CN218722273U - Electromagnetic hot-blast stove variable frequency controller heat abstractor - Google Patents

Abstract

The utility model discloses an electromagnetism hot-blast furnace variable frequency controller heat abstractor, including base and hot-blast furnace body, the base is laid subaerial, hot-blast furnace body sets up base upper end one side still including being used for carrying out radiating heat dissipation mechanism, being used for carrying out variable frequency control's control mechanism to the hot-blast furnace and being used for providing the supporting mechanism that the buffering supported for heat dissipation mechanism, heat dissipation mechanism is located one side of hot-blast furnace body, control mechanism are located heat dissipation mechanism's inside, supporting mechanism be located heat dissipation mechanism with between the base, the beneficial effects of the utility model are that be equipped with heat dissipation mechanism and control mechanism cooperation, jointly arrange heat radiation structure and control module, need not heat dissipation fan and can satisfy the heat dissipation demand, the radiating effect is good to carry out recycle to the heat that produces in the hot-blast furnace working process of control mechanism, effectively improved the thermal efficiency and the heat utilization ratio of electromagnetism, be equipped with supporting mechanism, can guarantee heat dissipation mechanism installation stability.

Description

Electromagnetic hot-blast stove variable frequency controller heat abstractor

Technical Field

The utility model belongs to the technical field of the electromagnetic heating equipment technique and specifically relates to a electromagnetism hot-blast furnace variable frequency controller heat abstractor is related to.

Background

In the prior art, the traditional hot blast stove takes coal, oil, natural gas and biological particles as combustion raw materials, directly burns in a hearth by open fire, takes water and oil as heating media, has high density, low preheating speed and high pressure, can produce hot gas and send the hot gas into a pipeline, is provided with radiating fins on the pipeline, and then blows the hot gas to a production working point of a drying room by a fan; the electric coil can be used for heating, but the output temperature is not high, and the hot air quantity is small; the traditional hot blast stove has low heat production efficiency, high pollution and poor safety, can not meet the requirements of enterprises in production, and simultaneously increases the production cost of the enterprises. The electromagnetic hot-blast stove adopts the converter to produce magnetic field and heats, the line itself does not generate heat, it pierces through metal alloy through magnetic field, thereby produce the magnetic vortex and play the effect of heating, the heat utilization rate of this kind of heating effect is high, the heat loss is little, safety, energy-conservation, because it is that iron container self generates heat, so heat conversion rate is high very much, can reach 95% the mode of a direct heating at most, however current electromagnetic hot-blast stove adopts thick iron pipe heat preservation and twines the furnace body of coil, outside variable frequency controller provides the electric current for the coil, variable frequency controller power conversion device self generates heat, and conduct the heat to take the tooth piece aluminium radiator, the heat that its produced blows off in the environment through the fan, this part of heat is wasted.

The application numbers are: 202021611262.9 discloses an electromagnetic induction hot blast stove, which comprises a hot blast stove box body and a heating tube penetrating through the hot blast stove box body, wherein an air outlet of the heating tube is connected with a fan, the outer side wall of the heating tube is wrapped with high-temperature cotton, the high-temperature cotton is provided with a high-frequency coil, and the high-frequency coil is connected to a rectification frequency conversion component; alternating current is converted into direct current through the rectification frequency conversion assembly, then high-frequency current of 10-50KHZ is generated through the frequency conversion circuit and is output to the high-frequency coil, and the heating tube is externally wrapped with high-temperature cotton to prevent heat energy loss. However, the heat generated by the power conversion device in the electromagnetic induction hot blast stove needs to be blown away to the surrounding environment through the cooling fan to be dissipated, the heat of the part is not effectively utilized, waste is caused, the heat efficiency and the heat utilization rate of the electromagnetic hot blast stove are low, the connecting structure is fixed, vibration can be caused to generate large influence on the connecting structure, and the practicability is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an electromagnetism hot-blast furnace variable frequency controller heat abstractor.

In order to achieve the above object, the present invention provides a technical solution:

the utility model provides an electromagnetism hot-blast furnace variable frequency controller heat abstractor, includes base and hot-blast furnace body, the base is laid subaerial, hot-blast furnace body sets up base upper end one side still including being used for carrying out radiating heat dissipation mechanism, being used for carrying out variable frequency control's control mechanism and being used for providing the supporting mechanism that the buffering supported for heat dissipation mechanism to variable frequency controller, heat dissipation mechanism is located one side of hot-blast furnace body, control mechanism are located heat dissipation mechanism's inside, supporting mechanism be located heat dissipation mechanism with between the base.

The heat dissipation mechanism comprises a heat dissipation air channel, a heat radiator and heat dissipation toothed sheets, wherein the heat dissipation air channel is arranged on one side of the hot air furnace body and fixedly connected with the hot air furnace body, the heat radiator is arranged on the inner side of the heat dissipation air channel and fixedly connected with the heat dissipation air channel, the heat dissipation toothed sheets are provided with a plurality of groups, and the heat dissipation toothed sheets are arranged on one side of the heat radiator at intervals and fixedly connected with the heat radiator.

The control mechanism comprises a power converter and an adjusting screw rod, the power converter is arranged on the inner side of the heat dissipation air channel and is in sliding connection with the heat dissipation air channel, the power converter is located on one side, away from the heat dissipation air channel, of the radiator, the adjusting screw rod corresponds to the power converter and is arranged on one side of the heat dissipation air channel and penetrates through the heat dissipation air channel and is in threaded connection with the heat dissipation air channel, and one end of the adjusting screw rod is rotatably connected with the power converter.

The adjusting device is characterized by further comprising adjusting slide rails, wherein the adjusting slide rails are two groups, the adjusting slide rails correspond to the power converter, the power converter is symmetrically arranged at the upper end and the lower end of the heat dissipation air duct and is fixedly connected with the corresponding heat dissipation air duct, and the upper end and the lower end of the power converter are respectively connected with the adjusting slide rails in a sliding mode through sliding blocks.

The supporting mechanism comprises a supporting base and two buffering assemblies, the supporting base is arranged on the lower portion of the heat dissipation air channel and fixedly connected with the heat dissipation air channel through mounting bolts, the two buffering assemblies are arranged in two groups, and the two buffering assemblies are symmetrically assembled between the supporting base and the base.

Buffer unit includes buffer block, buffering branch and buffer spring, the buffer block is equipped with two, two the buffer block is parallel the interval and sets up and two the buffer block respectively with support base and base fixed connection, two one side that the buffer block set up relatively is equipped with the dashpot, buffering branch sets up two between the buffer block and its lower extreme and be located the below buffer block fixed connection, buffering branch is located two in the dashpot between the buffer block, buffer spring sets up two between the buffer block and its both ends respectively with two buffer block fixed connection, the buffer spring cover is established the buffering branch outside just is located two in the dashpot between the buffer block.

The hot air furnace further comprises a connecting flange, wherein the connecting flange is arranged at one end, far away from the hot air furnace body, of the heat dissipation air channel and is fixedly connected with the heat dissipation air channel.

Still include positioning mechanism, positioning mechanism includes location base plate, positioning screw and location roof, the location base plate is equipped with two sets ofly, and is two sets ofly the location base plate symmetry sets up base upper portion both sides and with base fixed connection, it is two sets ofly the location base plate is located respectively the both sides of hot-blast furnace body, the positioning screw corresponds two sets ofly the location base plate is equipped with two sets ofly, and is two sets ofly the positioning screw sets up respectively two sets ofly the upper portion of location base plate and with correspond positioning base plate threaded connection, it is two sets ofly the positioning screw sets up relatively, the location roof corresponds two sets ofly the positioning screw is equipped with two sets ofly, and is two sets ofly the location roof sets up respectively two sets ofly the relative one end that sets up of positioning screw and with corresponding positioning screw fixed connection, the location roof with hot-blast furnace body butt.

The hot blast stove is characterized by further comprising a positioning anti-slip pad, wherein the positioning anti-slip pad is arranged on one side, close to the positioning top plate, of the positioning top plate and fixedly connected with the positioning top plate correspondingly, and the positioning top plate is abutted to the hot blast stove body through the positioning anti-slip pad.

Still include moving mechanism, moving mechanism is including removing the mount pad and removing the universal wheel, it is equipped with two sets ofly to remove the mount pad, every group remove the mount pad and constitute by the mount pad that two symmetries set up, it is two sets of remove the mount pad and set up respectively the bottom both sides of base and with base fixed connection, it is equipped with two sets ofly to remove the universal wheel, every group remove the universal wheel and constitute by the universal wheel that two symmetries set up, it is two sets of remove the universal wheel and set up respectively two sets of remove the lower part of mount pad and with correspond remove mount pad fixed connection, the base is laid subaerial through moving mechanism.

The utility model has the advantages that:

simple structure, be equipped with heat dissipation mechanism and control mechanism cooperation, jointly arrange heat radiation structure and control module, need not cooling fan and can satisfy control mechanism's heat dissipation demand, the radiating effect is good, and carry out recycle to the heat that produces in the control mechanism working process, the thermal efficiency and the heat utilization ratio of electromagnetism hot-blast furnace have effectively been improved, be equipped with supporting mechanism, can provide the buffering support for heat dissipation mechanism, reduce the influence of vibrations to its production when guaranteeing heat dissipation mechanism installation stability, therefore, the clothes hanger is strong in practicability.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the heat dissipation mechanism and the control mechanism of the present invention;

FIG. 3 is a schematic structural view of the supporting mechanism of the present invention;

fig. 4 is a schematic structural diagram of the positioning mechanism of the present invention.

In the figure: 1. a base; 2. a hot blast furnace body; 3. a heat dissipation air duct; 4. a heat sink; 5. a heat dissipating blade; 6. a power converter; 7. adjusting the screw rod; 8. adjusting the slide rail; 9. a support base; 10. a buffer block; 11. a buffer strut; 12. a buffer spring; 13. a connecting flange; 14. positioning the substrate; 15. positioning a screw rod; 16. positioning a top plate; 17. positioning the anti-skid pad; 18. moving the mounting seat; 19. and moving the universal wheels.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings,

the utility model provides an electromagnetism hot-blast furnace variable frequency controller heat abstractor, includes base 1 and hot-blast furnace body 2, and base 1 lays subaerial, and hot-blast furnace body 2 sets up in base 1 upper end one side, still including being used for carrying out radiating heat dissipation mechanism to variable frequency controller, be used for carrying out variable frequency control's control mechanism to the hot-blast furnace and being used for providing the supporting mechanism that the buffering supported for heat dissipation mechanism, and heat dissipation mechanism is located one side of hot-blast furnace body 2, and control mechanism is located heat dissipation mechanism's inside, and supporting mechanism is located between heat dissipation mechanism and the base 1, the utility model discloses the overall structure schematic diagram is shown in fig. 1.

The heat dissipation mechanism includes heat dissipation wind channel 3, radiator 4 and heat dissipation dentate lamella 5, heat dissipation wind channel 3 sets up in one side of hot-blast furnace body 2 and with hot-blast furnace body 2 fixed connection, radiator 4 sets up in heat dissipation wind channel 3 inboard and with heat dissipation wind channel 3 fixed connection, heat dissipation dentate lamella 5 is equipped with a plurality of groups, a plurality of groups heat dissipation dentate lamella 5 are parallel to be set up in one side of radiator 4 and with radiator 4 fixed connection at the interval, heat dissipation mechanism passes through heat dissipation wind channel 3, radiator 4 and the cooperation of heat dissipation dentate lamella 5, constitute heat dissipation structure and dispel the heat and conduct heat to the electromagnetism hot-blast furnace in with the control module of electromagnetism hot-blast furnace and carry out thermal recycle, wherein, heat dissipation wind channel 3 is used for providing erection bracing and constitutes air inlet channel for radiator 4 and heat dissipation dentate lamella 5, radiator 4 is used for dispelling the heat and conducting the heat that control mechanism produced to heat dissipation dentate lamella 5, heat dissipation dentate lamella 5 is used for giving off the heat to in heat dissipation wind channel 3 and conducts the electromagnetism hot-blast furnace in via the air that flows through the wind channel 3 and carries out thermal recycle, the utility model discloses heat dissipation mechanism and control mechanism cooperation schematic diagram is shown in figure 2.

The control mechanism comprises a power converter 6 and an adjusting screw 7, the power converter 6 is arranged on the inner side of the heat dissipation air duct 3 and is in sliding connection with the heat dissipation air duct 3, the power converter 6 is located on one side, away from the heat dissipation air duct 3, of the radiator 4, the adjusting screw 7 is arranged on one side, corresponding to the power converter 6, of the heat dissipation air duct 3 and penetrates through the heat dissipation air duct 3 to be in threaded connection with the heat dissipation air duct 3, one end of the adjusting screw 7 is in rotating connection with the power converter 6, the control mechanism is matched with the adjusting screw 7 through the power converter 6 to form a control module of the electromagnetic hot blast stove to perform variable frequency control on the electromagnetic hot blast stove, the power converter 6 is used for performing variable frequency control on the electromagnetic hot blast stove and generating heat, the adjusting screw 7 is used for adjustably connecting the power converter 6 with the heat dissipation air duct 3, the position of the power converter 6 in the heat dissipation air duct 3 can be adjusted by rotating the adjusting screw 7, so that the power converter 6 is attached to or separated from the radiator 4 according to actual conditions, and the distance between the power converter 6 and the radiator 4 is adjusted.

The power converter is characterized by further comprising two adjusting slide rails 8, the two adjusting slide rails 8 are arranged in two groups, the two groups of adjusting slide rails 8 are symmetrically arranged at the upper end and the lower end of the heat dissipation air duct 3 corresponding to the power converter 6 and are fixedly connected with the corresponding heat dissipation air duct 3, the upper end and the lower end of the power converter 6 are respectively in sliding connection with the two groups of adjusting slide rails 8 through sliders, and the adjusting slide rails 8 are used for providing sliding support for the power converter 6, so that the power converter 6 is in sliding connection with the heat dissipation air duct 3.

The supporting mechanism includes supporting pedestal 9 and buffering subassembly, supporting pedestal 9 sets up in the lower part of heat dissipation wind channel 3 and through construction bolt and 3 fixed connection in heat dissipation wind channel, the buffering subassembly is equipped with two sets ofly, two sets of buffering subassembly symmetry assembly are between supporting pedestal 9 and base 1, supporting mechanism passes through supporting pedestal 9 and the cooperation of buffering subassembly, support for heat dissipation mechanism provides the buffering, wherein, thereby supporting pedestal 9 is used for providing the erection bracing for the buffering subassembly as the support basis of heat dissipation wind channel 3 bottom, the buffering subassembly is used for being connected heat dissipation wind channel 3 and base 1 and provides the buffering support for heat dissipation mechanism, the utility model discloses the supporting mechanism structure sketch is as shown in figure 3.

Buffer unit includes buffer block 10, buffering branch 11 and buffer spring 12, buffer block 10 is equipped with two, two buffer block 10 set up at the interval side by side and two buffer block 10 respectively with support base 9 and base 1 fixed connection, one side that two buffer block 10 set up relatively is equipped with the dashpot, buffering branch 11 sets up between two buffer block 10 and its lower extreme and the buffer block 10 fixed connection who is located the below, buffering branch 11 is located the dashpot between two buffer block 10, buffer spring 12 sets up between two buffer block 10 and its both ends respectively with two buffer block 10 fixed connection, buffer spring 12 cover is established in the dashpot that is located between two buffer block 10 in the buffering branch 11 outside and between two buffer block 10, buffer unit passes through buffer block 10, buffering branch 11 and buffer spring 12 cooperation, provide the buffering support for radiating air duct 3 through support base 9, wherein, buffer block 10 is used for providing the installation support for buffering branch 11 and buffer spring 12 and will radiate heat duct 3 and base 1 connection, buffering branch 11 is used for limiting the distance between two buffer block 10, buffer block 10 prevents when providing the support, buffer block 10 from dying the buffer block 10 and provide the buffer block 10 and support the buffer block 10 and form through the buffer block 10 connection structure.

The hot air furnace further comprises a connecting flange 13, wherein the connecting flange 13 is arranged at one end of the heat dissipation air channel 3, which is far away from the hot air furnace body 2, and is fixedly connected with the heat dissipation air channel 3, and the connecting flange 13 is used as a connecting base on the heat dissipation air channel 3 so as to connect the heat dissipation air channel 3 with other equipment.

Still include positioning mechanism, positioning mechanism includes positioning substrate 14, positioning screw 15 and location roof 16, positioning substrate 14 is equipped with two sets ofly, two sets of positioning substrate 14 symmetry set up in 1 upper portion both sides of base and with 1 fixed connection of base, two sets of positioning substrate 14 are located the both sides of hot-blast furnace body 2 respectively, positioning screw 15 corresponds two sets of positioning substrate 14 and is equipped with two sets ofly, two sets of positioning screw 15 set up respectively on two sets of positioning substrate 14's upper portion and with the 14 threaded connection of corresponding positioning substrate, two sets of positioning screw 15 set up relatively, positioning roof 16 is equipped with two sets ofly corresponding to two sets of positioning screw 15, two sets of positioning roof 16 set up respectively in two sets of positioning screw 15 relative one end that sets up and with corresponding positioning screw 15 fixed connection, positioning roof 16 and hot-blast furnace body 2 butt, positioning mechanism passes through positioning substrate 14, positioning screw 15 and positioning roof 16 cooperation, fix a position the electromagnetism hot-blast furnace, wherein, positioning substrate 14 is used for providing the installation support for positioning screw 15, positioning screw 15 is used for carrying out the horizontal position the tight structure with the change between the positioning screw 15, thereby the effect of the novel roof is shown in the top of carrying out the electromagnetism between the location roof.

Still including location slipmat 17, location slipmat 17 sets up in the one side that location roof 16 is close to location roof 16 and with the location roof 16 fixed connection that corresponds, and location roof 16 is through location slipmat 17 and 2 butts of hot-blast furnace body, and wherein, location slipmat 17 is used for increasing the frictional force between location roof 16 and the electromagnetism hot-blast furnace, prevents to appear relative slip between location roof 16 and the electromagnetism hot-blast furnace among the positioning process.

Still include moving mechanism, moving mechanism is including removing mount pad 18 and removing universal wheel 19, it is equipped with two sets ofly to remove mount pad 18, every group removes mount pad 18 and comprises the mount pad that two symmetries set up, two sets ofly remove mount pad 18 set up respectively in base 1's bottom both sides and with base 1 fixed connection, it is equipped with two sets ofly to remove universal wheel 19, every group removes universal wheel 19 and comprises the universal wheel that two symmetries set up, two sets ofly remove universal wheel 19 and set up respectively in the lower part of two sets of removal mount pads 18 and with corresponding removal mount pad 18 fixed connection, base 1 lays subaerial through moving mechanism, moving mechanism is through removing mount pad 18 and removing the cooperation of universal wheel 19, for base 1 provides the removal support, wherein, it provides the erection bracing and will remove universal wheel 19 and be connected with base 1 to remove mount pad 18, it is used for providing the removal support for base 1 through removing mount pad 18 to remove universal wheel 19, be equipped with the brake block on removing universal wheel 19, accessible universal wheel 19 blocks.

The working principle is as follows:

the heat dissipation mechanism and the control mechanism are combined and arranged on one side of the electromagnetic hot blast stove, the electromagnetic hot blast stove is positioned through the positioning mechanism, in the working process, a power converter 6 in the variable frequency controller is installed on a radiator 4, heat generated by the power converter 6 is conducted to a heat dissipation toothed sheet 5 through the radiator 4, air enters the heat dissipation air duct 3 through an air inlet of the heat dissipation air duct 3, the air passing through the heat dissipation air duct 3 is in contact with the heat dissipation toothed sheet 5 and takes away the heat of the radiator 4, the air with the heat enters the electromagnetic hot blast stove to be heated, the electromagnetic hot blast stove outputs hot air at the same time, the position of the power converter 6 can be adjusted according to actual conditions, the distance between the power converter 6 and the radiator 4 is adjusted, the power converter 6 and the radiator 4 are kept in fit or not in contact, and in the working state, the support mechanism provides buffer support for the heat dissipation mechanism and the control mechanism, and therefore influences of vibration on the heat dissipation mechanism are reduced.

The beneficial effects of the utility model are that simple structure, be equipped with heat dissipation mechanism and control mechanism cooperation, jointly arrange heat radiation structure and control module, need not cooling fan and can satisfy control mechanism's heat dissipation demand, the radiating effect is good, and carry out recycle to the heat that produces in the control mechanism working process, the thermal efficiency and the heat utilization efficiency of electromagnetism hot-blast furnace have effectively been improved, be equipped with supporting mechanism, can provide the buffering support for heat dissipation mechanism, reduce the influence of vibrations to its production when guaranteeing heat dissipation mechanism installation stability, therefore, the clothes hanger is strong in practicability.

The above detailed description of one embodiment of the present invention is only for the purpose of illustrating the preferred embodiments of the present invention, and should not be taken as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The utility model provides an electromagnetism hot-blast furnace variable frequency controller heat abstractor, includes base (1) and hot-blast furnace body (2), base (1) is laid subaerial, hot-blast furnace body (2) set up base (1) upper end one side, its characterized in that still including be used for carrying out radiating heat dissipation mechanism, be used for carrying out variable frequency control's control mechanism and being used for providing the supporting mechanism that the buffering supported for heat dissipation mechanism to variable frequency controller, heat dissipation mechanism is located one side of hot-blast furnace body (2), control mechanism are located heat dissipation mechanism's inside, supporting mechanism be located heat dissipation mechanism with between base (1).

2. The heat dissipation device of the variable frequency controller of the electromagnetic hot blast stove according to claim 1, wherein the heat dissipation mechanism comprises a heat dissipation air duct (3), a heat sink (4) and heat dissipation fins (5), the heat dissipation air duct (3) is arranged on one side of the hot blast stove body (2) and is fixedly connected with the hot blast stove body (2), the heat sink (4) is arranged on the inner side of the heat dissipation air duct (3) and is fixedly connected with the heat dissipation air duct (3), the heat dissipation fins (5) are provided with a plurality of groups, and the heat dissipation fins (5) of the plurality of groups are arranged on one side of the heat sink (4) in parallel at intervals and are fixedly connected with the heat sink (4).

3. The heat sink of the variable frequency controller of the electromagnetic hot-blast stove according to claim 2, wherein the control mechanism comprises a power converter (6) and an adjusting screw (7), the power converter (6) is disposed inside the heat dissipating air duct (3) and is slidably connected to the heat dissipating air duct (3), the power converter (6) is located on one side of the heat sink (4) away from the heat dissipating air duct (3), the adjusting screw (7) is disposed on one side of the heat dissipating air duct (3) corresponding to the power converter (6) and penetrates through the heat dissipating air duct (3) to be in threaded connection with the heat dissipating air duct (3), and one end of the adjusting screw (7) is rotatably connected to the power converter (6).

4. The heat sink of the variable frequency controller of the electromagnetic hot-blast stove according to claim 3, further comprising two adjusting slide rails (8), wherein the two adjusting slide rails (8) are symmetrically disposed at the upper and lower ends of the heat dissipating air duct (3) corresponding to the power converter (6) and fixedly connected to the corresponding heat dissipating air duct (3), and the upper and lower ends of the power converter (6) are slidably connected to the two adjusting slide rails (8) through sliders, respectively.

5. The heat sink of the variable frequency controller of the electromagnetic hot blast stove according to claim 4, wherein the supporting mechanism comprises a supporting base (9) and two groups of buffer assemblies, the supporting base (9) is arranged at the lower part of the heat dissipation air duct (3) and is fixedly connected with the heat dissipation air duct (3) through mounting bolts, and the two groups of buffer assemblies are symmetrically assembled between the supporting base (9) and the base (1).

6. The heat dissipation device of the variable frequency controller of the electromagnetic hot blast stove according to claim 5, wherein the buffer assembly comprises two buffer blocks (10), two buffer support rods (11) and two buffer springs (12), the two buffer blocks (10) are arranged side by side at intervals, the two buffer blocks (10) are fixedly connected with the support base (9) and the base (1) respectively, one side of the two buffer blocks (10) opposite to each other is provided with a buffer groove, the buffer support rods (11) are arranged between the two buffer blocks (10) and the lower ends of the buffer blocks are fixedly connected with the buffer blocks (10) below, the buffer support rods (11) are arranged in the buffer groove between the two buffer blocks (10), the buffer springs (12) are arranged between the two buffer blocks (10) and the two ends of the buffer blocks are fixedly connected with the two buffer blocks (10) respectively, and the buffer springs (12) are sleeved outside the buffer support rods (11) and in the buffer groove between the two buffer blocks (10).

7. The heat sink for the variable frequency controller of the electromagnetic hot blast stove according to claim 2, further comprising a connecting flange (13), wherein the connecting flange (13) is arranged at one end of the heat dissipation air duct (3) far away from the hot blast stove body (2) and is fixedly connected with the heat dissipation air duct (3).

8. The heat dissipation device of the variable frequency controller of the electromagnetic hot blast stove according to claim 1, further comprising a positioning mechanism, wherein the positioning mechanism comprises two positioning substrates (14), two positioning screws (15) and two positioning top plates (16), the two positioning substrates (14) are symmetrically arranged on two sides of the upper portion of the base (1) and fixedly connected with the base (1), the two positioning substrates (14) are respectively arranged on two sides of the hot blast stove body (2), the two positioning screws (15) are arranged in two groups corresponding to the two positioning substrates (14), the two positioning screws (15) are respectively arranged on the upper portions of the two positioning substrates (14) and in threaded connection with the corresponding positioning substrates (14), the two groups of positioning screws (15) are oppositely arranged, the two positioning top plates (16) are arranged in two groups corresponding to the two positioning screws (15), the two groups of positioning top plates (16) are respectively arranged on one ends of the two positioning screws (15) and fixedly connected with the corresponding positioning screws (15), and the positioning top plates (16) are abutted against the hot blast stove body (2).

9. The heat sink of the variable frequency controller of the electromagnetic hot blast stove according to claim 8, further comprising a positioning anti-slip pad (17), wherein the positioning anti-slip pad (17) is disposed on one side of the positioning top plate (16) close to the positioning top plate (16) and is fixedly connected with the corresponding positioning top plate (16), and the positioning top plate (16) is abutted to the hot blast stove body (2) through the positioning anti-slip pad (17).

10. The heat sink of the variable frequency controller of the electromagnetic hot blast stove according to claim 1, further comprising a moving mechanism, wherein the moving mechanism comprises two moving installation bases (18) and two moving universal wheels (19), the moving installation bases (18) are provided in two sets, each moving installation base (18) is composed of two symmetrically arranged installation bases, the two moving installation bases (18) are respectively arranged at two sides of the bottom of the base (1) and fixedly connected with the base (1), the moving universal wheels (19) are provided in two sets, each moving universal wheel (19) is composed of two symmetrically arranged universal wheels, the two moving universal wheels (19) are respectively arranged at the lower parts of the two moving installation bases (18) and fixedly connected with the corresponding moving installation bases (18), and the base (1) is arranged on the ground through the moving mechanism.

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