CN219433525U - Be applied to air source heat pump's installation device - Google Patents

Abstract

The utility model discloses a mounting device applied to an air source heat pump, which has mutually orthogonal up-down, left-right and front-back directions, and comprises: a housing; a partition plate connected to the inside of the housing and dividing the housing into a left-right air supply chamber and a seal chamber; the mounting bracket is connected to the shell and is positioned in the air supply cavity. The mounting bracket is connected in the air supply chamber, and the wind current that the fan produced can blow the reactance on the mounting bracket in the air supply chamber, plays radiating effect to the reactance, and because the air supply chamber needs to exchange the air that flows with the external world, consequently the peripheral waste heat of reactance can be taken to the external world by the wind current, and then can prolong the life of reactance.

Description

Be applied to air source heat pump's installation device

Technical Field

The utility model relates to the technical field of installation devices, in particular to an installation device applied to an air source heat pump.

Background

The Chinese patent publication No. CN212987697U discloses an air source heat pump unit, the electric box is arranged at the top of the partition part, the electric box comprises a packaged electric box body, and electric elements are arranged in the electric box body. The electric elements comprise the reactance, when the air source heat pump unit is used for a long time, a large amount of heat can be generated by the reactance, and the reactance is wrapped by the packaged electric box body, so that the temperature around the reactance is overhigh, and the service life of the reactance is further influenced.

Disclosure of Invention

The utility model aims to solve the technical problems that: an installation device applied to an air source heat pump is provided to solve one or more technical problems existing in the prior art, and at least provides a beneficial choice or creation condition.

The utility model solves the technical problems as follows:

a mounting device for an air source heat pump having mutually orthogonal up-down, left-right and front-back directions, comprising: a housing; a partition plate connected to the inside of the housing and dividing the housing into a blower chamber and a seal chamber arranged left and right; the mounting frame is connected to the shell and is positioned in the air supply cavity.

The partition plate divides the shell into an air supply cavity and a sealing cavity, parts needing to be sealed are installed in the sealing cavity, a fan is installed in the air supply cavity correspondingly, the installation frame provides an installation position for the electric reactor, the installation frame is connected in the air supply cavity, wind flow generated by the fan can blow the electric reactor on the installation frame in the air supply cavity, the effect of heat dissipation is achieved on the electric reactor, and because the air supply cavity needs to exchange flowing air with the outside, waste heat around the electric reactor can be taken out to the outside by the wind flow, and the service life of the electric reactor can be prolonged.

As a further improvement of the above technical solution, the mounting frame is located at the top of the air supply cavity, and the mounting frame has a mounting surface disposed downward.

The mounting frame is arranged at the top of the air supply cavity, namely, the mounting frame is arranged at the edge position of the air supply cavity, so that the rotating fan is prevented from colliding with the mounting frame; most of wind flow generated by the fan moves upwards, so that the heat dissipation efficiency of the reactor is improved; in addition, the installation surface is downward, and the installation surface is opposite to the fan arranged in the air supply cavity, so that the heat dissipation efficiency of the reactance is further improved, and the service life of the reactance is prolonged.

As a further improvement of the above technical solution, the mounting frame includes: the upper mounting plate is detachably arranged at the top of the air supply cavity; the lower mounting plate is positioned below the upper mounting plate, and the bottom surface of the lower mounting plate is the mounting surface; and the two ends of the adjusting piece are respectively connected with the upper mounting plate and the lower mounting plate, and the length of the adjusting piece in the up-down direction is adjustable.

The length of the adjusting piece in the up-down direction is adjustable, when the reactance is arranged on the lower mounting plate, the actual extension length of the adjusting piece is adjusted, so that the distance between the reactance and the fan is changed, and as the fan in the air supply cavity can resonate during working, the lower mounting plate can swing up and down under the action of the adjusting piece, the swinging lower mounting plate can generate certain disturbance to the air flow, the heat dissipation efficiency of the reactance is further accelerated, and the service life of the reactance is prolonged; and because reactance uses after a period, need dismantle the maintenance, consequently set up the mounting panel and can dismantle the connection at the air supply chamber, the mounting panel is gone up to convenient to detach.

As a further improvement of the above technical solution, the adjusting member includes: an upper rod, one end of which is connected to the upper mounting plate; one end of the lower rod is connected with the upper rod in a sliding way, and the other end of the lower rod is connected with the lower mounting plate; and the two ends of the first spring are respectively connected with one ends of the upper rod and the lower rod, and the deformation direction of the first spring is arranged along the up-down direction.

Under the elastic action of the first spring, the lower rod is limited to slide along the upper rod, and then the lower mounting plate is driven to move in the up-down direction, when the fan is started to generate resonance, the first spring can eliminate partial force generated by vibration, so that the situation that the reactance generates resonance is reduced, and the service life of the reactance is prolonged; in addition, the upper rod, the lower rod and the first spring are simpler in composition structure and convenient to produce.

As a further improvement of the technical scheme, the adjusting piece further comprises two bases which are respectively connected with the upper mounting plate and the lower mounting plate, one end of the upper rod is connected with the upper mounting plate through one of the bases, the upper rod is rotationally connected with one of the bases, the other end of the lower rod is connected with the lower mounting plate through the other base, the lower rod is rotationally connected with the other base, and the rotation axes of the two bases extend along the front-back direction.

The two bases are additionally arranged, so that the lower mounting plate can swing along the up-down direction and also can swing along the left-right direction, the situation that the reactance generates resonance is further reduced, and the service life of the reactance is prolonged.

As a further improvement of the above technical solution, the base above is slidably connected to the upper mounting plate in the front-rear direction, and the adjusting member further includes a second spring connected between the upper mounting plate and the base above, and the second spring causes the base above to have a tendency to move in the front-rear direction.

The second spring is additionally arranged, and the base is arranged and connected with the upper mounting plate in a sliding manner along the front-back direction, so that the lower mounting plate can swing along the up-down direction and the left-right direction, and can swing along the front-back direction, thereby further reducing the resonance of the reactance and prolonging the service life of the reactance; in addition, under the elastic action of the second spring, the sliding path of the base above can be limited, when the fan starts to generate resonance, the second spring can eliminate partial force generated by vibration, so that the situation that reactance generates resonance is reduced, and the service life of the reactance is prolonged.

As a further improvement of the above technical solution, the base above is connected with a guide rod, and the guide rod is slidingly connected to the upper mounting plate along the front-rear direction.

The guide rod is additionally arranged, so that the sliding path of the base above can be further limited.

As a further improvement of the above technical solution, the upper mounting plate is embedded with balls, and the surfaces of the balls are abutted against the base above.

The ball is additionally arranged, the ball is propped against the base, and the friction between the base and the upper mounting plate can be reduced by the ball, so that the base can slide on the upper mounting plate conveniently.

As a further improvement of the technical scheme, the lower mounting plate is rotatably connected with a fan.

The fan is additionally arranged, so that the air quantity in the air supply cavity can be increased, the heat dissipation efficiency of the reactance is further improved, and the service life of the reactance is prolonged.

As a further improvement of the above technical solution, the rotation axis of the fan is arranged in a horizontal direction.

The rotation axis of the fan is limited, so that the direction of fan blades is limited, the shielding area of the fan blades to the fan below the fan blades is reduced, and the wind loss is reduced when wind is transmitted.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present utility model, the drawings that are required to be used in the description of the embodiments will be briefly described below. It is evident that the drawings described are only some embodiments of the utility model, but not all embodiments, and that other designs and drawings can be obtained from these drawings by a person skilled in the art without inventive effort.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the mounting frame of the present utility model;

FIG. 3 is a cross-sectional view of a portion of the structure of the mounting bracket of the present utility model;

fig. 4 is a cross-sectional view of the upper mounting plate, base, second spring and guide bar of the present utility model.

In the figure, 1, a shell; 2. a partition panel; 3. a mounting frame; 31. an upper mounting plate; 311. a limit groove; 312. a ball; 32. a lower mounting plate; 321. a mounting surface; 33. an adjusting member; 331. a pole is arranged; 332. a lower rod; 333. a first spring; 334. a base; 3341. a limiting block; 3342. a guide rod; 335. a second spring; 4. a fan.

Detailed Description

The conception, specific structure, and technical effects produced by the present utility model will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, features, and effects of the present utility model. It is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present utility model based on the embodiments of the present utility model. In addition, all coupling/connection relationships mentioned herein do not refer to direct connection of the components, but rather, refer to the fact that a more optimal coupling structure may be formed by adding or subtracting coupling aids depending on the particular implementation. The technical features in the utility model can be interactively combined on the premise of no contradiction and conflict.

Referring to fig. 1 to 4, an embodiment of a mounting device for an air source heat pump according to the present utility model is shown.

An installation device for an air source heat pump has mutually orthogonal up-down, left-right and front-back directions, specifically, up-down direction is a gravitational direction.

A mounting device applied to an air source heat pump comprises a shell 1, a partition plate 2 and a mounting frame 3.

In the present embodiment, the partition plate 2 is connected to the housing 1, and the partition plate 2 is located inside the housing 1, specifically, the partition plate 2 is disposed in the up-down direction; the partition board 2 divides the shell 1 into an air supply cavity and a sealing cavity, the air supply cavity and the sealing cavity are arranged left and right, the air supply cavity positioned on the left side is communicated with the outside, the air supply cavity is internally connected with a fan along the vertical direction at intervals, the rotation axis of the fan is arranged along the front and rear direction, and the sealing cavity positioned on the right side is in a closed shape, namely the sealing cavity positioned on the right side is not communicated with the outside and the air supply cavity.

In this embodiment, mounting bracket 3 is connected on casing 1, and mounting bracket 3 is located the air supply intracavity, and specifically, mounting bracket 3 can set up the optional position in the air supply intracavity, is equipped with the interval between mounting bracket 3 and the fan, installs the reactance on the mounting bracket 3.

Partition panel 2 divide into air supply chamber and sealed chamber with casing 1, install at sealed intracavity to the part that needs to be sealed, the corresponding fan of installing in the air supply chamber, mounting bracket 3 provides the mounted position for the reactance, because mounting bracket 3 connects in the air supply intracavity, the wind flow that the fan produced can blow the reactance on mounting bracket 3 in the air supply intracavity, play radiating effect to the reactance, and because the air that the air supply chamber needs to exchange flow with the external world, consequently the peripheral waste heat of reactance can be taken outside to by the wind flow, and then can prolong the life of reactance.

Further, the mounting frame 3 is arranged at the top of the air supply cavity, and the mounting frame 3 is provided with a mounting surface 321, the mounting surface 321 is arranged downwards, and specifically, a reactor is arranged on the mounting surface 321 and is positioned at the top of the two fans.

The mounting frame 3 is arranged at the top of the air supply cavity, namely the mounting frame 3 is arranged at the edge position of the air supply cavity, so that the rotating fan is prevented from colliding with the mounting frame 3; most of wind flow generated by the fan moves upwards, so that the heat dissipation efficiency of the reactor is improved; in addition, the installation surface 321 is arranged downwards, and the installation surface 321 is opposite to the fan arranged in the air supply cavity, so that the heat dissipation efficiency of the reactance is further improved, and the service life of the reactance is prolonged.

Further, the mounting frame 3 includes an upper mounting plate 31, a lower mounting plate 32, and an adjusting member 33; the upper mounting plate 31 is connected to the top of the air supply cavity, the upper mounting plate 31 is detachably connected with the shell 1, specifically, the upper mounting plate 31 is arranged along the horizontal direction, and the upper mounting plate 31 is connected with the shell 1 through bolts; the upper mounting plate 31 and the lower mounting plate 32 are arranged at intervals along the up-down direction, and the mounting surface 321 is arranged on the bottom surface of the lower mounting plate 32; the adjusting piece 33 is arranged along the up-down direction, one end of the adjusting piece 33 is connected with the upper mounting plate 31, the other end of the adjusting piece 33 is connected with the lower mounting plate 32, and the length of the adjusting piece 33 along the up-down direction is adjustable.

The length of the adjusting piece 33 in the up-down direction is adjustable, when the reactance is installed on the lower mounting plate 32, the actual extension length of the adjusting piece 33 is adjusted, so that the distance between the reactance and the fan is changed, and as the fan in the air supply cavity can resonate during working, the lower mounting plate 32 can swing up and down under the action of the adjusting piece 33, the swinging lower mounting plate 32 produces certain disturbance to the air flow, the heat dissipation efficiency of the reactance is further accelerated, and the service life of the reactance is prolonged; and because reactance is used after a period of time, need dismantle the maintenance, consequently set up mounting panel 31 and can dismantle the connection at the air supply chamber, mounting panel 31 is gone up in convenient to detach.

Further, the adjusting member 33 includes an upper lever 331, a lower lever 332, and a first spring 333; one end of the upper rod 331 is connected with the upper mounting plate 31, specifically, the extending direction of the upper rod 331 is set up along the up-down direction, and the upper rod 331 is in a hollow structure; one end of the lower rod 332 is slidably connected to the upper rod 331, the other end of the lower rod 332 is connected to the lower mounting plate 32, specifically, the extending direction of the lower rod 332 is set up along the up-down direction, one end of the lower rod 332 is slidably connected to the inner side of the upper rod 331, and the sliding direction of the lower rod 332 is limited by the upper rod 331; the deformation direction of the first spring 333 is parallel to the up-down direction, one end of the first spring 333 is connected to the upper rod 331, and the other end of the first spring 333 is connected to one end of the lower rod 332, specifically, the first spring 333 is located at the inner side of the upper rod 331, and when the lower rod 332 slides on the upper rod 331, one end of the lower rod 332 always slides at the inner side of the upper rod 331 due to the limitation of the first spring 333, and the other end of the lower rod 332 always extends out of the upper rod 331.

Under the elastic action of the first spring 333, the lower rod 332 is limited to slide along the upper rod 331 so as to drive the lower mounting plate 32 to move in the up-down direction, and when the fan starts to generate resonance, the first spring 333 can eliminate part of force generated by vibration so as to reduce the situation that the reactance generates resonance and prolong the service life of the reactance; in addition, the upper rod 331, the lower rod 332 and the first spring 333 are relatively simple in composition structure, and are convenient for production.

Further, the adjusting member 33 further includes two bases 334, and the two bases 334 on the same adjusting member 33 correspond to the upper mounting plate 31 and the lower mounting plate 32 respectively, that is, the base 334 located above is connected with the bottom surface of the upper mounting plate 31, and the base 334 located below is connected with the top surface of the lower mounting plate 32; one end of the upper rod 331 is connected to the upper mounting plate 31 through one of the bases 334, i.e., one end of the upper rod 331 is connected to the upper mounting plate 31 through the base 334 located above; the upper rod 331 is rotatably connected with one of the bases 334, and the rotation axis of the upper rod 331 and one of the bases 334 is arranged along the front-rear direction; the other end of the lower rod 332 is connected to the lower mounting plate 32 by another base 334, i.e., the other end of the lower rod 332 is connected to the lower mounting plate 32 by the base 334 located below; the lower lever 332 and the other base 334 are rotatably coupled, and the rotational axes of the lower lever 332 and the other base 334 are disposed in the front-rear direction.

Two bases 334 are additionally arranged, so that the lower mounting plate 32 can swing along the up-down direction and also can swing along the left-right direction, thereby further reducing the resonance of the reactance and prolonging the service life of the reactance.

Further, the upper base 334 is slidably connected to the upper mounting plate 31, the sliding direction of the upper base 334 is set along the front-rear direction, specifically, the side wall of the upper base 334 is provided with a limiting block 3341, the upper mounting plate 31 is provided with a limiting groove 311 along the front-rear direction, the limiting block 3341 is slidably connected in the limiting groove 311 along the front-rear direction, and the sliding path of the limiting block 3341 is defined by the limiting groove 311, thereby defining the sliding path of the upper base 334; the adjusting member 33 further includes a second spring 335, one end of the second spring 335 is connected to the upper mounting plate 31, the other end of the second spring 335 is connected to the base 334 located above, and the deformation direction of the second spring 335 is parallel to the front-rear direction, so that the base 334 located above has a tendency to move in the front-rear direction under the action of the second spring 335.

The second spring 335 is additionally arranged, and the base 334 is arranged and connected to the upper mounting plate 31 in a sliding manner along the front-back direction, so that the lower mounting plate 32 can swing along the up-down direction and the left-right direction, and can swing along the front-back direction, thereby further reducing the resonance of the reactance and prolonging the service life of the reactance; in addition, under the elastic action of the second spring 335, the sliding path of the base 334 above can be limited, when the fan starts to generate resonance, the second spring 335 can eliminate the force generated by partial vibration, thereby reducing the situation that the reactance generates resonance and prolonging the service life of the reactance.

Further, the base 334 located above is provided with a guide rod 3342, the guide rod 3342 is horizontal and is disposed along the front-rear direction, the guide rod 3342 is slidably connected to the upper mounting plate 31, the sliding direction of the guide rod 3342 is parallel to the front-rear direction, and specifically, the second spring 335 is sleeved on the outer sidewall of the guide rod 3342.

The addition of the guide bar 3342 can further define the sliding path of the upper base 334.

Further, the upper mounting plate 31 is provided with balls 312, and the balls 312 are partially embedded in the upper mounting plate 31 and partially protrude from the bottom surface of the upper mounting plate 31, so that the surface of the balls 312 protruding from the bottom surface of the upper mounting plate 31 is abutted against the base 334 located above.

The balls 312 are additionally arranged, the balls 312 are propped against the base 334, and the balls 312 can reduce friction between the base 334 and the upper mounting plate 31, so that the base 334 can slide on the upper mounting plate 31 conveniently.

Further, the lower mounting plate 32 is rotatably provided with the fan 4.

The fan 4 is additionally arranged to increase the air quantity in the air supply cavity, so that the heat dissipation efficiency of the reactance is further improved, and the service life of the reactance is prolonged.

Further, the rotation axis of the fan 4 is arranged along the horizontal direction, specifically, two fans 4 are arranged, the two fans 4 are respectively arranged at intervals along the left-right direction, and the rotation axes of the two fans 4 are arranged along the left-right direction.

Defining the axis of rotation of the fan 4, thereby defining the orientation of the blades of the fan 4, reducing the area of shielding of the fan 4 blades from the underlying fan, and reducing the amount of wind loss as the wind passes.

Further, a driving part for synchronously driving the two fans 4 to rotate is arranged on the lower mounting plate 32, and the driving part comprises a double-shaft motor, a first rotating rod, a second rotating rod, a first bevel gear, a second bevel gear, a third bevel gear and a fourth bevel gear; the biaxial motor is connected to the lower mounting plate 32, and the shaft of the biaxial motor is arranged in the left-right direction; the two first rotating rods are rotatably connected to the lower mounting plate 32, the rotating axes of the two first rotating rods are coincident and are arranged along the left-right direction, and the two first rotating rods are respectively connected to the double-shaft motor through a coupler; the two first bevel gears are respectively connected to the two first rotating rods; the two second rotating rods are rotatably connected to the lower mounting plate 32, and the rotating axes of the two second rotating rods are arranged along the up-down direction; the two second bevel gears are respectively connected to the two second rotating rods and meshed with the two first bevel gears; the two third bevel gears are respectively connected to the two second rotating rods; the four bevel gears are two, the two fourth bevel gears are respectively connected to the rotating shafts of the two fans 4, and the two third bevel gears are respectively meshed with the two fourth bevel gears.

While the preferred embodiments of the present utility model have been illustrated and described, the present utility model is not limited to the embodiments, and various equivalent modifications and substitutions can be made by one skilled in the art without departing from the spirit of the present utility model, and these are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. A mounting device for an air source heat pump having mutually orthogonal up-down, left-right, and front-rear directions, comprising:

a housing;

a partition plate connected to the inside of the housing and dividing the housing into a blower chamber and a seal chamber arranged left and right;

the mounting frame is connected to the shell and is positioned in the air supply cavity.

2. The mounting device for an air source heat pump according to claim 1, wherein the mounting frame is located at a top of the air supply chamber, and the mounting frame has a mounting surface disposed downward.

3. A mounting arrangement for an air source heat pump according to claim 2, wherein the mounting frame comprises:

the upper mounting plate is detachably arranged at the top of the air supply cavity;

the lower mounting plate is positioned below the upper mounting plate, and the bottom surface of the lower mounting plate is the mounting surface;

and the two ends of the adjusting piece are respectively connected with the upper mounting plate and the lower mounting plate, and the length of the adjusting piece along the up-down direction is adjustable.

4. A mounting arrangement for an air source heat pump according to claim 3, wherein the adjustment member comprises:

an upper rod, one end of which is connected to the upper mounting plate;

one end of the lower rod is connected with the upper rod in a sliding way, and the other end of the lower rod is connected with the lower mounting plate;

and the two ends of the first spring are respectively connected with one ends of the upper rod and the lower rod, and the deformation direction of the first spring is arranged along the up-down direction.

5. The device of claim 4, wherein the adjusting member further comprises two bases respectively connected to the upper mounting plate and the lower mounting plate, one end of the upper rod is connected to the upper mounting plate through one of the bases, the upper rod is rotatably connected to one of the bases, the other end of the lower rod is connected to the lower mounting plate through the other base, the lower rod is rotatably connected to the other base, and the rotation axes of the two bases are both extended in the front-rear direction.

6. The mounting device for an air source heat pump according to claim 5 wherein the upper base is slidably connected to the upper mounting plate in a fore-and-aft direction, the regulator further comprising a second spring connected between the upper mounting plate and the upper base, the second spring tending to move the upper base in a fore-and-aft direction.

7. The mounting device for an air source heat pump according to claim 6, wherein the base above is connected with a guide bar slidably connected to the upper mounting plate in the front-rear direction.

8. The mounting device for an air source heat pump according to claim 7, wherein the upper mounting plate is embedded with balls, and the surface of the balls is abutted against the base above.

9. A mounting arrangement for an air source heat pump according to claim 3, wherein the lower mounting plate is rotatably connected to a fan.

10. A mounting arrangement for an air source heat pump according to claim 9, wherein the axis of rotation of the fan is arranged in a horizontal direction.