CN111085296A

CN111085296A - Fuse insulator reducing mechanism

Info

Publication number: CN111085296A
Application number: CN202010086151.9A
Authority: CN
Inventors: 不公告发明人
Original assignee: Yongkang Serial Electronics Co ltd
Current assignee: Xinyang Power Supply Co of State Grid Henan Electric Power Co Ltd
Priority date: 2020-02-11
Filing date: 2020-02-11
Publication date: 2020-05-01
Anticipated expiration: 2040-02-11
Also published as: CN111085296B

Abstract

The invention discloses a fuse insulator crushing device, which comprises a machine body, wherein a feeding cavity with an inclined plane is arranged in the machine body, a water storage cavity is arranged above the right side of the feeding cavity, the left end of the water storage cavity is connected with a water outlet pipe, the left end of the water outlet pipe extends into the upper end wall of the feeding cavity and is fixedly connected with a spray head, the lower end of the water storage cavity is provided with a water inlet pipe, a first rotating shaft is rotatably arranged on the front wall and the rear wall of the feeding cavity, a hairbrush is fixedly connected onto the first rotating shaft, a rubber pad is rotatably arranged on the right end wall of the hairbrush of the feeding cavity, a first sliding chute is arranged on the left end wall of the feeding cavity, a first movable plate is in sliding fit with the first sliding chute, a transmission cavity is arranged on the left side of the first sliding chute, a transmission device is arranged in the transmission cavity, a waste water cavity is, the filter screen is installed in the connection of waste water chamber right-hand member the inlet tube lower extreme, feed chamber right-hand member is connected with crushing chamber, it is equipped with the filter chamber to smash the chamber lower extreme.

Description

Fuse insulator reducing mechanism

Technical Field

The invention relates to the technical field of electric switches, in particular to a fuse insulator crushing device.

Background

The high-voltage electricity is seen everywhere in life, and the fuse is a very important thing for protecting the normal and accident prevention of the high-voltage electricity circuit. Insulators are basically installed in high-voltage fuses, the insulators are usually made of ceramics, the insulators cannot be used continuously after being eliminated, and few conductive sheets are electrified to influence crushing and reprocessing.

Disclosure of Invention

Aiming at the technical defects, the invention provides a fuse insulator crushing device which can overcome the defects.

The invention discloses a fuse insulator crushing device, which comprises a machine body, wherein a feeding cavity with an inclined plane is arranged in the machine body, a water storage cavity is arranged above the right side of the feeding cavity, the left end of the water storage cavity is connected with a water outlet pipe, the left end of the water outlet pipe extends into the upper end wall of the feeding cavity and is fixedly connected with a spray head, the lower end of the water storage cavity is provided with a water inlet pipe, a first rotating shaft is rotatably arranged on the front wall and the rear wall of the feeding cavity, a hairbrush is fixedly connected onto the first rotating shaft, a rubber pad is rotatably arranged on the right end wall of the hairbrush of the feeding cavity, a first sliding chute is arranged on the left end wall of the feeding cavity, a first movable plate is in sliding fit with the first sliding chute, a transmission cavity is arranged on the left side of the first sliding chute, a transmission device is arranged in the transmission cavity, a waste water cavity, the right end of the waste water cavity is connected with the lower end of the water inlet pipe, the lower end of the water inlet pipe is provided with a filter screen, the right end of the material supply cavity is connected with a crushing cavity, the lower end of the crushing cavity is provided with a filter cavity, the bottom wall of the crushing cavity is provided with filter holes communicated with the filter cavity, the crushing cavity is internally provided with a heavy hammer with a spine on the bottom wall in a sliding fit manner, the upper end of the heavy hammer is fixedly connected with a second connecting rod, the machine body is provided with a rotating groove with an upward opening on the outer wall of the upper end of the crushing cavity, the upper end of the second connecting rod extends into the rotating groove and is connected with a wall body between the rotating groove and the crushing cavity in a sliding manner, the second connecting rod is rotatably connected with a second rotating rod in the rotating groove, the second rotating rod is fixedly connected with a first connecting rod, the upper end of the first connecting rod, the main motor power is connected with a main transmission shaft, a main transmission device is arranged in the rotating cavity, a waste cavity is arranged at the front end of the crushing cavity, and a fixed clamping block with an inclined plane is fixedly connected to the right end wall of the waste cavity.

Preferably, the main transmission device comprises a third bevel gear fixedly mounted on the main transmission shaft, a fourth rotating shaft is rotatably arranged on the left end wall of the rotating cavity, a half gear and a fourth helical gear are fixedly connected to the fourth rotating shaft, the upper end of the fourth helical gear is meshed with the third helical gear, the half gear is meshed with an annular rack which is in sliding fit with the left end wall of the rotating cavity, the front end of the annular rack is fixedly connected with an electromagnet, the upper end of the rotating cavity is provided with a second rotating cavity and a third rotating cavity, the upper end of the main transmission shaft penetrates through the third rotating cavity and extends into the second rotating cavity, a gear is fixedly arranged in the second rotating cavity of the main transmission shaft, the gear engagement have rotate the installation with the second rotates the second pivot of chamber rear end wall, second pivot right-hand member stretches out organism fixedly connected with carousel, the carousel rotates to be connected first bull stick.

Preferably, final drive shaft in the third rotates intracavity fixedly connected with fourth band pulley, the third rotate the chamber in the final drive shaft left end is equipped with rotates the fifth pivot of being connected with last lower wall, fifth pivot fixedly connected with fifth band pulley and third cam, the fifth band pulley passes through the third conveyer belt and connects the fourth band pulley, the water storage chamber upper end is connected with the second inlet tube, the water storage chamber is equipped with the piston board, piston board rear end wall passes through second spring coupling water storage chamber rear end wall, fixed mounting has the third slide bar on the piston board rear end wall, the third slide bar rear end stretches into the third rotates the chamber contact the third cam.

Preferably, the lower end of the filter cavity is provided with a second through hole penetrating through the machine body, four groups of fixed rods distributed in a matrix are fixedly arranged on the bottom wall of the filter cavity, the upper ends of the fixed rods are rotatably connected with a third rotating rod, the third rotating rod is fixedly connected with a roller, a filter disc is placed at the upper end of the roller, a filter screen is arranged at the bottom of the filter disc, the left end of the filter disc is rotatably connected with a rocker, the left end of the rocker is rotatably connected with a second slide rod, the left end of the crushing cavity is provided with a movable cavity, the left end of the second slide rod extends into the movable cavity and is slidably connected with a wall body between the movable cavity and the crushing cavity, the left end of the second slide rod is fixedly connected with a second movable plate in the movable cavity, the bottom wall of the movable cavity is provided with a second chute, the second chute is slidably matched with, the movable cavity bottom wall is fixedly provided with an auxiliary motor, the auxiliary motor is in power connection with a first transmission shaft, and the upper end of the first transmission shaft is fixedly provided with a second cam and a third belt wheel.

Preferably, the transmission device comprises a second transmission shaft rotatably connected to the upper end wall and the lower end wall of the transmission cavity, the lower end of the second transmission shaft extends into the second belt wheel fixedly connected to the movable cavity, the second belt wheel is connected to the third belt wheel through a second conveyor belt, the second transmission shaft is fixedly connected to a first cam in the transmission cavity, the upper end wall of the first cam is provided with a T-shaped ring groove, a second fixed rod is arranged in the T-shaped ring groove in a sliding fit manner, the upper end of the second fixed rod is fixedly connected to a first slide bar, the first slide bar is in a sliding fit with the upper end wall of the transmission cavity, the right end of the first slide bar extends into the first chute and is fixedly connected to a first movable plate, the upper end of the transmission cavity is provided with a second movable cavity, the upper end of the second transmission shaft extends into the second movable cavity and is fixedly connected to a second helical gear, and the second movable cavity is, and a first belt wheel and a first helical gear are fixedly mounted on the third rotating shaft, the lower end of the first helical gear is meshed with the second helical gear, the first belt wheel is connected with a sixth belt wheel through a first conveying belt, and the rear end of the first rotating shaft extends into the second movable cavity and is fixedly connected with the sixth belt wheel.

The beneficial effects are that: this device simple structure, convenient operation, through the smashing of final drive shaft control insulator, spray rivers to the feed chamber through cam control water tank function simultaneously and carry out cleaning work to the insulator, to the kibbling interval of insulator, through semi-gear and annular rack control electro-magnet with sheetmetal and the insulator separation after smashing, the particle size after the secondary filter control through filtration pore and filter disc is smashed guarantees that the finished product can be used to subsequent processing.

Drawings

In order to more clearly illustrate the embodiments of the 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, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a fuse insulator crushing apparatus according to the present invention;

FIG. 2 is a schematic left side sectional view of the main drive shaft of FIG. 1;

FIG. 3 is an enlarged top view of the fourth pulley shown in FIG. 2;

FIG. 4 is an enlarged schematic view of a rear cross-section of the first shaft shown in FIG. 1

Fig. 5 is an enlarged structural diagram of the first cam in fig. 1 from the top.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a fuse insulator crushing device, which comprises a machine body 1, wherein a material supply cavity 26 with an inclined plane is arranged in the machine body 1, a water storage cavity 7 is arranged above the right side of the material supply cavity 26, the left end of the water storage cavity 7 is connected with a water outlet pipe 6, the left end of the water outlet pipe 6 extends into the upper end wall of the material supply cavity 26 and is fixedly connected with a spray head 5, the lower end of the water storage cavity 7 is provided with a water inlet pipe 8, the front wall and the rear wall of the material supply cavity 26 are rotatably provided with a first rotating shaft 2, the first rotating shaft 2 is fixedly connected with a hairbrush 3, the material supply cavity 26 is rotatably provided with a rubber pad 4 on the right end wall of the hairbrush 3, the left end wall of the material supply cavity 26 is provided with a first sliding chute 33, a first movable plate 34 is in sliding fit with the first sliding chute 33, the left side of the first sliding chute 33 is provided with a transmission cavity 52, the top wall of the waste water cavity 42 is provided with a plurality of groups of through holes 39 communicated with the material supply cavity 26, the right side of the waste water cavity 42 is connected with the lower end of the water inlet pipe 8, the lower end of the water inlet pipe 8 is provided with a filter screen, the right end of the material supply cavity 26 is connected with a crushing cavity 16, the lower end of the crushing cavity 16 is provided with a filter cavity 19, the bottom wall of the crushing cavity 16 is provided with a filter hole 18 communicated with the filter cavity 19, the crushing cavity 16 is internally and fittingly provided with a heavy hammer 17 with a sharp spine on the bottom wall, the upper end of the heavy hammer 17 is fixedly connected with a second connecting rod 14, the outer wall of the machine body 1 at the upper end of the crushing cavity 1 is provided with a rotating groove 15 with an upward opening, the upper end of the second connecting rod 14 extends into the rotating groove 15 and is connected with a wall body between the rotating groove 15 and, second bull stick 13 first connecting rod 9 of fixedly connected with, first bull stick 10 of first connecting rod 9 upper end fixedly connected with, it is equipped with rotation chamber 62 to smash the chamber 16 rear end, it has main motor 60 to rotate fixed mounting on the 62 diapire of chamber, main motor 60 power connection has final drive shaft 53, it is equipped with final drive unit to rotate intracavity 62, it is equipped with waste chamber 65 to smash the chamber 16 front end, waste chamber 65 right-hand member wall fixedly connected with has the fixture block 64 on inclined plane.

Advantageously, the main transmission device comprises a third bevel gear 56 fixedly mounted on the main transmission shaft 53, a fourth rotating shaft 59 is rotatably mounted on the left end wall of the rotating cavity 62, a half gear 59 and a fourth bevel gear 57 are fixedly connected to the fourth rotating shaft 59, the upper end of the fourth bevel gear 57 is engaged with the third bevel gear 56, the half gear 59 is engaged with an annular rack 58 in sliding fit with the left end wall of the rotating cavity 62, an electromagnet 63 is fixedly connected to the front end of the annular rack 58, a second rotating cavity 66 and a third rotating cavity 76 are arranged on the upper end of the rotating cavity 62, the upper end of the main transmission shaft 53 passes through the third rotating cavity 76 and extends into the second rotating cavity 66, a gear 67 is fixedly mounted in the second rotating cavity 66 of the main transmission shaft 53, the gear 67 is engaged with a second rotating shaft 11 rotatably mounted on the rear end wall of the second rotating cavity 66, the right end of the second rotating shaft 11 extends out of the machine body 1 and is fixedly connected with a rotating disc 12, and the rotating disc 12 is rotatably connected with the first rotating rod 10.

Advantageously, the main transmission shaft 53 is fixedly connected with a fourth pulley 54 in the third rotating cavity 76, the third rotating cavity 76 is provided with a fifth rotating shaft 74 at the left end of the main transmission shaft 53, the fifth rotating shaft 74 is rotatably connected with the upper and lower walls, the fifth rotating shaft 74 is fixedly connected with a fifth pulley 73 and a third cam 72, the fifth pulley 73 is connected with the fourth pulley 54 through a third conveyor belt 55, the upper end of the water storage cavity 7 is connected with a second water inlet pipe 80, the water storage cavity 7 is provided with a piston plate 68, the rear end wall of the piston plate 68 is connected with the rear end wall of the water storage cavity 7 through a second spring 69, a third slide bar 70 is fixedly mounted on the rear end wall of the piston plate 68, and the rear end of the third slide bar 70 extends into the third rotating cavity 76 to contact with the third cam 72.

Beneficially, the lower end of the filtering cavity 19 is provided with a second through hole 25 penetrating through the machine body, four groups of fixed rods 24 distributed in a matrix are fixedly mounted on the bottom wall of the filtering cavity 19, the upper end of each fixed rod 24 is rotatably connected with a third rotating rod 22, the third rotating rod 22 is fixedly connected with a roller 23, a filter disc 20 is placed on the upper end of each roller 23, a filter screen 21 is mounted at the bottom of the filter disc 20, the left end of the filter disc 20 is rotatably connected with a rocker 51, the left end of the rocker 51 is rotatably connected with a second sliding rod 50, the left end of the crushing cavity 19 is provided with a movable cavity 77, the left end of the second sliding rod 50 extends into the movable cavity 77 and is slidably connected with a wall body between the movable cavity 77 and the crushing cavity 19, the left end of the second sliding rod 50 is fixedly connected with a second movable plate 47 in the movable cavity 77, the bottom wall of the movable cavity 77 is provided with a second sliding groove 49, the second sliding groove 49 is slidably matched with the second, an auxiliary motor 45 is fixedly mounted on the bottom wall of the movable cavity 77, the auxiliary motor 45 is in power connection with a first transmission shaft 46, and a second cam 46 and a third belt wheel 44 are fixedly mounted at the upper end of the first transmission shaft 46.

Advantageously, the transmission device comprises a second transmission shaft 79 rotatably connected to the upper and lower end walls of the transmission cavity 52, the lower end of the second transmission shaft 79 extends into the movable cavity 77 and is fixedly connected with a second belt pulley 40, the second belt pulley 40 is connected with the third belt pulley 44 through a second conveyor belt 41, the second transmission shaft 79 is fixedly connected with a first cam 37 in the transmission cavity 52, the upper end wall of the first cam 37 is provided with a T-shaped ring slot 36, a second fixed rod 38 is slidably fitted in the T-shaped ring slot 36, the upper end of the second fixed rod 38 is fixedly connected with a first sliding rod 35, the first sliding rod 35 is slidably fitted in the upper end wall of the transmission cavity 52, the right end of the first sliding rod 35 extends into the first sliding slot 33 and is fixedly connected with the first movable plate 34, the upper end of the transmission cavity 52 is provided with a second movable cavity 31, the upper end of the second transmission shaft 79 extends into the second movable cavity 31 and is fixedly connected with a second bevel gear 32, the second movable cavity 31 is provided with a third rotating shaft 28 which is rotatably connected with the front and rear end walls, a first belt pulley 30 and a first helical gear 29 are fixedly mounted on the third rotating shaft 28, the lower end of the first helical gear 29 is engaged with the second helical gear 32, the first belt pulley 30 is connected with a sixth belt pulley 78 through a first conveying belt 27, and the rear end of the first rotating shaft 2 extends into the second movable cavity 31 and is fixedly connected with the sixth belt pulley 78.

In the initial state, the motor stops rotating, and the first movable plate 34 is located at the first sliding chute 33;

when the insulator feeding device starts to work, the insulator is placed in the feeding cavity 2, the secondary motor 45 and the primary motor 60 are started, the first transmission shaft 46 drives the second cam 43 and the third belt wheel 44 to rotate, under the action of the second cam 43 and the spring 47, the second movable plate 48 performs reciprocating motion in the horizontal direction through the second sliding rod 50 and the rocker 51, the filter disc 20 rocks left and right at the upper end of the roller 23, the third belt wheel 44 drives the second belt wheel 40 to rotate through the second transmission belt 41, the second belt wheel 40 drives the second transmission shaft 79 to rotate, the second transmission shaft 79 drives the first cam 37 and the second helical gear 32 to rotate, the second helical gear 32 drives the first helical gear 29 to rotate, and the first helical gear 29 is detected to rotate through the third rotating shaft 28 and the first belt wheel 30, the first belt pulley 30 drives the sixth belt pulley 78 to rotate through the first conveyor belt 27, the sixth belt pulley 78 drives the brush 3 to rotate through the first rotating shaft 2, the brush 3 drives the workpiece to rotate, so as to clean the surface of the workpiece, the first cam 37 drives the first slide bar 35 to reciprocate in the horizontal direction through the second fixing rod 38, the first slide bar 35 continuously pushes the workpiece falling from the upper end to move into the crushing cavity 16 through the first movable plate 34, the main motor 60 drives the main transmission shaft 53 to rotate, the main transmission shaft 53 drives the third bevel gear 56, the fourth belt pulley 54 and the gear 67 to rotate, the fourth belt pulley 54 drives the fifth belt pulley 73 to rotate through the third conveyor belt 55, and the fifth belt pulley 73 drives the third cam 72 to rotate through the fifth rotating shaft 75, the third cam 72 drives the third slide rod 70 to reciprocate horizontally, under the combined action of the third slide rod 70 and the second spring 69, the piston plate 68 reciprocates horizontally, water flows through the water inlet pipe 8 and the second water inlet pipe 80 into the water outlet pipe 6, flows through the spray head 5 into the feeding cavity 26, flows into the waste water cavity 42 after cleaning a workpiece, the gear 67 drives the rotating disc 12 to rotate through the first rotating shaft 11, the rotating disc 12 drives the second connecting rod 14 to reciprocate horizontally through the first connecting rod 9, the second connecting rod 14 crushes the workpiece through the heavy hammer 17, the third bevel gear 56 drives the fourth bevel gear 57 to rotate, the fourth bevel gear 57 drives the half gear 61 to rotate through the fourth rotating shaft 59, and the half gear 61 drives the electromagnet 63 to move horizontally through the annular rack 58, the electromagnet 63 penetrates through the crushing cavity 16 to adsorb metal sheets in a workpiece and then brings the metal sheets into the waste cavity 65, the electromagnet and the metal sheets are separated through the clamping block 64, and the rest crushed workpieces of the workpiece fall into the filter disc 20 through the filter holes 18 and then fall into the through holes 25 through secondary filtration of the filter screen 21.

And after the work is finished, the motor stops working completely.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. A fuse insulator crushing device comprises a machine body, wherein a feeding cavity with an inclined plane is arranged in the machine body, a water storage cavity is arranged above the right side of the feeding cavity, the left end of the water storage cavity is connected with a water outlet pipe, the left end of the water outlet pipe extends into the upper end wall of the feeding cavity and is fixedly connected with a spray head, the lower end of the water storage cavity is provided with a water inlet pipe, a first rotating shaft is rotatably arranged on the front wall and the rear wall of the feeding cavity, a hairbrush is fixedly connected onto the first rotating shaft, a rubber pad is rotatably arranged on the right end wall of the hairbrush of the feeding cavity, a first sliding chute is arranged on the left end wall of the feeding cavity, a first movable plate is in sliding fit in the first sliding chute, a transmission cavity is arranged on the left side of the first sliding chute, a transmission device is arranged in the transmission cavity, a waste water cavity is arranged, the right end of the waste water cavity is connected with the lower end of the water inlet pipe, the lower end of the water inlet pipe is provided with a filter screen, the right end of the material supply cavity is connected with a crushing cavity, the lower end of the crushing cavity is provided with a filter cavity, the bottom wall of the crushing cavity is provided with filter holes communicated with the filter cavity, the crushing cavity is internally provided with a heavy hammer with a spine on the bottom wall in a sliding fit manner, the upper end of the heavy hammer is fixedly connected with a second connecting rod, the machine body is provided with a rotating groove with an upward opening on the outer wall of the upper end of the crushing cavity, the upper end of the second connecting rod extends into the rotating groove and is connected with a wall body between the rotating groove and the crushing cavity in a sliding manner, the second connecting rod is rotatably connected with a second rotating rod in the rotating groove, the second rotating rod is fixedly connected with a first connecting rod, the upper end of the first connecting rod, the main motor power is connected with a main transmission shaft, a main transmission device is arranged in the rotating cavity, a waste cavity is arranged at the front end of the crushing cavity, and a fixed clamping block with an inclined plane is fixedly connected to the right end wall of the waste cavity.

2. A fuse insulator crushing apparatus according to claim 1, wherein: the main transmission device comprises a third bevel gear fixedly arranged on the main transmission shaft, a fourth rotating shaft is rotatably arranged on the left end wall of the rotating cavity, a half gear and a fourth helical gear are fixedly connected to the fourth rotating shaft, the upper end of the fourth helical gear is engaged with the third helical gear, the semi-gear is meshed with an annular rack which is in sliding fit with the left end wall of the rotating cavity, the front end of the annular rack is fixedly connected with an electromagnet, the upper end of the rotating cavity is provided with a second rotating cavity and a third rotating cavity, the upper end of the main transmission shaft penetrates through the third rotating cavity and extends into the second rotating cavity, the main transmission shaft is fixedly provided with a gear in the second rotating cavity, the gear is engaged with a second rotating shaft rotatably arranged on the rear end wall of the second rotating cavity, the right end of the second rotating shaft extends out of the machine body and is fixedly connected with a rotating disc, and the rotating disc is rotatably connected with the first rotating rod.

3. A fuse insulator crushing apparatus according to claim 1, wherein: the utility model discloses a water storage device, including main drive shaft, water storage chamber, piston board rear end wall, third slide bar rear end, the third rotates intracavity fixedly connected with fourth band pulley, the third rotate the chamber in the main drive shaft left end is equipped with rotates the fifth pivot of being connected with last lower wall, fifth pivot fixedly connected with fifth band pulley and third cam, the fifth band pulley passes through the third conveyer belt and connects the fourth band pulley, water storage chamber upper end is connected with the second inlet tube, the water storage chamber is equipped with the piston board, piston board rear end wall passes through second spring coupling water storage chamber rear end wall, fixed mounting has the third slide bar on the piston board rear end wall, third slide bar rear end stretches into the third rotates the chamber contact the third cam.

4. A fuse insulator crushing apparatus according to claim 1, wherein: the lower end of the filter cavity is provided with a second through hole penetrating through the machine body, four groups of fixed rods distributed in a matrix are fixedly arranged on the bottom wall of the filter cavity, the upper ends of the fixed rods are rotatably connected with a third rotating rod, the third rotating rod is fixedly connected with a roller, a filter disc is placed at the upper end of the roller, a filter screen is arranged at the bottom of the filter disc, the left end of the filter disc is rotatably connected with a rocker, the left end of the rocker is rotatably connected with a second sliding rod, the left end of the crushing cavity is provided with a movable cavity, the left end of the second sliding rod extends into the movable cavity and is slidably connected with a wall body between the movable cavity and the crushing cavity, the left end of the second sliding rod is fixedly connected with a second movable plate in the movable cavity, the bottom wall of the movable cavity is provided with a second sliding groove, the second sliding groove is slidably matched with the second movable plate and is connected, the auxiliary motor is in power connection with a first transmission shaft, and a second cam and a third belt wheel are fixedly mounted at the upper end of the first transmission shaft.

5. A fuse insulator crushing apparatus according to claim 1, wherein: the transmission device comprises a second transmission shaft which is rotationally connected with the upper end wall and the lower end wall of the transmission cavity, the lower end of the second transmission shaft extends into the movable cavity and is fixedly connected with a second belt pulley, the second belt pulley is connected with a third belt pulley through a second conveying belt, the second transmission shaft is fixedly connected with a first cam in the transmission cavity, the upper end wall of the first cam is provided with a T-shaped annular groove, a second fixed rod is arranged in the T-shaped annular groove in a sliding fit manner, the upper end of the second fixed rod is fixedly connected with a first sliding rod which is in sliding fit with the upper end wall of the transmission cavity, the right end of the first sliding rod extends into the first sliding groove and is fixedly connected with a first movable plate, the upper end of the transmission cavity is provided with a second movable cavity, the upper end of the second transmission shaft extends into the second movable cavity and is fixedly connected with a second helical gear, and the second movable cavity, and a first belt wheel and a first helical gear are fixedly mounted on the third rotating shaft, the lower end of the first helical gear is meshed with the second helical gear, the first belt wheel is connected with a sixth belt wheel through a first conveying belt, and the rear end of the first rotating shaft extends into the second movable cavity and is fixedly connected with the sixth belt wheel.