WO2019144641A1 - Compressor assembly with tangential damping device and refrigerating system - Google Patents

Abstract

Provided are a compressor assembly with a tangential damping device and a refrigerating system, wherein the compressor assembly comprises: a compressor body (1); a first connecting piece (2) for bonding connection with the outer peripheral wall of the compressor body (1); a second connecting piece (5) for connecting with the first connecting piece (2) to fix the first connecting piece (2); a damping part (4) arranged between the first connecting piece (2) and the second connecting piece (5); wherein, the arrangement direction of the first connecting piece (2), the damping part (4) and the second connecting piece (5) is in the tangential direction of the outer peripheral wall of the compressor body (1), and is perpendicular to the axial direction of the compressor body (1). According to the compressor assembly, the tangential vibration of the compressor body can be reduced through the first and second connecting pieces and the damping part arranged in the tangential direction, the vibration generated by the compressor body in the tangential direction is reduced, and the problems of noise and low reliability caused by high pipeline vibration in the refrigerating system are solved.

Description

Compressor assembly and refrigeration system with tangential vibration damping device

The present application claims priority to Chinese Patent Application No. 201810073222.4, entitled "Compressor Assembly and Refrigeration System with Tangential Damping Device", filed on January 25, 2018, the entire disclosure of which is incorporated herein by reference. The content is incorporated herein by reference.

Technical field

The invention belongs to the technical field of compressors, and in particular relates to a compressor assembly and a refrigeration system with a tangential vibration damping device.

Background technique

With the continuous improvement of people's living standards, refrigeration systems such as air conditioners have become essential household appliances. The basic function of the compressor in the refrigeration system is to absorb and compress the refrigerant and increase the pressure and temperature of the refrigerant. It is not only the power-providing component of the refrigeration system, but also the source of the vibration, the associated piping system and the supporting sheet metal. The structure has strong and sustained impact vibration. In the practical application of the refrigeration system, the failure and destruction of the refrigeration system are mostly caused by vibration. The vibration of the refrigeration system is the key consideration for the design of the refrigeration system.

The classic refrigeration system structure provides a damping washer on the mounting plate or L leg of the compressor to reduce vibration in the vertical direction of the compressor. The amplification effect of the radial vibration of the compressor on the refrigeration system is much smaller than the tangential vibration of the compressor. The large vibration of the refrigeration system is caused by the tangential vibration of the compressor, thus reducing the tangential vibration of the compressor. Refrigeration systems are significant.

The present invention studies a compressor having a tangential vibration damping device due to technical problems such as tangential vibration of the prior art compressor resulting in reduced or damaged compressor structural strength that affects the normal operating performance of the compressor. Components and refrigeration systems.

Summary of the invention

Therefore, the technical problem to be solved by the present invention is to overcome the defects that the tangential vibration of the compressor in the prior art causes the structural strength of the compressor to be reduced or damaged to affect the normal working performance of the compressor, thereby providing a tangential reduction. The compressor assembly and refrigeration system of the vibrating device.

The present invention provides a compressor assembly having a tangential vibration damping device, comprising:

Compressor body;

a first connecting member capable of being in abutting connection with an outer peripheral wall of the compressor body;

a second connecting member for connecting with the first connecting member to fix the first connecting member;

a damping member disposed between the first connecting member and the second connecting member; and an arrangement direction of the first connecting member, the damping member and the second connecting member along the The outer peripheral wall of the compressor body is arranged tangentially and perpendicular to the axial direction of the compressor body.

Preferably,

An axis of the compressor body extends in a vertical direction, and an arrangement direction of the first connecting member, the damper member, and the second connecting member extends in a horizontal plane.

Preferably,

The first connecting member is connected to an upper position of the compressor body.

Preferably,

The first connecting member is an L-shaped leg, and includes first and second plates that are connected and perpendicular to each other, the first plate is connected to an outer peripheral surface of the compressor body, and the second connecting member includes a third a flat plate, and the third flat plate corresponds to the second flat plate.

Preferably,

a first through hole is disposed on the second plate, a second through hole is disposed on the third plate, a third through hole is disposed on the damping member, and the first through hole is The second through hole and the third through hole are both opposite to form a space through which the threaded connector is received.

Preferably,

The axial directions of the first through hole, the second through hole and the third through hole are identical and perpendicular to an axial direction of the compressor body.

Preferably,

When the first plate is connected to the compressor body, the force receiving surface of the second plate that is in contact with the vibration damping member extends and passes through the axis of the compressor body.

Preferably,

The threaded connection member includes a screw, and a diameter of the screw is smaller than a minimum value of the first through hole, the second through hole, and the third through hole by more than 1 mm.

Preferably,

The second connector is fixedly connected to the side panel of the refrigeration system by screwing or welding.

Preferably,

The second connecting member is a U-shaped plate structure, comprising two parallel side plates and an intermediate plate connecting the two, wherein an end of the one side plate is bent to form one third flat plate on the other side The end of the plate is also formed by bending to form another of the third plates, and the intermediate plate is provided with a threaded hole through which the second connecting member can be screwed to the side plate.

Preferably,

The damping members are two or more, and the first connecting member and the second damping member are each disposed in one-to-one correspondence with the damping member; and/or the damping member is a vibration damping washer. .

Preferably,

In all of the damping members, at least one damping member is located downstream of the first connecting member in a clockwise direction thereof, and at least one damping member is located in a clockwise direction of the first connecting member that is in contact therewith Upstream.

The present invention also provides a refrigeration system comprising the compressor assembly having a tangential vibration damping device according to any of the preceding claims.

The compressor assembly and refrigeration system with tangential vibration damping device provided by the invention have the following beneficial effects:

A compressor assembly and a refrigeration system having a tangential vibration damping device of the present invention, wherein a first connecting member, a second connecting member, and a vibration damping member are provided, and a vibration damping member is disposed on the first connecting member and the first Between the two connecting members; and the arrangement direction of the first connecting member, the damping member and the second connecting member is arranged along a tangential direction of the outer peripheral wall of the compressor body, and The axial direction of the compressor body is perpendicular, and the tangential vibration of the compressor body can be damped by the first and second connecting members arranged in the tangential direction and the vibration damping member, thereby reducing the tangential direction generated by the compressor body. Vibration, effectively solve the problem of low noise and low reliability caused by large vibration of the refrigeration system, reduce the vibration of the pipeline in the refrigeration system, and make the refrigeration system run quieter and more reliable.

DRAWINGS

Figure 1 is a perspective structural view of a compressor assembly having a tangential vibration damping device of the present invention;

Figure 2 is a top plan view of a compressor assembly having a tangential vibration damping device of the present invention;

Figure 3 is a front elevational view showing the compressor assembly of the present invention having a tangential vibration damping device;

Figure 4 is a partial enlarged view of a portion A of Figure 3.

The reference numerals in the figure are indicated as:

1, the compressor body; 2, the first connecting member; 21, the first flat plate; 22, the second flat plate; 3, the threaded connecting member; 31, the screw; 32, the nut; 4, the damping member; 5, the second connection 51; third plate; 52, side plate; 53, intermediate plate; 54, threaded hole.

Detailed ways

As shown in FIGS. 1-4, the present invention provides a compressor assembly having a tangential vibration damping device, comprising: a compressor body 1; a first connecting member 2, capable of being associated with an outer peripheral wall of the compressor body 1. a fitting connection; a second connecting member 5 for connecting with the first connecting member 2 for fixing the first connecting member 2; and a second connecting member capable of being connected to the side door panel of the refrigeration system to be fixed; The first connecting member 2 corresponds to the second connecting member 5 and is connected to each other;

a damping member 4 disposed between the first connecting member 2 and the second connecting member 5; and a row of the first connecting member 2, the damping member 4 and the second connecting member 5 The cloth direction is arranged tangentially along the outer peripheral wall of the compressor body 1 and perpendicular to the axial direction of the compressor body 1.

Providing a first connecting member, a second connecting member and a damping member, and disposing the damping member between the first connecting member and the second connecting member; and the first connecting member, the reducing The arrangement direction of the vibrating member and the second connecting member is arranged tangentially along the outer peripheral wall of the compressor body and perpendicular to the axial direction of the compressor body, and can be arranged by tangentially 1. The second connecting member and the damping component reduce the tangential vibration of the compressor body, reduce the vibration in the tangential direction generated by the compressor body, and effectively solve the noise and reliability caused by the large vibration of the refrigeration system. The problem of low performance reduces the vibration of the pipeline in the refrigeration system, thus making the refrigeration system run quieter and more reliable.

Preferably,

An axis of the compressor body 1 extends in a vertical direction, and an arrangement direction of the first connecting member 2, the damper member 4, and the second connecting member 5 extends in a horizontal plane. This is a preferred arrangement of the compressor body of the present invention, that is, a vertical arrangement or a vertical arrangement in which the arrangement direction of the first connecting member, the damping member and the second connecting member extends in a horizontal plane. It is possible to prevent the compressor body from generating a clockwise or counterclockwise rotation about the axis of the compressor body, i.e., preventing the compressor body from vibrating in a tangential direction, with respect to the prior art which can only produce rotation preventing the radial direction ( The damping member under the compressor body in Fig. 1 can prevent the tangential vibration, or reduce the tangential vibration of the compressor casing, and reduce the vibration of the pipeline in the refrigeration system, thereby making the refrigeration system run more. Quiet and reliable.

Preferably,

The first connecting member 2 is connected to an upper position of the compressor body 1. Since the lower end of the compressor body is fixed on the base, the upper end is prone to vibration in a particularly tangential direction (ie, clockwise or counterclockwise rotation around the axis of the compressor body), so that the first connecting member 2 is connected to the compressor. The upper position of the body 1 can prevent or avoid tangential vibration generated by the upper portion of the compressor through the first connecting member, the damper member and the second connecting member, or reduce the tangential vibration of the upper end of the compressor casing, and can effectively The ground vibration in the refrigeration system is reduced to make the refrigeration system run quieter and more reliable.

Preferably,

The first connecting member 2 is an L-shaped leg, and includes a first flat plate 21 and a second flat plate 22 which are connected and perpendicular to each other. The first flat plate 21 is connected to an outer peripheral surface of the compressor body 1, and the second The connecting member 5 includes a third flat plate 51, and the third flat plate 51 is matched with the second flat plate 22. This is a preferred specific configuration of the first connecting member and the second connecting member of the present invention, and the first connecting member is provided in the form of an L-shaped leg which can be connected to the outer peripheral surface of the compressor body through the first flat plate (preferably The welding fastening connection), the second flat plate perpendicular thereto is corresponding to the third flat plate of the second connecting member, and the connection between the two is completed, thereby completing the relative fixing of the outer peripheral wall of the compressor body in the tangential direction to prevent the rotation thereof from being formed. Tangential vibration.

Preferably,

a second through hole (not shown) is disposed on the second plate 22, a second through hole (not shown) is disposed on the third plate 51, and a third portion is disposed on the damping member 4. A through hole (not shown), and the first through hole is opposed to the second through hole and the third through hole to form a space through which the threaded connection member 3 is accommodated. The first, second and third through holes respectively provided on the second flat plate, the third flat plate and the damping member can accommodate the threaded connecting member to pass through, thereby realizing the second flat plate, the third flat plate and the vibration damping member Simultaneous threaded connection to fix the three to fix the outer peripheral wall of the compressor body to prevent tangential vibration (counterclockwise or clockwise rotation).

Preferably,

The axial directions of the first through hole, the second through hole, and the third through hole coincide with each other and are perpendicular to the axial direction of the compressor body 1. This enables the damping member and the threaded connection member to fix the horizontal tangential direction of the outer circumferential surface of the compressor body, preventing the compressor body from generating a clockwise or counterclockwise tangential rotation about the axis of the compressor body, preventing or reducing Small tangential vibration.

Preferably,

When the first flat plate 21 is connected to the compressor main body 1, the force receiving surface of the second flat plate 22 that is in contact with the vibration damping member 4 extends and passes through the axis of the compressor main body 1. In this way, the first flat plate perpendicular to the second flat plate can be ensured to be as tangentially as possible to the outer peripheral wall of the compressor body, and the looseness of the connection with the compressor body can be prevented from being tightly fitted, and the first flat plate can be improved. The degree of fastening to the body of the compressor. That is, when the L-shaped leg is connected to the compressor body 1, the L-shaped leg and the force-receiving surface of the vibration-damping washer extend and pass through the axis of the compressor body.

Preferably,

The threaded connection member 3 includes a screw 31, and the diameter of the screw is smaller than a minimum value of the first through hole, the second through hole, and the third through hole by more than 1 mm. This can ensure that the screw is normally threaded into the three through holes without friction or vibration, and the screw 31 is prevented from contacting the lateral L-shaped legs, the damping washer and the connecting hole of the second connecting member 5 during installation. To avoid wear and noise caused by vibration.

Preferably,

The second connecting piece 5 is fixedly connected to the side panel of the refrigeration system by screwing or welding. This is a preferred fixing manner of the second connecting member of the present invention. The second connecting member is fixed to the side door panel of the refrigeration system by screwing or welding, and can form a good fixing effect on the second connecting member, thereby achieving the first The fixing action of the connecting member provides a condition for preventing the tangential vibration of the first connecting member.

Preferably,

The second connecting member 5 is a U-shaped plate member, and includes two parallel side plates 52 and an intermediate plate 53 connecting the two, wherein an end portion of the one side plate 52 is formed by bending to form a third flat plate 51. The other third plate 51 is also formed by bending at the end of the other side plate 52, and the intermediate plate 53 is provided with a threaded hole 54 through which the second connecting member 5 can be disposed. A thread is fixed to the side panel. This is a further preferred specific configuration of the second connector of the present invention, by which a matching connection can be produced by the bent third plate and the second plate of the first connector, through the side panels and the middle The plate forms a U-shaped structure, and the intermediate plate and the threaded holes thereon can be screwed to the side plates of the refrigeration system to form a fixing effect on the second connecting member.

Preferably,

The vibration damping members 4 are two or more, and the first connecting member 2 and the second connecting member 5 are each disposed in one-to-one correspondence with the vibration damping member 4; and/or the vibration damping member 4 For damping the washer. This is a preferred number and preferred configuration of the damping member of the present invention, adding two or more lateral L legs (ie, the first connecting member), the connecting bracket (ie, the second connecting member), and the respective bodies outside the compressor body. The connecting member (i.e., the vibration damping member) connected to the lateral L leg and the connecting bracket can reduce the tangential vibration of the upper end of the compressor casing by these newly added damping members.

Preferably,

In all of the damping members 4, at least one damping member 4 is located downstream of the first connecting member 2 in contact therewith, and at least one damping member 4 is located at the first connecting member 2 that is in contact therewith. The upstream of the clockwise direction.

In this way, the damping washer must have at least one of the same rotational direction as the other damping washers relative to the L-legs of the compressor housing axis, not all of which can be placed in the clockwise or reverse direction of the transverse housing legs of the transverse L-legs. In the hour hand direction. When the refrigeration system is in operation, the tangential vibration generated by the compressor body is transmitted to the lateral L leg (ie, the first connecting member 2) such that the lateral L leg (the first connecting member 2) and the connecting plate fixed on the side panel of the refrigeration system The relative displacement is generated. When the above conditions are satisfied, one of the two or more lateral L legs compresses the damping washer, and the damping washer elastically deforms to generate a reaction force, restricting further displacement of the lateral L leg, thereby reducing compression. Tangential vibration of the machine body.

The compressor body 1 and the lateral L leg (ie, the first connecting member 2) are tightly connected by a welding process, and the damping washer is between the connecting plate (ie, the second connecting member 5) and the lateral L leg, through the screw 31 and the nut 32. Connect the lateral L feet, the damping washer and the connecting plate together.

When the screw 31 and the nut 32 are connected, the nut 32 cannot be screwed too tightly or too loosely, so that it is suitable to clamp the lateral L leg and the connecting plate. If the tightening is too tight, the damping washer loses the buffer zone and loses vibration damping. The effect of loosening will make the damping washer not effective.

The present invention also provides a refrigeration system comprising the compressor assembly having a tangential vibration damping device according to any of the preceding claims. The tangential vibration of the compressor body can be damped by the first and second connecting members and the damper members arranged in the tangential direction by the compressor assembly including the tangential damper device according to any of the preceding claims. The invention reduces the vibration in the tangential direction generated by the compressor body, effectively solves the problem of low noise and low reliability caused by the vibration of the pipeline system, and reduces the vibration of the pipeline in the refrigeration system, thereby making the refrigeration system run more. Quiet and reliable.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the protection of the present invention. Within the scope. The above is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make several improvements and modifications without departing from the technical principles of the present invention. It should also be considered as the scope of protection of the present invention.

Claims (13)

1. A compressor assembly having a tangential vibration damping device, comprising:

   Compressor body (1);

   a first connecting member (2) capable of being in abutting connection with an outer peripheral wall of the compressor body (1);

   a second connecting member (5) for connecting with the first connecting member (2) for fixing the first connecting member (2);

   a damping member (4) disposed between the first connecting member (2) and the second connecting member (5); and the first connecting member (2), the damping member (4) The arrangement direction of the second connecting member (5) is arranged tangentially along the outer peripheral wall of the compressor body (1) and perpendicular to the axial direction of the compressor body (1).
2. The compressor assembly of claim 1 wherein:

   An axis of the compressor body (1) extends in a vertical direction, and an arrangement direction of the first connecting member (2), the vibration damping member (4), and the second connecting member (5) is Extends in a horizontal plane.
3. The compressor assembly of claim 2 wherein:

   The first connecting member (2) is connected to an upper position of the compressor body (1).
4. A compressor assembly according to any one of claims 1 to 3, wherein:

   The first connecting member (2) is an L-shaped leg, comprising a first plate (21) and a second plate (22) connected and perpendicular to each other, the first plate (21) and the compressor body (1) The outer peripheral surface of the second connecting member (5) includes a third flat plate (51), and the third flat plate (51) is matched with the second flat plate (22).
5. The compressor assembly of claim 4 wherein:

   a second through hole is disposed on the second plate (22), a second through hole is disposed on the third plate (51), and a third through hole is disposed on the damping member (4), and The first through hole is opposed to the second through hole and the third through hole to form a space through which the threaded connecting member (3) is received.
6. The compressor assembly of claim 5 wherein:

   The axial directions of the first through hole, the second through hole and the third through hole are identical and perpendicular to the axial direction of the compressor body (1).
7. The compressor assembly of claim 5 wherein:

   When the first plate (21) is connected to the compressor body (1), the force receiving surface of the second plate (22) that is in contact with the vibration damping member (4) extends through the compressor. The axis of the body (1).
8. The compressor assembly of claim 5 wherein:

   The threaded connection (3) includes a screw, and the diameter of the screw is smaller than a minimum of the first through hole (20), the second through hole, and the third through hole by more than 1 mm.
9. A compressor assembly according to any one of claims 1-8, wherein:

   The second connecting piece (5) is fixedly connected to the side panel of the refrigeration system by screwing or welding.
10. The compressor assembly of claim 9 wherein:

    The second connecting member (5) is a U-shaped plate structure comprising two parallel side plates (52) and an intermediate plate (53) connecting the two, wherein the end of the one side plate (52) is bent Forming one of the third plates (51), and forming the other of the third plates (51) by bending at the ends of the other side plates (52), and the intermediate plates (53) are provided with threads A hole (54) through which the second connecting member (5) can be screwed to the side plate.
11. A compressor assembly according to any one of claims 1 to 10, wherein:

    The damping members (4) are two or more, and the first connecting member (2) and the second connecting member (5) are respectively disposed in one-to-one correspondence with the damping member (4); and / Alternatively, the vibration damping member (4) is a vibration damping washer.
12. The compressor assembly of claim 11 wherein:

    In all of the damping members (4), at least one damping member (4) is located downstream of the first connecting member (2) in contact therewith, and at least one damping member (4) is located adjacent thereto The clockwise upstream of the first connector (2).
13. A refrigeration system comprising a compressor assembly having a tangential vibration damping device according to any of claims 1-12.

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