CN219103390U - Energy-saving evaporator - Google Patents

Abstract

The utility model discloses an energy-saving evaporator, which relates to the technical field of evaporators and comprises a box body, wherein an evaporator body is fixedly arranged in the box body, two second sliding grooves are formed in the inner wall of the box body, a motor is fixedly arranged on the rear surface of the box body, the output end of the motor is fixedly connected with a forward rotation screw rod, a moving device is arranged in the box body, a scaling device is arranged in the box body, the forward rotation screw rod and the reverse rotation screw rod are provided with opposite threads, so that the acting force of one motor can enable two sliding rods to move in different directions, dust in different directions or microorganisms generated by the evaporator are further cleaned, the dust or microorganisms generated by the evaporator are prevented from remaining on the evaporator, heat exchange is further reduced due to air circulation obstruction, the situation that the evaporator is frozen due to too low temperature is reduced, heat in the evaporator is easier to be dispersed out, the energy consumption is reduced, and the operating efficiency of the device is improved.

Description

Energy-saving evaporator

Technical Field

The utility model relates to the technical field of evaporators, in particular to an energy-saving evaporator.

Background

The evaporator is one of the indispensable components in a refrigeration system, and the liquid refrigerant is gasified into low-temperature and low-pressure gaseous vapor after absorbing the heat of a cooled object in the evaporator, strictly speaking: the evaporator is not operated, only a few pipelines are used, the liquid refrigerant is converted into a gaseous state, and the conversion process is called evaporation, so that the evaporator is used for gasifying the compressed and liquefied refrigerant, changing the liquid state into a gaseous state and absorbing heat, and the evaporator has the effect of reducing the temperature of surrounding media to play a refrigerating role.

Disclosure of Invention

The utility model aims to at least solve one of the technical problems in the prior art and provides an energy-saving evaporator which can solve the problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an energy-conserving evaporimeter, includes the box, the inside fixed mounting of box has the evaporimeter body, has seted up two second spouts on the inner wall of box, and the rear surface fixed mounting of box has the motor, and the output fixedly connected with corotation screw thread pole of motor, the inside mobile device that is provided with of box, the inside scaling device that is provided with of box.

Preferably, one end of the forward rotation threaded rod far away from the motor rotates to penetrate through the inner wall of the box body, the front end of the forward rotation threaded rod is fixedly connected with a limiting sleeve, the front end of the limiting sleeve is fixedly connected with a reverse rotation threaded rod, the forward rotation threaded rod, the limiting sleeve and the reverse rotation threaded rod are located in the second sliding groove, and one end of the reverse rotation threaded rod far away from the motor is rotationally connected with the second sliding groove.

Preferably, the mobile device includes four sliders, and four sliders all are located the inside of box one, and four sliders all contact with the inside of second spout, and four sliders are pairwise to, and the inside bolted connection of a pair of slider that is close to the motor has corotation screw thread pole and reversal threaded rod respectively, and the inside sliding connection of a pair of slider that keeps away from the motor has the head rod, both ends all with the inner wall fixed connection of second spout around the head rod, and the draw-in groove has all been seted up to four slider insides.

Preferably, the zooming device comprises a sliding rod, the top surface of the sliding rod is fixedly connected with a hairbrush, the sliding rod is located in the box body, the sliding rod is of an internal hollow structure, the outer surface of the sliding rod is provided with a first sliding groove, and both ends of the sliding rod are provided with grooves.

Preferably, springs are fixedly connected to the inner walls of the grooves, fixing blocks are fixedly connected to the opposite sides of the springs, the fixing blocks are in sliding contact with the corresponding grooves, and the opposite sides of the fixing blocks are in sliding contact with the corresponding clamping grooves.

Preferably, two the equal fixedly connected with second connecting rod of opposite face of fixed block, the surface of two second connecting rods all runs through the spring, and the equal fixedly connected with connecting axle of one end that the spring was kept away from to two second connecting rods, the one end that the second connecting rod was kept away from to two connecting axles all slides and runs through first spout, and the quantity of scaling device is totally two.

Compared with the prior art, the utility model has the beneficial effects that:

(1) This energy-conserving evaporimeter, screw thread through corotation screw thread pole and reversal threaded rod set up is opposite, can make the rotatory effort of a motor let two slide bars remove to different directions, and then clear up the microorganism that dust or evaporimeter produced on the different directions, prevent that dust or the microorganism accumulation that the evaporimeter produced from on the evaporimeter, and then hinder the circulation of air from causing the heat exchange to reduce, reduce the evaporimeter low temperature and freeze, increased the refrigeration effect of evaporimeter, make the heat in the evaporimeter spread more easily, the energy consumption has been reduced, the operation efficiency of the device has been improved.

(2) This energy-conserving evaporimeter, be connected with the fixed block through the first connecting rod, the design of plus the spring for the dismouting of slide bar is more convenient, accords with present personnel's use habit, and is simple and convenient in the dismantlement process, makes the use labour saving and time saving of the device.

(3) The energy-saving evaporator has the advantages that dust and water drops generated on the surface of the evaporator body can be better cleaned through the design of the hairbrush, dust in air or microorganisms generated by the evaporator are reduced to be accumulated on the evaporator, air circulation is further increased, the evaporator cannot be frozen due to too low temperature, and dust on the evaporator is easier to remove.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

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

FIG. 2 is a schematic diagram of a mobile device and a zoom device according to the present utility model;

FIG. 3 is a schematic plan view of a zoom apparatus according to the present utility model;

FIG. 4 is a front plan view of the body of the present utility model;

FIG. 5 is a schematic view of a slide bar and a fixed block according to the present utility model.

Reference numerals: 1. a case; 2. an evaporator body; 3. a motor; 4. a forward threaded rod; 5. a limit sleeve; 6. reversing the threaded rod; 7. a slide block; 8. a slide bar; 9. a brush; 10. a first connecting rod; 11. a clamping groove; 12. a spring; 13. a fixed block; 14. a groove; 15. a second connecting rod; 16. a connecting shaft; 17. a first chute; 18. and a second chute.

Detailed Description

Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, greater than, less than, exceeding, etc. are understood to exclude this number, and above, below, within, etc. are understood to include this number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides an energy-conserving evaporimeter, includes box 1, and the inside fixed mounting of box 1 has evaporimeter body 2, has seted up two second spouts 18 on the inner wall of box 1, and the rear surface fixed mounting of box 1 has motor 3, and motor 3's output fixedly connected with corotation screw thread pole 4, the inside mobile device that is provided with of box 1, the inside scaling device that is provided with of box 1.

Further, one end of the forward rotation threaded rod 4 far away from the motor 3 rotates to penetrate through the inner wall of the box body 1, the front end of the forward rotation threaded rod 4 is fixedly connected with a limiting sleeve 5, the front end of the limiting sleeve 5 is fixedly connected with a reverse rotation threaded rod 6, the forward rotation threaded rod 4, the limiting sleeve 5 and the reverse rotation threaded rod 6 are located in the second sliding groove 18, and one end of the reverse rotation threaded rod 6 far away from the motor 3 is rotationally connected with the second sliding groove 18.

Further, mobile device includes four sliders 7, four sliders 7 all are located the inside of box one, four sliders 7 all contact with the inside of second spout 18, four sliders 7 are pairwise to one another, the inside bolted connection of a pair of sliders 7 that is close to motor 3 has corotation screw thread pole 4 and reversal threaded rod 6 respectively, the inside sliding connection of a pair of sliders 7 that keep away from motor 3 has head rod 10, both ends all with the inner wall fixed connection of second spout 18 around the head rod 10, draw-in groove 11 has all been seted up to four sliders 7 inside.

Further, the zooming device comprises a sliding rod 8, a hairbrush 9 is fixedly connected to the top surface of the sliding rod 8, the sliding rod 8 is located in the box body 1, the sliding rod 8 is of an internal hollow structure, a first sliding groove 17 is formed in the outer surface of the sliding rod 8, and grooves 14 are formed in two ends of the sliding rod 8.

Further, springs 12 are fixedly connected to the inner walls of the two grooves 14, fixing blocks 13 are fixedly connected to the opposite sides of the two springs 12, the two fixing blocks 13 are in sliding contact with the corresponding grooves 14, and the opposite sides of the two fixing blocks 13 are in sliding contact with the corresponding clamping grooves 11.

Further, the second connecting rods 15 are fixedly connected to opposite faces of the two fixing blocks 13, the outer surfaces of the two second connecting rods 15 penetrate through the springs 12, one ends, far away from the springs 12, of the two second connecting rods 15 are fixedly connected with connecting shafts 16, one ends, far away from the second connecting rods 15, of the two connecting shafts 16 are slidably penetrated through the first sliding grooves 17, and the number of the zooming devices is two.

Further, in the process of using the energy-saving evaporator, the motor 3 is started through the external power supply, the motor 3 starts to drive the forward rotation threaded rod 4 to rotate, the forward rotation threaded rod 4 rotates to drive the limit sleeve 5 to rotate, the limit sleeve 5 rotates to drive the reverse rotation threaded rod 6 to rotate, and as the teeth formed by the forward rotation threaded rod 4 and the reverse rotation threaded rod 6 are opposite, the forward rotation threaded rod 4 and the reverse rotation threaded rod 6 drive the corresponding sliding blocks 7 to move reversely, the two sliding blocks 7 move reversely to drive the two fixing blocks 13 to move reversely, and the two fixing blocks 13 move reversely to drive the two sliding rods 8 to move reversely.

Further, by manually pulling the two connecting shafts 16, the two connecting shafts 16 are respectively driven, the two second connecting rods 15 move in opposite directions to drive the two fixing blocks 13 to move in opposite directions, the two fixing blocks 13 move in opposite directions to drive the two springs 12 to compress, and then the sliding rod 8 is taken and placed.

Further, the screw threads formed by the forward screw thread rod 4 and the reverse screw thread rod 6 are opposite, so that the acting force of one motor 3 can enable the two slide bars 8 to move in different directions, dust in different directions or microorganisms generated by the evaporator are further cleaned, the dust or the microorganisms generated by the evaporator are prevented from accumulating on the evaporator, air circulation is further hindered to cause heat exchange reduction, freezing caused by too low temperature of the evaporator is reduced, the refrigerating effect of the evaporator is improved, heat in the evaporator is easier to disperse, energy consumption is reduced, and the operation efficiency of the device is improved.

Further, be connected with fixed block 13 through 1 st connecting rod 15, add the design of spring 12 for slide bar 8's dismouting is more convenient, accords with present personnel's use habit, and is simple and convenient in the dismantlement process, makes the use labour saving and time saving of the device, and the design through brush 9 can be better clear up the produced dust in the evaporimeter body 2 surface and its drop of water, reduces the microorganism accumulation that dust in the air or evaporimeter produced on the evaporimeter, and then increases the circulation of air, can not make the evaporimeter temperature too low and freeze, makes the dust on the evaporimeter get rid of more easily.

Working principle: in the process of using the energy-saving evaporator, firstly, the motor 3 is started by an external power supply, the motor 3 starts to drive the forward rotation threaded rod 4 to rotate, the forward rotation threaded rod 4 drives the limit sleeve 5 to rotate, the limit sleeve 5 rotates to drive the reverse rotation threaded rod 6 to rotate, and as the teeth formed by the forward rotation threaded rod 4 and the reverse rotation threaded rod 6 are opposite, the forward rotation threaded rod 4 and the reverse rotation threaded rod 6 drive the corresponding sliding blocks 7 to move reversely, the two sliding blocks 7 move reversely to drive the two fixed blocks 13 to move reversely, the two fixed blocks 13 move reversely to drive the two sliding rods 8 to move reversely, then the two connecting shafts 16 are manually shifted, the two connecting shafts 16 are respectively driven to drive the two second connecting rods 15 to move reversely, the two second connecting rods 15 move reversely to drive the two fixed blocks 13 to move reversely, the two fixed blocks 13 move reversely to drive the two springs 12 to compress, and then the sliding rods 8 are taken and put.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present utility model.

Claims (6)

1. An energy-saving evaporator comprises a box body (1), and is characterized in that: the inside fixed mounting of box (1) has evaporimeter body (2), has seted up two second spouts (18) on the inner wall of box (1), and the rear surface fixed mounting of box (1) has motor (3), and the output fixedly connected with corotation screw thread pole (4) of motor (3), the inside mobile device that is provided with of box (1), the inside scaling device that is provided with of box (1).

2. An energy saving evaporator according to claim 1 wherein: the one end that motor (3) was kept away from to corotation screw rod (4) rotates the inner wall that runs through box (1), and the front end fixedly connected with stop collar (5) of corotation screw rod (4), the front end fixedly connected with reversal threaded rod (6) of stop collar (5), corotation screw rod (4) and stop collar (5) and reversal threaded rod (6) all are located the inside of second spout (18), and the one end that motor (3) was kept away from to reversal threaded rod (6) is rotated with second spout (18) and is connected.

3. An energy saving evaporator according to claim 2 wherein: the mobile device includes four sliders (7), four sliders (7) all are located the inside of box one, four sliders (7) all contact with the inside of second spout (18), four sliders (7) are pairwise, screw connection has corotation threaded rod (4) and reversal threaded rod (6) respectively inside a pair of sliders (7) that are close to motor (3), keep away from the inside sliding connection of a pair of sliders (7) of motor (3) has head rod (10), both ends all with the inner wall fixed connection of second spout (18) around head rod (10), draw-in groove (11) have all been seted up to four sliders (7) inside.

4. An energy saving evaporator according to claim 1 wherein: the scaling device comprises a sliding rod (8), a hairbrush (9) is fixedly connected to the top surface of the sliding rod (8), the sliding rod (8) is located in the box body (1), the sliding rod (8) is of an inner hollow structure, a first sliding groove (17) is formed in the outer surface of the sliding rod (8), and grooves (14) are formed in two ends of the sliding rod (8).

5. An energy saving evaporator according to claim 4 wherein: the inner walls of the two grooves (14) are fixedly connected with springs (12), the opposite sides of the two springs (12) are fixedly connected with fixed blocks (13), the two fixed blocks (13) are in sliding contact with the corresponding grooves (14), and the opposite sides of the two fixed blocks (13) are in sliding contact with the corresponding clamping grooves (11).

6. An energy efficient evaporator according to claim 5 wherein: two the equal fixedly connected with second connecting rod (15) of opposite face of fixed block (13), the surface of two second connecting rods (15) all runs through spring (12), and the one end that spring (12) was kept away from to two second connecting rods (15) is equal fixedly connected with connecting axle (16), and the one end that second connecting rod (15) was kept away from to two connecting axles (16) all slides and runs through first spout (17), and the quantity of scaling device is totally two.

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