CN221223039U - Ultra-silent heat pump - Google Patents

Abstract

The utility model provides an ultra-silent heat pump, which is characterized in that the auxiliary structure comprises a square block, a thread bush, a spherical block and guide blocks, wherein the thread bush is fixed outside the square block, more than 2 guide blocks are arranged along the periphery of the thread bush, one end of each guide block is fixedly connected with the energy-saving heat pump body, a thread block matched with the thread bush is further arranged, the outer wall of each guide block is slidably connected with the thread block, the end part, close to the square block, of each guide block is further provided with a spherical block with a limiting function, and the center position of the square block is further provided with an installation groove matched with the vibration absorbing component. Through the fixed mode optimization of damper for change the operation more convenient to damper, the problem that the staff is comparatively tired to energy-saving heat pump maintenance when avoiding the long-time being in the lower position of focus of staff's energy-saving heat pump, improved the staff and maintained the operation more comfortablely to energy-saving heat pump.

Description

Ultra-silent heat pump

Technical Field

The utility model relates to air source heat pump equipment, in particular to an ultra-silent heat pump.

Background

A heat pump is a high-efficiency heating device which is generated on the basis of the second law of thermodynamics and can transfer energy from a low temperature to a high temperature. The sum of the energy provided by the heat pump at the high temperature is larger than the energy required by the heat pump to operate, and the extra heat is taken from the lower temperature under the action of the operating energy. The heat pump absorbs heat from a lower temperature when the low boiling point liquid is evaporated after being depressurized through a throttle valve, compresses vapor through a compressor to raise the temperature, discharges the absorbed heat when the low boiling point liquid passes through a condenser to liquefy, and returns to the throttle valve. The circulating operation can continuously transfer heat from a place with lower temperature to a place with higher temperature.

For example, grant bulletin number CN217131510U, an energy-conserving high travelling comfort silence heat pump, above-mentioned file is through first installation piece, spring damper and second installation piece, the vibrations that conveniently produce the heat pump are absorbed, avoid vibrations to produce the phenomenon of noise, improve the comfort level of using, can further absorb vibrations through the blotter, thereby can further improve the silence effect of heat pump, the elasticity of spring is long-time in the use, the elasticity inequality of spring leads to easily, thereby cause the buffering shock attenuation effect to heat pump reduces, need through personnel change it, and the mode of connection with the help of the bolt when the energy-conserving heat pump fixed buffer assembly's in the aforesaid is the piece, make the maintenance personnel need reduce the maintenance to the buffer assembly with the help of external instrument, and every bolt pivoted number of turns is more, make staff's operation comparatively loaded down with trivial details, and then, the comfort level that has reduced staff's maintenance when changing the buffer structure of energy-conserving heat pump, staff's energy-conserving heat pump's long-time is in the lower position of focus, staff comparatively tired out to energy-conserving maintenance, thereby the energy-conserving heat pump's energy-conserving meter is broken in the energy-conserving heat pump meter that the energy-conserving heat pump in the aforesaid file is used, thereby the energy-conserving heat pump meter is broken outside the energy-conserving meter is caused to the outside because of energy-conserving heat pump collision meter is more, the outside meter is broken to the appearance, the outside has been caused to the energy-conserving meter to the energy-conserving heat pump, and has been broken in the energy-conserving heat pump, and has high energy-saving heat pump, the energy consumption efficiency, and energy consumption heat pump for heat pump, and heat pump, for heat pump for heat consumption,.

Disclosure of utility model

The utility model aims to solve the technical problems of reducing the damage to the instrument caused by the collision of an external object with the instrument and facilitating the maintenance of staff.

In order to solve the problems, the utility model provides an ultra-silent heat pump which comprises an energy-saving heat pump main body, a supporting plate, a damping component and an auxiliary structure, wherein the energy-saving heat pump main body is connected with the damping component through the auxiliary structure and then connected with the supporting plate.

The ultra-silent heat pump is characterized by further comprising an instrument, wherein the instrument is arranged on the side face of the energy-saving heat pump main body, and a protection structure is arranged on the outer side of the instrument.

The ultra-silent heat pump is characterized in that the protection structure comprises a protection seat, the end part of the protection seat is arranged outside an instrument, sliding grooves on two sides of the protection seat are respectively connected with sliding blocks on two sides in a sliding mode, the right end of each sliding block is fixedly connected with a baffle, the middle part of the left sliding block is rotatably connected with a rotating rod, and the bottom of the rotating rod is connected with an inserting block in a sliding mode.

The ultra-silent heat pump is characterized in that the protection structure comprises pulleys, two sides of a shaft body of each pulley are connected with the sliding blocks in a rotating mode, outer wall of the shaft body of each pulley is attached to a sliding groove of the protection seat, and the sliding friction of the sliding blocks during sliding along the protection seat is caused to rotate through the pulleys.

The implementation of the utility model has the following beneficial effects: through the fixed mode optimization of damper for change the operation more convenient to damper, the problem that the staff is comparatively tired to energy-saving heat pump maintenance when avoiding the long-time being in the lower position of focus of staff's energy-saving heat pump, improved the staff and maintained the operation more comfortablely to energy-saving heat pump.

Drawings

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

FIG. 2 is a schematic diagram of a front view structure of the present utility model;

FIG. 3 is a schematic diagram of the structure of FIG. 2A;

FIG. 4 is a schematic side view of the present utility model;

fig. 5 is a schematic diagram of the structure of B in fig. 4.

Reference numerals illustrate: 1. the energy-saving heat pump comprises an energy-saving heat pump main body, 2, an upper mounting plate, 3, an auxiliary structure, 301, a guide block, 302, a threaded block, 303, a threaded sleeve, 304, a square block, 305, a spherical block, 306, a damping component, 4, a protective structure, 4a1, a protective seat, 4a2, a sliding block, 4a3, a baffle, 4a4, a rotating rod, 4a5, an inserting block, 4a6, a spring, 4b1, a pulley, 5, a supporting plate, 6, a mounting tube, 7, a cold water inlet, 8, a hot water outlet, 9, an instrument, 10 and a snow baffle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

FIG. 1 is a schematic diagram of the structure of the present utility model; FIG. 2 is a schematic diagram of a front view structure of the present utility model; FIG. 3 is a schematic diagram of the structure of FIG. 2A; FIG. 4 is a schematic side view of the present utility model; fig. 5 is a schematic diagram of the structure of B in fig. 4. Reference numerals illustrate: 1. the energy-saving heat pump comprises an energy-saving heat pump main body, 2, an upper mounting plate, 3, an auxiliary structure, 301, a guide block, 302, a threaded block, 303, a threaded sleeve, 304, a square block, 305, a spherical block, 306, a damping component, 4, a protective structure, 4a1, a protective seat, 4a2, a sliding block, 4a3, a baffle, 4a4, a rotating rod, 4a5, an inserting block, 4a6, a spring, 4b1, a pulley, 5, a supporting plate, 6, a mounting tube, 7, a cold water inlet, 8, a hot water outlet, 9, an instrument, 10 and a snow baffle.

The utility model provides an ultra-silent heat pump, including energy-saving heat pump main part 1 and last mounting panel 2, the top of energy-saving heat pump main part 1 links to each other with last mounting panel 2 is fixed, the top of going up mounting panel 2 links to each other with the mounting tube 6 of both sides respectively fixedly, the top outside of going up mounting panel 2 links to each other with snow guard 10 is fixed, the right side top of energy-saving heat pump main part 1 is provided with instrument 9, the right side bottom of energy-saving heat pump main part 1 is provided with cold water import 7 and hot water export 8 respectively, the bottom of energy-saving heat pump main part 1 is provided with auxiliary structure 3, the front side of instrument 9 is provided with protective structure 4.

The auxiliary structure 3 comprises guide blocks 301, the outer ends of a plurality of guide blocks 301 are fixedly connected with a supporting plate 5 and an energy-saving heat pump main body 1 respectively, the outer wall of each guide block 301 is connected with a threaded block 302 in a sliding mode, maintenance personnel rotates the threaded block 302, the threaded block 302 moves circumferentially along the guide blocks 301, the threaded block 302 enables the threaded sleeve 303 to be limited by a square block 304 in the rotating process, the threaded sleeve 303 moves along a threaded groove of the threaded block 302, the threaded sleeve 303 is released from abutting with a spherical block 305 in the moving process, then the damping component 305 is extracted from the inside of a groove of the square block 304, the spherical block 305 is enabled to move outwards due to extrusion of an arc groove in the sliding process of the square block 304, the damping component 306 is detached, then a new damping component 306 is inserted into the groove of the square block 304, the threaded block 302 is rotated reversely, the threaded block 302 drives the threaded sleeve 303 to move inwards, the damping component 306 is fixed, the inner wall of the threaded sleeve 303 is connected with the threaded sleeve 303 in a threaded mode, the inner wall of the square block 303 is connected with the square block 304 in a sliding mode, the inner side of the square block 304 abuts against the spherical block 305, and the two sides of the spherical block 305 are abutted against the spherical block 305 and the two sides of the spherical block 305 are connected with the two sides of the energy-saving heat pump main body 1 respectively.

The protection structure 4 includes protection seat 4a1, protection seat 4a 1's tip sets up the outside with instrument 9, protection seat 4a 1's both sides spout links to each other with the slider 4a2 slip of both sides respectively, slider 4a 2's right-hand member all links to each other with baffle 4a3 is fixed, left side slider 4a 2's middle part and dwang 4a4 rotate and link to each other, the bottom and the plug 4a5 slip of dwang 4a4 link to each other, when instrument 9 is watched to the needs, maintainer pulls plug 4a5 to the left, plug 4a5 drives spring 4a6 compression, make plug 4a5 and energy-saving heat pump main part 1 release the card, then rotate dwang 4a4 hundred eighty degrees simultaneously through dwang 4a4 and remove slider 4a2, slider 4a2 drives baffle 4a3 and upwards moves, then insert plug 4a5 to the inside the slot at energy-saving heat pump main part 1 top, after the use is accomplished, make then reverse rotation dwang 4a4, reset plug 4a3 unclamp plug 4a5, make plug 4a6 and the other end that spring 4a6 and energy-saving heat pump main part 1's the other end and the fixed body 4a1 take place the side of leading to the damage to the fact the fixed body 4a of the fixed body 1, the opposite end of plug 4a is connected with the plug 4a1, the other end of the fixed body 4a1 is avoided.

When the shock-absorbing assembly 306 is required to be replaced during maintenance, maintenance personnel rotates the threaded block 302, the threaded block 302 moves circumferentially along the guide block 301, the threaded block 302 enables the threaded sleeve 303 to be limited by the square block 304 in the rotating process, the threaded sleeve 303 moves along a threaded groove of the threaded block 302, the threaded sleeve 303 is released from abutting with the spherical block 305 in the moving process, then the shock-absorbing assembly 305 is extracted from the inside of a groove of the square block 304, the spherical block 305 is enabled to move outwards by extrusion of an arc groove in the sliding process of the square block 304, so that the shock-absorbing assembly 306 is detached, then a new shock-absorbing assembly 306 is inserted into the groove of the square block 304, and then the threaded block 302 drives the threaded sleeve 303 to extrude the spherical block 305 to move inwards, so that the shock-absorbing assembly 306 is fixed in such a way as to replace the original replacement mode, the replacement operation of the shock-absorbing assembly 306 is more convenient, and the problem that the maintenance of the energy-saving heat pump is tired by the staff when the energy-saving heat pump of the staff is located at a lower center of gravity for a long time is avoided;

When the instrument 9 is required to be watched, a maintainer pulls the insert block 4a5 leftwards, the insert block 4a5 drives the spring 4a6 to compress, so that the insert block 4a5 is in clamping connection with the energy-saving heat pump main body 1, then the rotating rod 4a4 is rotated for one hundred eighty degrees, meanwhile, the slide block 4a2 is moved through the rotating rod 4a4, the baffle 4a3 is driven to move upwards by the cheering 4a2, then the insert block 4a5 is inserted into a slot at the top of the energy-saving heat pump main body 1, after the use is finished, the insert block 4a5 is pulled, so that the rotating rod 4a4 is rotated reversely, the baffle 4a3 is reset to release the insert block 4a5, the elastic force of the spring 4a6 drives the insert block 4a5 to be in clamping connection with the slot at the bottom of the energy-saving heat pump main body 1, and the situation that the instrument is damaged due to collision between an external object and the instrument 9 is avoided through the baffle 4a 3.

The protection structure 4 may further include a pulley 4b1, two sides of a shaft body of the pulley 4b1 are rotationally connected with the sliding block 4a2, outer walls of shaft bodies of the plurality of pulleys 4b1 are attached to sliding grooves of the protection seat 4a1, sliding friction generated when the sliding block 4a2 slides along the protection seat 4a1 is caused by the pulley 4b1 to enable the pulley 4b1 to rotate, and rolling friction replaces original sliding friction to open and close the baffle plate more smoothly.

The above disclosure is merely an embodiment of the present utility model, and it should be understood that the scope of the claims should not be limited thereto, and that all or part of the procedures for implementing the above embodiments may be modified by one skilled in the art, and still fall within the scope of the present utility model as defined in the appended claims.

Claims (4)

1. The utility model provides an ultra-silent heat pump, includes energy-saving heat pump main part, backup pad, damper and auxiliary structure link, and energy-saving heat pump main part links to each other with damper through auxiliary structure, is connected with the backup pad again, its characterized in that auxiliary structure includes square piece, thread bush, spherical piece and guide block, and square piece is fixed with a thread bush outward earlier, is provided with more than 2 guide blocks along the thread bush periphery, the one end of guide block links to each other with energy-saving heat pump main part is fixed, still is equipped with the thread bush matched screw thread piece, and the outer wall of guide block links to each other with the screw thread piece is slided, and the end that is close to of square piece still is equipped with spacing spherical piece, and the screw thread piece can realize circular motion along the guide piece, and the screw thread piece makes the thread bush receive the restriction of square piece and makes the thread bush remove along the thread groove of screw thread piece, and the thread bush removes to support tightly with spherical piece in the moving process, follow the inside extraction of recess of square piece for the arc groove extrusion of square piece makes spherical piece outwards remove to realize dismantling damper, square piece central point put still to be equipped with the installation recess matched with damper.

2. The ultra-silent heat pump according to claim 1, further comprising an instrument disposed on a side of the energy-saving heat pump body, the instrument being provided with a protective structure outside.

3. The ultra-silent heat pump according to claim 2, wherein the protecting structure comprises a protecting seat, the end part of the protecting seat is arranged outside the instrument, sliding grooves on two sides of the protecting seat are respectively connected with sliding blocks on two sides in a sliding manner, the right ends of the sliding blocks are fixedly connected with the baffle plates, the middle part of the left sliding block is rotationally connected with the rotating rod, and the bottom of the rotating rod is slidingly connected with the inserting block.

4. The ultra-silent heat pump according to claim 2, wherein the protecting structure comprises pulleys, both sides of the shaft bodies of the pulleys are rotatably connected with the sliding blocks, the outer walls of the shaft bodies of the pulleys are attached to the sliding grooves of the protecting seat, and the sliding friction of the sliding blocks during sliding along the protecting seat is caused by the pulleys to rotate.