CN114381579A - Heat treatment device for production and processing of metal materials - Google Patents

Abstract

The invention provides a heat treatment device for metal material production and processing, which relates to the technical field of metal heat treatment and comprises a heating device and a pressing transfer device, wherein the pressing transfer device is arranged on one side of the heating device, one end of the pressing transfer device is arranged right above the heating device, the heating device comprises a heat release panel, a heating base, a positioning cross rod, a triangular support frame and a heat conduction pipe, and the heat release panel is arranged at the top of the heating base. The heat release panel in the heating device separates the fire source from the metal material by adopting the mode that the movable support rod is connected with the positioning cross rod in the heating base, so that a large amount of open fire can be prevented from being directly exposed to the environment when the metal material is subjected to heating treatment, the whole body has higher safety performance, the control of operators can be facilitated, and the heat release panel can be taken down for cleaning and maintenance when the heat treatment is not performed.

Description

Heat treatment device for production and processing of metal materials

Technical Field

The invention relates to the technical field of metal heat treatment, in particular to a heat treatment device for producing and processing metal materials.

Background

The metal heat treatment is a process of heating a metal or alloy workpiece in a certain medium to a proper temperature, keeping the temperature for a certain time, cooling the workpiece in different media at different speeds, and controlling the performance of the workpiece by changing the microstructure of the surface or the interior of a metal material.

However, in the prior art, the existing heat treatment device usually adopts a mode of putting a metal material into a heating furnace for heating to process, in the heating process, impurities in the metal material can directly fall into the furnace, manual cleaning is needed in the later period, meanwhile, a closed space is not beneficial to the emission of some toxic gases, when some metal materials with high impurity content are processed, a part of toxic gases can be generated, the influence on operators is easily caused when the heating furnace is subsequently opened, and a conveyor belt or a mechanical suspension arm is usually adopted in the current mode of carrying the metal material, and the functions of the two modes are single.

Disclosure of Invention

The invention aims to solve the defects in the prior art, the heat release panel in the heating device adopts a mode that the movable support rod is connected with the positioning cross rod in the heating base to separate the fire source from the metal material, so that a large amount of open fire can be prevented from being directly exposed in the environment when the metal material is heated, the whole body has higher safety performance, the control of operators can be facilitated, and simultaneously the metal material can be taken down for cleaning and maintenance when the heat treatment is not carried out.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a heat treatment device is used in metal material production and processing, includes heating device and suppression transfer device, suppression transfer device sets up one side at heating device, suppression transfer device's one end sets up directly over heating device, heating device includes heat release panel, heating base, location horizontal pole, triangular supports frame and heat pipe, heat release panel mounting is at the top of heating base, the inside at the heating base is installed to the location horizontal pole, the other end setting of location horizontal pole is in the edge of heating base, the inside at the heating base is connected to the one end of heat pipe, triangular supports frame installs the bottom at the heating base, triangular supports frame is located between two adjacent location horizontal poles.

As a preferred embodiment, heating through-hole has been seted up to the inside of heat release panel, heating through-hole is honeycomb arrangement in the inside of heat release panel, the inside of location horizontal pole is provided with movable supporting rod, the handing-over department at heat release panel and heating base is connected to movable supporting rod's one end, movable supporting rod's the other end is provided with the extension end, extend the end through high temperature resistant processing.

The beneficial effect of adopting the further scheme is that: separate the ignition source and metal material to can avoid a large amount of naked light direct protection to expose in the middle of the environment when carrying out heat treatment to metal material, wholly have higher security performance, and can make things convenient for operating personnel to control.

As a preferred embodiment, the pressing and transferring device comprises a control box body, a steering framework, a primary rotating bearing, a supporting arm of force, an adjusting auxiliary arm and a pressing module, wherein the steering framework is installed at the top of the control box body, the bottom of the primary rotating bearing is connected to the inside of the steering framework, one end of the supporting arm of force is connected to the inside of the primary rotating bearing, one end of the adjusting auxiliary arm is connected with the other end of the supporting arm of force, and the pressing module is installed at the other end of the adjusting auxiliary arm.

The beneficial effect of adopting the further scheme is that: the mode of transferring the metal material manually in the prior art is changed into the mode of transferring the mechanical force arm, so that the metal material with larger volume and heavier mass can be carried, and the safety degree of the whole device can be further improved.

As a preferred embodiment, the handing-over department of the support arm of force and regulation auxiliary arm is provided with the second and connects the pivot, primary rolling bearing's top is provided with the closed shell, primary rolling bearing's bottom is provided with accepts the box, and one side of accepting the box is provided with the biax motor, the biax motor is connected with primary rolling bearing through the accepting box that sets up, one side of primary rolling bearing is provided with the main drive gyro wheel, one side that the pivot was connected to the second is provided with driven roller, be provided with the transmission connecting band between main drive gyro wheel and the driven roller, driven roller is connected the pivot through the second that sets up and is connected with the regulation auxiliary arm.

The beneficial effect of adopting the further scheme is that: when the metal material is subjected to heat treatment, a certain amount of pressure can be generated and is transmitted to the metal material through the pressing module, and the shape of the metal material is changed by utilizing the characteristic of stronger metal plasticity in the heating process, so that the metal material can be heated more fully.

As a preferred embodiment, the steering framework includes a rotating disc, a dividing synapse, a rotating base, a bearing chassis and an auxiliary steering wheel, the dividing synapse is mounted on the top of the rotating disc, the bottom of the rotating base is connected to the inside of the rotating disc, the dividing synapse is located at the junction of the rotating base and the bearing chassis, the bearing chassis is mounted on the outer wall of the rotating base, the auxiliary steering wheel is mounted at one end of the bearing chassis, and a transmission connection belt is disposed between the auxiliary steering wheel and the rotating disc.

The beneficial effect of adopting the further scheme is that: the steering framework can realize all-directional steering when metal materials are conveyed.

In a preferred embodiment, the pressing module is located right above the heat releasing panel, and the control box is located at the side of the heating base.

The beneficial effect of adopting the further scheme is that: the operator and the metal material are separated, and the safety degree of the whole device can be further improved.

As a preferred embodiment, the receiving box body is installed on the top of the rotating base, the bottom of the receiving box body is connected to the upper surface of the bearing chassis, the dual-shaft motor is installed at one end of the bearing chassis, and the auxiliary steering wheel is connected to the other end of the dual-shaft motor.

The beneficial effect of adopting the further scheme is that: compared with a conveyor belt and a mechanical suspension arm, the multifunctional conveyor belt has more functions and is more practical.

Compared with the prior art, the invention has the advantages and positive effects that,

1. in the invention, the heat release panel in the heating device adopts the mode that the movable support rod is connected with the positioning cross rod in the heating base to separate the fire source from the metal material, thereby avoiding a large amount of naked fire from being directly protected and exposed in the environment when the metal material is heated, having higher safety performance integrally and being convenient for operators to control, and simultaneously being capable of taking down the metal material for cleaning and maintenance when the metal material is not heated, compared with the mode of a traditional heating furnace, not only can the function of collecting residues be kept, but also the difficulty of cleaning and maintenance after the residue is reduced, and the heat release panel can effectively clean different positions, and the heating through holes in the whole heat release panel are arranged into a honeycomb shape, thereby being more beneficial to heat transfer, facilitating the heat to be transferred into the metal material from different places and effectively accelerating the speed of metal heat treatment, meanwhile, the metal material to be processed is heated more uniformly, the situation of uneven heating can be effectively avoided, and the heat release panel can be directly taken as a bearing platform when the metal material is subsequently transferred, so that the effect of helping an operator to transfer the metal material is achieved.

2. According to the invention, the pressing and transferring device changes the traditional manual metal material transferring mode into the mechanical force arm transferring mode by combining the supporting force arm and the adjusting auxiliary arm, so that an operator is separated from the metal material, the metal material with larger volume and heavier mass can be carried, the safety degree of the whole device can be further improved, a certain amount of pressure can be generated during heat treatment of the metal material, the pressure is transmitted to the metal material through the pressing module, the shape of the metal material is changed by utilizing the characteristic of stronger metal plasticity in the heating process, the metal material can be heated more fully, impurities in the metal material are removed, the purity of the metal material is higher, and the pressing and transferring device has more functions and is more practical compared with a conveying belt and a mechanical suspension arm.

Drawings

FIG. 1 is a perspective view of a heat treatment apparatus for producing and processing a metallic material according to the present invention;

FIG. 2 is a schematic structural view of a heating apparatus of a heat treatment apparatus for producing and processing a metal material according to the present invention;

FIG. 3 is a schematic view of a connection structure between a heat releasing panel and a heating base of a heat treatment apparatus for manufacturing and processing a metal material according to the present invention;

FIG. 4 is a schematic structural view of a press transfer device of a heat treatment apparatus for metal material production processing according to the present invention;

FIG. 5 is a schematic structural view of a supporting arm and an adjusting auxiliary arm of a heat treatment apparatus for manufacturing and processing a metal material according to the present invention;

FIG. 6 is an enlarged schematic structural diagram of the bogie in section A of FIG. 4 according to the present invention.

Illustration of the drawings:

1. a heating device; 2. a press transfer device;

11. a heat releasing panel; 12. heating the base; 13. positioning the cross bar; 14. a triangular support frame; 15. a heat conducting pipe;

111. heating the through hole; 112. a movable strut; 113. an extension end;

21. a control box body; 22. a steering architecture; 23. a primary rotary bearing; 24. supporting the force arm; 25. adjusting the auxiliary arm; 26. pressing the module; 27. a closed housing; 28. a second connecting rotating shaft; 29. a double-shaft motor; 210. a receiving box body; 211. a main drive roller; 212. a driven roller; 213. a transmission connecting belt;

221. rotating the disc; 222. cutting synapses; 223. rotating the base; 224. a load-bearing chassis; 225. an auxiliary steering wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-2, the present invention provides a technical solution: the utility model provides a heat treatment device is used in metal material production and processing, including heating device 1 and suppression transfer device 2, suppression transfer device 2 sets up the one side at heating device 1, the one end setting of suppression transfer device 2 is directly over heating device 1, heating device 1 includes heat release panel 11, heating base 12, location horizontal pole 13, tripod 14 and heat pipe 15, heat release panel 11 is installed at the top of heating base 12, the inside at heating base 12 is installed to location horizontal pole 13, the other end setting of location horizontal pole 13 is in the edge of heating base 12, the inside at heating base 12 is connected to the one end of heat pipe 15, tripod 14 is installed in the bottom of heating base 12, tripod 14 is located between two adjacent location horizontal poles 13.

In this embodiment, a fan is disposed inside the heat pipe 15, when processing a metal material, the metal material is first placed on the heat releasing panel 11, and then the fan is started to draw ambient air into the heat pipe 15 and transfer the ambient air into the heating base 12, the heating base 12 generates heat and transfers the heat to the heat releasing panel 11 by using the air exhausted from the heat pipe 15, so as to heat the metal material, where the fan cooperates with the heat pipe 15 to transfer the air into the heating base 12, so as to provide sufficient oxygen for heating the metal, thereby facilitating to generate higher heating power, the triangular support frame 14 supports the whole heating device 1 by using the stability of the triangle, so that the heating device can bear higher gravity, the positioning rail 13 is connected to the heating base 12 and is fixed in position, and can be used as a reference for auxiliary positioning when the heat releasing panel 11 is installed.

Example 2

As shown in fig. 1 to 3, a heating through hole 111 is formed in the heat releasing panel 11, the heating through hole 111 is arranged in the heat releasing panel 11 in a honeycomb shape, a movable supporting rod 112 is arranged in the positioning cross rod 13, one end of the movable supporting rod 112 is connected to the joint of the heat releasing panel 11 and the heating base 12, an extension end 113 is arranged at the other end of the movable supporting rod 112, and the extension end 113 is subjected to high temperature resistance treatment.

In this embodiment, the inside heating through-hole 111 of whole heat release panel 11 has set to honeycomb, more do benefit to thermal transmission, make things convenient for the heat to spread into the inside of metal material from the place of difference, can accelerate metallothermic treatment's speed effectively, make the metal material who handles heated more evenly simultaneously, can avoid effectively being heated uneven condition and take place, be connected to movable support rod 112 in the inside of location horizontal pole 13 when installation heat release panel 11, the integrated use just can play accurate locate effect, extend the length that end 113 has lengthened movable support rod 112 simultaneously, thereby make this heat release panel 11 can directly extract as a load-bearing platform when subsequently shifting metal material, play the effect that helps operating personnel to shift metal material.

Example 3

As shown in fig. 1 and 4, the pressing and transferring device 2 includes a control box 21, a steering frame 22, a primary rotating bearing 23, a supporting arm 24, an adjusting sub-arm 25 and a pressing module 26, wherein the steering frame 22 is installed at the top of the control box 21, the bottom of the primary rotating bearing 23 is connected inside the steering frame 22, one end of the supporting arm 24 is connected inside the primary rotating bearing 23, one end of the adjusting sub-arm 25 is connected with the other end of the supporting arm 24, and the pressing module 26 is installed at the other end of the adjusting sub-arm 25.

In this embodiment, various circuits and electronic devices are mainly accomodate to control box 21, operate with the whole suppression transfer device 2 of control, it is rotatory that bogie frame 22 takes place when carrying metal material, thereby drive whole primary rolling bearing 23 and support arm of force 24 and carry out horizontal turning, and adjust sub-arm 25 and then can carry out and carry out fore-and-aft rotation around supporting arm of force 24, the combination uses and just can realize the omnidirectional and turn to, change the mode that metal material was shifted into mechanical arm of force to traditional manual work, the mode that shifts metal material with operating personnel and metal material has carried out the separation, not only can carry the metal material that the volume is bigger, the quality is heavier, can further promote the degree of safety of whole device.

Example 4

As shown in fig. 4-6, a second connecting rotating shaft 28 is disposed at the junction of the supporting arm 24 and the adjusting sub-arm 25, a closed housing 27 is disposed at the top of the primary rotating bearing 23, a receiving box 210 is disposed at the bottom of the primary rotating bearing 23, a dual-shaft motor 29 is disposed at one side of the receiving box 210, the dual-shaft motor 29 is connected to the primary rotating bearing 23 through the receiving box 210, a main driving roller 211 is disposed at one side of the primary rotating bearing 23, a driven roller 212 is disposed at one side of the second connecting rotating shaft 28, a transmission connecting belt 213 is disposed between the main driving roller 211 and the driven roller 212, the driven roller 212 is connected to the adjusting sub-arm 25 through the second connecting rotating shaft 28, the steering frame 22 includes a rotating disc 221, a dividing synapse 222, a rotating base 223, a bearing chassis 224 and an auxiliary steering wheel 225, the dividing synapse 222 is mounted at the top of the rotating disc 221, the bottom of the rotating base 223 is connected to the inside of the rotating disc 221, the dividing synapse 222 is located at the junction of the rotating base 223 and the bearing chassis 224, the bearing chassis 224 is installed on the outer wall of the rotating base 223, the auxiliary steering wheel 225 is installed at one end of the bearing chassis 224, a transmission connecting belt 213 is arranged between the auxiliary steering wheel 225 and the rotating disc 221, the pressing module 26 is located right above the heat releasing panel 11, the control box 21 is located on the side of the heating base 12, the receiving box 210 is installed at the top of the rotating base 223, the bottom of the receiving box 210 is connected to the upper surface of the bearing chassis 224, the biaxial motor 29 is installed at one end of the bearing chassis 224, and the auxiliary steering wheel 225 is connected to the other end of the biaxial motor 29.

In this embodiment, a dual-shaft motor 29 is disposed on the carrying chassis 224 for driving the whole pressing and transferring device 2 to operate, the dual-shaft motor 29 is composed of two YE3 type three-phase asynchronous motors, one of which is disposed horizontally, and the other is disposed vertically, wherein the horizontally disposed motor drives the primary rotating bearing 23 and the primary driving roller 211 to rotate, wherein the primary rotating bearing 23 can drive the supporting arm 24 to rotate, and the primary longitudinal angle adjustment is completed, and the rotation of the primary driving roller 211 drives the driven roller 212 to rotate through the transmission connecting belt 213, and the rotation of the driven roller 212 drives the second connecting rotating shaft 28 to rotate, so as to drive the adjusting auxiliary arm 25 to complete the secondary longitudinal adjustment, and the combined use can generate a larger pressure, so that a certain amount of pressure can be generated during the use and transmitted to the metal material through the pressing module 26, utilize the stronger characteristic of metal plasticity to change the metal material shape in the heating process, thereby can make it be heated more fully, and reject out its inside impurity, make this metal material's purity higher, compare in conveyer belt and mechanical davit have more functions, it is more practical, and longitudinal arrangement's motor is then used for driving supplementary directive wheel 225 and rotates, supplementary directive wheel 225 drives through transmission connecting band 213 and rotates rotating base 223 equally, thereby realized horizontal rotation, and the rotating disc 221 can confirm the centre of a circle that rotates base 223 with cutting apart synapse 222, avoid appearing the condition of dislocation.

The working principle is as follows:

as shown in fig. 1-6, when processing metal material, firstly, the metal material is put on the heat releasing panel 11, then the fan is started to draw the surrounding air into the heat conducting pipe 15 and transfer the air into the heating base 12, the heating base 12 generates heat and transfers the heat to the heat releasing panel 11 by using the air exhausted by the heat conducting pipe 15, sufficient oxygen is provided for the heating of metal, the heating of metal material is completed, the triangular support frame 14 supports the whole heating device 1 by using the stability of the triangle, the positioning cross bar 13 is connected with the heating base 12 and is fixed in position, and is used as a reference for auxiliary positioning when installing the heat releasing panel 11, and the heating through holes 111 inside the whole heat releasing panel 11 are arranged in honeycomb shape, which facilitates the heat to be transferred from different places to the inside of metal material, so that the metal material to be processed is heated more uniformly, when the heat releasing panel 11 is installed, the movable supporting rod 112 is connected to the inside of the positioning cross rod 13, so that an accurate positioning effect can be achieved through combined use, meanwhile, the length of the movable supporting rod 112 is lengthened through the extending end 113, so that the heat releasing panel 11 can be directly taken out as a bearing platform when metal materials are subsequently transferred, the control box body 21 mainly contains various circuits and electronic devices to control the whole pressing and transferring device 2 to operate, the steering framework 22 rotates when the metal materials are carried, the whole primary rotating bearing 23 and the supporting force arm 24 are driven to transversely steer, the adjusting auxiliary arm 25 can longitudinally rotate around the supporting force arm 24, the comprehensive steering can be achieved through combined use, and the double-shaft motor 29 is deployed on the bearing chassis 224 and used for driving the whole pressing and transferring device 2 to operate, the double-shaft motor 29 is composed of two YE3 type three-phase asynchronous motors, one of which is arranged horizontally, the other is arranged vertically, the transversely arranged motor drives the primary rotary bearing 23 and the main driving roller 211 to rotate, wherein the primary rotary bearing 23 can drive the supporting arm 24 to rotate, the primary longitudinal angle adjustment is completed, the main driving roller 211 rotates to drive the driven roller 212 to rotate through the transmission connecting belt 213, the rotation of the driven roller 212 drives the second connecting rotary shaft 28 to rotate, so as to drive the adjusting auxiliary arm 25 to complete the secondary longitudinal adjustment, the combination can generate larger pressure, so that a certain amount of pressure can be generated in the using process, the pressure is transmitted to the metal material through the pressing module 26, impurities in the metal material are removed, the purity of the metal material is higher, and the longitudinally arranged motor is used for driving the auxiliary steering wheel 225 to rotate, the auxiliary steering wheel 225 drives the rotating base 223 to rotate through the transmission connecting belt 213, so as to realize transverse rotation, and the rotating disc 221 and the cutting synapse 222 determine the center of the rotating base 223, so as to avoid the situation of dislocation.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims (7)

1. The utility model provides a heat treatment device for metal material production and processing, includes heating device (1) and suppression transfer device (2), suppression transfer device (2) set up in one side of heating device (1), the one end setting of suppression transfer device (2) is directly over heating device (1), its characterized in that: heating device (1) includes heat release panel (11), heating base (12), location horizontal pole (13), triangular supports frame (14) and heat pipe (15), the top at heating base (12) is installed in heat release panel (11), the inside at heating base (12) is installed in location horizontal pole (13), the other end setting of location horizontal pole (13) is in the edge of heating base (12), the inside at heating base (12) is connected to the one end of heat pipe (15), the bottom at heating base (12) is installed in triangular supports frame (14), triangular supports frame (14) are located between two adjacent location horizontal poles (13).

2. The heat treatment apparatus for producing and processing a metal material according to claim 1, wherein: heating through-hole (111) have been seted up to the inside of heat release panel (11), heating through-hole (111) are honeycomb arrangement in the inside of heat release panel (11), the inside of location horizontal pole (13) is provided with movable branch pole (112), the handing-over department at heat release panel (11) and heating base (12) is connected to the one end of movable branch pole (112), the other end of movable branch pole (112) is provided with extends end (113), it processes to extend end (113) through high temperature resistant.

3. The heat treatment apparatus for producing and processing a metal material according to claim 1, wherein: the pressing transfer device (2) comprises a control box body (21), a steering framework (22), a primary rotating bearing (23), a supporting force arm (24), an adjusting auxiliary arm (25) and a pressing module (26), wherein the steering framework (22) is installed at the top of the control box body (21), the bottom of the primary rotating bearing (23) is connected to the inside of the steering framework (22), one end of the supporting force arm (24) is connected to the inside of the primary rotating bearing (23), one end of the adjusting auxiliary arm (25) is connected with the other end of the supporting force arm (24), and the pressing module (26) is installed at the other end of the adjusting auxiliary arm (25).

4. The heat treatment apparatus for producing and processing a metal material according to claim 3, wherein: a second connecting rotating shaft (28) is arranged at the joint of the supporting arm (24) and the adjusting auxiliary arm (25), a closed shell (27) is arranged at the top of the primary rotating bearing (23), a bearing box body (210) is arranged at the bottom of the primary rotating bearing (23), a double-shaft motor (29) is arranged at one side of the bearing box body (210), the double-shaft motor (29) is connected with the primary rotating bearing (23) through a bearing box body (210), a main driving roller (211) is arranged on one side of the primary rotating bearing (23), one side of the second connecting rotating shaft (28) is provided with a driven roller (212), a transmission connecting belt (213) is arranged between the main driving roller (211) and the driven roller (212), the driven roller (212) is connected with the adjusting auxiliary arm (25) through a second connecting rotating shaft (28).

5. The heat treatment apparatus for producing and processing a metal material according to claim 4, wherein: the steering framework (22) comprises a rotating disc (221), a dividing synapse (222), a rotating base (223), a bearing chassis (224) and an auxiliary steering wheel (225), wherein the dividing synapse (222) is installed at the top of the rotating disc (221), the bottom of the rotating base (223) is connected to the inside of the rotating disc (221), the dividing synapse (222) is located at the joint of the rotating base (223) and the bearing chassis (224), the bearing chassis (224) is installed on the outer wall of the rotating base (223), the auxiliary steering wheel (225) is installed at one end of the bearing chassis (224), and a transmission connecting belt (213) is arranged between the auxiliary steering wheel (225) and the rotating disc (221).

6. The heat treatment apparatus for producing and processing a metal material according to claim 3, wherein: the pressing module (26) is located right above the heat release panel (11), and the control box body (21) is located on the side of the heating base (12).

7. The heat treatment apparatus for producing and processing a metal material according to claim 5, wherein: the bearing box body (210) is arranged at the top of the rotating base (223), the bottom of the bearing box body (210) is connected to the upper surface of the bearing chassis (224), the double-shaft motor (29) is arranged at one end of the bearing chassis (224), and the auxiliary steering wheel (225) is connected with the other end of the double-shaft motor (29).

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