CN114576473B - Energy-saving building air source heat pump base - Google Patents

Abstract

The invention discloses an energy-saving building air source heat pump base, which relates to the technical field of air source heat pumps and mainly aims to solve the problems of inconvenient installation and narrow application range of the existing air source heat pump base, and comprises a pump body, a base, a limiting mechanism and a supporting mechanism, wherein the limiting mechanism comprises a limiting component positioned in the base; the supporting mechanism comprises a telescopic component positioned on the base; and a movable assembly connected with the plurality of telescopic assemblies; the movable assembly is provided with a plurality of arc-shaped pieces and a plurality of elastic pieces which are connected with each other, the pressure-bearing part drives the limiting assembly to move towards the direction close to the pump body through the traction assembly after being subjected to the pressure of the pump body, the pump body can be fast fixed, the telescopic assembly drives the arc-shaped pieces and the elastic pieces in the movable assembly to move towards the direction close to or far away from the base, and meanwhile, the elastic pieces can be driven to bend towards the direction close to or far away from the base.

Description

Energy-saving building air source heat pump base

Technical Field

The application relates to the technical field of air source heat pumps, in particular to an energy-saving building air source heat pump base.

Background

An air source heat pump is an energy-saving device which uses high potential energy to enable heat to flow from low-level heat source air to high-level heat source, and is usually installed on a base and placed outdoors.

The mode that current air source heat pump base generally used bolt or screw when installing air source heat pump, installation process is more laborious and laborious, and is also more loaded down with trivial details when dismantling simultaneously, when meetting the environment that the topography is more complicated, the flat base in surface then can't be stable install above, will lead to air source heat pump's application scope more narrowly.

Disclosure of Invention

The invention aims to provide an energy-saving building air source heat pump base for solving the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions:

an energy-conserving building air source heat pump base includes the pump body and base, still includes:

the limiting mechanism comprises a limiting component positioned in the base and a pressure-bearing part positioned in the base, wherein a traction component is connected between the limiting component and the pressure-bearing part, and the pressure-bearing part is used for bearing the pressure of the pump body so as to drive the traction component to move, and then the traction component drives the limiting component to move towards a direction close to or far away from the pump body so as to fix the pump body;

the limiting assembly comprises a limiting piece used for fixing the pump body; the crank connecting rod assembly is used for following the movement on the second winding part, and the limiting piece is connected with the crank connecting rod assembly and used for driving the limiting piece to move towards the direction approaching or away from the pump body;

the pressure-bearing part comprises an adsorption part for adsorbing the surface of the pump body; the transmission part is positioned on the adsorption part and used for fixing the pump body, and the pump body drives the transmission part to move through the adsorption part; the adsorption part comprises a sucker and a lifting plate, and the transmission part comprises a rack plate arranged on the lifting plate and a gear meshed with the rack plate;

the traction assembly comprises a winding assembly, wherein the winding assembly comprises a first winding part connected with a transmission part; the second winding part is connected with the limiting component, and the transmission part is used for driving the first winding part to rotate; the traction piece is positioned between the first winding part and the second winding part, and the first winding part drives the second winding part to rotate through the traction piece; the second winding part is also provided with a reset component which is used for driving the second winding part and the first winding part to reversely rotate so as to reset the limiting piece and the adsorption part; and

the support mechanism comprises a telescopic component positioned on the base; and a movable assembly connected with the plurality of telescopic assemblies; the movable assembly is provided with a plurality of arc-shaped pieces and a plurality of elastic pieces which are connected with each other, and the telescopic assembly is used for driving the arc-shaped pieces to move towards the direction close to or far away from the base, and then driving the elastic pieces to bend towards the direction close to or far away from the base, so that the outline of the movable assembly can be adjusted.

As yet a further aspect of the present application: the arc-shaped piece comprises a main body piece; the telescopic component is connected with the rotating component and used for adjusting the outline of the arc-shaped component; and a locking member for fixing the position of the rotating member, the locking member being located on the main body member.

As yet a further aspect of the present application: the elastic piece comprises a first elastic body positioned on the rotating piece; and a second elastic body connected with the first elastic body, wherein the first elastic body is used for adjusting the length of the elastic piece, and the second elastic body is used for adjusting the radian of the elastic piece.

Compared with the prior art, the beneficial effects of this application are:

in summary, the pressure-bearing part in the limiting mechanism drives the limiting component to move towards the direction close to the pump body through the traction component after being subjected to the pressure of the pump body, the pump body can be fast fixed, the telescopic component in the supporting mechanism drives the arc-shaped pieces and the elastic pieces in the movable component to move towards the direction close to or far away from the base, and meanwhile, the elastic pieces can be driven to bend towards the direction close to or far away from the base, so that the movable component can be tightly attached to different terrains, and the air source heat pump base has the characteristics of being convenient to install and wide in application range, and solves the problems that the traditional air source heat pump base is inconvenient to install and narrow in application range.

Drawings

FIG. 1 is a schematic structural view of an energy-saving building air source heat pump base according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of a bearing portion according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of a spacing assembly according to an embodiment of the present invention;

FIG. 4 is an isometric view of a traction assembly in an embodiment of the invention;

FIG. 5 is a schematic diagram of a reset assembly according to an embodiment of the present invention;

FIG. 6 is an isometric view of a retainer in an embodiment of the invention;

FIG. 7 is an enlarged view of a portion of the arcuate member and the resilient member in accordance with an embodiment of the present invention;

FIG. 8 is an isometric view of an arcuate member in an embodiment of the invention;

in the figure: 1-pump body, 2-base, 3-telescopic link, 4-support frame, 5-fixed block, 51-movable block, 52-lock nut, 53-fixed axle, 54-bolt, 55-spout, 6-elastic plate, 7-spring, 8-sucking disc, 9-lifter plate, 10-rack board, 11-gear, 12-first winding wheel, 13-traction belt, 14-support, 15-second winding wheel, 16-eccentric wheel, 17-connecting rod, 18-slide bar, 19-jump ring casing, 191-jump ring, 20-spacer pin, 21-wire passing hole, 22-spacing groove, 23-balance bar, 24-spout, 25-fixed plate.

Detailed Description

In the description of the present application, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of the description, and are not intended to indicate or imply that the apparatus or element to be referred to must have a specific direction, be configured and operated in a specific direction, and therefore should not be construed as limiting the present application.

Referring to fig. 1, the present embodiment provides an energy-saving building air source heat pump base, which includes a pump body 1 and a base 2, and further includes:

a limiting mechanism; the limiting mechanism comprises a limiting component positioned in the base 2; the traction assembly is connected between the limiting assembly and the pressure-bearing portion, and the pressure-bearing portion is used for bearing the pressure of the pump body 1 to drive the traction assembly to move, so that the traction assembly drives the limiting assembly to move towards a direction approaching or separating from the pump body 1 to fix the pump body 1; and

a support mechanism comprising a telescopic assembly on the base 2; and a movable assembly connected with the plurality of telescopic assemblies; the movable assembly is provided with a plurality of arc-shaped pieces and a plurality of elastic pieces which are connected with each other, and the telescopic assembly is used for driving the arc-shaped pieces to move towards the direction close to or far away from the base 2, and then driving the elastic pieces to bend towards the direction close to or far away from the base 2 so as to adjust the outline of the movable assembly.

Referring to fig. 1, in the above technical solution, after the pump body 1 is placed in the base 2, the pressure-bearing portion in the limiting mechanism drives the limiting component to move towards the direction close to the pump body 1 through the traction component after being subjected to the pressure of the pump body 1, so that the pump body 1 can be fast fixed, and the telescopic component in the supporting mechanism drives the plurality of arc-shaped pieces and the plurality of elastic pieces in the movable component to move towards the direction close to or far from the base 2, and simultaneously can drive the plurality of elastic pieces to bend towards the direction close to or far from the base 2, so that the outline of the movable component can be adjusted, thereby enabling the movable component to be closely attached to different terrains.

Referring to fig. 1 and 2, further, the pressure-bearing portion includes an adsorption portion for adsorbing the surface of the pump body 1; and be located the transmission portion on the adsorption part, the adsorption part is used for fixing the pump body 1, just the pump body 1 drives the transmission portion motion through the adsorption part, the adsorption part includes sucking disc 8 and lifter plate 9, the quantity design of sucking disc 8 is a plurality of, evenly distributed is on lifter plate 9 surface, the kind of sucking disc 8 can be in the sucking disc 8 that common in market arbitrary selection one section can, and this does not do not limit, just need not carry out the details, lifter plate 9 is located the through-hole of seting up on base 2, and lifter plate 9 can go up and down in the through-hole, and when pump body 1 and base 2 bottom contact, lifter plate 9 continue to descend, pump body 1 can not follow lifter plate 9 and remove together, can extract sucking disc 8 from pump body 1 under the effect of tensile force, and when lifter plate 9 continues to rise, sucking disc 8 is adsorbed in pump body 1 earlier, can drive pump body 1 and rise with one afterwards.

Referring to fig. 2, the transmission part includes a rack plate 1 mounted on the lifting plate 9 and a gear 11 meshed with the rack plate 1, a transmission shaft is mounted at the center of the gear 11, the transmission shaft is connected with a supporting mechanism through a bracket 14, and when the rack plate 1 follows the lifting plate 9 to lift, the gear 11 and the transmission shaft can be driven to rotate by utilizing the meshing transmission principle.

Referring to fig. 2 to 4, further, the traction assembly includes:

a winding assembly including a first winding portion connected with the transmission portion; the second winding part is connected with the limiting component, and the transmission part is used for driving the first winding part to rotate; and

and the traction piece is positioned between the first winding part and the second winding part, and the first winding part drives the second winding part to rotate through the traction piece.

Referring to fig. 4, in the solution described in the above embodiment, the first winding portion is designed as a first winding wheel 12 mounted on the transmission shaft, the second winding portion is designed as a second winding wheel 15, a fixed shaft is mounted at the center of the second winding wheel 15, the fixed shaft is mounted in the base 2, the traction member is designed as a traction belt 13 or a traction rope, when the rack board 1 follows the lifting board 9 to lift, the gear 11 and the first winding wheel 12 can be driven to rotate by using the meshing transmission principle, and the first winding wheel 12 can be rotated to wind the traction belt 13 or the traction rope on the first winding wheel 12, so as to drive the second winding wheel 15 to rotate.

Referring to fig. 3 and 6, further, the limiting assembly includes a limiting member for fixing the pump body 1; and the crank connecting rod assembly is used for following the movement on the second winding part, and the limiting piece is connected with the crank connecting rod assembly and used for driving the limiting piece to move towards the direction approaching or away from the pump body 1.

Referring to fig. 3 and 6, in the above embodiment, the limiting member includes a sliding rod 18, a limiting pin 20 and a fixing plate 25, the number of the limiting pins 20 is a plurality, and the limiting pins 20 are uniformly fixed on the fixing plate 25, correspondingly, a limiting groove 22 is formed at a position of the pump body 1 corresponding to the limiting pins 20, the limiting pins 20 are inserted into the limiting groove 22 and used for fixing the pump body 1 in the base 2, the sliding rod 18 and the fixing plate 25 are fixedly connected, or are designed to be detachably connected in a sliding manner, the limiting is omitted, the crank connecting rod assembly includes an eccentric wheel 16 mounted on the fixing shaft, the center position of the eccentric wheel 16 is connected with the fixing shaft, a fixing pin is designed at a position of the eccentric wheel 16 far away from the center, or is designed to be connected with the fixing shaft at a position far away from the center, the eccentric wheel 16 is connected with the sliding rod 18 through a connecting rod 17, the second winding wheel 15 rotates through driving the eccentric wheel 16, and then drives the sliding rod 18 to be inserted into the limiting groove 22 through the connecting rod 17, so that the limiting function of the pump body 1 is realized.

Referring to fig. 6, preferably, the sliding rod 18 is further provided with a balance rod 23 for driving the sliding rod 18 to move horizontally, and the balance rod 23 is slidably connected in a second chute 24 formed on the inner wall of the base 2.

The working process comprises the following steps: when the pump body 1 is placed on the surface of the lifting plate 9 in the base 2, the lifting plate 9 and the rack plate 1 can be driven to descend, the rack plate 1 can drive the gear 11 and the first winding wheel 12 to rotate by utilizing the meshing transmission principle in the lifting process of the lifting plate 9, the first winding wheel 12 can wind the traction belt 13 or the traction rope on the first winding wheel 12 to further drive the second winding wheel 15 and the eccentric wheel 16 to rotate, and further the limiting pin 20 on the sliding rod 18 is driven to be inserted into the limiting groove 22 by the connecting rod 17, so that the function of automatically fixing the pump body 1 is realized.

Referring to fig. 3, further, the base 2 is provided with a wire hole 21 for passing the traction belt 13 or the traction rope.

As an alternative mechanism capable of realizing the function, the traction assembly comprising the first winding wheel 12, the second winding wheel 15 and the traction belt 13 is removed, the eccentric wheel 16 can be driven to rotate directly through the transmission part of the gear 11 and the rack plate 1, and then the function of automatically fixing the pump body 1 is realized, and the scheme is as follows: the gear 11 is connected with the eccentric wheel 16 through the rotating shaft, the rack plate 1 is moved to two sides of the lifting plate 9 and meshed with the gear 11, when the lifting plate 9 descends along with the pump body 1, the eccentric wheel 16 can be directly driven to rotate by utilizing the meshing transmission principle, the functions of the lifting plate are consistent with those of the traction assembly, the function of automatically inserting the limiting pin 20 into the limiting groove 22 to fix the pump body 1 can be realized by adopting other structures, and the lifting plate is not limited and is not repeated.

It should be noted that, when the pump body 1 needs to be fixed, the lifting plate 9 descends to drive the eccentric wheel 16 to rotate by an angle not exceeding 180 degrees, otherwise, the eccentric wheel 16 starts to drive the limiting pin 20 to move towards a direction away from the limiting groove 22, based on the characteristics of the eccentric wheel 16, when the pump body 1 needs to be dismounted, a tool or a hand can be used to continue to rotate the gear 11 or move the lifting plate 9, at this moment, the eccentric wheel 16 continues to rotate, the eccentric wheel can be driven to move towards a direction away from the limiting groove 22, and simultaneously, the suction disc 8 can be pulled out from the pump body 1 by the generated pulling force, at this moment, the fixation of the pump body 1 can be canceled, so that the pump body 1 can be dismounted from the base 2 conveniently, and the pump body 1 has the characteristic of being convenient to dismount.

Referring to fig. 4 and 5, as an embodiment of the present application, a reset assembly is further provided on the second winding portion, and is configured to drive the second winding portion and the first winding portion to rotate reversely, and further reset the limiting member and the adsorption portion, the reset assembly is configured to wind a clamp spring 191 on the fixed shaft and a clamp spring housing 19 for mounting the clamp spring 191, when the pump body 1 is mounted, the clamp spring 191 can be compressed by a rotation motion of the second winding wheel 15 and the fixed shaft, after the pump body 1 is removed, the elastic deformation of the clamp spring 191 drives the fixed shaft to rotate reversely, so that the first winding wheel 12 and the second winding wheel 15 rotate reversely, and the lifting plate 9 and the limiting pin 20 can be moved to an initial position.

Referring to fig. 7 and 8, as an embodiment of the present application, the arc-shaped member includes a main body member; the telescopic component is connected with the rotating component and used for adjusting the outline of the arc-shaped component; and a locking member for fixing the position of the rotating member, the locking member being located on the main body member.

Referring to fig. 7 and 8, in the solution described in the foregoing embodiment, the telescopic assembly includes a support frame 3 mounted on the base 2 and a telescopic rod 4 with one end hinged to the support frame 3, the telescopic rod 4 may be designed as an electric telescopic rod or a hydraulic telescopic rod, without limitation, the main body member is designed as a fixed block 5 and a fixed shaft 53 mounted on the fixed block 5, the rotating member is designed as a movable block 51, the movable block 51 is designed with a sliding groove 55, one end of the movable block 51 is fixedly connected with the fixed shaft 53, the other end of the telescopic rod 4 is hinged to the movable block 51 and is used for driving the movable block 51 and the fixed shaft 53 to rotate on the fixed block 5, the locking member is designed as a locking nut 52 and is used for fixing the fixed shaft 53 on the fixed block 5, so as to prevent the movable block 51 and the fixed shaft 53 from continuing to rotate, the movable block 51 and the fixed block 5 are both designed as arcs, and the continuous tunnel of the position of the movable block 51 and the fixed block 5 can change the overall profile of the movable block 51 and the fixed block 5, so that the movable block 51 and the fixed block 5 can be matched with the building surface with complex shape or the same size and the pump body or the pump body can be mounted in the environment of the same size and the environment.

Referring to fig. 7, further, the fixing block 5 is screwed with a bolt 54, so as to further improve the installation firmness.

Referring to fig. 7, further, the elastic member includes a first elastic body disposed on the rotating member; and the second elastic body is connected with the first elastic body, the first elastic body is used for adjusting the length of the elastic piece, the second elastic body is used for adjusting the radian of the elastic piece, the first elastic body is designed into a spring 7 with one end installed in a chute I55, the second elastic body is designed into an elastic plate 6 connected with the other end of the spring 7, when a plurality of telescopic rods 4 drive a plurality of movable blocks 51 to move by the same distance, the elastic plate 6 moves along the chute 24, the spring 7 stretches or shortens, when the moving distance of two adjacent movable blocks 51 is inconsistent, the elastic plate 6 can bend towards the direction close to the base 2 or bend towards the direction far away from the base 2, the spring 7 still stretches or shortens, one arc-shaped integral piece formed by the two movable blocks 51 and the bent elastic plate 6 can be completely attached to the terrain to be installed, and a movable assembly formed by the plurality of movable blocks 51 and the plurality of elastic plates 6 can be suitable for various terrains, so that the application range of the device is enlarged.

When the pump body 1 is placed on the surface of the lifting plate 9 in the base 2, the lifting plate 9 and the rack plate 1 can be driven to descend, the rack plate 1 can drive the gear 11 and the first winding wheel 12 to rotate by utilizing the meshing transmission principle in the lifting process of following the lifting plate 9, the first winding wheel 12 can wind the traction belt 13 or the traction rope on the first winding wheel 12 to further drive the second winding wheel 15 and the eccentric wheel 16 to rotate, the limiting pin 20 on the sliding rod 18 is driven by the connecting rod 17 to be inserted into the limiting groove 22, so that the function of automatically fixing the pump body 1 is realized, when the pump body 1 needs to be disassembled, a tool or a hand can be used to continuously rotate the gear 11 or move the lifting plate 9, at this time, the eccentric wheel 16 continues to rotate, and can drive to move towards the direction away from the limit groove 22, and simultaneously the generated tensile force can pull out the suction cup 8 from the pump body 1, and at this time, the fixation of the pump body 1 can be canceled, so that the pump body 1 can be conveniently detached from the base 2, when the topography of the installation surface is complex, the distances that the plurality of telescopic rods 4 drive the plurality of movable blocks 51 to move are inconsistent, at this time, the condition that the elastic plate 6 bends towards the direction close to the base 2 or bends towards the direction away from the base 2 can occur, the spring 7 still stretches or shortens, and at this time, an arc-shaped integral piece formed by the plurality of movable blocks 51 and the bent elastic plate 6 can be completely attached to the topography to be installed.

In summary, the pressure-bearing part in the limiting mechanism drives the limiting component to move towards the direction close to the pump body 1 through the traction component after being subjected to the pressure of the pump body 1, the pump body 1 can be fast fixed, the telescopic component in the supporting mechanism drives the arc-shaped pieces and the elastic pieces in the movable component to move towards the direction close to or far away from the base 2, and meanwhile, the elastic pieces can be driven to bend towards the direction close to or far away from the base 2, so that the movable component can be tightly attached to different terrains, and the air source heat pump has the characteristics of convenience in installation and wide application range, and solves the problems of inconvenience in installation of a traditional air source heat pump base and narrow application range.

It should be noted that, although the present disclosure describes embodiments, each embodiment does not include a separate technical solution, and the description is only for clarity, those skilled in the art should understand that the technical solutions in the embodiments may be properly combined to form other embodiments that can be understood by those skilled in the art, and the above embodiments only describe preferred embodiments of the present disclosure, which are described in more detail and detail, but should not be construed as limiting the scope of the claims of the present disclosure. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the present application, which are all within the scope of the present technical solution.

Claims (3)

1. The utility model provides an energy-conserving building air source heat pump base, includes pump body and base, its characterized in that still includes:

the limiting mechanism comprises a limiting component positioned in the base and a pressure-bearing part positioned in the base, wherein a traction component is connected between the limiting component and the pressure-bearing part, and the pressure-bearing part is used for bearing the pressure of the pump body so as to drive the traction component to move, and then the traction component drives the limiting component to move towards a direction close to or far away from the pump body so as to fix or detach the pump body;

the limiting assembly comprises a limiting piece used for fixing the pump body; the crank connecting rod assembly is used for following the movement on the second winding part, and the limiting piece is connected with the crank connecting rod assembly and used for driving the limiting piece to move towards the direction approaching or away from the pump body;

the pressure-bearing part comprises an adsorption part for adsorbing the surface of the pump body; the transmission part is positioned on the adsorption part and used for fixing the pump body, and the pump body drives the transmission part to move through the adsorption part; the adsorption part comprises a sucker and a lifting plate, and the transmission part comprises a rack plate arranged on the lifting plate and a gear meshed with the rack plate;

the traction assembly comprises a winding assembly, wherein the winding assembly comprises a first winding part connected with a transmission part; the second winding part is connected with the limiting component, and the transmission part is used for driving the first winding part to rotate; the traction piece is positioned between the first winding part and the second winding part, and the first winding part drives the second winding part to rotate through the traction piece; the second winding part is also provided with a reset component which is used for driving the second winding part and the first winding part to reversely rotate so as to reset the limiting piece and the adsorption part; and

the support mechanism comprises a telescopic component positioned on the base; and a movable assembly connected with the plurality of telescopic assemblies; the movable assembly is provided with a plurality of arc-shaped pieces and a plurality of elastic pieces which are connected with each other, and the telescopic assembly is used for driving the arc-shaped pieces to move towards the direction close to or far away from the base, and then driving the elastic pieces to bend towards the direction close to or far away from the base, so that the outline of the movable assembly can be adjusted.

2. An energy efficient building air source heat pump base according to claim 1, wherein the arcuate member comprises a body member; the telescopic component is connected with the rotating component and used for adjusting the outline of the arc-shaped component; and a locking member for fixing the position of the rotating member, the locking member being located on the main body member.

3. An energy efficient building air source heat pump base according to claim 1 wherein the resilient member comprises a first elastomer on the rotating member; and a second elastic body connected with the first elastic body, wherein the first elastic body is used for adjusting the length of the elastic piece, and the second elastic body is used for adjusting the radian of the elastic piece.