CN213028598U - Energy-saving semiconductor silicon controlled rectifier intelligent variable frequency electromagnetic heating driver - Google Patents

Abstract

The utility model discloses an energy-conserving semiconductor silicon controlled rectifier intelligent frequency conversion electromagnetic heating driver, including the driver shell, driver shell overcoat is equipped with the cooling shell, is connected with the base under the cooling shell, is equipped with the cooling chamber between driver shell and the cooling shell, is connected with cooling mechanism on the cooling shell, and cooling mechanism includes circulating water pump, and circulating water pump is connected with cooling shell outer wall, is connected with outlet pipe and inlet tube on the circulating water pump, and outlet pipe and inlet tube run through the cooling shell setting, are connected with circulating pipe between outlet pipe and the inlet tube, and circulating pipe encircles the setting of driver shell. The utility model discloses a setting of corresponding mechanism on the electromagnetic heating driver has effectively reduced the inside condition that high temperature appears of driver, makes the driver can keep good performance, has effectively reduced the driver and has appeared because of the condition that inside high temperature damaged, has reduced user's unnecessary economic burden.

Description

Energy-saving semiconductor silicon controlled rectifier intelligent variable frequency electromagnetic heating driver

Technical Field

The utility model belongs to the technical field of the electromagnetic heating driver, concretely relates to energy-conserving semiconductor silicon controlled rectifier intelligent variable frequency electromagnetic heating driver.

Background

Electromagnetic heating is also called electromagnetic induction heating, namely an electromagnetic heating technology, the principle of the electromagnetic heating is that an alternating magnetic field is generated through an electronic circuit board, when a ferrous container is placed on the iron-containing container, the surface of the container cuts alternating magnetic lines of force to generate alternating eddy currents at a metal part at the bottom of the container, the eddy currents enable carriers at the bottom of the container to move randomly at a high speed, and the carriers collide and rub with atoms to generate heat energy, so that the effect of heating objects is achieved.

Traditional electromagnetic heating technique uses with the cooperation of intelligent frequency conversion electromagnetic heating driver usually when using, some intelligent frequency conversion electromagnetic heating drivers are controlled through silicon controlled semiconductor, it can reach energy-conserving power saving's effect to a certain extent, but it can produce certain heat when using, and the electromagnetic heating driver lacks corresponding heat dissipation mechanism, be unfavorable for the inside thermal discharge of driver, influence the performance of driver, serious probably causes the damage of driver, bring unnecessary economic burden for the user.

Therefore, in view of the above technical problems, it is necessary to provide an energy-saving thyristor intelligent variable frequency electromagnetic heating driver.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving semiconductor silicon controlled rectifier intelligent frequency conversion electromagnetic heating driver to solve the inside problem that forms the high temperature easily of above-mentioned electromagnetic heating driver.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

the utility model provides an energy-conserving semiconductor silicon controlled rectifier intelligent frequency conversion electromagnetic heating driver, includes the driver shell, driver shell overcoat is equipped with the cooling shell, be connected with the base under the cooling shell, be equipped with the cooling chamber between driver shell and the cooling shell, be connected with cooling mechanism on the cooling shell, cooling mechanism includes circulating water pump, circulating water pump is connected with cooling shell outer wall, last outlet pipe and the inlet tube of being connected with of circulating water pump, outlet pipe and inlet tube run through the cooling shell setting, be connected with circulating water pipe between outlet pipe and the inlet tube, circulating water pipe encircles the setting of driver shell, circulating water pipe locates the cooling intracavity.

Furthermore, one side of the cooling shell, which is far away from the cooling mechanism, is connected with an air guide mechanism, which is convenient for guiding heat generated in the driver shell, the air guide mechanism comprises a motor, one side of the cooling shell, which is far away from the circulating water pump, is connected with a partition plate, which effectively reduces the influence of the heat in the driver shell on the outside air, the motor is connected with the partition plate, which is convenient for fixing the motor, an air guide pipe is connected between the driver shell and the cooling shell, which enables the heat in the driver shell to be effectively guided, the air guide pipe penetrates through the driver shell and the cooling shell, a rotating shaft bracket is connected in one end of the air guide pipe, which is close to the driver shell, which is convenient for fixing the rotating shaft, a rotating shaft is rotatably connected between the rotating shaft bracket and the partition plate, the heat in the driver shell is convenient to discharge, the motor is connected with the rotating shaft, the rotating shaft is convenient to rotate, and the air guide pipe is provided with a plurality of air holes, so that the heat in the driver shell can conveniently enter the cooling cavity.

Further, the cooling shell is equipped with water collecting mechanism, is convenient for collect the comdenstion water that the cooling intracavity produced, water collecting mechanism includes the loading board, is convenient for separate cooling chamber and the chamber of catchmenting, has the effect of bearing the driver shell simultaneously, the loading board is connected with cooling shell inner wall, makes the loading board obtain effective fixed, the driver shell is connected with the loading board, makes the driver shell be difficult to produce and rocks, be equipped with the chamber of catchmenting between loading board and the base, the intracavity of catchmenting is equipped with the guide plate, is convenient for go out the chamber of catchmenting with the comdenstion water conservancy diversion of the intracavity of catchmenting, cooling shell external connection has the drain pipe, the drain pipe is linked together with the chamber of catchmenting, is convenient for discharge the.

Furthermore, the air guide pipe is sleeved with the breathable film, the situation that condensed water enters the air guide pipe is effectively reduced, the breathable film is sleeved outside the air guide pipe, the situation that the breathable film is damaged due to direct contact with heat can be effectively reduced, and the service life of the breathable film is effectively prolonged.

Furthermore, the circulating water pipe is sleeved with the fins, so that condensed water in the cooling cavity can be effectively attached to the fins to be effectively collected, the condensed water can be condensed into larger water drops, and the fins are perpendicular to the bearing plate, so that the condensed water can drip onto the bearing plate.

Compared with the prior art, the utility model has the advantages of it is following:

the utility model discloses a setting of corresponding mechanism on the electromagnetic heating driver has effectively reduced the inside condition that high temperature appears of driver, makes the driver can keep good performance, has effectively reduced the driver and has appeared because of the condition that inside high temperature damaged, has reduced user's unnecessary economic burden.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a cross-sectional view of an energy-saving semiconductor silicon controlled rectifier intelligent type variable frequency electromagnetic heating driver in an embodiment of the present invention;

fig. 2 is a schematic structural view of a portion a in fig. 1 according to an embodiment of the present invention;

fig. 3 is a perspective view of an energy-saving semiconductor silicon controlled rectifier intelligent type variable frequency electromagnetic heating driver according to an embodiment of the present invention.

In the figure: 1. the fan comprises a driver shell, 101, a cooling shell, 102, a base, 2, a cooling mechanism, 201, a circulating water pump, 202, a water outlet pipe, 203, a water inlet pipe, 204, a circulating water pipe, 205, fins, 3, an air guide mechanism, 301, a motor, 302, a partition plate, 303, a rotating shaft support, 304, a rotating shaft, 305, fan blades, 306, an air guide pipe, 307, a breathable film, 4, a water collecting mechanism, 401, a partition plate, 402, a guide plate, 403, a water inlet hole and 404 a water outlet pipe.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. However, the present invention is not limited to the embodiments, and the structural, method, or functional changes made by those skilled in the art according to the embodiments are all included in the scope of the present invention.

The utility model discloses an energy-saving semiconductor silicon controlled rectifier intelligent variable frequency electromagnetic heating driver, as shown in figures 1-3, comprising a driver shell 1, a cooling shell 101 is sleeved outside the driver shell 1, a cooling cavity is conveniently arranged between the driver shell 1 and the driver shell, the driver shell 1 is effectively protected to effectively reduce dust entering the driver shell 1, a base 102 is connected below the cooling shell 101 to form a closed space in the cooling shell 101, the cooling cavity is arranged between the driver shell 1 and the cooling shell 101 to facilitate cooling the driver shell 1, a cooling mechanism 2 is connected on the cooling shell 101, the cooling mechanism 2 comprises a circulating water pump 201 to facilitate cooling water circulation, the circulating water pump 201 is connected with the outer wall of the cooling shell 101 to facilitate fixing the circulating water pump 201, a water outlet pipe 202 and a water inlet pipe 203 are connected on the circulating water pump 201 to facilitate water absorption and drainage of the circulating water pump 201, outlet pipe 202 and inlet tube 203 run through cooling shell 101 and set up, make the cooling water can get into the cooling chamber and circulate the cooling, are connected with circulating pipe 204 between outlet pipe 202 and the inlet tube 203, and the cooling water of being convenient for circulates, and circulating pipe 204 encircles the setting of driver shell 1, makes the temperature in the cooling chamber more even, and circulating pipe 204 locates the cooling intracavity.

Wherein, one side of the cooling shell 101 far away from the cooling mechanism 2 is connected with an air guiding mechanism 3, which is convenient for guiding heat generated in the driver shell 1, the air guiding mechanism 3 comprises a motor 301, one side of the cooling shell 101 far away from the circulating water pump 201 is connected with a partition plate 302, which effectively reduces the influence of the heat in the driver shell 1 on the outside air, the motor 301 is connected with the partition plate 302, which is convenient for fixing the motor 301, an air guiding pipe 306 is connected between the driver shell 1 and the cooling shell 101, which enables the heat in the driver shell 1 to be effectively guided, the air guiding pipe 306 is arranged through the driver shell 1 and the cooling shell 101, one end of the air guiding pipe 306 close to the driver shell 1 is internally connected with a rotating shaft bracket 303, which is convenient for fixing a rotating shaft 304, a rotating shaft 304 is rotatably connected between the rotating shaft bracket 303, the rotating shaft 304 is connected with a plurality of fan blades 305 to facilitate heat in the driver shell 1 to be discharged, the motor 301 is connected with the rotating shaft 304 to facilitate the rotation of the rotating shaft 304, a plurality of air holes are drilled on the air guide pipe 306 to facilitate heat in the driver shell 1 to enter the cooling cavity, the air guide pipe 306 is externally sleeved with the breathable film 307 to effectively reduce the occurrence of the condition that condensed water enters the air guide pipe 306, the breathable film 307 is sleeved outside the air guide pipe 306 to effectively reduce the occurrence of the condition that the breathable film 307 is damaged due to direct contact with heat, and the service life of the breathable film 307 is effectively prolonged.

Specifically, the cooling housing 101 is provided with a water collecting mechanism 4 for collecting condensed water generated in the cooling cavity, the water collecting mechanism 4 comprises a bearing plate 401 for separating the cooling cavity from the water collecting cavity and for supporting the driver housing 1, the bearing plate 401 is connected with the inner wall of the cooling housing 101 to effectively fix the bearing plate 401, the driver housing 1 is connected with the bearing plate 401 to prevent the driver housing 1 from shaking, a water collecting cavity is arranged between the bearing plate 401 and the base 102, a guide plate 402 is arranged in the water collecting cavity to guide the condensed water in the water collecting cavity out of the water collecting cavity, a drain pipe 404 is connected outside the cooling housing 101 and is communicated with the water collecting cavity to discharge the condensed water, a plurality of water inlets are formed in the bearing plate 401 to facilitate the condensed water to enter the water collecting cavity, a plurality of fins 205 are sleeved on a circulating water pipe 204 to enable the condensed water in the cooling cavity to effectively attach to the fins 205 to be, the condensed water can be condensed into larger water drops, and the fins 205 are arranged perpendicular to the bearing plate 401, so that the condensed water can conveniently drop on the bearing plate 401.

When the cooling device is used specifically, the motor 301 drives the plurality of fan blades 305 connected to the rotating shaft 304 to rotate, so that heat in the driver shell 1 is effectively pumped out, the pumped heat enters the cooling cavity through the air holes formed in the air guide pipe 306, the circulating water pump 201 enables cooling water in the circulating water pipe 204 to continuously circulate, heat exchange is carried out between the heat and the surface of the circulating water pipe 204 after the heat enters the cooling cavity to obtain cooling, condensed water generated after the heat is cooled is attached to the surface of the fins 205, the fins 205 enable the condensed water to fall onto the bearing plate 401 and enter the water collecting cavity through the water inlet holes 403, and the condensed water in the water collecting cavity is guided by the guide plate 402 and is discharged through the water discharge pipe 404.

According to the technical scheme provided by the utility model, the utility model discloses following beneficial effect has:

the utility model discloses a setting of corresponding mechanism on the electromagnetic heating driver has effectively reduced the inside condition that high temperature appears of driver, makes the driver can keep good performance, has effectively reduced the driver and has appeared because of the condition that inside high temperature damaged, has reduced user's unnecessary economic burden.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides an energy-conserving semiconductor silicon controlled rectifier intelligent frequency conversion electromagnetic heating driver, includes driver shell (1), its characterized in that, driver shell (1) overcoat is equipped with cooling shell (101), be connected with base (102) under cooling shell (101), be equipped with the cooling chamber between driver shell (1) and cooling shell (101), be connected with cooling mechanism (2) on cooling shell (101), cooling mechanism (2) include circulating water pump (201), circulating water pump (201) are connected with cooling shell (101) outer wall, be connected with outlet pipe (202) and inlet tube (203) on circulating water pump (201), outlet pipe (202) and inlet tube (203) run through cooling shell (101) and set up, be connected with circulating water pipe (204) between outlet pipe (202) and inlet tube (203), circulating water pipe (204) encircle driver shell (1) and set up, the circulating water pipe (204) is arranged in the cooling cavity.

2. The energy-saving semiconductor controlled silicon intelligent variable frequency electromagnetic heating driver as claimed in claim 1, wherein one side of the cooling shell (101) far away from the cooling mechanism (2) is connected with an air guide mechanism (3), the air guide mechanism (3) comprises a motor (301), one side of the cooling shell (101) far away from the circulating water pump (201) is connected with a partition plate (302), the motor (301) is connected with the partition plate (302), an air guide pipe (306) is connected between the driver shell (1) and the cooling shell (101), the air guide pipe (306) penetrates through the driver shell (1) and the cooling shell (101), one end of the air guide pipe (306) close to the driver shell (1) is internally connected with a rotating shaft support (303), and a rotating shaft (304) is rotatably connected between the rotating shaft support (303) and the partition plate (302), the rotating shaft (304) penetrates through the partition plate (302), the rotating shaft (304) is connected with a plurality of fan blades (305), the motor (301) is connected with the rotating shaft (304), and a plurality of air holes are drilled in the air guide pipe (306).

3. The energy-saving semiconductor controlled silicon intelligent variable frequency electromagnetic heating driver is characterized in that the cooling shell (101) is provided with a water collecting mechanism (4), the water collecting mechanism (4) comprises a bearing plate (401), the bearing plate (401) is connected with the inner wall of the cooling shell (101), the driver shell (1) is connected with the bearing plate (401), a water collecting cavity is formed between the bearing plate (401) and the base (102), a guide plate (402) is arranged in the water collecting cavity, a drain pipe (404) is connected outside the cooling shell (101), the drain pipe (404) is communicated with the water collecting cavity, and a plurality of water inlet holes (403) are drilled in the bearing plate (401).

4. The intelligent energy-saving thyristor variable-frequency electromagnetic heating driver as claimed in claim 2, wherein the air guide pipe (306) is externally sleeved with an air permeable film (307).

5. The energy-saving thyristor intelligent type variable frequency electromagnetic heating driver as claimed in claim 1, wherein a plurality of fins (205) are sleeved on the circulating water pipe (204), and the fins (205) are arranged vertically to the bearing plate (401).

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