CN113275650B

CN113275650B - Crushing equipment is retrieved to abandonment boiler

Info

Publication number: CN113275650B
Application number: CN202110833121.4A
Authority: CN
Inventors: 吴煜祥
Original assignee: Nantong Zhongyi Boiler Equipment Co ltd
Current assignee: Nantong Zhongyi Boiler Equipment Co ltd
Priority date: 2021-07-22
Filing date: 2021-07-22
Publication date: 2021-09-28
Anticipated expiration: 2041-07-22
Also published as: CN113275650A

Abstract

The invention discloses waste boiler recycling and crushing equipment which comprises a main box body, wherein an extrusion mechanism is arranged in the main box body, a cutting mechanism is arranged on the lower side of the extrusion mechanism, and a supporting wheel mechanism is arranged on the lower side of the cutting mechanism; the boiler cover and the boiler bottom are cut off along the outer circular surface of the boiler by the saw blade rotating at a high speed, the middle part of the boiler is flattened by the extruding mechanism, and the middle part of the boiler can be flattened by a smaller extruding force due to the fact that the support of the boiler cover and the boiler bottom is not provided, so that the operation strength of the device is greatly reduced, the service life of the device is prolonged, and the space between the left side saw blade and the right side saw blade can be adjusted, so that boilers with different sizes can be cut and extruded, the applicability of the device is greatly improved, and the boiler cover and the boiler bottom flattening device are simple in structure, convenient to operate and convenient to popularize.

Description

Crushing equipment is retrieved to abandonment boiler

Technical Field

The invention relates to the technical field related to boiler recovery equipment, in particular to waste boiler recovery crushing equipment.

Background

The boiler is an energy converter, it is the equipment that utilizes the heat energy or other heat energy of fuel burning release to certain parameter with working medium water or other fluid heating, abandonment boiler recovery is generally to place abandonment boiler in the extrusion equipment at present, flatten it, make its volume reduce, perhaps directly drop into the breaker and rub, in order to reach the purpose of convenient transportation, but because the boiler mostly is close sealed cylindric, if directly extrude, need great extrusion force just can flatten it, not only extravagant energy has still increased the working strength of extruder, shorten the life of extruder.

Disclosure of Invention

The invention aims to provide a waste boiler recycling and crushing device which is used for overcoming the defects in the prior art.

The waste boiler recycling and crushing equipment comprises a main box body, wherein an extrusion mechanism is arranged in the main box body, a cutting mechanism is arranged on the lower side of the extrusion mechanism, and a supporting wheel mechanism is arranged on the lower side of the cutting mechanism;

the extrusion mechanism comprises an extrusion plate and is used for extruding the waste boiler;

the cutting mechanism comprises a cutting box arranged on the lower side of the extrusion plate, a clutch transmission mechanism is arranged in the cutting box, and the cutting mechanism is used for cutting off the top and the bottom of the waste boiler;

the clutch transmission mechanism comprises a sliding end face tooth, a driven end face tooth is arranged on the left side of the sliding end face tooth, a driven belt wheel is arranged on the right side of the sliding end face tooth, a driving belt wheel is arranged on the lower side of the driven belt wheel, and the clutch transmission mechanism is used for switching movement and cutting action of the cutting mechanism;

the supporting wheel mechanism comprises supporting wheels, and the supporting wheel mechanism is used for supporting and assisting the rolling boiler.

A further technical scheme, be equipped with the extrusion chamber that link up about in the main tank body, extrusion chamber front side intercommunication is equipped with the forward boiler chamber of opening, extrusion chamber upside be equipped with main tank body fixed connection's pneumatic cylinder, the terminal surface is fixed with downwardly extending under the pneumatic cylinder the hydraulic stem in the extrusion chamber, extrusion chamber downside intercommunication is equipped with the supporting wheel chamber, the supporting wheel chamber left and right sides all communicates and is equipped with first spout, first spout is kept away from supporting wheel chamber side intercommunication is equipped with the second spout.

According to a further technical scheme, the extrusion mechanism further comprises a transverse moving motor arranged in the extrusion plate, the extrusion plate is fixed on the lower end face of the hydraulic rod and forms a pair of sliding pairs with the extrusion cavity, a threaded block sliding cavity with a downward opening and located on the left side of the transverse moving motor is arranged in the extrusion plate, a transverse moving motor shaft which extends leftwards and penetrates through the threaded block sliding cavity to the left end wall of the threaded block sliding cavity is fixed on the left end face of the transverse moving motor, and a threaded block which is located in the threaded block sliding cavity, forms a pair of sliding pairs with the threaded block sliding cavity and extends downwards into the extrusion cavity is connected to the transverse moving motor shaft in a threaded fit mode.

A further technical scheme is that the cutting mechanism further comprises a power transmission motor arranged in the cutting box, the cutting box is fixed on the lower end face of the thread block, a saw blade seat sliding cavity which is located on the right side of the power transmission motor and has a downward opening is arranged in the cutting box, an end face tooth transmission cavity is arranged on the right side of the saw blade seat sliding cavity, a transmission pulley cavity which is located on the right side of the saw blade seat sliding cavity is arranged on the right side of the end face tooth transmission cavity, a saw blade transmission shaft which extends through the saw blade seat sliding cavity to the transmission pulley cavity rightwards is fixed on the right end face of the power transmission motor, a lead screw which extends through the saw blade seat sliding cavity to the end face tooth transmission cavity rightwards is rotationally matched on the left end wall of the saw blade seat sliding cavity, two saw blade seats which form a pair of sliding pairs and are bilaterally symmetrical with the saw blade seat sliding cavity are connected on the lead screw in a threaded matching manner, the saw blade seat is internally provided with a saw blade cavity with a downward opening, a spline shaft sleeve which extends leftwards and penetrates through the saw blade cavity to the inside of the right end wall of the saw blade cavity is rotationally matched with the left end wall of the saw blade cavity, a saw blade positioned in the saw blade cavity is fixed on the spline shaft sleeve, and the saw blade transmission shaft is in spline fit connection with the spline shaft sleeve.

According to a further technical scheme, the clutch transmission mechanism further comprises an end face tooth shaft sleeve which is arranged in the end face tooth transmission cavity right end wall through a bearing and extends leftwards into the end face tooth transmission cavity and rightwards into the transmission belt wheel cavity, the driven end face tooth is fixed at the right end of the screw rod, the driven belt wheel shaft is in spline fit with the end face tooth shaft sleeve positioned in the end face tooth transmission cavity, the sliding end face tooth is fixed at the left end of the end face tooth shaft sleeve, the right end of the end face tooth shaft sleeve is in rotating fit with a magnetic shaft sleeve seat, an end face tooth electromagnet which forms a pair of rotating pairs with the driven belt wheel shaft is fixed in the end face tooth transmission cavity right end wall, an end face tooth spring is fixed between the left end face of the end face tooth electromagnet and the right end face of the magnetic shaft sleeve seat, and the driven belt wheel is fixed at the right end of the driven belt wheel shaft, the driving belt wheel is fixed at the tail end of the right side of the saw blade transmission shaft, and a transmission belt is connected between the driving belt wheel and the driven belt wheel in a power fit manner.

According to the technical scheme, the supporting wheel mechanism further comprises a magnetic shaft seat which forms a pair of sliding pairs with the second sliding groove, the left side of the supporting wheel mechanism is rotationally matched with the magnetic shaft seat to extend rightwards to penetrate through the left side of the supporting wheel mechanism, the first sliding groove, the supporting wheel cavity and the right side of the supporting wheel mechanism, the first sliding groove is communicated with the right side of the supporting wheel mechanism, the magnetic shaft seat forms a pair of rotating pairs with the supporting wheel shaft, the supporting wheel is fixed on the supporting wheel shaft and located in the supporting wheel cavity, a shaft seat electromagnet is fixed on the lower end wall of the second sliding groove, and a shaft seat spring is fixed between the upper end face of the shaft seat electromagnet and the lower end face of the magnetic shaft seat.

The invention has the beneficial effects that: the boiler cover and the boiler bottom are cut off along the outer circular surface of the boiler by the saw blade rotating at a high speed, the middle part of the boiler is flattened by the extruding mechanism, and the middle part of the boiler can be flattened by a smaller extruding force due to the fact that the support of the boiler cover and the boiler bottom is not provided, so that the operation strength of the device is greatly reduced, the service life of the device is prolonged, and the space between the left side saw blade and the right side saw blade can be adjusted, so that boilers with different sizes can be cut and extruded, the applicability of the device is greatly improved, and the boiler cover and the boiler bottom flattening device are simple in structure, convenient to operate and convenient to popularize.

Drawings

FIG. 1 is a schematic view of the overall appearance of a waste boiler recovery crushing apparatus according to the present invention;

FIG. 2 is a schematic view of the internal structure of a waste boiler recycling and crushing apparatus according to the present invention;

FIG. 3 is a schematic view of A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is an enlarged, fragmentary, schematic view at B of FIG. 2 of the present invention;

FIG. 5 is an enlarged, fragmentary, schematic view at C of FIG. 2 of the present invention;

FIG. 6 is an enlarged partial schematic view of the invention at D in FIG. 2;

fig. 7 is an enlarged partial schematic view at E of fig. 2 of the present invention.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention, taken in conjunction with the examples, should be understood that the following text is only intended to describe one waste boiler recovery and fragmentation plant or several specific embodiments of the invention, and not to strictly limit the scope of the invention as specifically claimed, as used herein, the terms upper, lower, left and right are not limited to strict geometric definitions thereof, but include tolerances for reasonable and inconsistent machining or human error, the specific features of which are set forth in detail below:

referring to fig. 1 to 7, the waste boiler recycling and crushing device according to the embodiment of the present invention includes a main box 10, wherein an extrusion mechanism is disposed in the main box 10, a cutting mechanism is disposed at a lower side of the extrusion mechanism, and a supporting wheel mechanism is disposed at a lower side of the cutting mechanism;

the extrusion mechanism comprises an extrusion plate 20 and is used for extruding the waste boiler;

the cutting mechanism comprises a cutting box 30 arranged on the lower side of the extrusion plate 20, a clutch transmission mechanism is arranged in the cutting box 30, and the cutting mechanism is used for cutting off the top and the bottom of the waste boiler;

the clutch transmission mechanism comprises sliding end face teeth 50, driven end face teeth 59 are arranged on the left side of the sliding end face teeth 50, driven pulleys 52 are arranged on the right side of the sliding end face teeth 50, driving pulleys 55 are arranged on the lower sides of the driven pulleys 52, and the clutch transmission mechanism is used for switching movement and cutting action of the cutting mechanism;

the support wheel mechanism comprises support wheels 40 for supporting and assisting in rolling the boiler.

Exemplarily, be equipped with in the main tank body 10 and control extrusion chamber 11 that link up, extrusion chamber 11 front side intercommunication is equipped with the forward boiler chamber 14 of opening, extrusion chamber 11 upside be equipped with main tank body 10 fixed connection's pneumatic cylinder 12, the terminal surface is fixed with downwardly extending to under the pneumatic cylinder 12 hydraulic stem 13 in the extrusion chamber 11, extrusion chamber 11 downside intercommunication is equipped with supporting wheel chamber 15, supporting wheel chamber 15 all communicates on the left and right sides and is equipped with first spout 16, first spout 16 is kept away from supporting wheel chamber 15 side intercommunication is equipped with second spout 17.

Illustratively, the extrusion mechanism further comprises a traverse motor 21 arranged in the extrusion plate 20, the extrusion plate 20 is fixed on the lower end surface of the hydraulic rod 13 and forms a pair of sliding pairs with the extrusion cavity 11, a threaded block sliding cavity 23 with a downward opening and located on the left side of the traverse motor 21 is arranged in the extrusion plate 20, a traverse motor shaft 24 extending leftwards and penetrating through the threaded block sliding cavity 23 to the left end wall of the threaded block sliding cavity 23 is fixed on the left end surface of the traverse motor 21, and a threaded block 22 located in the threaded block sliding cavity 23, forming a pair of sliding pairs with the threaded block sliding cavity 23 and extending downwards into the extrusion cavity 11 is connected to the traverse motor shaft 24 in a threaded fit manner.

Exemplarily, the cutting mechanism further comprises a power transmission motor 310 arranged in the cutting box 30, the cutting box 30 is fixed on the lower end face of the thread block 22, a saw blade seat sliding cavity 31 which is located on the right side of the power transmission motor 310 and has a downward opening is arranged in the cutting box 30, an end face tooth transmission cavity 34 is arranged on the right side of the saw blade seat sliding cavity 31, a transmission pulley cavity 35 which is located on the right side of the saw blade seat sliding cavity 31 is arranged on the right side of the end face tooth transmission cavity 34, a saw blade transmission shaft 32 which extends through the saw blade seat sliding cavity 31 to the transmission pulley cavity 35 rightwards is fixed on the right end face of the power transmission motor 310, a screw rod 33 which extends through the saw blade seat sliding cavity 31 to the end face tooth transmission cavity 34 rightwards is rotationally matched on the left end wall of the saw blade seat sliding cavity 31, two saw blade seats 36 which form a pair of sliding pairs and are bilaterally symmetrical with the saw blade seat sliding cavity 31 are connected in a threaded fit manner on the screw rod 33, a saw blade cavity 37 with a downward opening is arranged in the saw blade seat 36, a spline shaft sleeve 39 which extends leftwards and penetrates through the saw blade cavity 37 to the inside of the right end wall of the saw blade cavity 37 is rotationally matched with the left end wall of the saw blade cavity 37, a saw blade 38 positioned in the saw blade cavity 37 is fixed on the spline shaft sleeve 39, and the saw blade transmission shaft 32 is in spline fit connection with the spline shaft sleeve 39.

Illustratively, the clutch transmission mechanism further comprises a driven pulley shaft 53 which is mounted in the right end wall of the face tooth transmission cavity 34 through a bearing, extends leftwards into the face tooth transmission cavity 34 and extends rightwards into the driving pulley cavity 35, the driven face tooth 59 is fixed at the right end of the screw rod 33, a face tooth shaft sleeve 58 which is positioned in the face tooth transmission cavity 34 is in spline fit with the driven pulley shaft 53, the sliding face tooth 50 is fixed at the left end of the face tooth shaft sleeve 58, a magnetic shaft sleeve seat 57 is in rotation fit with the right end of the face tooth shaft sleeve 58, a face tooth electromagnet 51 which forms a pair of rotation pairs with the driven pulley shaft 53 is fixed in the right end wall of the face tooth transmission cavity 34, a face tooth spring 56 is fixed between the left end face of the face tooth electromagnet 51 and the right end face of the magnetic shaft sleeve seat 57, the driven pulley 52 is fixed at the right end of the driven pulley shaft 53, the driving pulley 55 is fixed at the right end of the saw blade transmission shaft 32, and a transmission belt 54 is connected between the driving pulley 55 and the driven pulley 52 in a power fit manner.

Exemplarily, the supporting wheel mechanism further includes a magnetic shaft seat 44 forming a pair of sliding pairs with the second sliding groove 17, the left magnetic shaft seat 44 is rotatably matched with a supporting wheel shaft 43 extending rightward to penetrate through the left first sliding groove 16, the supporting wheel cavity 15 and the right first sliding groove 16 to form a pair of rotating pairs with the right magnetic shaft seat 44, the supporting wheel 40 is fixed on the supporting wheel shaft 43 and located in the supporting wheel cavity 15, a shaft seat electromagnet 41 is fixed on the lower end wall of the second sliding groove 17, and a shaft seat spring 42 is fixed between the upper end surface of the shaft seat electromagnet 41 and the lower end surface of the magnetic shaft seat 44.

In the initial state of the device, the end face tooth electromagnet 51 is in a power-off state, the end face tooth spring 56 is in a relaxed state, the sliding end face tooth 50 is not meshed with the driven end face tooth 59, the shaft seat electromagnet 41 is in a power-off state, the shaft seat spring 42 is in a relaxed state, the supporting wheel 40 is positioned in the supporting wheel cavity 15, and the left and right side saw blade seats 36 are mutually attached.

When the boiler needs to be cut, the shaft seat electromagnet 41 is started, so that the shaft seat electromagnet 41 electrically repels the magnetic shaft seat 44, the shaft seat electromagnet 41 overcomes the pulling force of the shaft seat spring 42 to move upwards, the supporting wheel shaft 43 is driven to move upwards, and the supporting wheel 40 moves upwards for a certain distance.

At this time, the upper side of the supporting wheel 40 is higher than the lower end wall of the extrusion chamber 11, and the boiler is placed between the front and rear supporting wheels 40 through the boiler chamber 14, and the middle position of the boiler is approximately coincident with the middle position of the supporting wheel 40.

At this time, the end face tooth electromagnet 51 is activated so that the end face tooth electromagnet 51 electrically repels the magnetic boss base 57, thereby causing the magnetic boss base 57 to move leftward against the tensile force of the end face tooth spring 56, thereby driving the end face tooth boss 58 to move leftward, and further causing the sliding end face tooth 50 to move leftward to mesh with the driven end face tooth 59.

Meanwhile, the power transmission motor 310 is started to drive the blade transmission shaft 32 to rotate, so that the driving pulley 55 rotates, the driven pulley 52 is driven to rotate through the transmission belt 54, and then the driven pulley shaft 53 rotates, so that the end surface tooth shaft sleeve 58 rotates, and thus the sliding end surface tooth 50 rotates, and then the driven end surface tooth 59 rotates, and then the lead screw 33 rotates, so that the left and right side blade holders 36 are far away from each other.

When the left and right blade holders 36 move outward to positions respectively close to the bottom of the pot, the end face tooth electromagnet 51 is closed, so that the sliding end face tooth 50 moves rightward under the action of the pulling force of the end face tooth spring 56 to be disengaged from the driven end face tooth 59, the driven end face tooth 59 stops rotating, and the blade holders 36 stop moving.

At this time, the hydraulic cylinder 12 is started, so that the hydraulic rod 13 moves downwards to drive the extrusion plate 20 to move downwards, so that the cutting box 30 moves downwards to drive the saw blade seat 36 to move downwards, and further the saw blade 38 moves downwards to touch the outer circular surface of the boiler, and the boiler is driven to rotate by rotating the saw blade 38, and is simultaneously cut open.

After the boiler rotates for a circle, the bottom of the boiler covered by the boiler is completely cut off by the rotating saw blade 38 and falls onto the lower end wall of the extrusion cavity 11, the boiler body is still positioned on the supporting wheel 40, the hydraulic cylinder 12 stops, and the cutting box 30 stops moving downwards.

At this time, the shaft seat electromagnet 41 is closed, so that the shaft seat electromagnet 41 is powered off, the magnetic shaft seat 44 loses the repulsive force, the magnetic shaft seat 44 moves downwards under the action of the pulling force of the shaft seat spring 42, so that the supporting wheel 40 moves downwards to the initial position, and the pot body moves downwards to the lower end wall along with the supporting wheel 40.

At this time, the traverse motor 21 is started to drive the traverse motor shaft 24 to rotate, so that the thread block 22 moves leftwards, and the cutting box 30 is driven to move leftwards, and when the cutting box 30 moves leftwards to be completely positioned on the left side of the pot body, the traverse motor 21 is stopped, and the cutting box 30 stops moving.

And restarting the hydraulic cylinder 12 to drive the extrusion plate 20 to move downwards until the extrusion plate 20 touches the surface of the pot body, and continuing to move downwards until the pot body is flattened, so that the subsequent transportation and processing are facilitated.

The hydraulic cylinder 12 is reversely started to move the extrusion plate 20 upwards to the initial position, then the traverse motor 21 is reversely started to move the cutting box 30 rightwards to the initial position, and the flattened boiler body and the boiler bottom of the boiler cover are taken out to perform the cutting and extruding operation of the next boiler.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a crushing equipment is retrieved to abandonment boiler, includes the main tank body, its characterized in that: an extrusion mechanism is arranged in the main box body, a cutting mechanism is arranged on the lower side of the extrusion mechanism, and a supporting wheel mechanism is arranged on the lower side of the cutting mechanism;

the supporting wheel mechanism comprises supporting wheels, and the supporting wheel mechanism is used for supporting and assisting the rolling boiler;

the main box body is internally provided with a left-right through extrusion cavity, the front side of the extrusion cavity is communicated with a boiler cavity with a forward opening, the upper side of the extrusion cavity is provided with a hydraulic cylinder fixedly connected with the main box body, the lower end surface of the hydraulic cylinder is fixedly provided with a hydraulic rod extending downwards into the extrusion cavity, the lower side of the extrusion cavity is communicated with a supporting wheel cavity, the left side and the right side of the supporting wheel cavity are both communicated with a first chute, and the side of the first chute far away from the supporting wheel cavity is communicated with a second chute;

the extrusion mechanism further comprises a transverse moving motor arranged in the extrusion plate, the extrusion plate is fixed on the lower end face of the hydraulic rod, a pair of sliding pairs is formed between the extrusion plate and the extrusion cavity, a threaded block sliding cavity with a downward opening and positioned on the left side of the transverse moving motor is arranged in the extrusion plate, a transverse moving motor shaft which extends leftwards and penetrates through the threaded block sliding cavity to the left end wall of the threaded block sliding cavity is fixed on the left end face of the transverse moving motor, and a threaded block which is positioned in the threaded block sliding cavity, forms a pair of sliding pairs between the threaded block sliding cavity and extends downwards into the extrusion cavity is connected to the transverse moving motor shaft in a threaded fit mode.

2. The waste boiler recycling crushing apparatus of claim 1, wherein: the cutting mechanism also comprises a power transmission motor arranged in the cutting box, the cutting box is fixed on the lower end face of the thread block, a saw blade seat sliding cavity with a downward opening and positioned on the right side of the power transmission motor is arranged in the cutting box, an end face tooth transmission cavity is arranged on the right side of the saw blade seat sliding cavity, a transmission pulley cavity positioned on the right side of the saw blade seat sliding cavity is arranged on the right side of the end face tooth transmission cavity, a saw blade transmission shaft which extends through the saw blade seat sliding cavity to the belt pulley cavity rightwards is fixed on the right end face of the power transmission motor, a lead screw which extends through the saw blade seat sliding cavity to the end face tooth transmission cavity rightwards is rotationally matched in the left end wall of the saw blade seat sliding cavity, two saw blade seats which form a pair of sliding pairs and are bilaterally symmetrical with the saw blade seat sliding cavity are in threaded fit connection on the lead screw, the saw blade seat is internally provided with a saw blade cavity with a downward opening, a spline shaft sleeve which extends leftwards and penetrates through the saw blade cavity to the inside of the right end wall of the saw blade cavity is rotationally matched with the left end wall of the saw blade cavity, a saw blade positioned in the saw blade cavity is fixed on the spline shaft sleeve, and the saw blade transmission shaft is in spline fit connection with the spline shaft sleeve.

3. The waste boiler recycling crushing apparatus of claim 2, wherein: the clutch transmission mechanism further comprises a driven pulley shaft arranged in the end face tooth transmission cavity right end wall through a bearing and extending leftwards to the end face tooth transmission cavity and extending rightwards to the transmission pulley cavity, the driven end face tooth is fixed at the right end of the screw rod, an end face tooth shaft sleeve positioned in the end face tooth transmission cavity is in spline fit with the driven pulley shaft, the sliding end face tooth is fixed at the left end of the end face tooth shaft sleeve, a magnetic shaft sleeve seat is in running fit with the right end of the end face tooth shaft sleeve, an end face tooth electromagnet forming a pair of rotating pairs with the driven pulley shaft is fixed in the end face tooth transmission cavity right end wall, an end face tooth spring is fixed between the left end face of the end face tooth electromagnet and the right end face of the magnetic shaft sleeve seat, the driven pulley is fixed at the right end of the driven pulley shaft, and the driving pulley is fixed at the right end of the saw blade transmission shaft, and a driving belt is connected between the driving belt wheel and the driven belt wheel in a power fit manner.

4. The waste boiler recycling crushing apparatus of claim 3, wherein: the supporting wheel mechanism is characterized in that the supporting wheel mechanism further comprises a magnetic shaft seat which forms a pair of sliding pairs with the second sliding groove, the left side of the magnetic shaft seat is in rotating fit with a supporting wheel shaft which extends rightwards to penetrate through the left side of the magnetic shaft seat, the first sliding groove, the supporting wheel cavity and the right side of the magnetic shaft seat, the first sliding groove and the right side of the supporting wheel cavity form a pair of rotating pairs, the supporting wheel is fixed on the supporting wheel shaft and located in the supporting wheel cavity, a shaft seat electromagnet is fixed on the lower end wall of the second sliding groove, and a shaft seat spring is fixed between the upper end face of the shaft seat electromagnet and the lower end face of the magnetic shaft seat.