CN211739882U - Intermediate frequency induction heating automatic feeding device - Google Patents
Intermediate frequency induction heating automatic feeding device Download PDFInfo
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- CN211739882U CN211739882U CN201921875817.8U CN201921875817U CN211739882U CN 211739882 U CN211739882 U CN 211739882U CN 201921875817 U CN201921875817 U CN 201921875817U CN 211739882 U CN211739882 U CN 211739882U
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- induction heating
- controller
- frequency induction
- automatic feeding
- feeding device
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Abstract
The utility model provides a medium frequency induction heating automatic feeding device, it relates to loading attachment technical field, concretely relates to medium frequency induction heating automatic feeding device. It contains base, control box, controller, position sensor, cylinder controller, power, storage box, agitator motor, poking bar, transfer gear, belt, conveyer pipe, transfer case, connecting pipe, intermediate frequency induction heating furnace, the inside of base be provided with the control box, the inside of control box is provided with controller, position sensor, cylinder controller, power, controller and position sensor electric connection, controller and cylinder controller electric connection. After the technical scheme is adopted, the utility model discloses beneficial effect does: the automatic feeding device can automatically feed materials, the feeding amount is accurately controlled, and the feeding mode is simple and convenient.
Description
Technical Field
The utility model relates to a loading attachment technical field, concretely relates to intermediate frequency induction heating automatic feeding device.
Background
When the magnetic flux surrounded by the conductor loop changes, an induced potential can be generated in the loop, similarly, the conductor in the alternating magnetic field also generates the induced potential under the action of electromagnetic induction, an induced current (eddy current) is formed in the conductor, the induced current overcomes the resistance of the conductor to generate joule heat, and the conductor is heated by the joule heat, so that the conductor is heated and melted to achieve the purpose of various heat processing, namely the principle of medium-frequency induction heating. The principle of induction heating is that a workpiece is placed in an inductor, and the inductor is generally a hollow copper tube which is simultaneously fed with medium-frequency or high-frequency alternating current (500-. The alternating magnetic field is generated to generate induced current with the same frequency in the workpiece, the induced current is non-uniform in distribution on the workpiece, strong on the surface and weak in the inner part and close to 0 in the center part, the surface of the workpiece can be rapidly heated by utilizing the skin effect, the temperature of the surface rises to 800-1000 ℃ in a few seconds, and the temperature rise of the center part is small. The required labour of loading attachment at present is many, and the material loading volume is difficult to control, and the material loading mode is difficult.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to prior art's defect and not enough, provide an intermediate frequency induction heating automatic feeding device, it can automatic feeding, and material loading volume control is accurate, and the material loading mode is simple and convenient.
In order to achieve the above purpose, the utility model adopts the following technical scheme: it comprises a base 1, a control box 2, a controller 21, a position sensor 22, a cylinder controller 23, a power supply 24, a storage box 3, a stirring motor 33, a stirring rod 34, a transmission wheel 4, a belt 5, a conveying pipe 6, a transfer box 7, a connecting pipe 8 and an intermediate frequency induction heating furnace 9, wherein the control box 2 is arranged inside the base 1, the controller 21, the position sensor 22, the cylinder controller 23 and the power supply 24 are arranged inside the control box 2, the controller 21 is electrically connected with the position sensor 22, the controller 21 is electrically connected with the cylinder controller 23, the controller 21 is electrically connected with the power supply 24, the storage box 3 is arranged above the base 1, the stirring motor 33 and the stirring rod 34 are arranged inside the storage box 3, the stirring motor 33 is electrically connected with the stirring rod 34, the right side of the storage box 3 is connected with one end of the conveying pipe 6, the belt 5 is arranged below the conveying pipe 6, the below of belt 5 is provided with transfer gear 4, and the other end of conveyer pipe 6 is connected with transfer case 7, and transfer case 7's right side is connected with the one end of connecting pipe 8, and the other end of connecting pipe 8 is connected with intermediate frequency induction heating furnace 9, and intermediate frequency induction heating furnace 9 inlays on base 1.
The storage box 3 is provided with a handle 31.
The storage box 3 is provided with a feeding port 32.
The transmission wheel 4 is provided with a motor 41.
A turning plate 71 and an air cylinder 72 are arranged in the transfer box 7, and the air cylinder 72 is arranged below the turning plate 71.
And a heat insulation layer 91 is arranged on the outer side of the intermediate frequency induction heating furnace 9.
The utility model discloses a theory of operation: more materials are added from the feed opening 32 at one time in advance to enter the storage box 3 for storage, then the materials are conveyed into the transfer box 7 through the belt 5 and the conveying wheel 4, and then the materials are transferred into the middle safety night heating furnace 9 through the transfer box 7 and the connecting pipe 8 for heating, so that the automatic feeding of the materials is completed.
After the technical scheme is adopted, the utility model discloses beneficial effect does: the automatic feeding device can automatically feed materials, the feeding amount is accurately controlled, and the feeding mode is simple and convenient.
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 of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.
Fig. 1 is a schematic structural diagram of the present invention;
fig. 2 is a schematic structural diagram of the inside of the control box 2 in the present invention;
FIG. 3 is a schematic view of the inside structure of the storage box 3 of the present invention;
fig. 4 is a schematic structural diagram of embodiment 2 of the present invention.
Description of reference numerals: the device comprises a base 1, a control box 2, a controller 21, a position sensor 22, a cylinder controller 23, a power supply 24, a storage box 3, a handle 31, a feed inlet 32, a stirring motor 33, a stirring rod 34, a conveying wheel 4, a motor 41, a belt 5, a conveying pipe 6, a transfer box 7, a turnover plate 71, a cylinder 72, a connecting pipe 8, an intermediate frequency induction heating furnace 9 and a heat insulation layer 91.
Detailed Description
Example 1
Referring to fig. 1-3, the technical solution adopted by the present embodiment is that it includes a base 1, a control box 2, a controller 21, a position sensor 22, a cylinder controller 23, a power supply 24, a storage box 3, a handle 31, a charging opening 32, a stirring motor 33, a stirring rod 34, a transmission wheel 4, a motor 41, a belt 5, a transmission pipe 6, a transfer box 7, a turning plate 71, a cylinder 72, a connection pipe 8, a medium frequency induction heating furnace 9, and a heat insulation layer 91, wherein the storage box 3, the transmission wheel 4, and the transfer box 7 are arranged above the base 1, the handle 31 is welded on the front surface of the storage box 3, the charging opening 32 is welded on the left upper end of the storage box 3, the stirring motor 33 and the stirring rod 34 are arranged inside the storage box 3, the stirring motor 33 is arranged on the top end inside the storage box 3, the lower side of the stirring motor 33 is electrically connected with the stirring rod 34, the right side of the storage box 3 is connected with one, the conveying pipe 6 is a semi-closed pipeline, the belt 5 is arranged on the lower surface of the conveying pipe 6, the belt 5 is arranged above the conveying wheel 4, the motor 41 is arranged on the conveying wheel 4, the motor 41 controls the rotation of the conveying wheel 4, the other end of the conveying pipe 6 is connected with the transfer box 7, the turning plate 71 and the air cylinder 72 are arranged inside the transfer box 7, the turning plate 71 is arranged above the air cylinder 72, the right side of the transfer box 7 is connected with one end of a connecting pipe 8, the other end of the connecting pipe 8 is connected with the intermediate frequency induction heating furnace 9, the heat insulation layer 91 is arranged on the outer side wall of the intermediate frequency induction heating furnace 9, the control box 2 is arranged inside the base 1, the controller 21, the position sensor 22 and the air cylinder controller, the power supply 24, the controller 21, the position sensor 22, the cylinder controller 23 and the power supply 24 are electrically connected.
The medium frequency induction heating furnace 9 is a power supply device for converting power frequency 50HZ alternating current into medium frequency (more than 300HZ to 20K HZ), rectifies three-phase power frequency alternating current into direct current, converts the direct current into adjustable medium frequency current, supplies medium frequency alternating current flowing through a capacitor and an induction coil, generates high-density magnetic lines in the induction coil, cuts metal materials contained in the induction coil, and generates large eddy current in the metal materials. This eddy current also has some properties of medium frequency current, i.e. the free electrons of the metal itself flow in the resistive metal body to generate heat.
Example 2
Referring to fig. 4, the technical solution adopted by the present embodiment is that it includes a base 1, a control box 2, a controller 21, a position sensor 22, a cylinder controller 23, a power supply 24, a storage box 3, a handle 31, a charging port 32, a stirring motor 33, a stirring rod 34, a transmission wheel 4, a motor 41, a belt 5, a transmission pipe 6, a transfer box 7, a turning plate 71, a cylinder 72, a connection pipe 8, and a medium frequency induction heating furnace 9, wherein the storage box 3, the transmission wheel 4, and the transfer box 7 are arranged above the base 1, the handle 31 is welded on the front surface of the storage box 3, the port 32 is welded on the upper end of the left side of the storage box 3, the stirring motor 33 and the stirring rod 34 are arranged inside the storage box 3, the stirring motor 33 is arranged on the top end inside the storage box 3, the lower side of the stirring motor 33 is electrically connected with the stirring rod 34, the right side of the storage box 3 is connected with one, conveyer pipe 6 is the semi-enclosed pipeline, the lower surface of conveyer pipe 6 is provided with belt 5, belt 5 sets up the top at transfer gear 4, be provided with motor 41 on the transfer gear 4, the rotation of motor 41 control transfer gear 4, the other end of conveyer pipe 6 is connected with transfer box 7, the inside of transfer box 7 is provided with turns over board 71, cylinder 72, the top of cylinder 72 is provided with turns over board 71, the right side of transfer box 7 is connected with the one end of connecting pipe 8, the other end of connecting pipe 8 is connected with intermediate frequency induction heating furnace 9, the inside of base 1 is provided with control box 2, the inside of control box 2 is provided with controller 21, position sensor 22, cylinder controller 23, power 24, the connected mode between controller 21 and position sensor 22, cylinder controller 23, power 24 is electric connection.
The utility model discloses a theory of operation: more materials are added from the feed opening 32 at one time in advance to enter the storage box 3 for storage, then the materials are conveyed into the transfer box 7 through the belt 5 and the conveying wheel 4, and then the materials are transferred into the middle safety night heating furnace 9 through the transfer box 7 and the connecting pipe 8 for heating, so that the automatic feeding of the materials is completed.
After the technical scheme is adopted, the utility model discloses beneficial effect does: the automatic feeding device can automatically feed materials, the feeding amount is accurately controlled, and the feeding mode is simple and convenient.
The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.
Claims (6)
1. The utility model provides a medium frequency induction heating automatic feeding device which characterized in that: the device comprises a base (1), a control box (2), a controller (21), a position sensor (22), a cylinder controller (23), a power supply (24), a storage box (3), a stirring motor (33), a stirring rod (34), a conveying wheel (4), a belt (5), a conveying pipe (6), a transit box (7), a connecting pipe (8) and an intermediate frequency induction heating furnace (9), wherein the control box (2) is arranged inside the base (1), the controller (21), the position sensor (22), the cylinder controller (23) and the power supply (24) are arranged inside the control box (2), the controller (21) is electrically connected with the position sensor (22), the controller (21) is electrically connected with the cylinder controller (23), the controller (21) is electrically connected with the power supply (24), the storage box (3) is arranged above the base (1), the stirring motor (33) and the stirring rod (34) are arranged inside the storage box (3), agitator motor (33) and poking bar (34) electric connection, the right side of material storage box (3) is connected with the one end of conveyer pipe (6), the below of conveyer pipe (6) is provided with belt (5), the below of belt (5) is provided with transfer gear (4), the other end of conveyer pipe (6) is connected with transfer box (7), the right side of transfer box (7) is connected with the one end of connecting pipe (8), the other end of connecting pipe (8) is connected with intermediate frequency induction heating furnace (9), inlay on base (1) intermediate frequency induction heating furnace (9).
2. The medium-frequency induction heating automatic feeding device according to claim 1, characterized in that: the storage box (3) is provided with a handle (31).
3. The medium-frequency induction heating automatic feeding device according to claim 1, characterized in that: the material storage box (3) is provided with a material inlet (32).
4. The medium-frequency induction heating automatic feeding device according to claim 1, characterized in that: the transmission wheel (4) is provided with a motor (41).
5. The medium-frequency induction heating automatic feeding device according to claim 1, characterized in that: a turning plate (71) and an air cylinder (72) are arranged in the transfer box (7), and the air cylinder (72) is arranged below the turning plate (71).
6. The medium-frequency induction heating automatic feeding device according to claim 1, characterized in that: and a heat insulation layer (91) is arranged on the outer side of the intermediate frequency induction heating furnace (9).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921875817.8U CN211739882U (en) | 2019-11-04 | 2019-11-04 | Intermediate frequency induction heating automatic feeding device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921875817.8U CN211739882U (en) | 2019-11-04 | 2019-11-04 | Intermediate frequency induction heating automatic feeding device |
Publications (1)
Publication Number | Publication Date |
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CN211739882U true CN211739882U (en) | 2020-10-23 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201921875817.8U Active CN211739882U (en) | 2019-11-04 | 2019-11-04 | Intermediate frequency induction heating automatic feeding device |
Country Status (1)
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CN (1) | CN211739882U (en) |
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2019
- 2019-11-04 CN CN201921875817.8U patent/CN211739882U/en active Active
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