CN220852426U - Direct-current variable-frequency air energy cooling and heating unit - Google Patents

Abstract

The utility model discloses a direct-current variable-frequency air energy cooling and heating unit, which comprises: the cabinet body, cold and warm pipe butt joint mouth, heat dissipation framework and installation mechanism, cabinet body one side welding has cold and warm pipe butt joint mouth, the heat dissipation framework is installed to cabinet body top, heat dissipation framework top is connected with installation mechanism, and the cabinet body is as bearing the weight of basis, this direct current variable frequency air can the cold and warm unit, pick up the heat dissipation grid and drive the opening piece and run through on the dead lever, the torsional spring drives the cardboard and rotates the back block and connect and fix in opening piece top, realized that the user can install the heat dissipation grid through installation mechanism fast and fix, save time improves efficiency, servo motor passes through the threaded rod and drives brush board lateral shifting, transversely scrape through the brush board and clear up on the dust screen, realized that the user can clear up the dust screen fast through cleaning mechanism, reduce the labour, prevent that the dust screen from blockking up radiating efficiency and reducing, cause internal components to take place overheated and damage.

Description

Direct-current variable-frequency air energy cooling and heating unit

Technical Field

The utility model relates to the technical field of air energy cooling and heating machines, in particular to a direct-current variable-frequency air energy cooling and heating unit.

Background

The DC variable-frequency air energy cooling and heating unit is a new generation of heating and refrigerating equipment. The main differences between the cooling and heating machine and the air conditioner are as follows: the cold and warm machine adopts electric heating and electric refrigerating. And the air conditioner adopts a refrigerant for refrigeration. The cooling and heating machine is usually an integrated machine, and the air conditioner needs to operate together with the outdoor machine and the indoor machine. The cold and warm machine has the characteristics of low energy consumption and environmental protection, and the prior art scheme has the following problems when in use, such as;

The existing direct current variable frequency air can cool and heat unit is when using through the fan in the heat dissipation grid to the inside refrigeration fan evaporation case that heats, discharge steam through the heat dissipation framework, when installing the heat dissipation grid, it is fixed to use multiunit bolt generally, need punch the heat dissipation framework upper end with the help of the instrument during the installation, screw the bolt fixedly with the help of the instrument, the flow is comparatively loaded down with trivial details and is inconvenient to install the butt joint, and direct current variable frequency air can cool and heat unit inside heat refrigeration fan evaporation case is dustproof through the dust screen, prevent to blow in the dust by the fan, long-term use back, dust screen accumulation too much dust leads to radiating efficiency decline, clear up the dust screen and need dismantle, the result in the labour that has increased.

Disclosure of Invention

The utility model aims to provide a direct-current variable-frequency air energy cooling and heating unit, which aims to solve the problems that the direct-current variable-frequency air energy cooling and heating unit in the market provided by the background technology cannot quickly install a heat radiation grille and cannot quickly clean a dust screen.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a direct current variable frequency air energy cooling and heating unit, comprising: the cooling and heating device comprises a cabinet body, a cooling and heating pipe butt joint, a heat dissipation frame body and a mounting mechanism;

The cooling and heating device is characterized in that a cooling and heating pipe butt joint port is welded on one side of the cabinet body, a cooling frame body is installed above the cabinet body, an installation mechanism is connected above the cooling frame body, one end of the installation mechanism is connected to one side of a cooling grid, the cooling grid is installed above the cooling frame body, a dust screen is installed in the cooling frame body, a cleaning mechanism is installed on the dust screen, and the cabinet body serves as a bearing foundation.

Preferably, the mounting mechanism includes: the heat dissipation frame comprises a fixing rod, an opening block, a placing cavity, a rotating rod, a torsion spring, a clamping plate and a first through groove, wherein the fixing rod is installed above the heat dissipation frame body, one end of the fixing rod is connected in the opening block in a penetrating mode, and the opening block is installed on one side of the heat dissipation grid.

Preferably, a placing cavity is formed in the fixing rod, a rotating rod is rotatably arranged above the inside of the placing cavity, and one end of the rotating rod is rotatably arranged below the inside of the placing cavity.

Preferably, the torsion spring is installed on the dwang, torsional spring one end is installed and is being placed the inside top in chamber, install the cardboard on the dwang, cardboard one end runs through first logical groove block and connects in the opening piece top, first logical groove is seted up in the dead lever.

Preferably, the cleaning mechanism includes: the novel dust-proof device comprises a hollow plate, a threaded rod, a first bevel gear, a second bevel gear, a servo motor, a hairbrush plate, a second through groove and a limiting sliding rail, wherein the hollow plate is arranged above the front end of the dust-proof net, the threaded rod is rotatably arranged on the inner side wall of the hollow plate, and one end of the threaded rod is rotatably arranged on the other inner side wall of the hollow plate.

Preferably, a first bevel gear is installed on the threaded rod in a penetrating mode, a second bevel gear is connected above the first bevel gear in a meshed mode, one end of a servo motor is installed above the second bevel gear, and the other end of the servo motor is connected above the hollow plate in a penetrating mode.

Preferably, the threaded rod is connected with one end of the brush plate in a threaded manner, the other end of the brush plate penetrates through the second through groove to be connected in the limiting sliding rail in a clamping manner, and the second through groove is formed in the lower portion of the hollow plate.

Preferably, the limit sliding rail is arranged below the front end of the dust screen, and the rear end of the brush plate is connected to the dust screen.

Compared with the prior art, the utility model has the beneficial effects that: this direct current variable frequency air can cooling and heating unit, it runs through on the dead lever to take up the heat dissipation grid and drives the opening piece, the torsional spring drives the cardboard and rotates the back block and connect and fix in opening piece top, it is fixed that the user can install the heat dissipation grid through the installation mechanism is quick, save time improves efficiency, servo motor passes through threaded rod drive brush board lateral shifting, transversely scrape on the dust screen through the brush board and clear up, the user has realized can clear up the dust screen through clearance mechanism fast, reduce the labour, prevent that the dust screen from blockking up the radiating efficiency and reducing, cause inner assembly to take place overheated and damage, the concrete content is as follows:

1. The rotating clamping plate drives the rotating rod to rotate, the rotating rod drives the torsion spring to rotate and bear force, the radiating grille is lifted to drive the opening block to penetrate through the fixed rod, the clamping plate is loosened, the torsion spring is enabled to rebound and return to a position, the rotating rod is driven to rotate, and the rotating rod drives the clamping plate to rotate and then is clamped and connected above the opening block to be fixed, so that the effect of rapid installation is achieved;

2. The servo motor is started to drive the second bevel gear to rotate, the second bevel gear drives the first bevel gear to rotate, the first bevel gear drives the threaded rod to rotate, the threaded rod drives the hairbrush plate to transversely move, the hairbrush plate is guided and limited through the second through groove and the limiting sliding rail, and the hairbrush plate is transversely scraped on the dust screen to clean, so that the effect of cleaning is achieved rapidly.

Drawings

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

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

FIG. 3 is a schematic view of a cleaning mechanism according to the present utility model;

FIG. 4 is a schematic view of a brush plate structure according to the present utility model

FIG. 5 is an enlarged view of the structure of the portion A of the present utility model;

FIG. 6 is an enlarged view of the structure of the portion B of the present utility model;

FIG. 7 is an enlarged view of the structure of the portion C of the present utility model;

FIG. 8 is an enlarged view of the structure of the portion D of the present utility model;

FIG. 9 is an enlarged view of the E part structure of the present utility model;

Fig. 10 is an enlarged view of the structure of the portion F of the present utility model.

In the figure: 1. a cabinet body; 2. cold and warm pipe butt joint; 3. a heat dissipation frame; 4. a mounting mechanism; 401. a fixed rod; 402. an opening block; 403. a placement cavity; 404. a rotating lever; 405. a torsion spring; 406. a clamping plate; 407. a first through groove; 5. a heat-dissipating grille; 6. a dust screen; 7. a cleaning mechanism; 701. a hollow plate; 702. a threaded rod; 703. a first bevel gear; 704. a second bevel gear; 705. a servo motor; 706. a brush plate; 707. a second through slot; 708. and a limit sliding rail.

Description of the embodiments

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.

Referring to fig. 1-10, the present utility model provides a technical solution: a direct current variable frequency air energy cooling and heating unit, comprising: the cooling and heating cabinet comprises a cabinet body 1, a cooling and heating pipe butt joint 2, a heat dissipation frame body 3 and a mounting mechanism 4;

The cooling and heating pipe butt joint 2 is welded on one side of the cabinet body 1, the radiating frame body 3 is installed above the cabinet body 1, the installation mechanism 4 is connected above the radiating frame body 3, one end of the installation mechanism 4 is connected on one side of the radiating grille 5, the radiating grille 5 is installed above the radiating frame body 3, the dustproof net 6 is installed in the radiating frame body 3, the cleaning mechanism 7 is installed on the dustproof net 6, and the cabinet body 1 is used as a bearing foundation.

The mounting mechanism 4 includes: the fixing rod 401, the opening block 402, place the chamber 403, the dwang 404, the torsional spring 405, cardboard 406 and first logical groove 407, the fixing rod 401 is installed to heat dissipation framework 3 top, fixing rod 401 one end through-connection is in opening block 402, opening block 402 installs on one side of heat dissipation grid 5, place the chamber 403 has been seted up in the fixing rod 401, place the inside top rotation in chamber 403 and install dwang 404, dwang 404 one end rotation is installed and is being placed the inside below in chamber 403, install torsional spring 405 on the dwang 404, torsional spring 405 one end is installed and is being placed the inside top in chamber 403, install cardboard 406 on the dwang 404, cardboard 406 one end runs through first logical groove 407 block connection in opening block 402 top, first logical groove 407 is seted up in the dead lever 401, take up heat dissipation grid 5 and drive opening block 402 and run through on fixing rod 401, the block 402 top is connected in the block 402 block after the block 402 is driven to the block 406 to rotate to the block of block is rotated to the torsional spring 405.

The cleaning mechanism 7 includes: the novel dust-proof device comprises a hollow plate 701, a threaded rod 702, a first bevel gear 703, a second bevel gear 704, a servo motor 705, a brush plate 706, a second through groove 707 and a limiting slide rail 708, wherein the hollow plate 701 is installed above the front end of a dust-proof net 6, the threaded rod 702 is rotatably installed on the inner side wall of the hollow plate 701, one end of the threaded rod 702 is rotatably installed on the other inner side wall of the hollow plate 701, a first bevel gear 703 is installed on the threaded rod 702 in a penetrating manner, the second bevel gear 704 is connected with the upper portion of the first bevel gear 703 in a meshed manner, one end of the servo motor 705 is installed above the second bevel gear 704, the other end of the servo motor 705 is connected with the upper portion of the hollow plate 701 in a penetrating manner, one end of the brush plate 706 is connected with the limiting slide rail 708 in a penetrating manner, the second through groove 707 is formed in the lower portion of the hollow plate 701, the limiting slide rail 708 is installed below the front end of the dust-proof net 6, the rear end of the brush plate 706 is connected with the dust-proof net 6, the servo motor 705 drives the plate 706 to move transversely through the threaded rod 702, and the brush plate 706 scrapes transversely on the dust-proof net 6.

To sum up: as shown in fig. 1-10, when the direct-current variable-frequency air energy cooling and heating unit is used, it is simple to understand that the device, first, rotate the cardboard 406 and drive the torsional spring 405 through the dwang 404 and rotate the atress, pick up the heat dissipation grid 5 again and drive the opening piece 402 and run through on the dead lever 401, loosen the cardboard 406, make torsional spring 405 rebound and return to the position and drive the cardboard 406 through the dwang 404 and rotate the block connection and fix in opening piece 402 top, be convenient for install the heat dissipation grid 5 through installation mechanism 4 fast, save time and improve efficiency, then, servo motor 705 drives first bevel gear 703 through second bevel gear 704 and rotates, first bevel gear 703 drives brush board 706 lateral shifting through threaded rod 702, clean through brush board 706 on dust screen 6, be convenient for clean up dust screen 6 fast through clean-up mechanism 7, reduce the labour, prevent dust screen 6 from blocking up the radiating efficiency reduction, cause the inside subassembly to take place overheated and damage, the content that will not be described in detail in this description belongs to the prior art that is known to the expert in the art of the art.

Although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. A direct current variable frequency air energy cooling and heating unit, comprising: the cooling and heating cabinet is characterized by comprising a cabinet body (1), a cooling and heating pipe butt joint (2), a heat dissipation frame body (3) and a mounting mechanism (4);

The cooling and heating cabinet is characterized in that a cooling and heating pipe butt joint (2) is welded on one side of the cabinet body (1), a cooling frame body (3) is installed above the cabinet body (1), a mounting mechanism (4) is connected above the cooling frame body (3), one end of the mounting mechanism (4) is connected to one side of a cooling grid (5), the cooling grid (5) is installed above the cooling frame body (3), a dust screen (6) is installed in the cooling frame body (3), and a cleaning mechanism (7) is installed on the dust screen (6).

2. The direct current variable frequency air energy cooling and heating unit according to claim 1, wherein: the mounting mechanism (4) includes: the heat dissipation device comprises a fixing rod (401), an opening block (402), a placing cavity (403), a rotating rod (404), a torsion spring (405), a clamping plate (406) and a first through groove (407), wherein the fixing rod (401) is arranged above the heat dissipation frame body (3), one end of the fixing rod (401) is connected in the opening block (402) in a penetrating mode, and the opening block (402) is arranged on one side of the heat dissipation grid (5).

3. The direct current variable frequency air energy cooling and heating unit according to claim 2, wherein: a placing cavity (403) is formed in the fixing rod (401), a rotating rod (404) is rotatably arranged above the inside of the placing cavity (403), and one end of the rotating rod (404) is rotatably arranged below the inside of the placing cavity (403).

4. A dc variable frequency air energy cooling and heating unit according to claim 3, characterized in that: install torsional spring (405) on dwang (404), torsional spring (405) one end is installed and is being placed the inside top in chamber (403), install cardboard (406) on dwang (404), cardboard (406) one end runs through first logical groove (407) block connection in opening piece (402) top, first logical groove (407) are seted up in dead lever (401).

5. The direct current variable frequency air energy cooling and heating unit according to claim 1, wherein: the cleaning mechanism (7) comprises: hollow plate (701), threaded rod (702), first bevel gear (703), second bevel gear (704), servo motor (705), brush board (706), second through groove (707) and spacing slide rail (708), hollow plate (701) is installed to dust screen (6) front end top, rotate on hollow plate (701) inside wall and install threaded rod (702), threaded rod (702) one end is rotated and is installed on another inside wall of hollow plate (701).

6. The direct current variable frequency air energy cooling and heating unit according to claim 5, wherein: the utility model discloses a hollow plate (701), including threaded rod (702) and servo motor, install first bevel gear (703) on threaded rod (702) run through, first bevel gear (703) top meshing is connected with second bevel gear (704), servo motor (705) one end is installed to second bevel gear (704) top, servo motor (705) other end run through and are connected in cavity board (701) top.

7. The direct current variable frequency air energy cooling and heating unit according to claim 6, wherein: the threaded rod (702) is connected with one end of a hairbrush plate (706) in a threaded mode, the other end of the hairbrush plate (706) penetrates through a second through groove (707) to be connected in a clamping mode in a limiting sliding rail (708), and the second through groove (707) is formed in the lower portion of the hollow plate (701).

8. The direct current variable frequency air energy cooling and heating unit according to claim 7, wherein: the limiting sliding rail (708) is arranged below the front end of the dust screen (6), and the rear end of the brush plate (706) is connected to the dust screen (6).