CN203906282U - Compressor and air conditioner - Google Patents

Abstract

The utility model provides a compressor. The compressor comprises a low-pressure stage cylinder, a first high-pressure stage cylinder and a second high-pressure stage cylinder which are stacked, wherein partition boards are arranged between adjacent cylinders, the first high-pressure stage cylinder and the second high-pressure stage cylinder are arranged on the same side or two sides of the low-pressure stage cylinder, and a lower flange is placed below the low-pressure stage cylinder, the first high-pressure stage cylinder and the second high-pressure stage cylinder; a first sliding vane is arranged in the first high-pressure stage cylinder, a second sliding vane is arranged in the second high-pressure stage cylinder, and a third sliding vane is arranged in the low-pressure stage cylinder; and the first high-pressure stage cylinder and the second high-pressure stage cylinder are connected in parallel and then connected in series with the low-pressure stage cylinder, the first high-pressure stage cylinder or/and the second high-pressure stage cylinder is/are variable volume cylinder, and the low-pressure stage cylinder serves as a single-stage compressor cylinder. The utility model further relates to an air conditioner. According to the compressor and the air conditioner, the number of working cylinders of the multi-cylinder compressor is convenient to adjust.

Description

Compressor and air conditioner

Technical field

The utility model relates to refrigerating field, relates in particular to a kind of rolling rotor-type three cylinder twin-stage transfigurations and increases enthalpy compressor and air conditioner.

Background technique

Along with ambient temperature declines, the specific volume of refrigeration agent increases, and the unit gettering quantity of compressor reduces, and causes the heating capacity of compressor to decline to a great extent.Conventionally the heating capacity or the Dual-level enthalpy adding compressor that adopt electric auxiliary heat to improve compressor solve the problem that low-temperature heating ability is low.The method efficiency that adopts the auxiliary heat of electricity to improve compression mechanism heat is lower; Because the discharge capacity of common Dual-level enthalpy adding compressor cannot regulate, its adaptive capacity to operating conditions is poor, if ensure heating capacity and efficiency under compressor worst cold case, the efficiency of moving under common operating mode declines to a great extent.

Model utility content

In view of the present situation of prior art, the purpose of this utility model is to provide a kind of compressor and air conditioner, quantity that can free adjusting multicylinder compressor working cylinder, thus improve its adaptive capacity to operating conditions.For achieving the above object, the technical solution of the utility model is as follows:

A kind of compressor, comprises low pressure stage cylinder, the first high pressure stage cylinder, the second high pressure stage cylinder and lower flange;

Low pressure stage cylinder, the first high pressure stage cylinder, the second high pressure stage cylinder stack setting, between two adjacent cylinders, dividing plate is set, described the first high pressure stage cylinder and described the second high pressure stage cylinder are all placed in the homonymy of described low pressure stage cylinder or described the first high pressure stage cylinder and described the second high pressure stage cylinder and are placed in respectively the both sides of described low pressure stage cylinder, and described lower flange is placed in the downside of described low pressure stage cylinder, described the first high pressure stage cylinder and described the second high pressure stage cylinder;

Described the first high pressure stage cylinder has the first vane slot, in described the first vane slot, the first slide plate is set, described the second high pressure stage cylinder has the second vane slot, in described the second vane slot, the second slide plate is set, described low pressure stage cylinder has the 3rd vane slot, in described the 3rd vane slot, the 3rd slide plate is set;

Described the first high pressure stage cylinder and described the second high pressure stage cylinder are arranged in parallel, described the first high pressure stage cylinder and described the second high pressure stage cylinder after parallel connection are connected with described low pressure stage cylinder, described the first high pressure stage cylinder is or/and the second high pressure stage cylinder is variable capacity cylinder, and described low pressure stage cylinder is as one-level compression cylinder.

More preferably, two described dividing plates are respectively the first dividing plate and second partition, and described the first dividing plate is or/and be provided with the device for controlling sliding vane for controlling slide plate action on described second partition; Or described the first dividing plate is or/and described lower flange is provided with described device for controlling sliding vane; Or described second partition is or/and described lower flange is provided with described device for controlling sliding vane; The corresponding described slide plate of each described device for controlling sliding vane.

More preferably, described the first high pressure stage cylinder and described the second high pressure stage cylinder are all placed in the upside of described low pressure stage cylinder, described the first dividing plate is or/and arrange described device for controlling sliding vane on described second partition, described the first high pressure stage cylinder or/and described the second high pressure stage cylinder as detachable carrier gas cylinder.

More preferably, described the first high pressure stage cylinder and described the second high pressure stage cylinder are all placed in the downside of described low pressure stage cylinder, the described dividing plate that is placed in downside in described the first dividing plate and described second partition arranges described device for controlling sliding vane or/and described device for controlling sliding vane is set on described lower flange, described the first high pressure stage cylinder or/and described the second high pressure stage cylinder as detachable carrier gas cylinder.

More preferably, described low pressure stage cylinder is placed between described the first high pressure stage cylinder and described the second high pressure stage cylinder, the described dividing plate that is placed in upside in described the first dividing plate and described second partition arranges described device for controlling sliding vane or/and described device for controlling sliding vane is set on described lower flange, described the first high pressure stage cylinder or/and described the second high pressure stage cylinder as detachable carrier gas cylinder.

More preferably, described lower flange is provided with intermediate cavity.

More preferably, described device for controlling sliding vane comprises pin and elastic reset member, and described elastic reset member is arranged on the afterbody of described pin;

Described the first slide plate is or/and the second slide plate is provided with only locked groove, and described pin is for matching with described only locked groove, and when described pin is placed in described only locked groove, described slide plate is locked, and described pin departs from after described only locked groove, described slide plate release.

Further, described the first dividing plate is or/and arrange the through hole corresponding with described only locked groove on described second partition; Or described the first dividing plate is or/and described lower flange is provided with the through hole corresponding with described only locked groove; Or described second partition is or/and described lower flange is provided with the through hole corresponding with described only locked groove; Described pin is placed in described through hole, and described pin and described through hole are sealed and matched, and described pin can move at the axial direction of described through hole.

Further, described low pressure stage cylinder, described the first high pressure stage cylinder or described the second high pressure stage cylinder are also provided with the groove corresponding with described through hole, and described groove is communicated with formation cavity with described through hole, and described cavity is used for being communicated with pilot line.

More preferably, described compressor has the first mode of operation, the second mode of operation and the 3rd mode of operation;

Under the first mode of operation, described the first slide plate, described the second slide plate and described the 3rd slide plate are all in free state, and described low pressure stage cylinder carries out one-level compression, and described the first high pressure stage cylinder and described the second high pressure stage cylinder all carry out two-stage compression;

Under the second mode of operation, described the first slide plate or described the second slide plate are in the lock state, and described low pressure stage cylinder carries out one-level compression, and described the second high pressure stage cylinder or described the first high pressure stage cylinder carry out two-stage compression;

Under the 3rd mode of operation, described the first slide plate and the second slide plate are all in the lock state, and described low pressure stage cylinder carries out one-level compression, and described the first high pressure stage cylinder and described the second high pressure stage cylinder are all in unloaded state.

Also relate to a kind of air conditioner, comprise compressor, the compressor that described compressor is above-mentioned arbitrary technological scheme.

The beneficial effects of the utility model are:

Compressor of the present utility model and air conditioner, the first high pressure stage cylinder is or/and the second high pressure stage cylinder is variable capacity cylinder, the quantity of convenient, flexible adjusting multicylinder compressor working cylinder, thus improve its adaptive capacity to operating conditions.Under conventional operating mode (load is lighter), unload one or more high pressure stage cylinders, improve the efficiency of compressor, promote the comprehensive energy efficiency of compressor; Under worst cold case, (load is heavier) increases the working quantity of high pressure stage cylinder, can significantly improve the heating capacity of compressor.

Brief description of the drawings

Fig. 1 to Fig. 6 is the pump housing cylinder difference of the compressor of the present utility model schematic diagram of arranging;

Fig. 7 is that the pump housing embodiment's one of compressor shown in Fig. 1 refrigerant flows to schematic diagram;

Fig. 8 is that the pump housing embodiment's two of compressor shown in Fig. 1 refrigerant flows to schematic diagram;

Fig. 9 is the cross-sectional schematic that shown in Fig. 8, compressor pump is in the lock state at the first slide plate;

Figure 10 is the other direction cross-sectional schematic that compressor pump shown in Fig. 8 is in the lock state at the first slide plate;

Figure 11 is that cross-sectional schematic is amplified in the part that shown in Fig. 8, compressor pump is in the lock state at the first slide plate;

Figure 12 is that compressor pump shown in Fig. 8 amplifies cross-sectional schematic in the part in free state at the first slide plate;

Figure 13 to 15 is the structural representation that the pump housing of compressor shown in Fig. 1 to Fig. 6 arranges two device for controlling sliding vane;

Figure 16 is that the pump housing of compressor shown in Figure 13 is at the first slide plate and all structural representations in free state of the second slide plate;

Figure 17 is that the pump housing of compressor shown in Figure 13 is at the first slide plate place lock state, the structural representation of the second slide plate in free state;

Figure 18 is the structural representation that the pump housing of compressor shown in Figure 13 is in the lock state at the first slide plate place free state, the second slide plate;

Figure 19 is the structural representation that the pump housing of compressor shown in Figure 13 is all in the lock state at the first slide plate, the second slide plate.

Embodiment

In order to make the purpose of this utility model, technological scheme and advantage clearer, below in conjunction with drawings and Examples, compressor of the present utility model and air conditioner are further elaborated.Should be appreciated that specific embodiment described herein is only for explaining the utility model, and be not used in restriction the utility model.

Referring to figs. 1 through Figure 19, the compressor one embodiment's of the present utility model pump housing comprises bent axle 1, upper flange, low pressure stage cylinder 8, the first high pressure stage cylinder 3, the second high pressure stage cylinder 6 and lower flange 9, low pressure stage cylinder 8, the first high pressure stage cylinder 3, the second high pressure stage cylinder 6 stacks setting, between two adjacent cylinders, dividing plate is set, the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 are all placed in the homonymy of low pressure stage cylinder 8 or the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 and are placed in respectively the both sides of low pressure stage cylinder 8, lower flange 9 is placed in low pressure stage cylinder 8, the downside of the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6, lower flange 9 is provided with intermediate cavity, the lower end of lower flange 9 arranges cover plate 10.The first high pressure stage cylinder 3 has the first vane slot (not shown), the first slide plate 15 is set in the first vane slot, the second high pressure stage cylinder 6 has the second vane slot (not shown), the second slide plate 17 is set in the second vane slot, low pressure stage cylinder 8 has the 3rd vane slot (not shown), and the 3rd slide plate is set in the 3rd vane slot.The first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 are arranged in parallel, the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 after parallel connection are connected with low pressure stage cylinder 8, the first high pressure stage cylinder 3 is or/and the second high pressure stage cylinder 6 is variable capacity cylinder, and low pressure stage cylinder 8 is as one-level compression cylinder.

As a kind of embodiment, two described dividing plates are respectively the first dividing plate and second partition, and the first dividing plate is or/and be provided with the device for controlling sliding vane for controlling slide plate action on second partition; Or the first dividing plate is or/and lower flange 9 is provided with device for controlling sliding vane; Or second partition is or/and lower flange 9 is provided with device for controlling sliding vane; The corresponding slide plate of each device for controlling sliding vane.Preferably, device for controlling sliding vane comprises pin 14 and elastic reset member 13, and elastic reset member 13 is arranged on the afterbody of pin 14.Elastic reset member 13 is spring.

The first slide plate 15 is or/and the second slide plate 17 is provided with only locked groove (not indicating), pin 14 is for matching with stopping locked groove, and pin 14 is placed in when only locked groove is interior, and the slide plate of pin 14 correspondences is locked, pin 14 only departs from after locked groove, the slide plate release of pin 14 correspondences and be free state.

Further, the first dividing plate is or/and arrange the through hole corresponding with stopping locked groove on second partition; Or the first dividing plate is or/and lower flange is provided with the through hole corresponding with stopping locked groove; Or second partition is or/and lower flange 9 is provided with the through hole corresponding with stopping locked groove; Pin 14 is placed in described through hole, and pin 14 is sealed and matched with described through hole, and pin 14 can move at the axial direction of described through hole.

Wherein, low pressure stage cylinder 8, the first high pressure stage cylinder 3 or the second high pressure stage cylinder 6 are also provided with the groove corresponding with described through hole, described groove is communicated with formation cavity with described through hole, described cavity is used for being communicated with pilot line, refrigerant in pilot line can change the pressure reduction of pin 14 both sides, thereby pin 14 is moved.

As a kind of embodiment, as shown in Figure 1, Figure 2 with shown in Figure 13, the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 are all placed in the upside of low pressure stage cylinder 8, the first dividing plate is or/and arrange device for controlling sliding vane on second partition, the first high pressure stage cylinder 3 or/and the second high pressure stage cylinder 6 as detachable carrier gas cylinder.The first dividing plate is herein the dividing plate between the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6, and second partition is herein the dividing plate between the second high pressure stage cylinder 6 and low pressure stage cylinder 8.

As a kind of embodiment, as shown in Fig. 5, Fig. 6 and Figure 15, the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 are all placed in the downside of low pressure stage cylinder 8, the described dividing plate that is placed in downside in the first dividing plate and second partition arranges device for controlling sliding vane or/and device for controlling sliding vane is set on lower flange 9, the first high pressure stage cylinder 3 or/and described the second high pressure stage cylinder 6 as detachable carrier gas cylinder.The first dividing plate is herein the dividing plate between low pressure stage cylinder 8 and the first high pressure stage cylinder 3, and second partition is the dividing plate between the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6, and the dividing plate that is placed in downside in the first dividing plate and second partition is second partition.Certainly, the first dividing plate herein also can be the dividing plate between the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6, second partition also can be the dividing plate between low pressure stage cylinder 8 and the first high pressure stage cylinder 3, and the dividing plate that is placed in so downside in the first dividing plate and second partition is just the first dividing plate.

As a kind of embodiment, as shown in Fig. 3, Fig. 4, Fig. 9 and Figure 14, low pressure stage cylinder 8 is placed between the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6, lower roller 11 is set in low pressure stage cylinder, in the first high pressure stage cylinder, roller 16 is set, the second high pressure stage cylinder 6 is interior arranges middle roller 12, the dividing plate that is placed in upside in the first dividing plate and second partition arranges device for controlling sliding vane or/and device for controlling sliding vane is set on lower flange 9, the first high pressure stage cylinder 3 or/and the second high pressure stage cylinder 6 as detachable carrier gas cylinder.The first dividing plate is herein the dividing plate (dividing plate that upper clapboard 4 and central diaphragm 5 are integrated) between the first high pressure stage cylinder 3 and low pressure stage cylinder 8, second partition is the dividing plate (lower clapboard 7) between the second high pressure stage cylinder 6 and low pressure stage cylinder 8, and the dividing plate that is placed in upside in the first dividing plate and second partition is the first dividing plate.Certainly, the first dividing plate herein also can be the dividing plate between the second high pressure stage cylinder 6 and low pressure stage cylinder 8, second partition can be the dividing plate between the first high pressure stage cylinder 3 and low pressure stage cylinder 8, and the dividing plate that is placed in so upside in the first dividing plate and second partition is just second partition.

Above embodiment's compressor has the first mode of operation, the second mode of operation and the 3rd mode of operation;

Under the first mode of operation (three cylinder twin-stage patterns), the upside that is all placed in low pressure stage cylinder 8 taking the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 is as example, as shown in figure 16, the first slide plate 15, the second slide plate 17 and the 3rd slide plate are all in free state, low pressure stage cylinder 8 carries out one-level compression, and the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 all carry out two-stage compression.From entering liquor separator, vaporizer refrigerant out enters low pressure stage cylinder 8, after compressing for the first time, be expelled to intermediate cavity in low pressure stage cylinder 8, it mixes in intermediate cavity with the refrigerant that flash vessel shwoot is intermediate pressure, mixed refrigerant enters the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 compresses for the second time, then be directly expelled in the housing of compressor, thereby realize three cylinder twin-stage motions, the direction of arrow in figure represents that refrigerant flows to.

Under the second mode of operation (twin-tub twin-stage pattern), the upside that is all placed in low pressure stage cylinder 8 taking the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 is as example, as shown in Figure 17 and Figure 18, the first slide plate 15 or the second slide plate 17 are in the lock state, low pressure stage cylinder 8 carries out one-level compression, and the second high pressure stage cylinder 6 or the first high pressure stage cylinder 3 carry out two-stage compression.From vaporizer refrigerant out enters liquor separator, entering low pressure stage cylinder 8 compresses for the first time, after compression, be expelled to intermediate cavity, it mixes with the refrigerant of flash vessel shwoot intermediate pressure out, after mixing, refrigerant enters in the first high pressure stage cylinder 3 or the second high pressure stage cylinder 6 and compresses for the second time, then directly discharge in this compressor housing, realize the operation of twin-tub twin-stage, the direction of arrow in figure represents that refrigerant flows to.

Under the 3rd mode of operation (single cylinder single mode), the upside that is all placed in low pressure stage cylinder 8 taking the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 is as example, as shown in figure 19, the first slide plate 15 and the second slide plate 17 are all in the lock state, the 3rd slide plate is in free state, low pressure stage cylinder 8 carries out one-level compression, and the first high pressure stage cylinder 3 and the second high pressure stage cylinder 6 are all in unloaded state.

The utility model also relates to a kind of air conditioner, comprises the compressor of above-mentioned arbitrary technological scheme, because air conditioner is prior art except compressor, repeats no longer one by one herein.

Above embodiment's compressor and air conditioner, the first high pressure stage cylinder is or/and the second high pressure stage cylinder is variable capacity cylinder, the quantity of convenient, flexible adjusting multicylinder compressor working cylinder, thus improve its adaptive capacity to operating conditions.Under conventional operating mode (load is lighter), unload one or more high pressure stage cylinders, improve the efficiency of compressor, promote the comprehensive energy efficiency of compressor; Under worst cold case, (load is heavier) increases the working quantity of high pressure stage cylinder, can significantly improve the heating capacity of compressor.

The above embodiment has only expressed several mode of execution of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (11)

1. a compressor, is characterized in that:

Comprise low pressure stage cylinder, the first high pressure stage cylinder, the second high pressure stage cylinder and lower flange;

Low pressure stage cylinder, the first high pressure stage cylinder, the second high pressure stage cylinder stack setting, between two adjacent cylinders, dividing plate is set, described the first high pressure stage cylinder and described the second high pressure stage cylinder are all placed in the homonymy of described low pressure stage cylinder or described the first high pressure stage cylinder and described the second high pressure stage cylinder and are placed in respectively the both sides of described low pressure stage cylinder, and described lower flange is placed in the downside of described low pressure stage cylinder, described the first high pressure stage cylinder and described the second high pressure stage cylinder;

Described the first high pressure stage cylinder has the first vane slot, in described the first vane slot, the first slide plate is set, described the second high pressure stage cylinder has the second vane slot, in described the second vane slot, the second slide plate is set, described low pressure stage cylinder has the 3rd vane slot, in described the 3rd vane slot, the 3rd slide plate is set;

Described the first high pressure stage cylinder and described the second high pressure stage cylinder are arranged in parallel, described the first high pressure stage cylinder and described the second high pressure stage cylinder after parallel connection are connected with described low pressure stage cylinder, described the first high pressure stage cylinder is or/and the second high pressure stage cylinder is variable capacity cylinder, and described low pressure stage cylinder is as one-level compression cylinder.

2. compressor according to claim 1, is characterized in that:

Two described dividing plates are respectively the first dividing plate and second partition, and described the first dividing plate is or/and be provided with the device for controlling sliding vane for controlling slide plate action on described second partition; Or described the first dividing plate is or/and described lower flange is provided with described device for controlling sliding vane; Or described second partition is or/and described lower flange is provided with described device for controlling sliding vane; The corresponding described slide plate of each described device for controlling sliding vane.

3. compressor according to claim 2, is characterized in that:

Described the first high pressure stage cylinder and described the second high pressure stage cylinder are all placed in the upside of described low pressure stage cylinder, described the first dividing plate is or/and arrange described device for controlling sliding vane on described second partition, described the first high pressure stage cylinder or/and described the second high pressure stage cylinder as detachable carrier gas cylinder.

4. compressor according to claim 2, is characterized in that:

Described the first high pressure stage cylinder and described the second high pressure stage cylinder are all placed in the downside of described low pressure stage cylinder, the described dividing plate that is placed in downside in described the first dividing plate and described second partition arranges described device for controlling sliding vane or/and described device for controlling sliding vane is set on described lower flange, described the first high pressure stage cylinder or/and described the second high pressure stage cylinder as detachable carrier gas cylinder.

5. compressor according to claim 2, is characterized in that:

Described low pressure stage cylinder is placed between described the first high pressure stage cylinder and described the second high pressure stage cylinder, the described dividing plate that is placed in upside in described the first dividing plate and described second partition arranges described device for controlling sliding vane or/and described device for controlling sliding vane is set on described lower flange, described the first high pressure stage cylinder or/and described the second high pressure stage cylinder as detachable carrier gas cylinder.

6. according to the compressor described in claim 1-5 any one, it is characterized in that:

Described lower flange is provided with intermediate cavity.

7. according to the compressor described in claim 2-5 any one, it is characterized in that:

Described device for controlling sliding vane comprises pin and elastic reset member, and described elastic reset member is arranged on the afterbody of described pin;

Described the first slide plate is or/and the second slide plate is provided with only locked groove, and described pin is for matching with described only locked groove, and when described pin is placed in described only locked groove, described slide plate is locked, and described pin departs from after described only locked groove, described slide plate release.

8. compressor according to claim 7, is characterized in that:

Described the first dividing plate is or/and arrange the through hole corresponding with described only locked groove on described second partition; Or described the first dividing plate is or/and described lower flange is provided with the through hole corresponding with described only locked groove; Or described second partition is or/and described lower flange is provided with the through hole corresponding with described only locked groove; Described pin is placed in described through hole, and described pin and described through hole are sealed and matched, and described pin can move at the axial direction of described through hole.

9. compressor according to claim 8, is characterized in that:

Described low pressure stage cylinder, described the first high pressure stage cylinder or described the second high pressure stage cylinder are also provided with the groove corresponding with described through hole, and described groove is communicated with formation cavity with described through hole, and described cavity is used for being communicated with pilot line.

10. according to the compressor described in claim 2-5 any one, it is characterized in that:

Described compressor has the first mode of operation, the second mode of operation and the 3rd mode of operation;

Under the first mode of operation, described the first slide plate, described the second slide plate and described the 3rd slide plate are all in free state, and described low pressure stage cylinder carries out one-level compression, and described the first high pressure stage cylinder and described the second high pressure stage cylinder all carry out two-stage compression;

Under the second mode of operation, described the first slide plate or described the second slide plate are in the lock state, and described low pressure stage cylinder carries out one-level compression, and described the second high pressure stage cylinder or described the first high pressure stage cylinder carry out two-stage compression;

Under the 3rd mode of operation, described the first slide plate and the second slide plate are all in the lock state, and described low pressure stage cylinder carries out one-level compression, and described the first high pressure stage cylinder and described the second high pressure stage cylinder are all in unloaded state.

11. 1 kinds of air conditioners, comprise compressor, it is characterized in that:

Described compressor is the compressor described in claim 1-10 any one.