CN113566569B

CN113566569B - Automatic heat treatment equipment

Info

Publication number: CN113566569B
Application number: CN202110832756.2A
Authority: CN
Inventors: 王京京; 冯华; 华红娟
Original assignee: Wuxi Baoju Hardware Machinery Co ltd
Current assignee: Wuxi Baoju Hardware Machinery Co ltd
Priority date: 2021-07-22
Filing date: 2021-07-22
Publication date: 2022-04-19
Anticipated expiration: 2041-07-22
Also published as: CN113566569A

Abstract

The invention relates to automatic heat treatment equipment which comprises a furnace body, wherein a rotary object placing table with one side extending to the upper part of the inner side of the furnace body is arranged on the furnace body, a plurality of drop holes are formed in the rotary object placing table, a closing part used for shielding one side of the drop holes and bearing a workpiece is arranged on the rotary object placing table, and a trigger used for pushing the closing part to move transversely to open the drop holes is arranged on the furnace body; the invention improves the traditional aluminum ingot placing operation, utilizes the rotary type object placing table to be connected with the furnace body, enables the aluminum ingot to be placed on one side of the rotary type object placing table by manual work, and in the rotating process of the rotary type object placing table, when the drop hole on the rotary type object placing table rotates to the inner side of the furnace body, the trigger part is contacted with the closing part and pushes the closing part to open the drop hole, so that the aluminum ingot in the drop hole falls into the furnace body, the aluminum ingot is not required to be placed close to the furnace hole of the furnace body manually, and the safety of workers is ensured.

Description

Automatic heat treatment equipment

Technical Field

The invention relates to the technical field of electronic product production, in particular to automatic heat treatment equipment.

Background

Aluminum is a silver white metal, which is called light metal because of its low density, and is a non-ferrous metal that is inferior to steel in both yield and usage in the world, and is often used for manufacturing land, sea and air vehicles such as automobiles, trains, subways, ships, airplanes, rockets, airships and the like because of its light weight, so as to reduce the dead weight and increase the loading capacity, while in the processing of the aluminum material, an aluminum ingot is usually used as a raw material and is manufactured through the processes of melting, forging and the like, and the melting process of the aluminum ingot usually uses an aluminum melting furnace to melt and preserve the temperature of the aluminum ingot:

at present, in the process of melting aluminum ingots, aluminum ingots are generally manually transported and thrown into an aluminum melting furnace, and because the temperature of the aluminum melting furnace is higher nearby the aluminum ingot in the melting process, the aluminum ingot is easily burnt by high temperature when workers throw the aluminum ingots, and the safety of the workers cannot be guaranteed.

In order to solve the above problems, the present invention proposes an automated heat treatment apparatus.

Disclosure of Invention

(1) Technical problem to be solved

The present invention is directed to overcoming the disadvantages of the prior art and meeting the needs of the art, and provides an automated thermal processing apparatus to solve the above problems.

(2) Technical scheme

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

the utility model provides an automatic change thermal treatment equipment, includes the furnace body, it puts the thing platform to be equipped with the rotation type that one side extends to the inboard top of furnace body on the furnace body, the rotation type is put and is equipped with a plurality of holes that fall on the thing bench, the rotation type is put and is equipped with the closure member that is used for sheltering from hole that falls one side and bears the machined part on the thing bench, be equipped with on the furnace body and be used for promoting the closure member and open the trigger piece in the hole that falls along lateral shifting.

Further, the rotary type object placing table comprises a transmission assembly connected with the outer side of the furnace body, an annular table with one side extending to the upper side of the inner side of the furnace body is arranged at the output end of the transmission assembly, and a plurality of drop holes distributed annularly are formed in the annular table.

Furthermore, the closing member comprises a mounting plate connected with the outer side of the annular table, one side, close to the center of the annular table, of the mounting plate is provided with an expansion spring, the other side of the expansion spring is provided with a closing plate used for shielding the drop hole, and the closing plate is movably arranged on the annular table.

Further, the trigger piece is including locating trigger lever and the contact plate on furnace body and the closure plate respectively, be equipped with the catch wheel on the trigger lever, be equipped with the arc that is relative setting with the catch wheel on the contact plate.

Furthermore, a pushing part positioned on the outer side of the closing part is arranged on one side of the rotary type object placing table close to the closing part in a telescopic mode, and a stretching part is arranged between the pushing part and the closing part.

Furthermore, the pushing part comprises a fixed plate arranged on the rotary article placing table, a return spring is arranged on one side of the fixed plate, a pushing plate located on the outer side of the closing part is arranged on the other side of the return spring, the stretching part comprises a cylinder arranged on the rotary article placing table and located between the return spring and the closing part, and a pull rope wound on the outer side of the cylinder is arranged between the pushing plate and the closing part.

Furthermore, the rotary type arrangement device comprises a rotatable arrangement component which is arranged on the furnace body and one side of the rotatable arrangement component extends to the inner side of the furnace body, and a transmission part which is connected with the arrangement component and is used for driving the arrangement component to rotate along the circumferential direction is arranged at the rotating end of the rotary type object placing table.

Furthermore, the arrangement assembly comprises a rotatable annular rotary table arranged on the furnace body, a plurality of arrangement plates which are distributed annularly and extend to the inner side of the furnace body are arranged on the inner side of the annular rotary table, the transmission part comprises an annular wheel arranged on the outer side of the annular rotary table, a rotating wheel is arranged at the rotating end of the rotary object placing table, and an annular transmission belt is arranged between the annular wheel and the rotating wheel.

Furthermore, a movable frame is arranged on the furnace body, two ends of the movable frame are respectively provided with a telescopic transmission assembly and a support frame positioned outside the furnace body in a rotatable mode, and the other end of the telescopic transmission assembly is arranged on the support frame in a rotatable mode.

Furthermore, a temperature sensing assembly extending into the furnace body is arranged in the arranging plate, a controller is arranged on the supporting frame, and the controller is electrically connected with the temperature sensing assembly and the telescopic transmission assembly.

(3) Has the advantages that:

A. the invention improves the traditional aluminum ingot placing operation, utilizes the rotary type object placing table to be connected with the furnace body, enables the aluminum ingot to be placed on one side of the rotary type object placing table by manual work, and in the rotating process of the rotary type object placing table, when the drop hole on the rotary type object placing table rotates to the inner side of the furnace body, the trigger part is contacted with the closing part and pushes the closing part to open the drop hole, so that the aluminum ingot in the drop hole falls into the furnace body, the aluminum ingot is not required to be placed close to the furnace hole of the furnace body manually, and the safety of workers is ensured.

B. And the use of the push piece and the stretching piece is matched, when the closure piece is driven by the trigger piece to do transverse displacement, the pull rope connected between the closure piece and the push piece loses tension, the push plate can move in the direction close to the inner side of the furnace body under the elastic potential energy of the reset spring, before the closure piece opens the falling hole, the aluminum ingot on the inner side of the furnace body can be pushed by the push plate, the aluminum ingot in the falling hole cannot be influenced by the aluminum ingot in the furnace body when falling, the aluminum ingot can smoothly fall into the furnace body, and the arrangement component is matched with the use of the arrangement component, and can arrange the positions of the aluminum ingot falling into the furnace body when being driven by the transmission piece to rotate.

Drawings

FIG. 1 is a partial cross-sectional view of an automated thermal processing apparatus of the present invention;

FIG. 2 is a three-dimensional block diagram of a closure plate of the automated thermal processing apparatus of the present invention;

FIG. 3 is a top view of an annular table of the automated thermal processing apparatus of the present invention;

FIG. 4 is a bottom view of the annular table of the automated thermal processing apparatus of the present invention;

FIG. 5 is a schematic view of the connection of the pusher and puller of the automated thermal processing apparatus of the present invention;

FIG. 6 is an enlarged view of an automated thermal processing apparatus A of the present invention;

FIG. 7 is a schematic view of the driving member of the automated thermal processing apparatus according to the present invention.

The reference numbers are as follows:

the furnace body 1, the rotary type object placing table 2, the transmission assembly 21, the annular table 22, the drop hole 3, the closing part 4, the mounting plate 41, the telescopic spring 42, the closing plate 43, the trigger piece 5, the trigger rod 51, the contact plate 52, the push wheel 53, the arc-shaped plate 54, the pushing piece 6, the fixing plate 61, the return spring 62, the push plate 63, the stretching piece 7, the cylinder 71, the pull rope 72, the arranging assembly 8, the annular rotary table 81, the arranging plate 82, the transmission piece 9, the annular wheel 91, the rotating wheel 92, the annular transmission belt 93, the moving frame 10, the telescopic transmission assembly 11, the supporting frame 12, the temperature sensing assembly 13 and the controller 14.

Detailed Description

The invention will be further illustrated with reference to the following figures 1 to 7 and examples:

as shown in fig. 1, 2, 3, 5 and 6, an automatic heat treatment device comprises a furnace body 1, wherein a rotary object placing table 2 is arranged on the furnace body 1, one side of the rotary object placing table extends to the upper side of the inner side of the furnace body 1, a plurality of falling holes 3 are arranged on the rotary object placing table 2, a closing part 4 which is used for shielding one side of the falling holes 3 and bearing a workpiece is arranged on the rotary object placing table 2, and a trigger part 5 which is used for pushing the closing part 4 to move along the transverse direction to open the falling holes 3 is arranged on the furnace body 1;

further, the rotary type object placing table 2 comprises a transmission assembly 21 connected with the outer side of the furnace body 1, the transmission assembly 21 is a motor, the output end of the motor is provided with a connecting rod connected with the annular table 22 and used for driving the annular table 22 to rotate along the circumferential direction, the output end of the transmission assembly 21 is provided with the annular table 22, one side of the annular table 22 extends to the upper part of the inner side of the furnace body 1, and the annular table 22 is provided with a plurality of drop holes 3 which are distributed annularly;

the closing member 4 comprises a mounting plate 41 connected with the outer side of the annular table 22, one side, close to the center of the annular table 22, of the mounting plate 41 is provided with an expansion spring 42, the other side of the expansion spring 42 is provided with a closing plate 43 used for shielding the falling hole 3, the closing plate 43 comprises a moving plate and a shielding plate, the moving plate is connected with the expansion spring 42, the moving plate is provided with the shielding plate used for shielding the falling hole 3, the closing plate 43 is movably arranged on the annular table 22, the annular table 22 is provided with a slide way, and the moving plate is provided with a slide block matched with the slide way;

the trigger 5 comprises a trigger rod 51 and a contact plate 52 which are respectively arranged on the furnace body 1 and the closing plate 43, a pushing wheel 53 is arranged on the trigger rod 51, and an arc-shaped plate 54 which is arranged opposite to the pushing wheel 53 is arranged on the contact plate 52;

in the embodiment, as shown in fig. 2, 4, 5 and 6, a pushing member 6 located outside the closing member 4 is telescopically arranged on one side of the rotary type placing table 2 close to the closing member 4, and a stretching member 7 is arranged between the pushing member 6 and the closing member 4;

further, the pushing part 6 comprises a fixed plate 61 arranged on the rotary type object placing table 2, one side of the fixed plate 61 is provided with a return spring 62, the elastic potential energy of the return spring 62 is smaller than that of the telescopic spring 42, the other side of the return spring 62 is provided with a pushing plate 63 positioned on the outer side of the closing part 4, the pushing plate 63 comprises a vertical plate and a horizontal plate, the vertical plate is connected with the return spring 62 and positioned on the outer side of the moving plate, the horizontal plate is connected with the vertical plate, the horizontal plate is positioned below the mounting plate 41 and the closing plate 43, when the pushing plate 63 is transversely displaced, the pushing plate 63 cannot be influenced by the mounting plate 41 and the closing plate 43, the pushing plate 63 is positioned below the closing part 4, the stretching part 7 comprises a cylinder 71 arranged on the rotary type object placing table 2 and positioned between the return spring 62 and the closing part 4, and a pull rope 72 wound on the outer side of the cylinder 71 is arranged between the pushing plate 63 and the closing part 4;

wherein, preferably, the fixed plate 61, the return spring 62, the cylinder 71 and the pull rope 72 which are arranged outside the closing element 4 are all two and symmetrically arranged, when the pushing plate 63 makes a transverse displacement, the moving stability of the pushing plate 63 can be ensured,

in this embodiment, as shown in fig. 6 and 7, the furnace further includes a layout assembly 8 rotatably disposed on the furnace body 1 and having one side extending to the inner side of the furnace body 1, and a transmission member 9 connected to the layout assembly 8 and configured to drive the layout assembly 8 to rotate in the circumferential direction is disposed at the rotating end of the rotary object placing table 2;

the arrangement component 8 comprises an annular turntable 81 which is rotatably arranged on the furnace body 1, a plurality of arrangement plates 82 which are annularly distributed and extend to the inner side of the furnace body 1 are arranged on the inner side of the annular turntable 81, the arrangement plates 82 can also play a role of stirring molten liquid in the furnace body 1 in the rotating process of the furnace body 1, the transmission component 9 comprises an annular wheel 91 arranged on the outer side of the annular turntable 81, a rotating wheel 92 is arranged at the rotating end of the rotary object placing table 2, a rotating wheel 92 is arranged on the outer side of the connecting rod, an annular transmission belt 93 is arranged between the annular wheel 91 and the rotating wheel 92, and the annular transmission belt 93 is positioned below the mounting plate 41 and the pushing plate 63;

the annular transmission belt 93 drives the annular turntable 81 to rotate, so as to drive the plurality of arrangement plates 82 to move along the inner wall of the furnace body 1, and the arrangement plates 82 can arrange aluminum ingots;

in this embodiment, as shown in fig. 7, a moving frame 10 is disposed on a furnace body 1, two ends of the moving frame 10 are respectively rotatably provided with a telescopic transmission assembly 11 and a support frame 12 located outside the furnace body 1, the telescopic transmission assembly 11 is an electric push rod, the other end of the telescopic transmission assembly 11 is rotatably disposed on the support frame 12, a liquid outlet nozzle is disposed on the furnace body 1, when the molten liquid needs to be poured out, the electric push rod is controlled to drive the moving frame 10 and the furnace body 1 to rotatably move with the support frame 12 as an origin, so that the furnace body 1 is obliquely disposed, the internal liquid flows out from the liquid outlet nozzle, automatic feeding and discharging is realized, and manual approach is not needed;

be equipped with the temperature sensing subassembly 13 that extends to in the furnace body 1 in the marshalling board 82, temperature sensing subassembly 13 is for inlaying the temperature sensor who locates in the marshalling board 82 for detect the temperature in the furnace body 1, is equipped with controller 14 on the support frame 12, and controller 14 is connected with temperature sensing subassembly 13 and flexible drive assembly 11 electricity, can realize carrying out temperature detection to the heat treatment process, thereby carries out accurate control, reduces the energy consumption of heat treatment.

The invention has the beneficial effects that:

the traditional aluminum ingot placing operation is improved, the rotary type object placing table 2 is connected with the furnace body 1, so that aluminum ingots can be placed on one side of the rotary type object placing table 2 manually, and in the rotating process of the rotary type object placing table 2, when the falling hole 3 on the rotary type object placing table 2 rotates to the inner side of the furnace body 1, the trigger 5 is in contact with the closing part 4 and pushes the closing part 4 to open the falling hole 3, so that the aluminum ingots in the falling hole 3 fall into the furnace body 1, the aluminum ingots are not required to be placed close to the furnace hole of the furnace body 1 manually, and the safety of workers is guaranteed.

And the use of the push piece 6 and the stretching piece 7 is matched, when the closing piece 4 is driven by the trigger piece 5 to do transverse displacement, the pull rope 72 connected between the closing piece 4 and the push piece 6 loses tension, so that the push plate 63 can move in the direction close to the inner side of the furnace body 1 under the elastic potential energy of the return spring 62, before the closing piece 4 opens the drop hole 3, the push plate 63 can push the aluminum ingot on the inner side of the furnace body 2, the aluminum ingot in the drop hole 3 can not be influenced by the aluminum ingot in the furnace body 1 when falling, the aluminum ingot can smoothly fall into the furnace body 1, and the arrangement component 8 is matched with the use of the arrangement component 8, and the arrangement component 8 can arrange the aluminum ingot falling into the furnace body 1 in position in the process of being driven by the transmission piece 9 to rotate.

The working principle is as follows: firstly, the annular table 22 moves circumferentially under the driving of the transmission assembly 21, a worker puts an aluminum ingot into the drop hole 3, the drop hole 3 moves to the inner side of the furnace body 1 in the rotation process of the annular table 22, the arc-shaped plate 54 at the drop hole 3 is in contact with the pushing wheel 53 on the furnace body 1, the pushing wheel 53 moves along the arc edge of the arc-shaped plate 54, and the arc-shaped plate 54 is pushed by the pushing wheel 53 to move along the direction towards the center of the annular table 22;

at this time, in the process of the transverse displacement of the closing plate 43, the tension force of the pulling rope 72 is lost, and under the elastic potential energy of the return spring 62, the return spring 62 drives the pushing plate 63 to move in the direction away from the center of the annular table 22, so that the pushing plate 63 pushes the aluminum ingot in the furnace body 1 until the closing plate 43 completely opens the drop hole 3, the aluminum ingot in the drop hole 3 falls into the furnace body 1, and the aluminum ingot in the furnace body 1 is positioned on the inner side of the aluminum ingot falling into the furnace body 1 again;

then, in the rotation process of the annular table 22, the pushing wheel 53 moves to the outside of the arc edge of the arc plate 54, the arc plate 54 loses the pushing force of the pushing wheel 53, under the elastic potential energy of the telescopic spring 42, the closing plate 43 resets to shield the falling hole 3 again, the pull rope 72 is pulled, the pushing plate 63 is driven to compress the reset spring 62 to reset, and the feeding and discharging operation of the aluminum ingot is completed;

finally, the aluminum ingot falls into the furnace body 1, and the annular transmission belt 93 drives the annular turntable 81 to rotate under the driving of the transmission assembly 21, so as to drive the plurality of arrangement plates 82 to move along the inner wall of the furnace body 1 to arrange the aluminum ingot.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.

Claims

1. An automatic heat treatment device comprises a furnace body (1), and is characterized in that a rotary article placing table (2) with one side extending to the upper side of the inner side of the furnace body (1) is arranged on the furnace body (1), a plurality of drop holes (3) are formed in the rotary article placing table (2), a closing member (4) used for shielding one side of the drop holes (3) and bearing a workpiece is arranged on the rotary article placing table (2), and a trigger member (5) used for pushing the closing member (4) to move transversely to open the drop holes (3) is arranged on the furnace body (1); the rotary type object placing table (2) comprises a transmission assembly (21) connected with the outer side of the furnace body (1), an annular table (22) with one side extending to the upper part of the inner side of the furnace body (1) is arranged at the output end of the transmission assembly (21), and a plurality of drop holes (3) distributed annularly are formed in the annular table (22); the closing part (4) comprises a mounting plate (41) connected with the outer side of the annular table (22), one side, close to the center of the annular table (22), of the mounting plate (41) is provided with a telescopic spring (42), the other side of the telescopic spring (42) is provided with a closing plate (43) used for shielding the drop hole (3), and the closing plate (43) is movably arranged on the annular table (22); the trigger piece (5) comprises a trigger rod (51) and a contact plate (52) which are respectively arranged on the furnace body (1) and the closed plate (43), the trigger rod (51) is provided with a pushing wheel (53), and the contact plate (52) is provided with an arc-shaped plate (54) which is arranged opposite to the pushing wheel (53); one side of the rotary article placing table (2) close to the closing part (4) is provided with a pushing part (6) positioned on the outer side of the closing part (4) in a telescopic manner, and a stretching part (7) is arranged between the pushing part (6) and the closing part (4); the pushing piece (6) comprises a fixed plate (61) arranged on the rotary article placing table (2), a return spring (62) is arranged on one side of the fixed plate (61), a pushing plate (63) positioned on the outer side of the closing piece (4) is arranged on the other side of the return spring (62), the stretching piece (7) comprises a cylinder (71) arranged on the rotary article placing table (2) and positioned between the return spring (62) and the closing piece (4), and a pull rope (72) wound on the outer side of the cylinder (71) is arranged between the pushing plate (63) and the closing piece (4); the furnace body is characterized by further comprising a rotatable arrangement component (8) which is arranged on the furnace body (1) and one side of the rotatable arrangement component extends to the inner side of the furnace body (1), and a transmission part (9) which is connected with the arrangement component (8) and is used for driving the arrangement component (8) to rotate along the circumferential direction is arranged at the rotating end of the rotatable object placing table (2); the arrangement component (8) comprises a rotatable annular rotary table (81) arranged on the furnace body (1), a plurality of arrangement plates (82) distributed annularly and extending to the inner side of the furnace body (1) are arranged on the inner side of the annular rotary table (81), the transmission part (9) comprises an annular wheel (91) arranged on the outer side of the annular rotary table (81), a rotating wheel (92) is arranged at the rotating end of the rotary object placing table (2), and an annular transmission belt (93) is arranged between the annular wheel (91) and the rotating wheel (92).

2. An automated thermal processing apparatus according to claim 1, wherein: the furnace body (1) is provided with a movable frame (10), two ends of the movable frame (10) are respectively provided with a telescopic transmission component (11) and a support frame (12) positioned on the outer side of the furnace body (1) in a rotatable manner, and the other end of the telescopic transmission component (11) is arranged on the support frame (12) in a rotatable manner.

3. An automated thermal processing apparatus according to claim 2, wherein: the furnace body temperature-sensing device is characterized in that a temperature-sensing component (13) extending into the furnace body (1) is arranged in the arranging plate (82), a controller (14) is arranged on the supporting frame (12), and the controller (14) is electrically connected with the temperature-sensing component (13) and the telescopic transmission component (11).