CN203948248U - A kind of air suction silencer of refrigeration compressor of high anti-acoustic capability - Google Patents

Abstract

The utility model relates to the component improvement technology of refrigeration compressor, it is a kind of air suction silencer of refrigeration compressor of high anti-acoustic capability, there is plastic casing, the top of housing is provided with relief opening, bottom is provided with intakeport, connecting vessels is housed in housing, it is characterized in that: in housing at least one sidewall or the connecting tube inwall of connecting vessels be provided with densely covered projection or pit; The utlity model has high anti-acoustic capability, effectively improved the erasure effect of air suction silencer, reduce the operating noise of compressor, mainly apply to refrigeration compressor and reduce noise.

Description

A kind of air suction silencer of refrigeration compressor of high anti-acoustic capability

Technical field

The utility model relates to refrigeration compressor component improvement technology, especially a kind of air suction silencer of refrigeration compressor of high anti-acoustic capability.

Background technique

Air suction silencer is applied in hermetically sealed compressor, the general good plastic materials of heat-insulating property that adopts is made, play the effect that reduces noise and heighten compressor air suction efficiency, existing air suction silencer is conventionally by housing, intakeport, relief opening and connecting vessels form, in order to improve the noise reduction of air suction silencer, three even more silencing cavity on some air suction silencers, have been adopted, the air suction silencer also having is by the shape of connecting vessels is carried out to various improvement, optimize the object that reaches noise reduction, but after all, all to realize noise reduction by the connecting vessels of air suction silencer being optimized to design, because the design of connecting vessels is approaching perfect, make the noise reduction research work of baffler occur the stagnant state that stops.

Summary of the invention

The purpose of this utility model is further to improve the noise reduction of air suction silencer, and a kind of air suction silencer of refrigeration compressor of high anti-acoustic capability is provided.

Concrete scheme of the present utility model is: a kind of air suction silencer of refrigeration compressor of high anti-acoustic capability, there is plastic casing, the top of housing is provided with relief opening, bottom is provided with intakeport, connecting vessels is housed in housing, it is characterized in that: in housing at least one sidewall or the connecting tube inwall of connecting vessels be provided with densely covered projection or pit.

In the utility model in housing before or after or front and back sidewall on be provided with densely covered projection or pit.

In the utility model, on whole internal faces of housing, be provided with densely covered projection or pit.

Connecting vessels described in the utility model includes dividing plate and connecting tube, at the upper surface of dividing plate or lower surface or upper and lower surface, is provided with densely covered projection or pit.

Housing described in the utility model is forward and backward two halves fastening structure or upper and lower fastening structure.

Pit described in the utility model or projection be shaped as circle, triangle, rectangle, polygonal, prismatic (can also be other various shapes certainly, comprise irregularly shapedly, from being conducive to explained hereafter angle, consider, take front and back two halves fastening structure as good).

Pit or projection densely covered described in the utility model are cellular.

Described in the utility model, projection is taper type.

The utility model has been broken through traditional Design Thinking mode, from the structural type of housing, carries out brand-new design, in inner walls, designs densely covered projection or pit, improves sound-deadening and noise-reducing effect.Its design principle is: when sound wave incides inner walls, because the projection on inwall or bowl configurations have improved the viscous resistance of air, the vibration friction of air and hole wall, makes quite a few acoustic energy change into heat energy and be absorbed.Test shows, under the same conditions, applies the utility model baffler and can reduce on year-on-year basis compressor noise 1-3DBA, makes the noise reduction of baffler have new breakthrough.And in the utility model, adopt bowl configurations, can also reduce the consumption of material, thereby reduce product cost.

Accompanying drawing explanation

Fig. 1 is the first half housing plan view of the utility model structure one;

Fig. 2 is the left sectional view of first half housing of the utility model structure one;

Fig. 3 is the first half housing rear view of the utility model structure one;

Fig. 4 is the first half housing plan view of the utility model structure one;

Fig. 5 is the A place zoomed-in view in Fig. 2;

Fig. 6 is the later half housing plan view of the utility model structure one;

Fig. 7 is the later half housing left view of the utility model structure one;

Fig. 8 is the later half housing right elevation of the utility model structure one;

Fig. 9 is the later half housing plan view of the utility model structure one;

Figure 10 is the B place zoomed-in view of Fig. 8;

Figure 11 is the connecting vessels plan view in the utility model structure one;

Figure 12 is the connecting vessels plan view in the utility model structure one;

Figure 13 is the connecting vessels worm's eye view in the utility model structure one;

Figure 14 is the first half housing plan view of the utility model structure two;

Figure 15 is the left sectional view of first half housing of the utility model structure two;

The first half housing plan view of Figure 16 the utility model structure two;

Figure 17 is C place zoomed-in view in Figure 15;

Figure 18 is the later half housing plan view of the utility model structure two;

Figure 19 is the later half housing right elevation of the utility model structure two;

Figure 20 is the later half housing plan view of the utility model structure two;

Figure 21 is D place zoomed-in view in Figure 19;

Figure 22 is the connecting vessels plan view in the utility model structure two;

Figure 23 is the connecting vessels plan view in the utility model structure two;

Figure 24 is the connecting vessels worm's eye view in the utility model structure two;

Figure 25 is the plan view of the first half housing of the utility model structure three;

Figure 26 is the left sectional view of the first half housing of the utility model structure three;

Figure 27 is the right elevation of the first half housing of the utility model structure three;

Figure 28 is the plan view of the first half housing of the utility model structure three;

Figure 29 is K place zoomed-in view in Figure 26;

Figure 30 is the plan view of the later half housing of the utility model structure three;

Figure 31 is the right elevation of the later half housing of the utility model structure three;

Figure 32 is the plan view of the later half housing of the utility model structure three;

Figure 33 is I place zoomed-in view in Figure 31;

Figure 34 is the main sectional view of the connecting vessels of the utility model structure three;

Figure 35 is the connecting vessels plan view of the utility model structure three;

Figure 36 is the connecting vessels worm's eye view of the utility model structure three;

Figure 37 is the first half plan view of the utility model structure four;

Figure 38 is the later half plan view of the utility model structure four.

In figure: 1-first half housing, 2-intakeport, 3-square frustum projection, 4-embedding slot, 5-later half housing, 6-relief opening, 7-embedding slot, 8-dividing plate, 9-connecting tube, 10-first half housing, 11-intakeport, 13-rectangular boss, 14-embedding slot, 15-later half housing, 16-relief opening, 17-embedding slot, 18-dividing plate, 19-connecting tube, 20-first half housing, 21-intakeport, 22-cellular pit, 23-embedding slot, 24-later half housing, 25-relief opening, 26-embedding slot, 27-dividing plate, 28-connecting tube, 29-first half housing, 30-intakeport, 31-connecting tube, 32-cellular pit, 33-later half housing, 34-relief opening.

Embodiment

Example 1: one of the utility model structure: first adopt plastics by Fig. 1-5, to make first half housing 1 respectively, which is provided with intakeport 2, embedding slot 4, and on the internal face of first half housing 1, be provided with densely covered square frustum projection 3.Press Fig. 6-10 and make later half housing 5, which is provided with relief opening 6, embedding slot 7(is positioned at top, and highly consistent with the embedding slot 4 on first half housing), densely covered square frustum projection 3 on the internal face of later half housing 5, be provided with.Press Figure 11-13 and make connecting vessels, it is by forming dividing plate 8 and connecting tube 9, at the upper and lower faces of dividing plate 8, is all densely covered with square frustum projection 3.Dividing plate in connecting vessels 8 is aligned to the embedding slot 4 and 7 on forward and backward two halves housing, more forward and backward two halves housing 1 and 5 fastening encapsulation one are formed to one of the utility model structure.

Front and back housing in the utility model can form various shapes, can all or part of making square frustum projection of inwall on it, certainly can also be the projection of the various shapes such as circle, triangle, prismatic, projection can regular or random arranging, connecting vessels dividing plate upper and lower faces can not do projection all or one side make projection.

Example 2: two of the utility model structure: first adopt plastics by Figure 14-17, to make first half housing 10 respectively, which is provided with intakeport 11, embedding slot 14, and on the internal face of first half housing 10, be provided with densely covered rectangular projection 13.Press Figure 18-21 and make later half housing 15, which is provided with relief opening 16, embedding slot 17(is positioned at top, and highly consistent with the embedding slot 14 on first half housing), densely covered rectangular projection 13 on the internal face of later half housing 15, be provided with.Press Figure 22-24 and make connecting vessels, it is by forming dividing plate 18 and connecting tube 19, at the upper and lower faces of dividing plate 18, is all densely covered with rectangular projection 13.Dividing plate in connecting vessels 18, over against the embedding slot 14 and 17 on forward and backward two halves housing, then is fastened to encapsulation one by forward and backward two halves housing 10 and 15 and forms two of the utility model structure.

Front and back housing in the utility model can form various shapes, on it inwall can be all or part of making rectangular projection, certainly can also be the projection of the various shapes such as circle, triangle, prismatic, projection can regular or random arranging, and connecting vessels dividing plate upper and lower faces can not do projection or one side is made projection.

Example 3: three of the utility model structure: first adopt plastics by Figure 25-29, to make first half housing 20 respectively, which is provided with intakeport 21, embedding slot 23, and on the internal face of first half housing 20, be provided with cellular pit 22.Press Figure 30-33 and make later half housing 24, which is provided with relief opening 25, embedding slot 26(is positioned at top, and highly consistent with the embedding slot 23 on first half housing), densely covered cellular pit 22 on the internal face of later half housing 24, be provided with.Press Figure 34-36 and make connecting vessels, it is by forming dividing plate 27 and connecting tube 28, at the upper and lower faces of dividing plate 27, is all densely covered with cellular pit 22.Dividing plate in connecting vessels 27, over against the embedding slot 23 and 26 on forward and backward two halves housing, then is fastened to encapsulation one by forward and backward two halves housing 20 and 24 and forms three of the utility model structure.

Front and back housing in the utility model can form various shapes, on it, inwall can the cellular pit of all or part of making, certainly can also be the pit of the various shapes such as circle, triangle, Ling shape, pit can regular or random arranging, and connecting vessels dividing plate upper and lower faces can not do pit or one side is made pit.

Example 4: four of the utility model structure, first adopt plastics to make front and back two halves housing 29,33 by Figure 37,38, on it, establish respectively intakeport 30 and relief opening 34, be equiped with respectively two halves connecting vessels 32, the cellular projection that system is gathered in the connecting tube of two halves connecting vessels 32 inwall, fastens front and back two halves housing 29,33 and two halves connecting vessels hole to encapsulate one and form four of the utility model structure.

The connecting tube of the connecting vessels in the utility model, the projection in inwall can also be pit, and projection or pit can be the various shapes such as circle, triangle, prismatic, rectangle, can regular or random arranging, all belong to protection domain of the present utility model.

Claims (8)

1. the air suction silencer of refrigeration compressor of a high anti-acoustic capability, have plastic casing, the top of housing is provided with relief opening, and bottom is provided with intakeport, connecting vessels is housed in housing, it is characterized in that: in housing at least one sidewall or the connecting tube inwall of connecting vessels be provided with densely covered projection or pit.

2. the air suction silencer of refrigeration compressor of a kind of high anti-acoustic capability according to claim 1, is characterized in that: before or after in housing or on the sidewall of front and back, be provided with densely covered projection or pit.

3. the air suction silencer of refrigeration compressor of a kind of high anti-acoustic capability according to claim 1, is characterized in that: on whole internal faces of housing, be provided with densely covered projection or pit.

4. the air suction silencer of refrigeration compressor of a kind of high anti-acoustic capability according to claim 1, is characterized in that: described connecting vessels includes dividing plate and connecting tube, at the upper surface of dividing plate or lower surface or upper and lower surface, is provided with densely covered projection or pit.

5. according to the air suction silencer of refrigeration compressor of any one the high anti-acoustic capability described in claim 1-4, it is characterized in that: described housing is forward and backward two halves fastening structure or upper and lower fastening structure.

6. according to the air suction silencer of refrigeration compressor of any one the high anti-acoustic capability described in claim 1-4, it is characterized in that: described pit or projection be shaped as circle, triangle, rectangle, polygonal, prismatic.

7. according to the air suction silencer of refrigeration compressor of any one the high anti-acoustic capability described in claim 1-4, it is characterized in that: described densely covered pit or projection are for cellular.

8. according to the air suction silencer of refrigeration compressor of any one the high anti-acoustic capability described in claim 1-4, it is characterized in that: described projection is taper type.