecting rod, wrist pin and the piston that are connected successively; Described first connecting rod and second connecting rod are all connected with bent axle.

The beneficial effects of the utility model are: the energy-efficient semi-hermetic refrigerating compressor unit that the utility model is obtained by above-mentioned design, and at least tool has the following advantages:

1) due to permanent-magnet synchronous variable-frequency motor is introduced refrigeration compressor, the operational efficiency of compressor electric motor is substantially increased;

2) compressor is under energy adjustment state, is no matter under fully loaded, off-load or underloading situation, all can ensures that compressor electric motor works under being in efficient energy-saving state;

3) compressor block and frequency-variable controller adopt global design and manufacture, facilitate user's Selection and Design, installation, debugging;

4) the frequency-variable controller collection compressor refrigerating capacity adjustment of this compressor, VFC, compressor electric motor protection and compressor operation parameters are controlled in one; energy display, recording compressed machine; various Operational Limitss in running, fully can ensure safety, the Effec-tive Function of compressor.

Accompanying drawing explanation

In order to be illustrated more clearly in the technological scheme of the utility model mode of execution, be briefly described to the accompanying drawing used required in mode of execution below, be to be understood that, the following drawings illustrate only some embodiment of the present utility model, therefore the restriction to scope should be counted as, for those of ordinary skill in the art, under the prerequisite not paying creative work, other relevant accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the energy-efficient semi-hermetic refrigerating compressor unit that the utility model mode of execution provides is sectional view in the form of piston;

Fig. 2 is the energy-efficient semi-hermetic refrigerating compressor unit that the utility model mode of execution provides is the sectional view of screw type.

Figure acceptance of the bid note is respectively:

Compressor block 1;

Filtrating equipment 2;

Stator 3;

Rotor 4;

Frequency-variable controller 5;

Permanent magnet 6.

Embodiment

For making the object of the utility model mode of execution, technological scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model mode of execution, technological scheme in the utility model mode of execution is clearly and completely described, obviously, described mode of execution is the utility model part mode of execution, instead of whole mode of executions.Based on the mode of execution in the utility model, those of ordinary skill in the art are not making the every other mode of execution obtained under creative work prerequisite, all belong to the scope of the utility model protection.Therefore, below to the detailed description of the mode of execution of the present utility model provided in the accompanying drawings and the claimed scope of the present utility model of not intended to be limiting, but selected mode of execution of the present utility model is only represented.Based on the mode of execution in the utility model, those of ordinary skill in the art are not making the every other mode of execution obtained under creative work prerequisite, all belong to the scope of the utility model protection.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", " outward ", " clockwise ", orientation or the position relationship of the instruction such as " counterclockwise " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the equipment of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristics.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In description of the present utility model, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can comprise the first and second features and directly contact, also can comprise the first and second features and not be directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " comprise fisrt feature immediately below second feature and tiltedly below, or only represent that fisrt feature level height is less than second feature.

Refer to Fig. 1 and Fig. 2

The energy-efficient semi-hermetic refrigerating compressor unit that present embodiment provides, comprises compressor block 1, and this compressor block 1 comprises built-in motor chamber, getter assembly and transmitting assemblies; Built-in motor chamber and getter assembly are separated and are arranged, and the inside in built-in motor chamber is provided with permanent-magnet synchronous variable-frequency motor, and be provided with air intake passage in getter assembly, transmitting assemblies comprises input shaft, and this input shaft is coaxial with the motor shaft of permanent-magnet synchronous variable-frequency motor.

Particularly, permanent-magnet synchronous variable-frequency motor also comprises stator 3 and rotor 4, this rotor 4 is fixedly connected with motor shaft, the two ends of stator 3 are connected with end cap, one of them end cap is closed, another end cap offers through hole, and rotor 4 is covered at stator 3 inside by two end caps, and motor shaft passes through hole away from one end of rotor 4.

This energy-efficient semi-hermetic refrigerating compressor unit is mainly used in refrigerant compression, can referred to as refrigeration compressor or compressor.Compressor block 1 is its main components, and the concrete structure of compressor block 1 is existing, and those skilled in the art can carry out designing or selecting according to actual conditions.

It is outside or inner that compressor block 1 is located in built-in motor chamber, and inside, built-in motor chamber is cavity structure, for holding and placing permanent-magnet synchronous variable-frequency motor.

Compared with electro-magnetic motor, magneto particularly rare-earth permanent-magnet electric machine has structure simply, reliable; Volume is little, and quality is light; Loss is little, and efficiency is high; The shape and size of motor versatile and flexiblely can wait remarkable advantage, and thus application area is very extensive, almost throughout the every field of Aero-Space, national defence, industrial and agricultural production and daily life.

Permagnetic synchronous motor is a kind of synchronous machine, is different from asynchronous motor.Permanent-magnet synchronous variable-frequency motor is variable-frequency motor, adopts permanent-magnet synchronous variable-frequency motor can improve operational efficiency and the operation stability of refrigeration compressor.Unloading or energy adjustment can be realized to refrigeration compressor, and ensure that electric efficiency is all in the optimum state under off-load or loaded state, to reach the object that efficient energy-saving runs.

Getter assembly and built-in motor chamber are separated and are arranged, and being provided with air intake passage, absorbing ambient atmos for making compressor block 1 in getter assembly.This design in getter assembly and built-in motor chamber makes air intake passage and permanent-magnet synchronous variable-frequency motor be provided separately, and the two is independent of each other.In the process of air intake passage air-breathing, the metallic dust contained in gas or particulate can not enter built-in motor chamber, also would not enter the work of permanent-magnet synchronous variable-frequency motor internal influence motor.Because permanent-magnet synchronous variable-frequency motor inside has magnetic field, therefore especially need to prevent comprising the magnetic materials such as metallic dust and enter permanent-magnet synchronous variable-frequency motor inside, affect work.

Transmitting assemblies comprises input shaft, and input shaft is fixedly connected with the motor shaft of permanent-magnet synchronous variable-frequency motor, plays the effect of transmission of power.

Permanent-magnet synchronous variable-frequency motor comprises motor shaft, stator 3 and rotor 4, rotor 4 is covered at its inside by the end cap at two ends by stator 3, permanent-magnet synchronous variable-frequency motor is made to define semi-enclosed space, in the gap avoiding metallic dust or particulate to enter between stator 3 and rotor 4 further, avoid permanent-magnet synchronous variable-frequency motor to cause damage, further ensure its Security.

Therefore, this refrigeration compressor has efficient, energy-conservation characteristic, and Security is higher, can improve its working life.

Further, permanent-magnet synchronous variable-frequency motor is connected with frequency-variable controller 5, and this frequency-variable controller 5 is located at the outside of compressor block 1, and frequency-variable controller 5 and compressor block 1 are integral type structure.

The work of permanent-magnet synchronous variable-frequency motor can be controlled by frequency-variable controller 5.Frequency-variable controller 5 and compressor block 1 unitary design in this refrigeration compressor, have the convenient advantage of installing and using, can also guarantee that frequency-variable controller 5 has good cooling effect and moisture protection; Also there is good anti-electromagnetic interference capability.As long as user is by the pressure signal of refrigeration system or the temperature signal cooling thing during use, feed back to compressor block 1, automatic loading or the off-load of refrigeration compressor can be realized easily, and ensure compressor electric motor operate in maximum energy-saving state under required Energy transmission.

In the refrigeration compressor of this structure, permanent-magnet synchronous variable-frequency motor is contained in built-in motor chamber, its refrigeration modes can have multiple, can be such as like this: the outside of described permanent-magnet synchronous variable-frequency motor is provided with cooling structure, this cooling structure is double layer construction, is connected with cold oil or normal-temperature water in its interlayer.The cooling of permanent-magnet synchronous variable-frequency motor can be realized by cold oil.

Or realizing refrigeration like this: the outside of permanent-magnet synchronous variable-frequency motor is provided with cooling structure, and this cooling structure is double layer construction, is connected with refrigeration agent in its interlayer.The heat of cooled object drawn at low temperatures by refrigeration agent, is then transferred to cooling water or air at relatively high temperatures.The effect of cooling can be reached by the refrigeration of refrigeration agent.Normal-temperature water can also be passed in the interlayer of cooling structure cool, cooling blast can also be passed into by cooling motor and cool.

Further, compressor block 1 inside comprises oil sump, and the sidewall of this oil sump is fixed with permanent magnet 6.The transmitting assemblies of compressor block 1 inside operationally needs lubrication, and oil refill is in oil sump.Because the factors such as friction can cause ferromagnetic substance in equipment to fall down in compressor block 1 working procedure; effect through transmitting assemblies and lubricant oil can enter oil sump; adsorbed by the permanent magnet 6 pairs of ferromagnetic substances be arranged in oil sump; can prevent these ferromagnetic substances from moving further and entering built-in motor chamber, play the effect of protection permanent-magnet synchronous variable-frequency motor.

For strengthening the absorption problem of ferromagnetic substance further, air intake passage is provided with filtrating equipment 2, this filtrating equipment 2 comprises mesh filters and magnetic absorption part.

Mesh filters can filter out oarse-grained impurity in air, plays the effect of proterctive equipment internal structure.Magnetic absorption part can adsorb ferromagnetic substance.The filtrating equipment 2 of this structure is arranged on and air intake passage can reduces further the possibility that system metallic dust and ferromagnetic substance enter compressor.

Mesh filters can be filter structure.Magnetic absorption part can be arranged on inner side or the outside of mesh filters.Preferably, magnetic absorption part is loop configuration, coaxially arranges with air intake passage, can play better suction-operated like this.

Preferably, magnetic absorption part ferromagnetic material is made.The material that ferromagnetic material and magnetic are very strong, in material known today, neodymium iron boron is that in all magnet, magnetic force is the strongest.Different according to the ratio of each composition of the formula of neodymium iron boron, magnetic force can improve, and can reduce.Magnetic absorption part herein preferably adopts neodymium iron boron to make.

Refrigeration compressor can be piston type or screw type, also can be other structural types.When refrigeration compressor is screw type, its internal structure can design like this: transmitting assemblies comprises male rotor 4 and female rotor 4, and male rotor 4 and female rotor 4 are screw-rod structure, and male rotor 4 is fixedly connected with motor shaft, and male rotor 4 and female rotor 4 engage each other.

Drive male rotor 4 to rotate by permanent-magnet synchronous variable-frequency motor, and then drive female rotor 4 to rotate, its work can be completed by a series of transmission combination.

When refrigeration compressor is piston type, its internal structure can design like this: transmitting assemblies comprises the bent axle be connected with motor shaft, on this bent axle, interval arranges two groups of driving mechanisms, first group of driving mechanism comprises the first connecting rod, wrist pin and the piston that are connected successively, and second group of driving mechanism comprises the second connecting rod, wrist pin and the piston that are connected successively; First connecting rod and second connecting rod are all connected with bent axle.

Permanent-magnet synchronous variable-frequency motor drives crank rotation, and bent axle drives first group of driving mechanism motion by first connecting rod, and bent axle drives second group of driving mechanism motion by second connecting rod.

For clearly demonstrating the utility model, in present embodiment, list some specific embodiments:

Embodiment 1

A kind of energy-efficient semi-hermetic refrigerating compressor unit, comprise compressor block 1, this compressor block 1 comprises built-in motor chamber, getter assembly and transmitting assemblies; Built-in motor chamber and getter assembly are separated and are arranged, and the inside in built-in motor chamber is provided with permanent-magnet synchronous variable-frequency motor, and be provided with air intake passage in getter assembly, transmitting assemblies comprises input shaft, and this input shaft is fixedly connected with the motor shaft of permanent-magnet synchronous variable-frequency motor; Permanent-magnet synchronous variable-frequency motor also comprises stator 3 and rotor 4, this rotor 4 is fixedly connected with motor shaft, the two ends of stator 3 are connected with end cap, one of them end cap is closed, another end cap offers through hole, rotor 4 is covered at stator 3 inside by two end caps, and motor shaft passes through hole away from one end of rotor 4.

Permanent-magnet synchronous variable-frequency motor is connected with frequency-variable controller 5, and this frequency-variable controller 5 is located at the outside of compressor block 1, and frequency-variable controller 5 and compressor block 1 are integral type structure.Compressor block 1 is also provided with motor ventilating fan, and this motor ventilating fan is positioned at the outside in built-in motor chamber.

Compressor block 1 inside comprises oil sump, and the bottom of this oil sump is fixed with permanent magnet 6.Air intake passage is provided with filtrating equipment 2, and this filtrating equipment 2 comprises mesh filters and magnetic absorption part.Magnetic absorption part neodymium iron boron is made.

Transmitting assemblies comprises male rotor 4 and female rotor 4, and male rotor 4 and female rotor 4 are screw-rod structure, and male rotor 4 is fixedly connected with motor shaft, and male rotor 4 and female rotor 4 engage each other.

Embodiment 2

A kind of energy-efficient semi-hermetic refrigerating compressor unit, comprise compressor block 1, this compressor block 1 comprises built-in motor chamber, getter assembly and transmitting assemblies; Built-in motor chamber and getter assembly are separated and are arranged, and the inside in built-in motor chamber is provided with permanent-magnet synchronous variable-frequency motor, and be provided with air intake passage in getter assembly, transmitting assemblies comprises input shaft, and this input shaft is fixedly connected with the motor shaft of permanent-magnet synchronous variable-frequency motor; Permanent-magnet synchronous variable-frequency motor also comprises stator 3 and rotor 4, this rotor 4 is fixedly connected with motor shaft, the two ends of stator 3 are connected with end cap, one of them end cap is closed, another end cap offers through hole, rotor 4 is covered at stator 3 inside by two end caps, and motor shaft passes through hole away from one end of rotor 4.

Permanent-magnet synchronous variable-frequency motor is connected with frequency-variable controller 5, and this frequency-variable controller 5 is located at the outside of compressor block 1, and frequency-variable controller 5 and compressor block 1 are integral type structure.The outside of permanent-magnet synchronous variable-frequency motor is provided with refrigeration mechanism, containing refrigeration agent in this refrigeration mechanism.

Compressor block 1 inside comprises oil sump, and the sidewall of this oil sump is fixed with permanent magnet 6.Air intake passage is provided with filtrating equipment 2, and this filtrating equipment 2 comprises mesh filters and magnetic absorption part.Magnetic absorption part neodymium iron boron is made.

Transmitting assemblies comprises the bent axle be connected with motor shaft, on this bent axle, interval arranges two groups of driving mechanisms, first group of driving mechanism comprises the first connecting rod, wrist pin and the piston that are connected successively, and second group of driving mechanism comprises the second connecting rod, wrist pin and the piston that are connected successively; First connecting rod and second connecting rod are all connected with bent axle.

The foregoing is only preferred implementation of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. an energy-efficient semi-hermetic refrigerating compressor unit, is characterized in that, comprises compressor block, and this compressor block comprises built-in motor chamber, getter assembly and transmitting assemblies; Described built-in motor chamber and getter assembly are separated and are arranged, the inside in described built-in motor chamber is provided with permanent-magnet synchronous variable-frequency motor, be provided with air intake passage in described getter assembly, described transmitting assemblies comprises input shaft, and this input shaft is coaxial with the motor shaft of described permanent-magnet synchronous variable-frequency motor; Described permanent-magnet synchronous variable-frequency motor also comprises stator and rotor, and this rotor is fixedly connected with motor shaft.

2. energy-efficient semi-hermetic refrigerating compressor unit according to claim 1, it is characterized in that, described permanent-magnet synchronous variable-frequency motor is connected with frequency-variable controller, and this frequency-variable controller is located at the outside of compressor block, and described frequency-variable controller and compressor block are integral type structural design.

3. energy-efficient semi-hermetic refrigerating compressor unit according to claim 1, is characterized in that, the outside of described permanent-magnet synchronous variable-frequency motor is provided with cooling structure, and this cooling structure is double layer construction, is connected with cold oil or normal-temperature water in its interlayer.

4. energy-efficient semi-hermetic refrigerating compressor unit according to claim 1, is characterized in that, the outside of described permanent-magnet synchronous variable-frequency motor is provided with cooling structure, and this cooling structure is double layer construction, is connected with refrigeration agent in its interlayer.

5. energy-efficient semi-hermetic refrigerating compressor unit according to claim 1, is characterized in that, described compressor block inside comprises oil sump, and the bottom of this oil sump is fixed with permanent magnet.

6. energy-efficient semi-hermetic refrigerating compressor unit according to claim 1, is characterized in that, described air intake passage is provided with filtrating equipment, and this filtrating equipment comprises mesh filters and magnetic absorption part.

7. energy-efficient semi-hermetic refrigerating compressor unit according to claim 6, is characterized in that, described magnetic absorption part ferromagnetic material is made.

8. energy-efficient semi-hermetic refrigerating compressor unit according to claim 7, is characterized in that, described magnetic absorption part neodymium iron boron is made.

9. energy-efficient semi-hermetic refrigerating compressor unit according to claim 1, it is characterized in that, described transmitting assemblies comprises male rotor and female rotor, and described male rotor and female rotor are screw-rod structure, male rotor is coaxial with described motor shaft, and male rotor and female rotor engage each other.

10. energy-efficient semi-hermetic refrigerating compressor unit according to claim 1, it is characterized in that, described transmitting assemblies comprises the bent axle be connected with motor shaft, on this bent axle, interval arranges two groups of driving mechanisms, first group of driving mechanism comprises the first connecting rod, wrist pin and the piston that are connected successively, and second group of driving mechanism comprises the second connecting rod, wrist pin and the piston that are connected successively; Described first connecting rod and second connecting rod are all connected with bent axle.