CN219955447U - Wall-mounted electromagnetic heating stove - Google Patents

Abstract

The utility model relates to the technical field of electromagnetic heating furnaces, in particular to a wall-mounted electromagnetic heating furnace, which comprises a machine shell, a filter plate and a cleaning mechanism, wherein an equipment box and a heating box are arranged in the machine shell, a support and the cleaning mechanism are fixedly arranged on the bottom of the inner wall of the equipment box, the cleaning mechanism is positioned on the left side of the equipment box, a control cabinet is fixedly arranged on the support, an electromagnetic shielding cover and an insulating ceramic tube are arranged in the heating box, and the insulating ceramic tube is positioned in the electromagnetic shielding cover. According to the utility model, through the arrangement of the filter plate and the cleaning mechanism, dust in the heat dissipation holes on the filter plate is repeatedly cleaned through the jacking columns at the front end when the filter plate is used, so that the situation that the heat dissipation effect is poor due to the fact that the filter screen is blocked by dust when the filter plate is used for dissipating heat is avoided, and the problem that water vapor and dust enter the inside of the control cabinet to cause short circuit or faults of internal components of the control cabinet is also avoided when the filter plate is not used.

Description

Wall-mounted electromagnetic heating stove

Technical Field

The utility model relates to the technical field of electromagnetic heating furnaces, in particular to a wall-mounted electromagnetic heating furnace.

Background

In northern areas, where the weather is cold, people often use heating equipment to protect against the cold. With the development of living standard, the types of heating equipment are increasing, and there are a central pipeline heating mode and a flexible and light heating appliance for users. The electromagnetic heating stove adopts an electromagnetic induction heating principle, utilizes alternating current rectification to direct current and then inversion to high-frequency alternating current, acts on an induction coil to generate an alternating magnetic field, enables a stove body to generate countless small eddy currents, heats the stove body through eddy collision, enables water in the stove body to achieve the purpose of heating, and has the advantages of environmental protection, safety, short preheating time and high heating speed, so that the electromagnetic heating stove is received and used by more families.

Because electromagnetic heater adopts electromagnetic coil heating's characteristics, the water route is insulating with the circuit, and the security is high, however, the control electromagnetic heating's the inside output unit component that has the core of switch board, these electronic component can give off heat at the during operation, need carry out the heat dissipation to it and handle, through long-term use, steam and dust very easily get into the switch board inside, lead to the inside electrical apparatus of switch board to appear short circuit or trouble, consequently, do not satisfy current demand.

Disclosure of Invention

The utility model aims to provide a wall-mounted electromagnetic heating stove, which aims to solve the problems in the background technology.

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

the wall-mounted electromagnetic heating furnace comprises a machine shell, a filter plate and a cleaning mechanism, wherein an equipment box and a heating box are arranged in the machine shell, a support and the cleaning mechanism are fixedly arranged on the bottom of the inner wall of the equipment box, the cleaning mechanism is positioned on the left side of the equipment box, a control cabinet is fixedly arranged on the support, an electromagnetic shielding cover and an insulating ceramic tube are arranged in the heating box, the insulating ceramic tube is positioned in the electromagnetic shielding cover, an electromagnetic coil is sleeved on the insulating ceramic tube, a water inlet pipe is fixedly arranged at the top of the electromagnetic coil, and a water outlet pipe is fixedly arranged at the bottom of the insulating ceramic tube;

the cleaning mechanism comprises two mounting seats, wherein the two mounting seats are fixedly arranged on the top and bottom surfaces of the inner wall of the equipment box, a double-shaft servo motor is fixedly arranged on one mounting seat, main belt wheels are respectively arranged at the output ends of the two ends of the double-shaft servo motor, and first ball screws are respectively fixedly arranged at one ends of the main belt wheels, which are far away from the double-shaft servo motor;

the other the second ball is all installed in the rotation on the both ends of mount pad, fixed mounting has from driving the wheel on the one end that second ball is close to the mount pad, from driving the wheel and passing through the belt with the main belt wheel and being connected, the joint fixed mounting has the connecting plate in the removal end of first ball and second ball, fixed mounting has a plurality of lifters on the one side that the biax servo motor was kept away from to the connecting plate, a plurality of lifters and louvre assorted.

Preferably, the output end and the input end of the electromagnetic coil are fixedly connected to the control cabinet and extend into the equipment box through the heating box.

Preferably, one end of the water inlet pipe far away from the insulating ceramic pipe fixedly penetrates through the equipment box and the heating box to extend to the bottom of the equipment box, one end of the water outlet pipe far away from the insulating ceramic pipe fixedly penetrates through the equipment box and the heating box to extend to the bottom of the equipment box, and a water pump is fixedly installed on the water inlet pipe.

Preferably, the heat dissipation openings are formed in two sides of the equipment box, the filter plates are fixedly arranged in the heat dissipation openings, and a plurality of heat dissipation holes are formed in the filter plates.

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

according to the utility model, through the arrangement of the filter plate and the cleaning mechanism, dust in the heat dissipation holes on the filter plate is repeatedly cleaned through the jacking columns at the front end when the filter plate is used, so that the situation that the heat dissipation effect is poor due to the fact that the filter screen is blocked by dust when the filter plate is used for dissipating heat is avoided, and the problem that water vapor and dust enter the inside of the control cabinet to cause short circuit or faults of internal components of the control cabinet is also avoided when the filter plate is not used.

Drawings

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

FIG. 2 is a schematic side sectional view of the present utility model;

FIG. 3 is a schematic view of a front cross-sectional structure of the present utility model;

FIG. 4 is a schematic view of a cleaning mechanism according to the present utility model.

In the figure: 1. a housing; 101. a heat radiation port; 102. an equipment box; 103. a heating box; 2. a filter plate; 201. a heat radiation hole; 3. an electromagnetic shield; 4. a water inlet pipe; 5. a water outlet pipe; 6. an insulating ceramic tube; 7. an electromagnetic coil; 8. a control cabinet; 9. a bracket; 10. a water pump; 11. a cleaning mechanism; 1101. a mounting base; 1102. a biaxial servo motor; 1103. a main belt wheel; 1104. a ball screw; 1105. a connecting plate; 1106. a top column; 1107. a belt; 1108. a second ball screw; 1109. thereby driving the wheel.

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 are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present utility model based on the embodiments of the present utility model.

Example 1:

referring to fig. 1 to 4, the present utility model provides a technical solution:

the utility model provides a wall-mounted electromagnetic heating stove, which comprises a housing 1, filter 2 and clearance mechanism 11, the inside of casing 1 is provided with equipment box 102 and heating cabinet 103, fixed mounting has support 9 and clearance mechanism 11 on the inner wall bottom of equipment box 102, clearance mechanism 11 is located the left side of equipment box 102, fixed mounting has switch board 8 on support 9, the internally mounted of heating cabinet 103 has electromagnetic shield 3 and insulating ceramic pipe 6, insulating ceramic pipe 6 is located the inside of electromagnetic shield 3, cup joint on the insulating ceramic pipe 6 and install solenoid 7, solenoid 7's top fixed mounting has inlet tube 4, insulating ceramic pipe 6's bottom fixed mounting has outlet pipe 5.

In this embodiment, as shown in fig. 1, 2, 3 and 4, the output end and the input end of the electromagnetic coil 7 are both fixedly connected to the control cabinet 8 and extend through the heating box 103 to the inside of the equipment box 102.

In this embodiment, as shown in fig. 1, 2, 3 and 4, one end of the water inlet pipe 4 far away from the insulating ceramic pipe 6 extends to the bottom of the equipment box 102 through the equipment box 102 and the heating box 103, one end of the water outlet pipe 5 far away from the insulating ceramic pipe 6 extends to the bottom of the equipment box 102 through the equipment box 102 and the heating box 103, and the water pump 10 is fixedly mounted on the water inlet pipe 4.

In this embodiment, as shown in fig. 1, 2, 3 and 4, heat dissipation openings 101 are formed on two sides of the equipment box 102, a filter plate 2 is fixedly mounted in the heat dissipation openings 101, and a plurality of heat dissipation holes 201 are formed in the filter plate 2.

In this embodiment, as shown in fig. 1, 2, 3 and 4, the cleaning mechanism 11 includes two mounting seats 1101, the two mounting seats 1101 are fixedly mounted on the top and bottom surfaces of the inner wall of the equipment box 102, a dual-shaft servo motor 1102 is fixedly mounted on one mounting seat 1101, main belt pulleys 1103 are mounted on output ends of two ends of the dual-shaft servo motor 1102, and a first ball screw 1104 is fixedly mounted on one end of the main belt pulley 1103 away from the dual-shaft servo motor 1102.

In this embodiment, as shown in fig. 1, 2, 3 and 4, a second ball screw 1108 is rotatably installed on two ends of the other mounting seat 1101, a driven wheel 1109 is fixedly installed on one end of the second ball screw 1108 near the mounting seat 1101, the driven wheel 1109 is connected with the main belt wheel 1103 through a belt 1107, a connecting plate 1105 is fixedly installed on moving ends of the first ball screw 1104 and the second ball screw 1108 together, a plurality of top posts 1106 are fixedly installed on one side of the connecting plate 1105 far away from the dual-shaft servo motor 1102, and the top posts 1106 are matched with the heat dissipation holes 201.

The application method and the advantages of the utility model are as follows: when the wall-mounted electromagnetic heating stove is used, the working process is as follows:

as shown in fig. 1, fig. 2, fig. 3 and fig. 4, firstly, an external power supply is carried out on electric equipment in the device, through the setting of the filter plate 2 and the cleaning mechanism 11, when the device is used, the double-shaft servo motor 1102 is controlled by the controller to work, the output end of the double-shaft servo motor 1102 rotates to drive the main belt pulley 1103 and the first ball screw 1104 to rotate, the main belt pulley 1103 rotates to drive the driven pulley 1109 to rotate, thereby driving the second ball screw 1108 to rotate, the connecting plate 1105 on the movable end of the first ball screw 1104 and the second ball screw 1108 moves, the connecting plate 1105 moves to drive the top column 1106 to move, thereby repeatedly cleaning dust in the heat dissipation holes 201 on the filter plate 2, avoiding the situation that the heat dissipation effect is poor due to the dust blocking the heat dissipation holes 201 when the dust is dissipated, and avoiding the problem that water vapor and dust enter the inside the control cabinet 8 to cause short circuit or faults of internal components of the control cabinet 8 when the top column 1106 is not used.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a wall-hanging electromagnetic heating stove, includes casing (1), filter (2) and clearance mechanism (11), its characterized in that: the inside of casing (1) is provided with equipment box (102) and heating cabinet (103), fixed mounting has support (9) and clearance mechanism (11) on the inner wall bottom of equipment box (102), clearance mechanism (11) are located the left side of equipment box (102), fixed mounting has switch board (8) on support (9), internally mounted of heating cabinet (103) has electromagnetic shield (3) and insulating ceramic pipe (6), insulating ceramic pipe (6) are located the inside of electromagnetic shield (3), cup joint on insulating ceramic pipe (6) and install solenoid (7), the top fixed mounting of solenoid (7) has inlet tube (4), the bottom of the insulating ceramic tube (6) is fixedly provided with a water outlet tube (5), the cleaning mechanism (11) comprises two mounting seats (1101), the two mounting seats (1101) are fixedly arranged on the top and bottom surfaces of the inner wall of the equipment box (102), one mounting seat (1101) is fixedly provided with a double-shaft servo motor (1102), the output ends of the two ends of the double-shaft servo motor (1102) are respectively provided with a main belt wheel (1103), one end of the main belt wheel (1103) far away from the double-shaft servo motor (1102) is respectively fixedly provided with a first ball screw (1104), the other is provided with a second ball screw (1108) in a rotating mode on two ends of the mounting seat (1101), one end, close to the mounting seat (1101), of the second ball screw (1108) is fixedly provided with a driven wheel (1109), the driven wheel (1109) is connected with a main belt wheel (1103) through a belt (1107), moving ends of the first ball screw (1104) and the second ball screw (1108) are fixedly provided with a connecting plate (1105) together, one side, far away from the double-shaft servo motor (1102), of the connecting plate (1105) is fixedly provided with a plurality of jacking columns (1106), and the jacking columns (1106) are matched with the radiating holes (201).

2. A wall-mounted electromagnetic heating stove as claimed in claim 1, wherein: the output end and the input end of the electromagnetic coil (7) are fixedly connected to the control cabinet (8) and penetrate through the heating box (103) and extend to the inside of the equipment box (102).

3. A wall-mounted electromagnetic heating stove as claimed in claim 1, wherein: the one end that insulating ceramic pipe (6) was kept away from to inlet tube (4) is fixed runs through equipment box (102) and heating cabinet (103) and is extended to the bottom of equipment box (102), the one end that insulating ceramic pipe (6) was kept away from to outlet pipe (5) is fixed runs through equipment box (102) and heating cabinet (103) and is extended to the bottom of equipment box (102), fixed mounting has water pump (10) on inlet tube (4).

4. A wall-mounted electromagnetic heating stove as claimed in claim 1, wherein: the device comprises a device box (102), wherein heat dissipation openings (101) are formed in two sides of the device box, a filter plate (2) is fixedly installed in the heat dissipation openings (101), and a plurality of heat dissipation holes (201) are formed in the filter plate (2).