CN113998488B - Tyre loader - Google Patents

Abstract

The invention belongs to the technical field of tire shipment, and particularly relates to a tire loader, which comprises a box body, wherein a base is arranged at the upper end of the inner bottom of the box body, a gear installation shaft is arranged in one side of the base in a sliding manner, a gear is arranged on the outer circumference of the gear installation shaft, a roller shaft is arranged on one side of the bottom of the base in a sliding manner, rollers are arranged outside the roller shaft, a sliding installation box is arranged on the same side of the base as the gear installation shaft in a sliding manner, a tooth groove is formed in the lower portion of one side of the sliding installation box, which faces towards the gear, a plurality of gear strips are fixedly arranged in the tooth groove along the height direction of the tooth groove, the gear strips are in meshed connection with the gear, a track groove is formed in the other side of the sliding installation box along the height direction of the sliding installation box, a connecting sliding block is arranged in the track groove in a sliding manner, a horizontal rotating plate is arranged on the side of the horizontal rotating shaft in a sliding manner, a transverse plate rotating shaft is arranged in a sliding manner, a transverse plate is fixedly arranged outside the transverse plate is arranged on the transverse plate rotating shaft, and a horizontal moving groove is arranged on the lower end face of the transverse plate. The invention can carry out omnibearing loading in the container on the compressed tires.

Description

Tyre loader

Technical Field

The invention belongs to the technical field of tire shipment, and particularly relates to a tire loader.

Background

The rubber tyre is one of important parts of the automobile, is directly contacted with the road surface, and is used for relieving the impact suffered by the automobile when the automobile runs together with an automobile suspension, so that the automobile is ensured to have good riding comfort and running smoothness; good adhesiveness between the wheels and the road surface is ensured; the traction, braking and passing performance of the automobile are improved; bearing the weight of the car.

When carrying out finished tire shipment and distribution, the existing automobile tire assembly manufacturing plant basically adopts a manual or forklift carrying mode to transport the tires to a transportation carriage, and packs and fixes the tires after the tires are orderly placed by stacking; in the tire carrying operation process, manual auxiliary carrying, stacking and packing or forklift carrying are needed; the whole tire carrying operation is low in efficiency, high in labor intensity, high in labor cost and high in safety risk of forklift carrying.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a tire loader which can load compressed tires in a container in all directions.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a tire loading machine, includes the box, bottom upper end is equipped with the base in the box, slide in base one side is equipped with the gear installation axle, gear installation axle outer circumference is equipped with the gear, base bottom one side slides and is equipped with the roller shaft, the roller shaft is equipped with the gyro wheel outward, the same side of base and gear installation axle slides and is equipped with the slidable mounting case, slidable mounting case is equipped with the tooth's socket towards one side lower part of gear, a plurality of gear strips have been set firmly along tooth's socket direction of height in the tooth's socket, the gear strip is connected with the gear meshing, slidable mounting case's opposite side is equipped with the track groove along slidable mounting case direction of height, the track is equipped with the connection slider in the inslot, slidable mounting case upper portion is equipped with the horizontal axis of rotation, the side of horizontal axis of rotation is equipped with the horizontal rotation board, the horizontal rotation board is equipped with the diaphragm axis of rotation in the sliding, the diaphragm axis of rotation has set firmly the diaphragm outward, the terminal surface is equipped with the horizontal migration groove under the diaphragm.

Preferably, one side is equipped with the rotation groove in the connection slider, the slip is equipped with the axis of rotation in the rotation groove, the both ends of axis of rotation are equipped with the rotation wheel, the upper end of connection slider is equipped with bullet piece mounting groove, the single step has set firmly the sliding housing in the bullet piece mounting groove, the sliding housing is slided and is equipped with the slide bar, the output of slide bar has set firmly the bullet piece, the bullet piece passes through buffer spring and links to each other with bullet piece mounting groove bottom, one side of connection slider is equipped with the tire and places the piece, the tire is placed the piece and is passed through hook plate and connection slider sliding connection.

Preferably, the tire is placed the piece bottom and is equipped with a plurality of removal axles with one side is outer to slide along tire length of placing the piece and direction of height respectively, remove the axle outward and remove the wheel, the tire is placed the inner bottom middle part in the piece upper end recess and is set firmly the flexible casing of push wheel, the flexible casing of push wheel slides and is equipped with the push wheel pole, the output of push wheel pole sets firmly the tire standing groove, the concave surface groove has been set firmly in the tire is placed the piece inner bottom both sides, concave surface groove upper end is equipped with the elastic pad.

Preferably, the tire standing groove upper end is equipped with a plurality of roller axles along tire standing groove upper end arc slip, the roller is equipped with the roller outward outside the roller axle, tire standing groove upper end one side is equipped with the connection sliding tray, connect sliding tray inner slide and be equipped with and connect the sliding block, it is equipped with the rotation connecting axle to connect sliding tray upper end one side slip, rotate the connecting axle and be equipped with the rotation connecting roller outward, connect sliding tray upper end one side and set firmly the push pedal seat, push pedal seat one side middle part is equipped with and connects the spacing groove, one side has set firmly in the tire standing block upper end recess and has connected spacing axle, connect spacing axle in connecting the spacing groove inner slide connection.

Preferably, the opposite side of push pedal seat has set firmly horizontal base, set firmly the horizontal migration casing on the horizontal base, the sliding is equipped with the horizontal migration pole in the horizontal migration casing, the output of horizontal migration pole has set firmly the promotion platform, the promotion platform is connected with horizontal base through pushing spring, it is equipped with a plurality of removal take axle to push away the platform altitude direction symmetry slip in the promotion platform, it is equipped with the removal area roller outward to remove the take axle, a plurality of removal area rollers pass through the removal area to be connected, opposite side elasticity is equipped with the clamping plate in the recess of tire placement piece upper end, the clamping plate passes through clamping spring and links to each other with the tire placement piece lateral wall, the tire is placed the outer side middle part that is close to sliding mounting case and is set firmly the magnetic attraction piece, the tire is placed the outer side upper portion that is close to sliding mounting case and is set firmly the hook frame mounting panel, the middle part is equipped with the hook frame in the hook frame mounting panel.

Preferably, the horizontal movement sliding block is arranged in the horizontal movement groove in a sliding manner, the magnetic attraction plate is fixedly arranged on one side in a groove at one end of the horizontal movement sliding block, the hooking bar rotating shaft is arranged on the other side in the groove of the horizontal movement sliding block in a sliding manner, the hooking bar is fixedly arranged outside the hooking bar rotating shaft, the second connecting plate is fixedly arranged on one side, close to the end, of the upper end of the transverse plate, the second coil shaft is fixedly arranged in the second connecting plate in a sliding manner, the supporting rods are fixedly arranged on two sides of the upper end face of the sliding mounting box, the connecting plates are fixedly arranged on the supporting rods, the coil shaft is arranged in the connecting plates in a sliding manner, and a connecting wire is connected between the coil shaft and the second coil shaft.

The beneficial effects are that:

1. can adapt to the different conditions in the container through the structure, carry out self-adjustment to different heights and lengths, make the tire can accurately prevent in the case.

2. The tire conveying device has the advantages that multiple tires can be conveyed at the same time, the tires are arranged in advance and then packaged, and the tires roll into the placing table and are orderly arranged through the pushing device.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a sectional view taken along the direction A-A in fig. 2.

Fig. 4 is a sectional view in the direction B-B of fig. 3.

Fig. 5 is a sectional view in the direction C-C of fig. 3.

Fig. 6 is a sectional view in the direction J-J of fig. 5.

Fig. 7 is an enlarged view of the structure at D in fig. 3.

Fig. 8 is an enlarged view of the structure at E in fig. 3.

Fig. 9 is an enlarged view of the structure at F in fig. 6.

Fig. 10 is an enlarged view of the structure at G in fig. 6.

Fig. 11 is an enlarged view of the structure at I in fig. 4.

Fig. 12 is an enlarged view of the structure at H in fig. 3.

In the drawing, a casing 10, a base 11, a gear mounting shaft 12, a gear 13, a roller shaft 14, a roller 15, a slide mounting case 16, a toothed groove 17, a gear bar 18, a track groove 19, a connecting slider 20, a rotating groove 21, a rotating shaft 22, a rotating wheel 23, a hook plate 24, a spring block mounting groove 25, a slide housing 26, a slide rod 27, a spring block 28, a buffer spring 29, a tire placing block 30, a moving shaft 31, a moving wheel 32, a concave groove 33, a push wheel telescoping housing 34, a push wheel rod 35, a tire placing groove 36, a roller shaft 37, a roller 38, a connecting slide groove 39, a connecting slide block 40, a rotating connecting shaft 41, a rotating connecting roller 42, a push plate seat 43, a connecting limit groove 44, a connecting limit shaft 45, a horizontal base 46, a horizontal moving housing 47, a push spring 48, a horizontal moving rod 49, a push platform 50, a moving belt shaft 51, a moving belt roller 52, a moving belt 53, a clamp spring 54, a clamp plate 55, a magnet 56, a hook bracket 57, a hook bracket 58, a spring 59, a horizontal rotating shaft 60, a horizontal rotating shaft 61, a horizontal rotating plate 61, a rotating shaft 62, a rotating ring plate 62, a rotating shaft 64, a connecting shaft 67, a horizontal ring plate 64, a connecting plate 68, a connecting shaft 75, a connecting plate 68, a horizontal rotating shaft 71, a connecting plate 67, a horizontal ring plate 67, a connecting plate 65, a horizontal rotating shaft 65, a connecting plate rotating shaft and so as well as shown.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that, the azimuth or positional relationship indicated by the terms "inner", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship that the inventive product is conventionally put in use, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

As shown in fig. 1-12, a tire loader comprises a box 10, a base 11 is arranged at the upper end of the inner bottom of the box 10, a gear installation shaft 12 is arranged in one side of the base 11 in a sliding manner, a gear 13 is arranged on the outer circumference of the gear installation shaft 12, a roller shaft 14 is arranged on one side of the bottom of the base 11 in a sliding manner, a roller 15 is arranged outside the roller shaft 14, a sliding installation box 16 is arranged on the same side of the base 11 as the gear installation shaft 12 in a sliding manner, tooth grooves 17 are formed in the lower portion of one side of the sliding installation box 16 facing the gear 13, a plurality of gear strips 18 are fixedly arranged in the tooth grooves 17 in the height direction of the tooth grooves 17, the gear strips 18 are in meshed connection with the gear 13, a connecting sliding block 20 is arranged on the other side of the sliding installation box 16 in the height direction of the sliding installation box 16 in a sliding manner, a horizontal rotating shaft 60 is arranged on the side of the sliding installation groove 19, a horizontal rotating shaft 61 is arranged on the inner side of the horizontal rotating shaft 60, a horizontal rotating shaft rotating plate 62 is arranged in the sliding manner, a horizontal rotating plate 62 is arranged on the inner side of the horizontal rotating plate 61, a horizontal rotating plate 62 is fixedly arranged on the outer side of the horizontal rotating plate 63, and a horizontal moving plate 64 is fixedly arranged on the lower end surface 63.

Further, a rotating groove 21 is formed in one side of the connecting sliding block 20, a rotating shaft 22 is arranged in the rotating groove 21 in a sliding mode, rotating wheels 23 are arranged at two ends of the rotating shaft 22, a spring block mounting groove 25 is formed in the upper end of the connecting sliding block 20, a sliding shell 26 is fixedly arranged in the spring block mounting groove 25 in a single-step mode, a sliding rod 27 is arranged in the sliding shell 26 in a sliding mode, a spring block 28 is fixedly arranged at the output end of the sliding rod 27, the spring block 28 is connected with the bottom of the spring block mounting groove 25 through a buffer spring 29, a tire placing block 30 is arranged on one side of the connecting sliding block 20, and the tire placing block 30 is connected with the connecting sliding block 20 in a sliding mode through a hook plate 24.

Further, a plurality of moving shafts 31 are respectively arranged at the bottom and one side of the tire placing block 30 in a sliding manner along the length and the height direction of the tire placing block 30, a moving wheel 32 is arranged outside the moving shafts 31, a push wheel telescopic shell 34 is fixedly arranged in the middle of the bottom in a groove at the upper end of the tire placing block 30, a push wheel rod 35 is arranged in the push wheel telescopic shell 34 in a sliding manner, a tire placing groove 36 is fixedly arranged at the output end of the push wheel rod 35, concave grooves 33 are fixedly arranged at two sides of the inner bottom of the tire placing block 30, and an elastic pad 59 is arranged at the upper end of the concave grooves 33.

Further, the upper end of the tire placing groove 36 is provided with a plurality of roller shafts 37 in an arc sliding manner along the upper end of the tire placing groove 36, rollers 38 are arranged outside the roller shafts 37, a connecting sliding groove 39 is formed in one side of the upper end of the tire placing groove 36, a connecting sliding block 40 is arranged in the connecting sliding groove 39 in a sliding manner, a rotating connecting shaft 41 is arranged on one side of the upper end of the connecting sliding block 40 in a sliding manner, a rotating connecting roller 42 is arranged outside the rotating connecting shaft 41, a push plate seat 43 is fixedly arranged on one side of the upper end of the connecting sliding block 40, a connecting limiting groove 44 is formed in the middle of one side of the push plate seat 43, a connecting limiting shaft 45 is fixedly arranged on one side of the inner side of the groove at the upper end of the tire placing block 30, and the connecting limiting shaft 45 is in sliding connection in the connecting limiting groove 44.

Further, the other side of the push plate seat 43 is fixedly provided with a horizontal base 46, the horizontal base 46 is fixedly provided with a horizontal moving shell 47, the horizontal moving shell 47 is internally provided with a horizontal moving rod 49, the output end of the horizontal moving rod 49 is fixedly provided with a push platform 50, the push platform 50 is connected with the horizontal base 46 through a push spring 48, a plurality of movable belt shafts 51 are symmetrically and slidably arranged in the push platform 50 along the height direction of the push platform 50, movable belt rollers 52 are arranged outside the movable belt shafts 51, the plurality of movable belt rollers 52 are connected through movable belts 53, the other side in a groove at the upper end of the tire placing block 30 is elastically provided with a clamping plate 55, the clamping plate 55 is connected with the side wall of the tire placing block 30 through a clamping spring 54, the middle part of one side, which is close to the sliding mounting box 16, of the tire placing block 30 is fixedly provided with a hook mounting plate 57, and the middle part of one side, which is close to the sliding mounting box 16, of the tire placing block 30 is fixedly provided with a hook mounting plate 58.

Further, the horizontal moving groove 64 is slidably provided with a horizontal moving sliding block 65, one side in a groove at one end of the horizontal moving sliding block 65 is fixedly provided with a magnetic attraction plate 66, the other side in the groove of the horizontal moving sliding block 65 is slidably provided with a hook strip rotating shaft 67, the hook strip rotating shaft 67 is externally fixedly provided with a hook strip 68, the upper end of the transverse plate 63 is fixedly provided with a second connecting plate 72 near one side of the end, the second connecting plate 72 is slidably provided with a second coil shaft 73, two sides of the upper end face of the sliding mounting box 16 are fixedly provided with support rods 69, the support rods 69 are fixedly provided with connecting plates 70, the coil shaft 71 is slidably provided with coil shafts 71, and connecting wires 74 are connected between the coil shafts 71 and the second coil shafts 73.

Principle of operation

In the initial state, the transverse plate 63 is embedded into the track groove 19, the connecting slide block 20 is arranged at the bottom of the transverse plate 63, when the connecting slide block is required to be used, the connecting wire 74 pulls the second connecting plate 72 through the rotating coil shaft 71 to drive the transverse plate 63 to rotate, so that the transverse plate 63 is in a horizontal state, and meanwhile, the gear 13 is rotated to enable the sliding mounting box 16 to ascend to be matched with the height of the box bottom.

When the tire is transferred onto the tire placing block 30 via the conveyor belt 75, the tire placing block 30 is placed horizontally in the initial state, the hook plate 24 is hooked with the rotating shaft 22, the tire rolls down into the concave groove 33, the horizontal moving rod 49 is extended to push the tire to the other side of the tire placing block 30, and then the tire returns to the initial position, the tire can move horizontally in the tire placing block 30 in the concave groove 33 through the roller 38, and when the number of tires in the concave groove 33 reaches a certain value, the horizontal moving rod 49 extends forward to be matched with the clamping plate 55 to clamp the tire.

After the tire is placed, one end of the tire placing block 30 is lifted through the connecting sliding block 20 to enable the tire placing block 30 to move upwards, the connecting sliding block 20 vertically slides in the track groove 19 to drive the joint of the tire placing block 30 and the connecting sliding block 20 to lift, the tire placing block 30 is enabled to incline, when the connecting sliding block 20 rises to a certain height, one side, provided with a plurality of moving shafts 31, of the tire placing block 30 is completely contacted with the outer surfaces of two sides of the track groove 19, and the tire placing block 30 is in a vertical state.

The connecting slide block 20 continues to rise to the bottom of the elastic block 28 and the transverse plate 63 to contact and squeeze so as to start the motor, so that the magnetic attraction plate 66 is connected with energy to generate strong magnetism so as to attract the magnetic attraction block 56, meanwhile, the hook strip 68 hooks the hook frame 58, the hook strip 68 is in an initial state of sagging along with gravity, and when the tire placing block 30 rises so that the hook frame 58 contacts with the hook strip 68, the hook strip 68 connects the hook frame 58 and prevents the tire placing block 30 from falling.

When the magnetic block 56 is connected with the magnetic plate 66, the hook plate 24 is disconnected with the rotating shaft 22 due to the height difference, at this time, the tire placing block 30 can horizontally move under the transverse plate 63, the horizontal moving sliding block 65 horizontally moves in the horizontal moving groove 64, the bottom moving wheel 32 of the tire placing block 30 entering the container at this time is contacted with the bottom of the container through the movement of the horizontal moving sliding block 65, when the tire placing block 30 slides to a certain distance from the inner wall of the container, the tire placing groove 36 is pushed out outwards through the push wheel rod 35, the tire placing groove 36 slides in cooperation with the connecting limiting groove 44 through the connecting limiting shaft 45 at the bottom and rotates the connecting roller 42 to form a certain inclination angle with the bottom when the tire placing groove 36 extends, and meanwhile, the moving belt roller 52 rotates to move the tire to the bottom of the container, at this time, the tires are stacked in a horizontal state.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims (2)

1. The tire loader comprises a box body (10), and is characterized in that a base (11) is arranged at the upper end of the inner bottom of the box body (10), a gear installation shaft (12) is arranged in one side of the base (11) in a sliding mode, a gear (13) is arranged on the outer circumference of the gear installation shaft (12), a roller shaft (14) is arranged on one side of the bottom of the base (11) in a sliding mode, a roller (15) is arranged outside the roller shaft (14), a sliding installation box (16) is arranged on the same side of the base (11) and the gear installation shaft (12) in a sliding mode, tooth grooves (17) are formed in the lower portion of one side of the sliding installation box (16) facing the gear (13), a plurality of gear strips (18) are fixedly arranged in the tooth grooves (17) in the height direction, the gear strips (18) are connected with the gear (13) in a meshed mode, a track groove (19) is formed in the other side of the sliding installation box (16) in the height direction, a connecting sliding block (20) is arranged in the track groove (19), a horizontal rotating shaft (60) is arranged on the upper portion of the sliding installation box (16), a horizontal rotating shaft (60) is arranged on the horizontal rotating shaft (60), a horizontal rotating plate (61) is arranged on the horizontal rotating plate (61), a transverse plate (63) is fixedly arranged outside the transverse plate rotating shaft (62), and a horizontal moving groove (64) is formed in the lower end face of the transverse plate (63);

a rotating groove (21) is formed in one inner side of the connecting sliding block (20), a rotating shaft (22) is arranged in the rotating groove (21) in a sliding mode, rotating wheels (23) are arranged at two ends of the rotating shaft (22), a spring block mounting groove (25) is formed in the upper end of the connecting sliding block (20), a sliding shell (26) is fixedly arranged in the spring block mounting groove (25) in a single-step mode, a sliding rod (27) is arranged in the sliding shell (26) in a sliding mode, a spring block (28) is fixedly arranged at the output end of the sliding rod (27), the spring block (28) is connected with the bottom of the spring block mounting groove (25) through a buffer spring (29), a tire placing block (30) is arranged on one side of the connecting sliding block (20), and the tire placing block (30) is connected with the connecting sliding block (20) in a sliding mode through a hook plate (24); the tire placing block is characterized in that a plurality of moving shafts (31) are respectively arranged at the bottom and one side of the tire placing block (30) in a sliding manner along the length and the height direction of the tire placing block (30), a moving wheel (32) is arranged outside the moving shafts (31), a push wheel telescopic shell (34) is fixedly arranged in the middle of the inner bottom of a groove at the upper end of the tire placing block (30), a push wheel rod (35) is arranged in the push wheel telescopic shell (34) in a sliding manner, a tire placing groove (36) is fixedly arranged at the output end of the push wheel rod (35), concave grooves (33) are fixedly arranged at two sides of the inner bottom of the tire placing block (30), and an elastic pad (59) is arranged at the upper end of each concave groove (33);

the upper end of the tire placing groove (36) is provided with a plurality of roller shafts (37) in an arc sliding manner along the upper end of the tire placing groove (36), rollers (38) are arranged outside the roller shafts (37), one side of the upper end of the tire placing groove (36) is provided with a connecting sliding groove (39), a connecting sliding block (40) is arranged in the connecting sliding groove (39) in a sliding manner, one side of the upper end of the connecting sliding block (40) is provided with a rotating connecting shaft (41) in a sliding manner, one side of the rotating connecting shaft (41) is provided with a rotating connecting roller (42) outside, one side of the upper end of the connecting sliding block (40) is fixedly provided with a push plate seat (43), one side middle of the push plate seat (43) is provided with a connecting limiting groove (44), one side of the upper end of the tire placing block (30) is fixedly provided with a connecting limiting shaft (45), and the connecting limiting shaft (45) is connected in a sliding manner in the connecting limiting groove (44). The utility model discloses a tire is placed in tire, including push pedal seat (43), push pedal seat (43) opposite side has set firmly horizontal base (46), horizontal movement casing (47) have set firmly on horizontal base (46), the interior horizontal movement casing (47) is equipped with horizontal movement pole (49), the output of horizontal movement pole (49) has set firmly pushing platform (50), pushing platform (50) are connected with horizontal base (46) through pushing spring (48), be equipped with a plurality of movable belt axle (51) along pushing platform (50) direction of height symmetry slip in pushing platform (50), movable belt axle (51) are equipped with movable belt roller (52) outward, a plurality of movable belt roller (52) are connected through movable belt (53), the opposite side elasticity is equipped with clamp plate (55) in the recess of tire placed piece (30), clamp plate (55) are linked to each other through clamp spring (54) and tire placed piece (30) lateral wall, tire placed piece (30) are close to one side mid-mounting plate (56) outside the slip mounting box, tire placed piece (30) are close to one side mid-mounting plate (57) in the mounting bracket (57) have set firmly.

2. The tire loader according to claim 1, wherein a horizontal moving slide block (65) is slidably arranged in the horizontal moving groove (64), a magnetic attraction plate (66) is fixedly arranged on one side in a groove at one end of the horizontal moving slide block (65), a hook strip rotating shaft (67) is slidably arranged on the other side in the groove of the horizontal moving slide block (65), a hook strip (68) is fixedly arranged outside the hook strip rotating shaft (67), a second connecting plate (72) is fixedly arranged on one side, close to the end, of the outer upper end of the transverse plate (63), of the second connecting plate (72), a second coil shaft (73) is slidably arranged in the second connecting plate (72), supporting rods (69) are fixedly arranged on two sides of the upper end face of the sliding mounting box (16), a connecting plate (70) is fixedly arranged on the supporting rods (69), a coil shaft (71) is slidably arranged in the connecting plate (70), and a connecting wire (74) is connected between the coil shaft (71) and the second coil shaft (73).