CN217179275U - High-efficient intermediate frequency diathermy furnace - Google Patents

Abstract

The utility model relates to a high-efficiency intermediate frequency diathermic furnace, which comprises an intermediate frequency diathermic furnace body and a feeding device used for feeding the furnace body, wherein the feeding device comprises a stock table used for storing bars, the upper surface of the stock table is an inclined plane, and the height of the upper surface of the stock table is gradually reduced from a feeding end to a discharging end; the discharge end setting of material stock platform is used for shifting the bar material of material stock bench to the material loading roller claw of intermediate frequency diathermanous furnace pan feeding mouth one by one, material loading roller claw is two, and two parallel and can rotate in opposite directions of material loading roller claw all is provided with four arc breachs that are used for connecing the material on every material loading roller claw, and four arc breach evenly distributed, every arc breach all extend along material loading roller claw length direction, and two material loading roller claws are located directly over the V-arrangement groove of intermediate frequency diathermanous furnace pan feeding mouth, and two material loading roller claws rotate 90 at every turn through the drive of second drive division. Through the utility model discloses can be continuous material loading, improved the work efficiency of intermediate frequency diathermy furnace, production efficiency is high.

Description

High-efficient intermediate frequency diathermy furnace

Technical Field

The utility model relates to a forge production technical field, especially relate to a high-efficient intermediate frequency diathermanous stove.

Background

Forging is one of the main processes in the machine manufacturing industry that provides a blank for a machine part. The forging can not only obtain the shape of the mechanical part, but also improve the internal structure of the metal and improve the mechanical property and physical property of the metal. The method is characterized in that a material needs to be heated before forging, usually, a medium-frequency diathermic furnace is adopted to heat round bars, diathermy refers to metal thermal deformation or integral penetrating heating before heat treatment, and is a power supply device for converting power frequency 50HZ alternating current into medium frequency (more than 300HZ and 20 KHZ), three-phase power frequency alternating current is converted into direct current after rectification, the direct current is converted into adjustable medium-frequency current, the adjustable medium-frequency current is supplied to medium-frequency alternating current flowing through a capacitor and an induction coil, high-density magnetic force lines are generated in the induction coil, metal materials contained in the induction coil are cut, and large eddy currents are generated in the metal materials.

When the round bar materials for forging are continuously heated and produced in the intermediate-frequency diathermic furnace, manual feeding is still adopted at present, and due to the fact that the position of a feeding port of the intermediate-frequency diathermic furnace is high, workers generally need to lift the round bar materials to the position of the feeding port of the intermediate-frequency diathermic furnace, and then manually place the round bar materials into a V-shaped groove of the feeding port of the intermediate-frequency diathermic furnace one by one.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high-efficient intermediate frequency diathermy furnace to the not enough of prior art.

The utility model is realized by the following technical scheme, a high-efficiency intermediate frequency diathermic furnace is provided, which comprises an intermediate frequency diathermic furnace body and a feeding device used for feeding the furnace body, wherein the feeding device comprises a stock table used for storing bars, the upper surface of the stock table is an inclined plane, and the height of the upper surface of the stock table is gradually reduced from a feeding end to a discharging end; the discharge end setting of material stock platform is used for shifting the bar material of material stock bench to the material loading roller claw of intermediate frequency diathermanous furnace pan feeding mouth one by one, material loading roller claw is two, and two parallel and can rotate in opposite directions of material loading roller claw all is provided with four arc breachs that are used for connecing the material on every material loading roller claw, and four arc breach evenly distributed, every arc breach all extend along material loading roller claw length direction, and two material loading roller claws are located directly over the V-arrangement groove of intermediate frequency diathermanous furnace pan feeding mouth, and two material loading roller claws rotate 90 at every turn through the drive of second drive division.

Preferably, the second driving part comprises a driving motor, the driving motor is connected with a rotating shaft of one feeding roller claw, the rotating shafts of the two feeding roller claws are connected through a belt, and the belt is twisted and crossed to form an 8 shape. The action of the driving motor enables the two feeding roller claws to rotate oppositely through belt transmission, and the driving motor drives the feeding roller claws to rotate 90 degrees at each time. Each time the feeding roller claw rotates, one bar falls into the V-shaped groove from the feeding roller claw, and meanwhile, one bar on the material storage platform moves into the arc-shaped notches of the two feeding roller claws from the material storage platform.

Preferably, the rotating shaft of the feeding roller claw is rotatably installed on a connecting plate, and the connecting plate is fixedly connected with the material storage table.

Preferably, a lifting mechanism for lifting the bar stock is arranged at the feeding end of the stock table.

Preferably, the lifting mechanism comprises a material placing table for placing materials, a material receiving frame connected with the material storing table and a first driving part for driving the material placing table to move along the transverse direction and the vertical direction. The first driving part drives the material placing table to ascend to the upper side of the material receiving frame, then drives the material placing table to descend, and the bar materials are left on the material receiving frame.

Preferably, a bar placing groove is formed in the material placing table, the bar is placed in the bar placing groove, and two ends of the bar are exposed outside the bar placing groove.

Preferably, the first driving part comprises a hydraulic lifting platform for driving the material placing platform to move vertically and a transverse cylinder for driving the material placing platform to move transversely, the material placing platform is mounted on the hydraulic lifting platform, a moving wheel is mounted at the bottom of the hydraulic lifting platform and can move along a sliding rail, and the hydraulic lifting platform is connected with the transverse cylinder. The hydraulic lifting platform is driven to lift up and down through the hydraulic lifting platform, the hydraulic lifting platform is pushed to move on the sliding rail through the transverse air cylinder, and therefore transverse movement of the material placing platform is achieved, the material placing platform is moved to one side of the material receiving frame while rising, and the material placing platform rises to one side above the material receiving frame smoothly. When the material placing platform rises to one side above the material receiving frame, the transverse air cylinder retracts, so that the material placing platform moves right above the material receiving frame, the hydraulic lifting platform descends at the moment, and the material placing platform descends along with the hydraulic lifting platform.

Preferably, the material receiving frame comprises two supporting plates, a material receiving plate for receiving a bar material is fixed on each supporting plate, the supporting plates and the material receiving plates are fixed with the material storage platform, the material receiving plates are arranged in an inclined mode, and the inclined angles of the material receiving plates are the same as the inclined angles of the material storage platform. After the material receiving plate receives the bar stock, the bar stock on the material receiving plate can automatically roll to the material storage table along with the bar stock on the material storage table being fed to the furnace body.

Preferably, a distance for the material placing table to pass through is reserved between the two material receiving plates, and the distance between the two material receiving plates is smaller than the length of the bar stock. Therefore, the material placing platform descends along with the hydraulic lifting platform, and the bar materials are left on the two material receiving plates.

Preferably, the side parts of the material receiving frame and the material storage platform are provided with material baffle plates. The stability of bar material receiving and storing is improved.

The utility model has the advantages that:

the utility model has simple structure, can complete automatic feeding, saves time and labor, and greatly reduces the labor intensity of workers; through the utility model discloses can be continuous material loading, improved the work efficiency of intermediate frequency diathermy furnace, production efficiency is high.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the feeding roller claw of the present invention;

fig. 3 is a schematic view of the top view structure of the material receiving frame of the present invention;

FIG. 4 is a schematic top view of the material placing table and the bar of the present invention;

shown in the figure:

1. deposit the material platform, 2, put the material platform, 3, hydraulic lifting platform, 4, horizontal cylinder, 5, slide rail, 6, connect the work or material rest, 61, backup pad, 62, connect the flitch, 7, material loading roller claw, 71, arc breach, 8, V-arrangement groove, 9, belt, 10, striker plate, 11, bar, 12, connecting plate.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

As shown in fig. 1, the utility model discloses a hot stove furnace body of intermediate frequency diathermy and be used for the loading attachment for furnace body material loading, loading attachment is including the stock platform 1 that is used for saving bar 11, stock platform 1 upper surface is the inclined plane, and stock platform 1 upper surface is held to the discharge end by the pan feeding and highly reduces gradually.

The lifting mechanism for lifting the bar 11 is arranged at the feeding end of the material storage table 1, the lifting mechanism comprises a material placing table 2 for placing materials, a material receiving frame 6 connected with the material storage table 1 and a first driving portion for driving the material placing table 2 to move horizontally and vertically, the first driving portion drives the material placing table 2 to ascend to the position above the material receiving frame 6, then the material placing table 2 is driven to descend, and the bar 11 is left on the material receiving frame 6.

As shown in fig. 1 and 4, a bar stock placing groove is formed in the material placing table 2, a bar stock 11 is placed in the bar stock placing groove, and two ends of the bar stock 11 are exposed outside the bar stock placing groove. The first driving part comprises a hydraulic lifting platform 3 for driving the material placing platform 2 to vertically move and a transverse cylinder 4 for driving the material placing platform 2 to transversely move. The material placing platform 2 is installed on the hydraulic lifting platform 3, the hydraulic lifting platform 3 drives the hydraulic lifting platform to ascend and descend, the bottom of the hydraulic lifting platform 3 is installed with a movable wheel, the movable wheel is installed in the sliding rail 5 and can move along the sliding rail 5, the hydraulic lifting platform 3 is connected with the transverse cylinder 4, the hydraulic lifting platform 3 is pushed by the transverse cylinder 4 to move on the sliding rail 5, so that the transverse movement of the material placing platform 2 is realized, the material placing platform 2 moves to one side of the material receiving frame 6 when ascending, and the material placing platform 2 smoothly ascends to one side above the material receiving frame 6. When the material placing platform 2 rises to one side above the material receiving frame 6, the transverse air cylinder 4 retracts, so that the material placing platform 2 moves right above the material receiving frame 6, the hydraulic lifting platform 3 descends at the moment, and the material placing platform 2 descends along with the descending. The hydraulic lifting platform 3 is of an existing structure, and the specific structure and the working principle thereof are not described herein again. As shown in fig. 3, the material receiving frame 6 includes two supporting plates 61, a material receiving plate 62 for receiving the rod material 11 is fixed on each supporting plate 61, the supporting plates 61 and the material receiving plate 62 are fixed with the material storage table 1, the material receiving plate 62 is arranged obliquely, the inclination angle of the material receiving plate is the same as that of the material storage table 1, after the material receiving plate 62 receives the rod material 11, the rod material 11 on the material receiving plate 62 automatically rolls to the material storage table 1 along with the feeding of the rod material 11 on the material storage table 1 to the furnace body. There is the interval that is used for pendulum material platform 2 to pass through between two material receiving plates 62, and the interval between two material receiving plates 62 is less than the length of bar 11, therefore pendulum material platform 2 descends along with hydraulic lifting platform 3, and bar 11 is stayed on two material receiving plates 62.

As shown in fig. 1 and 2, a discharging end of the material storage table 1 is provided with two feeding roller claws 7 for transferring the bars 11 on the material storage table 1 to a feeding port of the intermediate-frequency diathermic furnace one by one, and the two feeding roller claws 7 are parallel and can rotate in opposite directions. Four arc-shaped notches 71 used for receiving materials are arranged on each feeding roller claw 7, the four arc-shaped notches 71 are evenly distributed, and each arc-shaped notch 71 extends along the length direction of each feeding roller claw 7.

As shown in fig. 2, the two feeding roller claws 7 are located right above the V-shaped groove 8 of the feeding port of the medium-frequency diathermic furnace, the two feeding roller claws 7 are driven by the second driving portion to rotate 90 degrees each time, each rotation makes one bar 11 fall from the feeding roller claw 7 into the V-shaped groove 8, and simultaneously one bar 11 on the stock table 1 moves from the stock table 1 into the arc-shaped gaps 71 of the two feeding roller claws 7. The second driving part comprises a driving motor, the driving motor is connected with a rotating shaft of one feeding roller claw 7, the rotating shafts of the two feeding roller claws 7 are connected through a belt 9, the belt 9 is twisted and crossed to be 8-shaped, the driving motor acts to enable the two feeding roller claws 7 to rotate oppositely through the transmission of the belt 9, and the driving motor drives the feeding roller claws 7 to rotate 90 degrees at each time. The rotating shaft of the feeding roller claw 7 is rotatably arranged on a connecting plate 12, and the connecting plate 12 is fixedly connected with the material storage table 1. The side parts of the material receiving frame 6 and the material storage platform 1 are respectively provided with a material stop plate 10, so that the stability of material receiving and storage of the bar 11 is improved.

During the specific use, only need to put bar 11 on pendulum material platform 2, then start hydraulic lifting platform 3 and horizontal cylinder 4, make pendulum material platform 2 rise to connect material frame 6 top one side after, horizontal cylinder 4 returns and contracts, make pendulum material platform 2 be located and connect material frame 6 directly over, then hydraulic lifting platform 3 descends, pendulum material platform 2 descends along with hydraulic lifting platform 3, bar 11 is stayed on two connect flitch 62. With the bar 11 being fed into the furnace body, the bar 11 freely rolls on the receiving plate 62 to the stock table 1, and the two feeding roller claws 7 cooperate to enable the bar 11 to fall into the V-shaped groove 8 from the feeding roller claws 7 one by one, so as to complete the feeding operation.

The utility model has simple structure, can complete automatic feeding, saves time and labor, and greatly reduces the labor intensity of workers; through the utility model discloses can be continuous material loading, improved the work efficiency of intermediate frequency diathermy furnace, production efficiency is high.

Of course, the above description is not limited to the above examples, and technical features of the present invention that are not described in the present application may be implemented by or using the prior art, and are not described herein again; the above embodiments and drawings are only used for illustrating the technical solutions of the present invention and are not intended to limit the present invention, and the present invention has been described in detail with reference to the preferred embodiments, and those skilled in the art should understand that changes, modifications, additions or substitutions made by those skilled in the art within the spirit of the present invention should also belong to the protection scope of the claims of the present invention.

Claims (9)

1. The utility model provides a high-efficient intermediate frequency diathermy stove, includes intermediate frequency diathermy stove furnace body, its characterized in that: the feeding device comprises a material storage table for storing bars, the upper surface of the material storage table is an inclined surface, and the height of the upper surface of the material storage table is gradually reduced from a feeding end to a discharging end; the discharge end setting of material stock platform is used for shifting the bar material of material stock bench to the material loading roller claw of intermediate frequency diathermanous furnace pan feeding mouth one by one, material loading roller claw is two, and two parallel and can rotate in opposite directions of material loading roller claw all is provided with four arc breachs that are used for connecing the material on every material loading roller claw, and four arc breach evenly distributed, every arc breach all extend along material loading roller claw length direction, and two material loading roller claws are located directly over the V-arrangement groove of intermediate frequency diathermanous furnace pan feeding mouth, and two material loading roller claws rotate 90 at every turn through the drive of second drive division.

2. The efficient mid-frequency diathermic furnace of claim 1, wherein: the second driving part comprises a driving motor, the driving motor is connected with a rotating shaft of one feeding roller claw, the rotating shafts of the two feeding roller claws are connected through a belt, and the belt is twisted and crossed to form an 8 shape.

3. The efficient mid-frequency diathermic furnace of claim 1, wherein: the rotating shaft of the feeding roller claw is rotatably arranged on a connecting plate, and the connecting plate is fixedly connected with the material storage table.

4. The efficient mid-frequency diathermic furnace of claim 1, wherein: and a lifting mechanism for lifting the bar stock is arranged at the feeding end of the stock storage table.

5. The efficient mid-frequency diathermic furnace of claim 4, wherein: the lifting mechanism comprises a material placing table for placing materials, a material receiving frame connected with the material storing table and a first driving part for driving the material placing table to move along the transverse direction and the vertical direction.

6. The efficient mid-frequency diathermic furnace of claim 5, wherein: set up the bar standing groove at pendulum material bench, the bar is put in the bar standing groove, and bar both ends expose outside the bar standing groove.

7. The efficient mid-frequency diathermic furnace of claim 5, wherein: the first driving portion comprises a hydraulic lifting platform for driving the material placing platform to move vertically and a transverse cylinder for driving the material placing platform to move transversely, the material placing platform is mounted on the hydraulic lifting platform, the bottom of the hydraulic lifting platform is provided with a movable wheel, the movable wheel is mounted in a sliding rail and can move along the sliding rail, and the hydraulic lifting platform is connected with the transverse cylinder.

8. The efficient mid-frequency diathermic furnace of claim 5, wherein: the material receiving frame comprises two supporting plates, a material receiving plate for receiving a bar material is fixed on each supporting plate, the supporting plates and the material receiving plates are fixed with the material storage platform, the material receiving plates are arranged in an inclined mode, and the inclination angle of the material receiving plates is the same as that of the material storage platform.

9. The efficient mid-frequency diathermic furnace of claim 8, wherein: a space for the material placing platform to pass through exists between the two material receiving plates, and the space between the two material receiving plates is smaller than the length of the bar stock.

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