CN117715252A - Annular non-contact uniform heating treatment device and heating treatment method - Google Patents

Abstract

The invention relates to the technical field of heating treatment, in particular to an annular non-contact uniform heating treatment device and a heating treatment method.

Description

Annular non-contact uniform heating treatment device and heating treatment method

Technical Field

The invention relates to the technical field of heat treatment, in particular to an annular non-contact uniform heat treatment device and a heat treatment method.

Background

In various industries, a large number of objects are produced, including cylindrical or barrel objects, which need to be heated during processing, however, when the objects are heated, the existing heating devices cannot adapt to the shapes of the objects, and cannot perform effective heating.

Through retrieval, chinese patent publication No. CN106028488A discloses a novel annular heater which is simple in structure and convenient to use; the locking is firm, and the heating stability is ensured; and heating efficiency is high, the energy consumption is low, and this ring heater is unable to realize the adjustment of automatic object heating position in the use, lead to the staff to need frequent manual adjustment ring frame on the position of heating wire circle, the practicality of device has been reduced, heating element and object close contact heating element will produce the temperature direct transfer to object surface simultaneously, however when the condition of heating temperature is too high, the object surface receives the influence of high temperature and can take place certain damage, and the high difference of heating object, when the object heating of higher specification, because the influence of external force, the object can produce the skew for the heating wire circle in the ring frame is different from the distance of each position of object, make the heating efficiency of object receive the influence.

Disclosure of Invention

The invention aims to provide an annular non-contact uniform heating treatment device and a heating treatment method, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the annular non-contact uniform heating treatment device comprises a ring frame, an electric heating wire ring, an operation table, a base, a lifting assembly arranged in the base and a limiting assembly arranged at the bottom of the operation table, wherein the lifting assembly comprises a motor B arranged in the base, a transmission rod for driving a driving bevel gear A and the driving bevel gear B to rotate is screwed on one side of the motor B, the driving bevel gear A is positioned on the left side of the driving bevel gear B, a driven bevel gear A for driving the screw rod A to rotate is meshed and connected on the outer side of the driving bevel gear A, a wire sleeve A for driving a support rod A to move is connected on the outer side of the driving bevel gear B, a driven bevel gear B for driving the screw rod B to rotate is meshed and connected on the outer side of the screw rod B, a fixing ring A for fixing the ring frame is welded on one side of the support rod A, and the electric heating wire ring for heating treatment is screwed on the inner side of the ring frame;

the limiting assembly comprises a motor A arranged at the bottom of the operating platform, a driving rod connected with a fixed sleeve A is arranged on one side of the motor A, a conveying belt for driving a fixed sleeve B to rotate is sleeved on the outer side of the fixed sleeve A, a bidirectional threaded rod is connected with an inner side screw of the fixed sleeve B in a driving mode, a threaded sleeve A and a threaded sleeve B are connected to the outer side of the bidirectional threaded rod in a threaded mode, the threaded sleeve A is positioned on the left side of the threaded sleeve B, a driving plate A connected with a limiting clamp A is welded on the outer side of the threaded sleeve A, and a driving plate B for driving the limiting clamp B to move is welded on the outer side of the threaded sleeve B.

The application further comprises the following technical scheme: the fixed assembly is arranged on the outer side of the ring frame and comprises a fixed ring A and a fixed ring B which are in contact with the ring frame, threaded holes are formed in the surfaces of the fixed ring A and the fixed ring B, and driving screws for fixing the fixed ring A and the fixed ring B are connected with the inner sides of the threaded holes in a threaded mode.

The application further comprises the following technical scheme: the surface of the operating platform is provided with a groove for placing the ring frame and the heating wire coil, and a rubber pad for protecting the heating wire coil is fixed on the inner side of the groove by screws.

The application further comprises the following technical scheme: and one side of the operating platform is connected with a bearing which enables the driving rod to drive the fixed sleeve A to rotate through a bolt.

The application further comprises the following technical scheme: the inner side of the groove symmetrically penetrates through the through grooves which enable the support rod A and the support rod B to move.

The application further comprises the following technical scheme: the screw on the inner side of the base is fixedly provided with a bearing block A and a bearing block B, the bearing block A is positioned on the left side of the bearing block B, the inner side of the bearing block A is matched with the screw rod A to rotate, and the inner side of the bearing block B is matched with the screw rod B to rotate.

The application further comprises the following technical scheme: the connecting blocks are welded on the outer sides of the wire sleeve A and the wire sleeve B, and the connecting grooves enabling the connecting blocks to slide are formed in the inner side of the base.

The application further comprises the following technical scheme: and rubber blocks for improving friction force to the heating piece are fixed on the inner sides of the driving plate A and the driving plate B by screws.

The application further comprises the following technical scheme: the bottoms of the thread sleeve A and the thread sleeve B are welded with fixed blocks, and a sliding groove for enabling the fixed blocks to slide is formed in the bottom of the operating platform.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

the invention is characterized in that a ring frame, an electric heating wire ring, an operation table, a lifting component and a limiting component are arranged, firstly, an object to be heated is placed on the operation table, a motor A at the bottom of the operation table converts received electric energy into mechanical energy, the motor A drives a fixed sleeve A outside a driving rod to rotate, a conveyor belt outside the fixed sleeve A drives a bidirectional threaded rod inside a fixed sleeve B to rotate, a threaded sleeve A and a threaded sleeve B outside the bidirectional threaded rod respectively move outside the bidirectional threaded rod, the threaded sleeve A drives a driving plate A to move, the threaded sleeve B drives the driving plate B to move, a limiting clamp A on the driving plate A and a limiting clamp B on the driving plate B are respectively in close contact with the object to be heated, so that the object to be heated is subjected to limiting treatment, the object is prevented from shifting during heating, after the object is limited and fixed, the electric heating wire ring in the ring frame heats the object by utilizing resistance heat generated when current passes through the electric heating wire, the electric heating wire ring surrounds the outside of the object, so that the object can be uniformly heated, then the motor B in the base converts received electric energy into mechanical energy, the motor B drives the driving bevel gear A and the driving bevel gear B outside the transmission rod to rotate, then the driving bevel gear A drives the driven bevel gear A to rotate, then the driven bevel gear A drives the screw rod A to rotate, then the wire sleeve A outside the screw rod A drives the support rod A to move, meanwhile, the driving bevel gear B drives the screw rod B in the driven bevel gear B to rotate, then the wire sleeve B outside the screw rod B drives the support rod B to move, then the support rod A and the support rod B respectively push the fixing ring A and the fixing ring B to move, so that the ring frame drives the electric heating wire ring to move on the surface of the object, the position of the electric heating wire ring in the ring frame outside the object is adjusted according to the requirement, so that the heating efficiency of the object is effectively improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an annular contactless uniform heating device and a heating method according to the present invention;

FIG. 2 is a schematic view of a lifting assembly inside a base of the annular contactless uniform heating device and the heating method according to the present invention;

FIG. 3 is a schematic view of the structure of a bottom limit assembly of an operation table of the annular contactless uniform heating device and the heating method provided by the invention;

FIG. 4 is a schematic structural diagram of a fixing assembly of a ring-shaped non-contact uniform heating device and a heating method according to the present invention;

fig. 5 is a schematic diagram of the internal structure of a groove on the surface of an operation table of the annular contactless uniform heating treatment device and the heating treatment method.

Reference numerals in the schematic drawings illustrate:

1. an operation table; 2. a limit component; 201. a limiting clamp A; 202. a driving plate A; 203. a driving plate B; 204. a rubber block; 205. a limiting clamp B; 206. a thread bush A; 207. a bearing; 208. a thread bush B; 209. a motor A; 210. a fixed block; 211. a driving rod; 212. a fixed sleeve A; 213. a two-way threaded rod; 214. a conveyor belt; 215. a fixed sleeve B; 216. a chute; 3. a base; 4. rubber cushion; 5. a groove; 6. a ring frame; 7. an electric heating wire coil; 8. a lifting assembly; 801. a supporting rod A; 802. a support rod B; 803. a screw rod A; 804. a silk sleeve A; 805. a connecting block; 806. a connecting groove; 807. a driving bevel gear A; 808. driven helical gear A; 809. a bearing block A; 810. a screw rod B; 811. a driving bevel gear B; 812. a silk sleeve B; 813. a transmission rod; 814. a motor B; 815. driven helical gear B; 816. a bearing block B; 9. a through groove; 10. a fixing assembly; 1001. a fixed ring A; 1002. a fixed ring B; 1003. a threaded hole; 1004. the screw is driven.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art without making any inventive effort, based on the embodiments of the present invention are within the scope of the present invention, and the present invention is further described below with reference to the embodiments.

Referring to fig. 1 to 5, in one embodiment of the present application, an annular contactless uniform heating device and a heating method include a ring frame 6, a heating wire ring 7, an operation table 1, a base 3, and a lifting component 8 and a limiting component 2 disposed inside the base 3 and at the bottom of the operation table 1, wherein the lifting component 8 includes a motor B814 installed inside the base 3, a transmission rod 813 driving a driving bevel gear a807 and a driving bevel gear B811 to rotate is screwed on one side of the motor B814, the driving bevel gear a807 is located on the left side of the driving bevel gear B811, a driven bevel gear a808 driving the screw a803 to rotate is meshed and connected to the outer side of the driving bevel gear a807, a wire sleeve a804 driving the screw a801 to move is connected to the outer side of the driving bevel gear a 815, a wire sleeve B812 driving the screw B810 to rotate and process is connected to the outer side of the screw B810, a fixing ring a1001 fixing the ring frame 6 is welded on one side of the screw shaft B814, and the heating wire B7 is welded on the outer side of the ring frame 6;

the limiting component 2 comprises a motor A209 arranged at the bottom of the operating table 1, a driving rod 211 connected with a fixed sleeve A212 is arranged on one side of the motor A209, a conveying belt 214 for driving a fixed sleeve B215 to rotate is sleeved on the outer side of the fixed sleeve A212, a bidirectional threaded rod 213 for driving is connected with the inner side of the fixed sleeve B215 in a screwed mode, a thread sleeve A206 and a thread sleeve B208 are connected with the outer side of the bidirectional threaded rod 213 in a screwed mode, the thread sleeve A206 is positioned on the left side of the thread sleeve B208, a driving plate A202 connected with a limiting clamp A201 is welded on the outer side of the thread sleeve A206, and a driving plate B203 for driving the limiting clamp B205 to move is welded on the outer side of the thread sleeve B208.

The present embodiment is realized as follows: when the device does not operate, an object to be heated is placed on the operation table 1, then a motor A209 at the bottom of the operation table 1 converts received electric energy into mechanical energy, the motor A209 drives a fixed sleeve A212 outside a driving rod 211 to rotate, then a conveying belt 214 outside the fixed sleeve A212 drives a bidirectional threaded rod 213 inside a fixed sleeve B215 to rotate, then a thread sleeve A206 and a thread sleeve B208 outside the bidirectional threaded rod 213 respectively move outside the bidirectional threaded rod 213, then the thread sleeve A206 drives a driving plate A202 to move, the thread sleeve B208 drives a driving plate B203 to move, and then a limiting clamp A201 on the driving plate A202 and a limiting clamp B205 on the driving plate B203 are respectively in close contact with the object to be heated, so that the object to be heated is conveniently subjected to limiting treatment, the object is prevented from shifting during heating, after limiting and fixing the object, an electric heating wire ring 7 in a ring 6 heats the object by using resistance heat generated when electric current passes through an electric heating wire, then the motor B814 in the base 3 converts the received electric energy into mechanical energy, the motor B814 drives the driving bevel gear A807 and the driving bevel gear B811 outside the transmission rod 813 to rotate, then the driving bevel gear A807 drives the driven bevel gear A808 to rotate, then the driven bevel gear A808 drives the lead screw A803 to rotate, then the wire sleeve A804 outside the lead screw A803 drives the support rod A801 to move, meanwhile, the driving bevel gear B811 drives the lead screw B810 inside the driven bevel gear B815 to rotate, then the wire sleeve B812 outside the lead screw B810 drives the support rod B802 to move, then the support rod A801 and the support rod B802 respectively drive the fixed ring A1001 and the fixed ring B1002 to move, the fixed ring A1001 and the fixed ring B1002 drive the ring frame 6 to move, the ring frame 6 drives the electric heating wire ring 7 to move on the surface of an object, the position of the electric heating wire ring 7 inside the ring frame 6 is adjusted according to requirements, the heating efficiency of the object is effectively improved.

Referring to fig. 1 and 4, as a preferred embodiment of the present application, a fixing assembly 10 for fixing the ring frame 6 is disposed on the outer side of the ring frame 6, the fixing assembly 10 includes a fixing ring a1001 and a fixing ring B1002 contacting with the ring frame 6, the surfaces of the fixing ring a1001 and the fixing ring B1002 are provided with threaded holes 1003, and a driving screw 1004 for fixing the fixing ring a1001 and the fixing ring B1002 is screwed on the inner side of the threaded holes 1003.

Further, a groove 5 for placing the ring frame 6 and the heating wire coil 7 is formed in the surface of the operating platform 1, and a rubber pad 4 for protecting the heating wire coil 7 is screwed on the inner side of the groove 5.

Further, through grooves 9 for moving the support rod a801 and the support rod B802 are symmetrically formed inside the grooves 5.

Further, rubber blocks 204 for improving friction force to the heating element are screwed on the inner sides of the driving plate A202 and the driving plate B203.

The present embodiment is realized as follows: when the electric heating wire ring 7 in the ring frame 6 fails, the driving screw 1004 outside the fixed ring B1002 is rotated, then the driving screw 1004 is moved out of the threaded holes 1003 formed in the surfaces of the fixed ring A1001 and the fixed ring B1002, and then the fixed ring A1001 and the fixed ring B1002 are loosened with the ring frame 6 respectively, so that the ring frame 6 is disassembled, and the electric heating wire ring 7 in the ring frame 6 is convenient to maintain; after the heating wire 7 heats the object, the limiting clamp A201 and the limiting clamp B205 are separated from the object respectively, and then the supporting rod A801 and the supporting rod B802 move through the through groove 9 formed in the groove 5, so that the ring frame 6 drives the heating wire 7 to enter the groove 5 formed in the surface of the operating platform 1, and the heating wire 7 in the ring frame 6 is protected conveniently.

Referring to fig. 2-3, as a preferred embodiment of the present application, a bearing 207 is bolted to one side of the console 1, so that the driving rod 211 drives the fixing sleeve a212 to rotate.

Further, a bearing block A809 and a bearing block B816 are fixed on the inner side of the base 3 through screws, the bearing block A809 is located on the left side of the bearing block B816, the inner side of the bearing block A809 is matched with the screw rod A803 to rotate, and the inner side of the bearing block B816 is matched with the screw rod B810 to rotate.

Further, the outer sides of the wire sleeve a804 and the wire sleeve B812 are welded with a connecting block 805, and the inner side of the base 3 is provided with a connecting groove 806 for sliding the connecting block 805.

Further, the bottoms of the thread bush a206 and the thread bush B208 are welded with a fixed block 210, and a chute 216 for sliding the fixed block 210 is formed at the bottom of the console 1.

In practical application, when driven helical gear a808 and driven helical gear B815 drive lead screw a803 and lead screw B810 respectively to rotate, lead screw a803 rotates through bearing block a809 on base 3, lead screw B810 rotates through bearing block B816 on base 3, then screw sleeve a804 outside lead screw a803 starts to move, screw sleeve B812 moves outside lead screw B810, simultaneously connecting block 805 outside screw sleeve a804 and screw sleeve B812 slides in connecting slot 806 opened in base 3 respectively, the stability of movement of screw sleeve a804 and screw sleeve B812 is effectively improved, when motor a209 drives driving rod 211 to rotate, driving rod 211 rotates in bearing 207 at the bottom of operating table 1, when driving rod 211 stably drives outer conveyer belt 214 of fixed sleeve a212 to rotate, then conveyer belt 214 drives bidirectional threaded rod 213 on fixed sleeve B215 to rotate, screw sleeve a206 and screw sleeve B208 move outside bidirectional threaded rod 213, simultaneously fixed block 210 at the bottom of screw sleeve a206 and screw sleeve B208 slide in fixed slot opened at the bottom of base 3 respectively, and the stability of screw sleeve B206 and screw sleeve B are effectively improved.

The invention relates to a ring-shaped non-contact uniform heating treatment device and a heating treatment method, comprising the following steps,

step A, firstly, an object to be heated is placed on an operation table 1, then a motor A209 at the bottom of the operation table 1 converts received electric energy into mechanical energy, the motor A209 drives a fixed sleeve A212 outside a driving rod 211 to rotate, then a conveyor belt 214 outside the fixed sleeve A212 drives a bidirectional threaded rod 213 inside a fixed sleeve B215 to rotate, then a thread sleeve A206 and a thread sleeve B208 outside the bidirectional threaded rod 213 respectively move outside the bidirectional threaded rod 213, then the thread sleeve A206 drives a driving plate A202 to move, the thread sleeve B208 drives a driving plate B203 to move, and then a limiting clamp A201 on the driving plate A202 and a limiting clamp B205 on the driving plate B203 are respectively in close contact with the object to be heated, so that the object to be heated is convenient to carry out limiting treatment, and the object is prevented from shifting during heating;

step B, after limiting and fixing an object, heating the object by using resistance heat generated when current passes through the heating wire by the heating wire ring 7 in the ring frame 6, then converting received electric energy into mechanical energy by the motor B814 in the base 3, driving the driving bevel gear A807 and the driving bevel gear B811 outside the transmission rod 813 to rotate by the motor B814, driving the driven bevel gear A808 to rotate by the driving bevel gear A807, driving the screw rod A803 to rotate by the driven bevel gear A808, driving the strut A801 to move by the wire sleeve A804 outside the screw rod A803, driving the screw rod B810 inside the driven bevel gear B815 to rotate by the driving bevel gear B811, driving the strut B802 to move by the wire sleeve B812 outside the screw rod B810, driving the fixing ring A1001 and the fixing ring B1002 to move by the strut A801 and the fixing ring B1002 respectively, enabling the ring frame 6 to drive the heating wire ring 7 to move on the surface of the object, and adjusting the position of the heating wire ring 7 outside the object according to requirements, so that the heating efficiency of the object is effectively improved;

step C, when the electric heating wire ring 7 in the ring frame 6 fails, the driving screw 1004 outside the fixed ring B1002 is rotated, then the driving screw 1004 is moved out of the threaded holes 1003 formed in the surfaces of the fixed ring A1001 and the fixed ring B1002, and then the fixed ring A1001 and the fixed ring B1002 are loosened with the ring frame 6 respectively, so that the ring frame 6 is detached, and the electric heating wire ring 7 in the ring frame 6 is convenient to maintain; after the heating wire 7 heats the object, the limiting clamp A201 and the limiting clamp B205 are separated from the object respectively, and then the supporting rod A801 and the supporting rod B802 move through the through groove 9 formed in the groove 5, so that the ring frame 6 drives the heating wire 7 to enter the groove 5 formed in the surface of the operating platform 1, and the heating wire 7 in the ring frame 6 is protected conveniently.

The invention relates to an annular non-contact uniform heating treatment device and a heating treatment method, which are characterized in that a ring frame 6, an electric heating wire ring 7, an operation table 1, a lifting assembly 8 and a limiting assembly 2 are arranged, firstly, an object to be heated is placed on the operation table 1, a motor A209 at the bottom of the operation table 1 converts received electric energy into mechanical energy, the motor A209 drives a fixed sleeve A212 outside a driving rod 211 to rotate, a conveying belt 214 outside the fixed sleeve A212 drives a bidirectional threaded rod 213 in a fixed sleeve B215 to rotate, a thread sleeve A206 and a thread sleeve B208 outside the bidirectional threaded rod 213 respectively move outside the bidirectional threaded rod 213, the thread sleeve A206 drives a driving plate A202 to move, the thread sleeve B208 drives a driving plate B203 to move, a limiting clamp A201 on the driving plate A202 and a limiting clamp B205 on the driving plate B203 are respectively in close contact with the object to be heated, so that the object to be heated is subjected to limiting treatment, avoiding the deflection of the object during heating, after the object is limited and fixed, the electric heating wire ring 7 in the ring frame 6 heats the object by utilizing resistance heat generated when electric current passes through the electric heating wire, the electric heating wire ring 7 surrounds the outside of the object, so that the object can be uniformly heated, then a motor B814 in the base 3 converts received electric energy into mechanical energy, the motor B814 drives a driving bevel gear A807 and a driving bevel gear B811 outside a transmission rod 813 to rotate, then the driving bevel gear A807 drives a driven bevel gear A808 to rotate, then the driven bevel gear A808 drives a screw rod A803 to rotate, then a wire sleeve A804 outside the screw rod A803 drives a support rod A801 to move, meanwhile, a driving bevel gear B811 drives a screw rod B810 inside the driven bevel gear B815 to rotate, then a wire sleeve B812 outside the screw rod B810 drives a support rod B802 to move, and then the support rod A801 and the support rod B802 respectively push a fixing ring A1001 and the fixing ring B1002 to move, the fixed ring A1001 and the fixed ring B1002 drive the ring frame 6 to move, so that the ring frame 6 drives the electric heating wire coil 7 to move on the surface of an object, the position of the electric heating wire coil 7 in the ring frame 6 outside the object is adjusted according to the requirement, and the heating efficiency of the object is effectively improved.

The invention and its embodiments have been described above by way of illustration and not limitation, and the invention is illustrated in the accompanying drawings and described in the drawings in which the actual structure is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present invention.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The annular non-contact uniform heating treatment device and the annular non-contact uniform heating treatment method comprise a ring frame (6), an electric heating wire coil (7), an operating table (1) and a base (3), and a lifting component (8) arranged in the base (3) and a limiting component (2) arranged at the bottom of the operating table (1), and are characterized in that the lifting component (8) comprises a motor B (814) arranged in the base (3), a transmission rod (813) for driving a driving bevel gear A (807) and a driving bevel gear B (811) to rotate is screwed on one side of the motor B (814), the driving bevel gear A (807) is positioned on the left side of the driving bevel gear B (811), a driven bevel gear A (808) for driving a screw rod A (803) to rotate is connected on the outer side of the driving bevel gear A (803) in a meshed mode, a wire sleeve A (804) for driving a support rod A (801) to move is connected on the outer side of the driving bevel gear B (811) in a meshed mode, a driven bevel gear B (815) for driving a screw rod B (810) to rotate is connected on the outer side of the screw rod B (814) in a screwed mode, a ring frame (1001) is fixed on one side of the driving bevel gear B (801) to move, and the ring (801) is welded, a fixing ring B (1002) for fixing the ring frame (6) is welded on the outer side of the support rod B (802), and an electric heating wire ring (7) for heating is screwed on the inner side of the ring frame (6);

limiting component (2) including installing in motor A (209) of operation panel (1) bottom, motor A (209) one side is provided with drive lever (211) of connecting fixed cover A (212), and fixed cover A (212) outside has cup jointed conveyer belt (214) that drive fixed cover B (215) pivoted, fixed cover B (215) inboard screwed connection has two-way threaded rod (213) that carry out the transmission, screw thread cover A (206) and screw thread cover B (208) are connected in two-way threaded rod (213) outside screw thread, and screw thread cover A (206) are located screw thread cover B (208) left side, screw thread cover A (206) outside welding has drive plate A (202) of connecting spacing clamp A (201), screw thread cover B (208) outside welding has drive plate B (203) that drive spacing clamp B (205) removed.

2. The annular non-contact uniform heating treatment device and the heating treatment method according to claim 1, wherein a fixing assembly (10) for fixing the annular frame (6) is arranged on the outer side of the annular frame (6), the fixing assembly (10) comprises a fixing ring A (1001) and a fixing ring B (1002) which are in contact with the annular frame (6), threaded holes (1003) are formed in the surfaces of the fixing ring A (1001) and the fixing ring B (1002), and a driving screw (1004) for fixing the fixing ring A (1001) and the fixing ring B (1002) is connected to the inner side of the threaded holes (1003) in a threaded mode.

3. The annular non-contact uniform heating treatment device and the heating treatment method according to claim 1, wherein grooves (5) for placing the annular frame (6) and the heating wire coils (7) are formed on the surface of the operating table (1), and rubber pads (4) for protecting the heating wire coils (7) are screwed on the inner sides of the grooves (5).

4. The annular contactless uniform heating device and the heating method according to claim 1, wherein a bearing (207) for driving the fixed sleeve a (212) to rotate by the driving rod (211) is connected to one side of the operating table (1) through bolts.

5. The annular contactless uniform heating device and the heating method according to claim 3, wherein through grooves (9) for moving the support rod A (801) and the support rod B (802) are symmetrically formed inside the groove (5).

6. The annular contactless uniform heating device and the heating method according to claim 1, wherein a bearing block A (809) and a bearing block B (816) are fixed on the inner side of the base (3) through screws, the bearing block A (809) is positioned on the left side of the bearing block B (816), the inner side of the bearing block A (809) rotates in cooperation with the screw rod A (803), and the inner side of the bearing block B (816) rotates in cooperation with the screw rod B (810).

7. The annular contactless uniform heating device and the heating method according to claim 1, wherein the outer sides of the wire sleeve A (804) and the wire sleeve B (812) are welded with a connecting block (805), and the inner side of the base (3) is provided with a connecting groove (806) for enabling the connecting block (805) to slide.

8. The annular contactless uniform heating device and the heating method according to claim 1, wherein rubber blocks (204) for improving friction force to heating elements are screwed on the inner sides of the driving plate A (202) and the driving plate B (203).

9. The annular contactless uniform heating device and the heating method according to claim 1, wherein the bottoms of the thread bush a (206) and the thread bush B (208) are welded with a fixed block (210), and a sliding groove (216) for sliding the fixed block (210) is formed in the bottom of the operating table (1).

10. A method of using a herbicide compounding apparatus according to any one of claims 1 to 9, characterized in that: comprises the steps of,

firstly, placing an object to be heated on an operation table (1), then converting received electric energy into mechanical energy by a motor A (209) at the bottom of the operation table (1), driving a fixed sleeve A (212) outside a driving rod (211) by the motor A (209), and then driving a bidirectional threaded rod (213) in a fixed sleeve B (215) by a conveying belt (214) outside the fixed sleeve A (212) to rotate, respectively moving a thread sleeve A (206) and a thread sleeve B (208) outside the bidirectional threaded rod (213), driving a driving plate A (202) to move by the thread sleeve A (206), driving a driving plate B (203) to move by the thread sleeve B (208), and then tightly contacting a limiting clamp A (201) on the driving plate A (202) and a limiting clamp B (205) on the driving plate B (203) with the object to be heated, so that the object to be heated is convenient to limit and the object to be heated from being offset during heating;

step (B), after limiting and fixing an object, heating the object by using resistance heat generated when current passes through the heating wire by the heating wire coil (7) in the ring frame (6), then converting received electric energy into mechanical energy by the motor B (814) in the base (3), driving the driving bevel gear A (807) and the driving bevel gear B (811) outside the transmission rod (813) to rotate by the motor B (814), then driving the driven bevel gear A (808) to rotate by the driving bevel gear A (807), then driving the screw rod A (803) to rotate by the driven bevel gear A (808), then driving the screw rod A (801) by the wire sleeve A (804) outside the screw rod A (803), driving the screw rod B (810) inside the driven bevel gear B (815) to rotate by the driving bevel gear B (811), then driving the screw rod B (802) outside the screw rod B (801), then driving the fixing ring A (1001) and the fixing ring B (1002) to move by the strut A (1001) respectively, driving the fixing ring A (1001) and the fixing ring B (1002) to move by the strut A (801), and the heating wire sleeve A (801) outside the screw rod B (810) to move by the wire sleeve B (810), and the heating wire sleeve B (802) to move on the surface of the object to be adjusted to be positioned on the surface of the ring frame (6) to be moved by the heating wire (7), the heating efficiency of the object is effectively improved;

step (C), when the electric heating wire ring (7) in the ring frame (6) fails, a driving screw (1004) outside the fixed ring B (1002) is rotated, then the driving screw (1004) is moved out of threaded holes (1003) formed in the surfaces of the fixed ring A (1001) and the fixed ring B (1002), and then the fixed ring A (1001) and the fixed ring B (1002) are loosened with the ring frame (6) respectively, so that the ring frame (6) is detached, and the electric heating wire ring (7) in the ring frame (6) is convenient to maintain; after the heating wire coil (7) is used for heating an object, the limiting clamp A (201) and the limiting clamp B (205) are separated from the object respectively, and then the supporting rod A (801) and the supporting rod B (802) move through the through groove (9) formed in the groove (5), so that the ring frame (6) drives the heating wire coil (7) to enter the groove (5) formed in the surface of the operating platform (1), and the heating wire coil (7) in the ring frame (6) is protected conveniently.