CN116237407A

CN116237407A - Kettle heating plate subtracting equipment

Info

Publication number: CN116237407A
Application number: CN202310112027.9A
Authority: CN
Inventors: 胡德青
Original assignee: Dongguan Shengde Electric Technology Co ltd
Current assignee: Dongguan Shengde Electric Technology Co ltd
Priority date: 2023-02-14
Filing date: 2023-02-14
Publication date: 2023-06-09
Anticipated expiration: 2043-02-14
Also published as: CN116237407B

Abstract

The invention discloses kettle heating plate material reducing equipment, which comprises an operation main body, wherein the operation main body comprises a base, the top of the base is fixedly connected with a weight box through a support column, the outer surface of the weight box is fixedly connected with a die for preparing a heating plate, and the top of the weight box is fixedly connected with a material winding unit for placing heating plate raw materials. This kettle dish that generates heat subtracts material equipment can solve effectively among the prior art, and it is poor to generate heat dish and subtract material process stability, and the dish that generates heat is stamped through subtracting material equipment by the coil stock, and the dish that generates heat after the punching press still remains at the mould upper surface, then dashes out the dish that generates heat after the punching press through pushing equipment, because electric kettle dish that generates heat designs to circularly, the dish that generates heat exists by pushing equipment pushing off tracking's condition, and then the dish that generates heat does not break away from the mould completely, damaged problem when leading to follow-up drift punching press again.

Description

Kettle heating plate subtracting equipment

Technical Field

The invention relates to the technical field of heating plate material reduction, in particular to kettle heating plate material reduction equipment.

Background

The bottom wall of the conventional electric kettle is mostly made of a metal sheet with high heat conductivity coefficient, and the electric heating disc is arranged on the bottom surface of the bottom wall of the kettle and directly heats the bottom wall of the kettle so as to heat liquid water in the kettle.

The production process of the traditional electric kettle heating plate comprises the steps of material reduction, blanking and stretching, flash cutting, oil removal, plate coating, brazing, sand blasting and electric detection, so that a complete heating plate is formed, but the traditional process route is poor in stability, particularly the heating plate material reduction procedure is achieved through punching of coiled materials through material reduction equipment, the punched heating plate still stays on the upper surface of a die, then the punched heating plate is punched out through pushing equipment, and the heating plate is not completely separated from the die due to the fact that the electric kettle heating plate is designed to be round and is pushed to be deviated by pushing equipment, so that the subsequent punching head is damaged when being punched again.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects existing in the prior art, the invention provides the heating plate material reducing equipment for the kettle, which can effectively solve the problems that in the prior art, the stability of the heating plate material reducing process is poor, the heating plate is obtained by punching a coil material through the material reducing equipment, the punched heating plate still stays on the upper surface of a die, then the punched heating plate is punched out through pushing equipment, and the heating plate is in a circular shape due to the fact that the heating plate is pushed to be deviated by the pushing equipment, and then the heating plate is not completely separated from the die, so that the heating plate is damaged when a subsequent punch is punched again.

Technical proposal

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides a kettle heating plate material reducing device, which comprises:

the operation main body comprises a base, wherein the top of the base is fixedly connected with a weight box through a support column, the outer surface of the weight box is fixedly connected with a die for preparing a heating plate, the top of the weight box is fixedly connected with a coil stock unit for placing raw materials of the heating plate, and a blanking assembly is arranged in a space surrounded by the base and the weight box;

the stamping part comprises a stamping part, and a support fixedly connected with the top of the base is arranged at the bottom of the stamping part;

the blanking assembly comprises a blanking box, the bottom of the blanking box is detachably arranged at the top of the base, and a protection piece for buffering falling of the heating disc is arranged in the blanking box.

Further, the mould includes the cover half, cover half keeps away from stamping workpiece one side and weight case surface fixed connection, the cover half has the kicking block through seting up at its inside reciprocal hole sliding connection, the kicking block is connected with the cover half inside through setting up the powerful spring at its terminal surface, kicking block is close to powerful spring one side fixedly connected with ear piece, the inside sliding connection of cover half has the spacing groove with ear piece surface sliding connection.

Further, the coil stock unit includes the driver, driver bottom and weight box top fixed connection, the output shaft outer end of driver is provided with the rolling frame for the place of dish raw materials generates heat.

Further, the stamping part comprises a stamping box, the bottom of the stamping box is fixedly connected with the top of the support, a punch is slidably connected in the stamping box, an external frame is fixedly connected to the circumference outer surface of the punch, a push rod is fixedly connected to the outer surface below the external frame and is slidably connected with the inside of the support, and a push block is fixedly connected to the outer surface above the external frame.

Further, the punch shaft axis is coincident with the fixed die shaft axis, and a spring plate is fixedly connected to one side of the weight box, which is close to the pushing block.

Further, a sliding plate is fixedly connected to one side of the top of the blanking box, square holes are formed in the sliding plate, and waste holes are formed in the base.

Further, the guard piece includes interior slide bar, blanking box surface passes through strengthening pipe and interior slide bar surface sliding connection, interior slide bar is close to blanking box one end fixedly connected with and blanking box inner wall sliding connection's push pedal, push pedal top fixedly connected with and blanking box surface sliding connection's fixture block, the push pedal bottom rotates to be connected with the roller pole with blanking box inner wall bottom closely laminating, slide bar one side is kept away from to the push pedal is connected with the shock attenuation board through the fixing base rotation, the shock attenuation board bottom is provided with the bent plate that is connected with the push pedal surface.

Further, one end of the inner slide rod, which is far away from the push plate, is fixedly connected with a circular plate which is coaxial with the push rod, the outer surface of the circular plate is provided with a reset spring connected with the outer surface of the blanking box, and the inner wall of the blanking box is fixedly connected with a positioning pin tightly attached to the upper surface of the push plate.

Advantageous effects

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

the invention is provided with the spring plate, the die and the coil stock machine set, firstly, the stamping mode of the invention is different from the traditional vertical stamping by adopting the transverse stamping, waste materials generated in the stamping process can be automatically discharged, and secondly, the stamped heating plate can be automatically separated, so that the condition that the die and the punch are damaged by subsequent stamping due to the fact that the heating plate is not completely separated from the die is avoided. The driver on the starting coil stock unit drives the dish raw materials that generates heat down to move, pass the square hole and extend to in the waste material hole, and laminate mutually with the elastic lamina surface, the dish raw materials that generates heat is kept away from the mould a certain distance this moment, stamping box on the punching press portion starts afterwards, the drift moves to mould one side, the ejector pad is preferential to contact the elastic lamina, promote the elastic lamina and take place elastic deformation, the dish raw materials that generates heat moves to mould one side this moment, the drift cooperation mould carries out quick punching to the dish raw materials that generates heat next, the drift after the punching press resets, drive the ejector pad and reset in step, and then the ejector pad is slowly disappeared to the elastic lamina, the elastic lamina resets, the dish raw materials that generates heat is kept away from the mould slowly, prevent to generate heat punching a hole on the dish raw materials, influence the dish that generates heat breaks away from fast, meanwhile, the ejector pad inside ejector pad receives powerful spring action, drive ejector pad outwards slides along reciprocating hole inner wall, the ejector pad drives the dish that generates heat after punching press and breaks away from the cover half, the dish raw materials that generates heat is kept away from after the cooperation punching press, the dish raw materials that generates heat can be completely automatic break away from.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic view of a three-dimensional structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a three-dimensional multi-angle structure according to an embodiment of the present invention;

FIG. 3 is a schematic view of a three-dimensional partial cross-section of an embodiment of the present invention;

FIG. 4 is a schematic view of a three-dimensional partial cross-section of a mold according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a blanking assembly according to an embodiment of the present invention;

FIG. 6 is a schematic view of a perspective structure of a guard according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a three-dimensional state transition of a guard according to an embodiment of the present invention.

Reference numerals in the drawings represent respectively: 1. an operation body; 11. a base; 12. a weight box; 13. a mold; 131. a fixed mold; 132. a reciprocating hole; 133. a top block; 134. a strong spring; 135. ear pieces; 136. a limit groove; 14. a coil stock unit; 141. a driver; 142. a winding frame; 15. a blanking assembly; 151. a blanking box; 152. a guard; 1521. an inner slide bar; 1522. a push plate; 1523. a clamping block; 1524. a roller bar; 1525. a shock absorbing plate; 1526. a bending plate; 1527. a circular plate; 1528. a return spring; 1529. a positioning pin; 153. a slide plate; 154. square holes; 2. a punching part; 21. stamping parts; 211. punching a box; 212. a punch; 213. an external frame; 214. a push rod; 215. a pushing block; 22. a support; 3. a spring plate; 4. waste holes.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples:

referring to fig. 1 to 7, the present invention provides a technical solution: a kettle heating plate material reducing device, comprising:

the operation main body 1, the operation main body 1 comprises a base 11, the top of the base 11 is fixedly connected with a weight box 12 through a support column, the outer surface of the weight box 12 is fixedly connected with a die 13 for preparing a heating plate, the top of the weight box 12 is fixedly connected with a coil stock unit 14 for placing raw materials of the heating plate, and a blanking assembly 15 is arranged in a space surrounded by the base 11 and the weight box 12;

the stamping part 2, wherein the stamping part 2 comprises a stamping part 21, and a support 22 fixedly connected with the top of the base 11 is arranged at the bottom of the stamping part 21;

wherein, blanking subassembly 15 includes blanking case 151, and blanking case 151 bottom and base 11 top demountable installation are provided with the guard 152 that is used for the dish whereabouts buffering that generates heat in the blanking case 151 inside.

The mould 13 includes the cover half 131, cover half 131 keeps away from stamping workpiece 21 one side and weight box 12 surface fixed connection, cover half 131 has kicking block 133 through seting up the reciprocating hole 132 sliding connection in its inside, kicking block 133 is connected with cover half 131 inside through setting up the powerful spring 134 in its terminal surface, kicking block 133 is close to powerful spring 134 one side fixedly connected with ear piece 135, cover half 131 inside sliding connection has the spacing groove 136 with ear piece 135 surface sliding connection, ear piece 135 slides along spacing groove 136 inner wall, spacing groove 136 carries out spacing to ear piece 135), kicking block 133 drives the dish that generates heat after the punching press and breaks away from cover half 131, the cooperation dish raw materials that generates heat is kept away from, ensure that the dish that generates heat after the punching press can be completely automatic break away from (fall into blanking subassembly 15).

The coil stock unit 14 includes driver 141, and driver 141 bottom and weight box 12 top fixed connection, and the output shaft outer end of driver 141 is provided with rolling frame 142 for the place of dish raw materials generates heat.

Stamping part 21 includes stamping box 211, stamping box 211 bottom and support 22 top fixed connection, stamping box 211 inside sliding connection has drift 212, and drift 212 circumference surface fixed connection has external frame 213, external frame 213 below surface fixed connection have with support 22 inside sliding connection's push rod 214, external frame 213 top surface fixed connection has ejector pad 215.

The axial lead of the punch 212 is coincident with the axial lead of the fixed die 131, and the spring plate 3 is fixedly connected to one side of the weight box 12 close to the push block 215. At first, the dish raw materials that generates heat moves downwards, pass square hole 154 and extend to in the waste material hole 4, and laminate mutually with the elastic lamina 3 surface, the dish raw materials that generates heat is kept away from mould 13 a certain distance this moment, push block 215 is the contact elastic lamina 3 first, promote elastic lamina 3 and take place elastic deformation, the dish raw materials that generates heat receives the thrust of elastic lamina 3 and disappear this moment, and then move to mould 13 one side (the dish raw materials that generates heat is perpendicular downwards, reduce with mould 13's interval, improve stamping accuracy), during the time of resetting, push block 215 slowly disappears the elastic lamina 3 extrusion force, elastic lamina 3 resets, elastic lamina 3 drives the dish raw materials that generates heat slowly and keeps away from mould 13, prevent punching a hole on the dish raw materials that generates heat, influence the dish that generates heat breaks away from fast.

A sliding plate 153 is fixedly connected to one side of the top of the blanking box 151, a square hole 154 is formed in the sliding plate 153, and a waste hole 4 is formed in the base 11.

The guard 152 includes interior slide rod 1521, fall box 151 surface passes through strengthening tube and interior slide rod 1521 surface sliding connection, interior slide rod 1521 is close to fall box 151 one end fixedly connected with and fall box 151 inner wall sliding connection's push pedal 1522, push pedal 1522 top fixedly connected with and fall box 151 surface sliding connection's fixture block 1523, push pedal 1522 bottom rotates to be connected with fall box 151 inner wall bottom closely laminating roller 1524, push pedal 1522 is kept away from interior slide rod 1521 one side and is connected with shock attenuation board 1525 through the fixing base rotation, shock attenuation board 1525 bottom is provided with the bent plate 1526 that is connected with push pedal 1522 surface. The blanking box 151 top one side fixedly connected with slide 153, the cooperation heats the shielding of dish raw materials, can make the dish that generates heat that breaks away from cover half 131, normally fall to on the shock attenuation board 1525 of guard 152 (short distance whereabouts), slide 153 prevents that the dish that generates heat from falling into the outside damage of blanking box 151, the upper surface of shock attenuation board 1525 and slide 153 are whole all to adopt the rubber material, have fine cushioning effect, cooperation bent plate 1526's buffering, guarantee the steady whereabouts of dish that generates heat of short distance removal, compare traditional pushing equipment with the dish that generates heat after the punching press and wash out (the dish level that generates heat flies out, also can collide each other), reduce the dish that generates heat greatly by the circumstances of collision damage.

One end of the inner slide bar 1521, which is far away from the push plate 1522, is fixedly connected with a circular plate 1527 which is coaxial with the push rod 214, the outer surface of the circular plate 1527 is provided with a reset spring 1528 which is connected with the outer surface of the blanking box 151, and the inner wall of the blanking box 151 is fixedly connected with a positioning pin 1529 which is tightly attached to the upper surface of the push plate 1522. When the push plate 1522 slides each time, the shock absorbing plate 1525 is driven to move synchronously, the positioning pin 1529 slides along the upper surface of the shock absorbing plate 1525, and generates downward extrusion force on the shock absorbing plate 1525 to drive the shock absorbing plate 1525 to overturn downwards (the bending plate 1526 is elastically deformed), so as to ensure that the heating plate on the shock absorbing plate 1525 is completely separated from the shock absorbing plate 1525.

Referring to fig. 1-7, the conventional electric kettle heating plate production process route has poor stability, particularly the heating plate material reducing process, the heating plate is obtained by punching a coil material through material reducing equipment, the punched heating plate still stays on the upper surface of a die, then the punched heating plate is punched out through pushing equipment, and as the electric kettle heating plate is designed into a round shape, the heating plate is pushed to be deviated by the pushing equipment, and then the heating plate is not completely separated from the die, so that the subsequent punching head is damaged when being punched again;

in order to overcome the defects, the invention designs a heating plate material reducing device for a kettle.

The stamping mode of the heating plate comprises the following steps:

firstly, the stamping mode of the invention is different from the traditional vertical stamping mode in that waste materials generated in the stamping process can be automatically discharged, and secondly, the stamped heating plate can be automatically separated, so that the situation that the heating plate is not completely separated from the die 13, and the die 13 and the punch 212 are damaged in the subsequent stamping is avoided;

specifically, the driver 141 (preferably driven by a servo motor) on the coil stock unit 14 is started, the rotating rod on the coil stock unit 142 is driven to rotate, the heating disc raw material is driven to move downwards, the heating disc raw material passes through the square hole 154 and extends into the scrap hole 4 and is attached to the outer surface of the spring plate 3, the heating disc raw material is far away from the die 13 by a certain distance, then the punching box 211 on the punching part 2 is started, the inside hydraulic push rod drives the punch 212 on the punching part 21 to move towards one side of the die 13, the external frame 213, the push rod 214 and the push block 215 are driven to synchronously move, the push block 215 is preferentially contacted with the spring plate 3, the spring plate 3 is pushed to elastically deform, the heating disc raw material is subjected to the thrust of the spring plate 3 at the moment, then moves towards one side of the die 13 (the heating disc raw material is vertically downwards, the distance between the heating disc raw material and the die 13 is shortened, and the punching precision is improved), then the punch 212 is matched with the die 13 to punch the heating disc raw material (the punch 212 and the die 13 are both in two groups, and the two groups of punched simultaneously, and the punched coordinate points are alternately distributed up and down, and left and right, and the utilization rate of the heating disc raw material is improved.

The ram 212 after punching press resets, drive the ejector pad 215 and reset in step, and then the ejector pad 215 slowly disappears to the extrusion force of elastic plate 3, elastic plate 3 resets, elastic plate 3 drives the dish raw materials that generates heat slowly and keeps away from mould 13, prevent punching a hole on the dish raw materials that generates heat, influence the dish that generates heat breaks away from fast, simultaneously, the inside kicking block 133 of mould 13 receives powerful spring 134 elasticity effect, drive kicking block 133 outwards slides along reciprocating hole 132 inner wall (ear piece 135 slides along spacing groove 136 inner wall, spacing groove 136 carries out spacing to ear piece 135), kicking block 133 drives the dish that generates heat after the punching press and breaks away from cover half 131, the dish raw materials that cooperate generates heat is kept away from, ensure that the dish that generates heat after the punching press can break away from (fall into blanking subassembly 15) automatically completely.

Because of structural characteristics, the edge of the heating plate is thinner after stamping, and then the heating plate after stamping is stamped out by traditional pushing equipment, the side collision deformation of the heating plate is easy to cause (the heating plates fly out horizontally and collide with each other).

Blanking assembly 15 advantage:

the advantage one, blanking box 151 top one side fixedly connected with slide 153, the cooperation heats the shielding of dish raw materials, can make the dish that generates heat that breaks away from cover half 131, normally fall to on the shock attenuation board 1525 of guard 152 (short distance whereabouts), slide 153 prevents that the dish that generates heat from falling into blanking box 151 outside damage, shock attenuation board 1525's upper surface and slide 153 are whole all to adopt the rubber material, have fine cushioning effect, cooperation bent plate 1526's buffering, guarantee the steady whereabouts of dish that generates heat of short distance removal, compare traditional pushing equipment with the dish that generates heat after punching press and wash out (the dish level that generates heat flies out, also can collide each other), reduce the dish that generates heat greatly by the circumstances of collision damage.

The second advantage is that after several times of stamping, the heat-generating disks falling from the upper surface of the shock-absorbing plate 1525 accumulate more and more, so as to avoid the heat-generating disks staying on the shock-absorbing plate 1525 (if there is a heat-generating disk on the shock-absorbing plate 1525, the falling heat-generating disk will collide with the lower heat-generating disk again). Firstly, during each punching, the push rod 214 drives the circular plate 1527 to move towards the blanking box 151, drives the inner slide rod 1521 to push the push plate 1522 to slide along the inner wall of the blanking box 151 (the roller rod 1524 rolls along the bottom of the inner wall of the blanking box 151, so that friction force in the moving process of the push plate 1522 is reduced, the clamping block 1523 is matched with the roller rod 1524 to ensure that the push plate 1522 stably slides, the push plate 1522 is prevented from shifting), and then the push plate 1522 pushes the heating plate falling in front, so that the heating plate is far away from the reset shock absorbing plate 1525 (the heating plate on the shock absorbing plate 1525 can freely fall), and each punching can push the heating plate falling last time to avoid accumulation of the heating plate. Meanwhile, when the push plate 1522 slides each time, the shock absorbing plate 1525 is driven to move synchronously, the positioning pin 1529 slides along the upper surface of the shock absorbing plate 1525, so as to generate downward extrusion force on the shock absorbing plate 1525, drive the shock absorbing plate 1525 to overturn downwards (the bending plate 1526 is elastically deformed), and further ensure that the heating plate on the shock absorbing plate 1525 is completely separated from the shock absorbing plate 1525.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims

1. A kettle heating plate subtracting equipment, which is characterized by comprising:

the operation main body (1), the operation main body (1) comprises a base (11), a weight box (12) is fixedly connected to the top of the base (11) through a support column, a die (13) for preparing a heating plate is fixedly connected to the outer surface of the weight box (12), a coil winding machine set (14) for placing heating plate raw materials is fixedly connected to the top of the weight box (12), and a blanking component (15) is arranged in a space surrounded by the base (11) and the weight box (12);

the stamping part (2), the stamping part (2) comprises a stamping part (21), and a support (22) fixedly connected with the top of the base (11) is arranged at the bottom of the stamping part (21);

the blanking assembly (15) comprises a blanking box (151), the bottom of the blanking box (151) is detachably mounted on the top of the base (11), and a protection piece (152) for buffering falling of the heating disc is arranged inside the blanking box (151).

2. A kettle heating pan subtracting device as claimed in claim 1, wherein: the die (13) comprises a fixed die (131), one side, away from a stamping part (21), of the fixed die (131) is fixedly connected with the outer surface of the weight box (12), the fixed die (131) is slidably connected with a top block (133) through a reciprocating hole (132) formed in the fixed die, the top block (133) is internally connected with the fixed die (131) through a powerful spring (134) arranged on the end face of the top block, an ear block (135) is fixedly connected with one side, close to the powerful spring (134), of the top block (133), and a limiting groove (136) is slidably connected with the outer surface of the ear block (135) in the fixed die (131).

3. A kettle heating pan subtracting device as claimed in claim 1, wherein: the coil stock unit (14) comprises a driver (141), the bottom of the driver (141) is fixedly connected with the top of the weight box (12), and a winding frame (142) is arranged at the outer end of an output shaft of the driver (141) and used for placing heating disc raw materials.

4. A kettle heating pan subtracting device as claimed in claim 2, wherein: stamping workpiece (21) are including punching press case (211), punching press case (211) bottom and support (22) top fixed connection, punching press case (211) inside sliding connection has drift (212), external frame (213) of drift (212) circumference surface fixedly connected with, external frame (213) below surface fixedly connected with push rod (214) with support (22) inside sliding connection, external frame (213) top surface fixedly connected with ejector pad (215).

5. The kettle heating pan subtracting device as claimed in claim 4, wherein: the axial lead of the punch (212) is coincident with the axial lead of the fixed die (131), and one side of the weight box (12) close to the push block (215) is fixedly connected with a spring plate (3).

6. A kettle heating pan subtracting device as claimed in claim 1, wherein: the blanking box (151) top one side fixedly connected with slide (153), square hole (154) have been seted up to slide (153) inside, waste material hole (4) have been seted up to base (11) inside.

7. The kettle heating pan subtracting device as claimed in claim 4, wherein: the protection piece (152) comprises an inner slide rod (1521), the outer surface of the blanking box (151) is in sliding connection with the outer surface of the inner slide rod (1521) through a reinforcing pipe, the inner slide rod (1521) is close to a push plate (1522) which is fixedly connected with the inner wall of the blanking box (151) and is in sliding connection with the inner wall of the blanking box (151), a clamping block (1523) which is fixedly connected with the outer surface of the blanking box (151) is fixedly connected with the top of the push plate (1522), a roller rod (1524) which is tightly attached to the bottom of the inner wall of the blanking box (151) is rotationally connected with the bottom of the push plate (1522), one side of the push plate (1522) away from the inner slide rod (1521) is rotationally connected with a shock absorption plate (1525) through a fixing seat, and the bottom of the shock absorption plate (1525) is provided with a bending plate (1526) which is connected with the outer surface of the push plate (1522).

8. The kettle heating pan subtracting device as claimed in claim 7, wherein: one end of the inner slide rod (1521) away from the push plate (1522) is fixedly connected with a circular plate (1527) coaxial with the push plate (214), the outer surface of the circular plate (1527) is provided with a reset spring (1528) connected with the outer surface of the blanking box (151), and the inner wall of the blanking box (151) is fixedly connected with a positioning pin (1529) tightly attached to the upper surface of the push plate (1522).