CN113192692A

CN113192692A - Constant temperature accelerator for cable crosslinking

Info

Publication number: CN113192692A
Application number: CN202110427204.3A
Authority: CN
Inventors: 后学才; 陈庆华
Original assignee: Anhui Huabao Cable Co ltd
Current assignee: Anhui Huabao Cable Co ltd
Priority date: 2021-04-21
Filing date: 2021-04-21
Publication date: 2021-07-30
Anticipated expiration: 2041-04-21
Also published as: CN113192692B

Abstract

The invention discloses a cable-crosslinking constant-temperature accelerator which comprises an accelerator body and a constant-temperature box body, wherein the accelerator body is arranged in the constant-temperature box body; the constant temperature accelerator also comprises a driving mechanism, a speed regulating mechanism and two heat dissipation assemblies; the two heat dissipation assemblies can rotate and horizontally move in the constant temperature box body and on two sides of the accelerator body to reciprocate under the driving of the driving mechanism; the driving mechanism can change the speed of the rotation and horizontal movement reciprocating motion of the two radiating assemblies under the driving of the speed regulating mechanism; a plurality of heat dissipation holes are uniformly formed in the constant temperature box body. The invention can adapt to different power modes and can semi-automatically adjust the temperature.

Description

Constant temperature accelerator for cable crosslinking

Technical Field

The invention relates to the technical field of accelerators, in particular to a constant-temperature accelerator for cable crosslinking.

Background

The cable production needs a cross-linking process, and the main cross-linking modes of the wire polymer include a peroxide cross-linking method, a high-energy electron accelerator irradiation cross-linking method, a silane cross-linking method and an ultraviolet light cross-linking method. The high-energy electron accelerator irradiation crosslinking method is characterized in that high-energy electron beams generated by the high-energy electron accelerator effectively penetrate through an insulating layer and generate crosslinking reaction through energy conversion, electrons have high energy and uniformly penetrate through the insulating layer, so that the formed crosslinking bond has high bonding energy and good stability, the performances of solvent resistance, aging resistance, heat resistance, cracking resistance and the like of the cable are superior to those of a chemical crosslinking cable, and the cable has no pollution to the environment. Because the electron accelerator can produce some harmful rays that are unfavorable for the human body when the irradiation, so generally go on in the relatively confined irradiation room, along with the continuous improvement of electron accelerator power, when carrying out the irradiation, because the space is relatively confined, cause the temperature in the irradiation room too high very easily, influence normal irradiation processing, current heat radiation structure often only has a mode, and if the electron accelerator is in high power mode, ordinary heat radiation mechanism has not been enough to reduce the temperature fast, sometimes can adopt the mode of increaseing the electric current to impel heat radiation mechanism such as the fan fast rotation to realize the radiating efficiency improvement, cause the noise like this easily, consequently provide one kind can adapt to different power modes, can semi-automatically regulated temperature cable cross-use constant temperature accelerator.

Disclosure of Invention

In view of the technical problems in the background art, the invention provides a constant temperature accelerator for cable cross-linking, which can adapt to different power modes and can semi-automatically adjust the temperature. In order to achieve the purpose, the invention provides the following technical scheme:

a constant temperature accelerator for cable crosslinking comprises an accelerator body and a constant temperature box body, wherein the accelerator body is arranged in the constant temperature box body; the constant temperature accelerator also comprises a driving mechanism, a speed regulating mechanism and two heat dissipation assemblies; the two heat dissipation assemblies can rotate and horizontally move in the constant temperature box body and on two sides of the accelerator body to reciprocate under the driving of the driving mechanism; the driving mechanism can change the speed of the rotation and horizontal movement reciprocating motion of the two radiating assemblies under the driving of the speed regulating mechanism; a plurality of heat dissipation holes are uniformly formed in the constant temperature box body.

The constant temperature accelerator also comprises a driving shaft; the heat dissipation assembly adopts a fan impeller; the number of the driving mechanisms is two; the two driving mechanisms are correspondingly arranged in the constant-temperature box body and at the positions on two sides of the accelerator body; the driving mechanism comprises a sliding chute, a rotating shaft, a driving handle, a driven handle and a fan wheel; the sliding groove is horizontally arranged, and one end of the sliding groove is fixedly connected with the inner wall of one side of the constant temperature box body; a sliding block which is matched with the sliding chute and can horizontally move along the sliding chute is arranged in the sliding chute, and a through groove is arranged on the side wall of the sliding chute, which is close to the accelerator body, along the length direction of the sliding chute; one end of the rotating shaft penetrates through the sliding block and is rotatably connected with the sliding block, and the other end of the rotating shaft extends out of the through groove in the side wall of the sliding groove and is fixedly connected with the corresponding fan blade wheel; the parts of the rotating shaft, which are positioned at the two sides of the sliding block, are sleeved with rollers which can roll on the bottom surface in the sliding chute; a connecting plate is vertically arranged on the upper end face of the sliding block; one end of the driven handle is rotatably arranged on the connecting plate, and the other end of the driven handle is hinged with one end of the driving handle; one end of the driving shaft is sequentially connected with the other end of the driving handle in the two driving mechanisms in a penetrating manner, and the other end of the driving shaft is rotatably arranged on the inner wall of one end of the thermostat box body.

The speed regulating mechanism adopts a speed regulating box; the speed regulating mechanism also comprises a driving wheel, a reducing wheel and a transmission belt; the speed regulating box is arranged on the outer wall of the constant temperature box body; the driving wheel is rotatably arranged on the inner wall of the speed regulating box through a motor; the reducing wheel comprises an adjusting ring, a fixed disc and a movable rod; the other end of the driving shaft extending into the speed regulating box is sequentially sleeved with the regulating ring and the fixed disc; a plurality of grooves are uniformly formed in the fixed disc along the radial direction, and a circle of electromagnet I is arranged on the surface of the fixed disc; the moving rods are multiple and can be arranged in the corresponding grooves in a radial moving mode; the top ends of the moving rods are provided with arc-shaped bulges, the moving rods jointly enclose a circumference, and the circumferential side wall is in transmission connection with the driving wheel through the transmission belt; the bottom end of the movable rod is provided with a columnar bulge along the axial direction; a plurality of arc-shaped through grooves are formed in the adjusting ring and distributed in a fan blade type, and a circle of electromagnet II corresponding to the electromagnet I is arranged on the outer side of the adjusting ring; two ends of the columnar bulge of the movable rod are respectively arranged in the corresponding grooves of the arc-shaped through groove of the adjusting ring and the fixed disk; when the adjusting ring rotates along the driving shaft by rotating, the moving rod can move along the radial direction of the groove, so that the circumferential size enclosed by the moving rod is changed.

The constant temperature accelerator also comprises a temperature sensor, a prompt lamp and a controller; the temperature sensor is arranged in the constant temperature box body; the prompting lamp is arranged on the outer wall of the constant temperature box body; the prompting lamp and the temperature sensor are electrically connected with the controller.

The speed regulating mechanism also comprises a handle, an angle sensor and a pressure sensor; the handle is fixedly arranged on the adjusting ring; an angle sensor and a pressure sensor are arranged on the handle; and the electromagnet I, the electromagnet II, the angle sensor and the pressure sensor are electrically connected with a controller.

The side wall of the constant temperature box body is provided with an opening I, and the opening is provided with a box door I.

The drive belt also includes a buckle.

The invention has the beneficial effects that:

1. according to the invention, the two heat dissipation assemblies can do rotating and horizontal moving reciprocating motion in the constant temperature box body and on two sides of the accelerator body under the driving of the driving mechanism through the driving mechanism, so that the air flow is accelerated, the heat dissipation range is expanded, the heat dissipation efficiency is improved, the temperature in the constant temperature box body is further controlled, and the constant temperature is realized;

2. the driving mechanism can change the rotating and horizontal moving reciprocating motion speeds of the two radiating assemblies under the driving of the speed regulating mechanism, further improves the radiating efficiency, can adapt to the working conditions of the accelerator body under different power modes, and avoids noise caused by increasing the rotating speed in a mode of increasing the current of the motor;

3. a temperature sensor is arranged in the constant temperature box body, when the temperature sensor monitors that the temperature exceeds a certain threshold value, the controller transmits a signal to a prompting lamp, and the prompting lamp is turned on to prompt an operator to adjust the reducing wheel and the transmission belt, so that semi-automatic temperature adjustment is realized;

4. through slow rotation handle for drive the carriage release lever and radially remove along the recess on the fixed disk, thereby make the diameter of the reducing wheel that a plurality of carriage release lever circular arcs were protruding to enclose change, when angle sensor monitored the appointed angle that the controller calculated, the circular telegram of electro-magnet II on the adjustable ring and the fixed disk produced magnetism, and the two attracts fixedly mutually, thereby the diameter of reducing wheel is fixed, accomplishes the change of reducing wheel speed promptly driving shaft speed.

Drawings

FIG. 1 is a schematic view of the internal structure of the thermostatic accelerator of the present invention;

FIG. 2 is a top view of FIG. 1 (the thermostat housing is an internal mechanism);

FIG. 3 is a schematic view of the drive mechanism of the present invention;

FIG. 4 is a side view of FIG. 1 (the governor box is an internal structure);

FIG. 5 is a schematic structural view of a diameter-variable wheel according to the present invention;

FIG. 6 is a schematic structural diagram of the diameter-variable wheel of the present invention (omitting the electromagnet I, the electromagnet II, the handle and the angle sensor);

in the figure, 1-a constant temperature box body, 2-an accelerator body, 3-a fan wheel, 4-a rotating shaft, 5-a roller, 6-a sliding block, 7-a connecting plate, 8-a speed-regulating box, 9-a motor, 10-a driving shaft, 11-a driven handle, 12-a support, 13-a driving mechanism, 14-a sliding chute, 1401-a through groove, 15-a driving handle, 16-a temperature sensor, 17-a driving belt, 18-a reducing wheel, 19-a driving wheel, 20-an adjusting ring, 2001-an arc through groove, 21-a fixed disk, 2101-a groove, 22-a moving rod, 2201-an arc-shaped bulge, 2202-a columnar bulge, 23-a handle, 24-an angle sensor, 25-an electromagnet I and 26-an electromagnet II.

Detailed Description

Referring to fig. 1 to 6, a constant temperature accelerator for cable intersection includes an accelerator body 2 and a constant temperature box 1, wherein the accelerator body 2 is disposed in the constant temperature box 1; the constant temperature accelerator also comprises a driving mechanism 13, a speed regulating mechanism and two heat dissipation assemblies; the two heat dissipation assemblies can do rotating and horizontal moving reciprocating motion in the constant temperature box body 1 and on two sides of the accelerator body 2 under the driving of the driving mechanism 13; the driving mechanism 13 can change the speed of the rotation and horizontal movement reciprocating motion of the two radiating assemblies under the driving of the speed regulating mechanism; the thermostatic box body 1 is evenly provided with a plurality of heat dissipation holes, and hot air flows out through the heat dissipation holes of the thermostatic box body 1, so that the environment where the accelerator body 2 is located is cooled.

The constant temperature accelerator also comprises a driving shaft 10; the heat dissipation component adopts a fan impeller 3; two driving mechanisms 13 are provided; the two driving mechanisms 13 are correspondingly arranged in the thermostatic box body 1 and at the positions on the two sides of the accelerator body 2; as shown in fig. 1-3, the driving mechanism 13 includes a sliding slot 14, a rotating shaft 4, a driving handle 15, a driven handle 11, and a fan wheel 3; the chute 14 is horizontally arranged, and one end of the chute is fixedly connected with the inner wall of one side of the constant temperature box body 1; a slide block 6 which is matched with the slide groove 14 and can horizontally move along the slide groove 14 is arranged in the slide groove 14, and a through groove 1401 is arranged on the side wall of the slide groove 14, which is close to the accelerator body 2, along the length direction of the slide groove 14; one end of the rotating shaft 4 penetrates through the sliding block 6 and is rotatably connected with the sliding block 6, and the other end of the rotating shaft extends out of the through groove 1401 on the side wall of the sliding groove 14 and is fixedly connected with the corresponding fan wheel 3; the parts of the rotating shaft 4, which are positioned at the two sides of the sliding block 6, are sleeved with rollers 5 which can roll on the bottom surface in the sliding chute 14; a connecting plate 7 is vertically arranged on the upper end surface of the sliding block 6; one end of the driven handle 11 is rotatably arranged on the connecting plate 7, and the other end of the driven handle is hinged with one end of the driving handle 15; one end of a driving shaft 10 is sequentially connected with the other end of a driving handle 15 in the two driving mechanisms 13 in a penetrating manner, the other end of the driving shaft is rotatably arranged on the inner wall of one end of the thermostat box body 1, the driving shaft 10 drives the driving handles 15 of the two driving mechanisms 13 to rotate, the driving handles 15 drive corresponding sliding blocks 6 to horizontally move in corresponding sliding grooves 14 through hinged driven handles 11, the movement of the driving handles is similar to that of crank sliding blocks, when the sliding blocks 6 move, idler wheels 5 which are rotatably connected with the sliding blocks 6 rotate on the inner bottom surfaces of the sliding grooves 14 while the sliding blocks 6 move, and the coaxial fan impeller 3 is driven to horizontally move and rotate.

The speed regulating mechanism adopts a speed regulating box 8; the speed regulating mechanism also comprises a driving wheel 19, a reducing wheel 18 and a transmission belt 17; as shown in fig. 1-2, the speed-regulating box 8 is mounted on the outer wall of the incubator body 1 through a bracket 12; the driving wheel 19 is rotatably arranged on the inner wall of the speed regulating box 8 through the motor 9; the reducing wheel 18 comprises an adjusting ring 20, a fixed disc 21 and a movable rod 22; the other end of the driving shaft 10 extending into the speed regulating box 8 extends into the speed regulating box 8, and is sequentially sleeved with an adjusting ring 20 (the adjusting ring 20 can rotate along the driving shaft 10 but can not move along the radial direction) and is in through connection with a fixed disc 21; a plurality of grooves 2101 are uniformly arranged on the fixed disc 21 along the radial direction, and a circle of electromagnets I25 are arranged on the surface of the fixed disc; a plurality of moving rods 22 are arranged in the corresponding grooves 2101 in a radially movable manner; the top ends of the moving rods 22 are provided with arc-shaped bulges, a plurality of moving rods 22 jointly enclose a circumference, and the circumferential side wall is in transmission connection with the driving wheel 19 through the transmission belt 17; a columnar bulge 2202 is arranged at the bottom end of the moving rod 22 along the axial direction; a plurality of arc-shaped through grooves 20011401 are arranged on the adjusting ring 20 and distributed in a fan blade type, and a circle of electromagnets II 26 corresponding to the electromagnets I25 are arranged on the outer side of the adjusting ring 20; the two ends of the columnar projection 2202 of the moving rod 22 are respectively arranged in the corresponding grooves 2101 of the arc-shaped through groove 20011401 of the adjusting ring 20 and the fixed disc 21; when the adjusting ring 20 rotates along the driving shaft 10 by rotating the adjusting ring 20, the adjusting ring 20 enables the moving rod 22 to move radially along the groove 2101 by pushing each columnar protrusion 2202 on the moving rod 22, each circular arc-shaped protrusion on each moving rod 22 synchronously moves radially, so that the circumferential size enclosed by the moving rod 22 is changed, the diameter of the reducing wheel 18 is changed, the reducing wheel 18 is in transmission connection with the driving wheel 19 through the transmission belt 17, the rotating speed of the driving wheel 19/the rotating speed of the reducing wheel 18 is equal to the diameter of the reducing wheel 18/the diameter of the driving wheel 19, when the rotating speed of the motor 9 is unchanged (the rotating speed of the driving wheel 19 is unchanged) and the diameter of the driving wheel 19 is unchanged, the rotating speed of the reducing wheel 18 can be changed by changing the diameter of the reducing wheel 18, the diameter of the reducing wheel 18 is smaller, the rotating speed of the reducing wheel 18 is larger, the diameter of the reducing wheel 18 is larger, and the rotating speed of the reducing wheel 18 is smaller.

The constant temperature accelerator also comprises a temperature sensor 16, a prompt lamp and a controller; the temperature sensor 16 is arranged inside the constant temperature box body 1; the prompting lamp is arranged on the outer wall of the constant temperature box body 1; the warning light, motor 9, temperature sensor 16 all links to each other with the controller electrical property, temperature sensor 16 detects temperature signal to controller, the controller detects lower threshold value I, starter motor 9, action wheel 19 rotates and drives reducing wheel 18 through drive belt 17 and rotates, make driving shaft 10 rotate, make two actuating mechanism 13 drive radiator unit carry out reciprocating motion, detect higher threshold value II or temperature rise when too fast when the controller, starter motor 9, the simultaneous control warning light is bright, suggestion operating personnel adjusts speed governing box 8, rotatory adjustable ring 20, the diameter to reducing wheel 18 changes, thereby adjust the rotational speed of driving shaft 10, and then change two radiator unit reciprocating motion's speed through actuating mechanism 13.

The speed regulating mechanism also comprises a handle 23, an angle sensor 24 and a pressure sensor; the handle 23 is fixedly arranged on the adjusting ring 20; an angle sensor 24 is arranged on the handle 23; the electromagnet I25, the electromagnet II 26, the angle sensor 24 and the pressure sensor are electrically connected with a controller, the electromagnet I25 and the electromagnet II 26 are electrified in an initial state, the adjusting ring 20 and the fixed disc 21 are attracted and fixed, the diameter of the reducing wheel 18 is fixed, the reducing wheel 18 can rotate along with the driving shaft 10, when the handle 23 is pressed, the pressure sensor transmits a pressure signal to the controller, the controller controls the electromagnet I25 and the electromagnet II 26 not to be electrified, the adjusting ring 20 can rotate along the driving shaft 10, when the handle 23 on the adjusting ring 20 is slowly rotated, the adjusting ring 20 is rotated to a specified angle (the rotating angle corresponds to different diameters of the reducing wheel 18 and corresponds to different rotating speeds of the driving shaft 10) calculated by the controller, the controller controls the electromagnet I25 and the electromagnet II 26 to be electrified again to generate magnetism, the adjusting ring 20 and the fixed disc 21 are attracted and fixed, the diameter of the reducing wheel 18 is fixed.

The side wall of the constant temperature box body 1 is provided with an opening I, and the opening is provided with a box door I.

The side wall of the speed regulating box 8 is provided with an opening II, and a box door II is arranged at the opening.

The transmission belt 17 further comprises a buckle used for manually adjusting the length of the transmission belt 17 when the diameter of the reducing wheel 18 is changed.

As shown in fig. 1-6, the working principle and flow of the present invention are as follows:

after the accelerator body 2 starts to work, heat is generated, when the temperature sensor 16 detects a threshold value I, the motor 9 is started, the driving wheel 19 rotates, the reducing wheel 18 is driven to rotate through the transmission belt 17 (in an initial state, the diameter of the reducing wheel 18 is the same as that of the driving wheel 19, and the speed of the reducing wheel 18 is the same as that of the driving wheel 19), the driving shaft 10 is driven to rotate, the driving handles 15 of the two driving mechanisms 13 are driven to rotate, the driven handles 11 drive the corresponding sliding blocks 6 to move along the sliding grooves 14 (similar to the movement of a crank sliding block), the two rollers 5 roll in a reciprocating mode while the sliding blocks 6 move horizontally, the coaxial rotating shafts 4 drive the fan blades 3 to rotate and move horizontally in the thermostatic box body 1 and on two sides of the accelerator body 2, air flow in the thermostatic box body 1 is accelerated, the heat dissipation range is expanded, hot air flows out through heat, when the temperature drops to the original range, the motor 9 stops working and the two fan blades 3 stop moving.

When the temperature sensor 16 detects that the temperature in the thermostatic box body 1 exceeds a threshold value II or the temperature rises too fast, the controller transmits a signal to the indicator light, an operator lifts the door II of the speed regulating box 8 to open, the pressure sensor transmits a pressure signal to the controller, the controller controls the electromagnets I25 and II 26 not to be electrified, the regulating ring 20 can rotate along the driving shaft 10, the handle 23 on the regulating ring 20 is slowly rotated to enable the regulating ring 20 to rotate, the columnar protrusions 2202 on the moving rod 22 move along the arc-shaped grooves 2101 on the regulating ring 20 to drive the moving rod 22 to radially move along the grooves 2101 on the fixed disk 21, and accordingly the circular size formed by the arc-shaped protrusions of the moving rods 22 is changed, namely the diameter of the reducing wheel 18 is changed, when the angle sensor 24 detects a specified angle calculated by the controller, the electromagnets II 26 on the regulating ring 20 and the electromagnets I25 on the fixed disk 21 are electrified to generate magnetism, the two are attracted and fixed, the moving rod 22 stops moving, the diameter of the reducing wheel 18 is fixed at the moment, the buckle on the transmission belt 17 is manually adjusted at the moment, and therefore the length of the transmission belt 17 is adjusted to be adaptive to the new reducing wheel 18 and the driving wheel 19, and the reducing wheel 18 is connected with the driving wheel 19 in a re-transmission mode. At the moment, the rotating speed of the reducing wheel 18 is increased, and the driving handles 15 of the two driving mechanisms 13 are driven by the driving shaft 10 to increase the speed, so that the fan impeller 3 rotates and moves horizontally and reciprocally in the constant temperature box body 1 and on the two sides of the accelerator body 2, the heat dissipation efficiency is further improved, and the accelerator is suitable for working conditions under different powers of the accelerator.

Claims

1. A constant temperature accelerator for cable crosslinking comprises an accelerator body and a constant temperature box body, wherein the accelerator body is arranged in the constant temperature box body; the method is characterized in that: the constant temperature accelerator also comprises a driving mechanism, a speed regulating mechanism and two heat dissipation assemblies; the two heat dissipation assemblies can rotate and horizontally move in the constant temperature box body and on two sides of the accelerator body to reciprocate under the driving of the driving mechanism; the driving mechanism can change the speed of the rotation and horizontal movement reciprocating motion of the two radiating assemblies under the driving of the speed regulating mechanism; a plurality of heat dissipation holes are uniformly formed in the constant temperature box body.

2. The constant temperature accelerator for cable crosslinking according to claim 1, characterized in that: the constant temperature accelerator also comprises a driving shaft; the heat dissipation assembly adopts a fan impeller; the number of the driving mechanisms is two; the two driving mechanisms are correspondingly arranged in the constant-temperature box body and at the positions on two sides of the accelerator body; the driving mechanism comprises a sliding chute, a rotating shaft, a driving handle, a driven handle and a fan wheel; the sliding groove is horizontally arranged, and one end of the sliding groove is fixedly connected with the inner wall of one side of the constant temperature box body; a sliding block which is matched with the sliding chute and can horizontally move along the sliding chute is arranged in the sliding chute, and a through groove is arranged on the side wall of the sliding chute, which is close to the accelerator body, along the length direction of the sliding chute; one end of the rotating shaft penetrates through the sliding block and is rotatably connected with the sliding block, and the other end of the rotating shaft extends out of the through groove in the side wall of the sliding groove and is fixedly connected with the corresponding fan blade wheel; the parts of the rotating shaft, which are positioned at the two sides of the sliding block, are sleeved with rollers which can roll on the bottom surface in the sliding chute; a connecting plate is vertically arranged on the upper end face of the sliding block; one end of the driven handle is rotatably arranged on the connecting plate, and the other end of the driven handle is hinged with one end of the driving handle; one end of the driving shaft is sequentially connected with the other end of the driving handle in the two driving mechanisms in a penetrating manner, and the other end of the driving shaft is rotatably arranged on the inner wall of one end of the thermostat box body.

3. The thermostatic accelerator for cable crosslinking according to claim 2, wherein: the speed regulating mechanism adopts a speed regulating box; the speed regulating mechanism also comprises a driving wheel, a reducing wheel and a transmission belt; the speed regulating box is arranged on the outer wall of the constant temperature box body; the driving wheel is rotatably arranged on the inner wall of the speed regulating box through a motor; the reducing wheel comprises an adjusting ring, a fixed disc and a movable rod; the other end of the driving shaft extending into the speed regulating box is sequentially sleeved with the regulating ring and the fixed disc; a plurality of grooves are uniformly formed in the fixed disc along the radial direction, and a circle of electromagnet I is arranged on the surface of the fixed disc; the moving rods are multiple and can be arranged in the corresponding grooves in a radial moving mode; the top ends of the moving rods are provided with arc-shaped bulges, the moving rods jointly enclose a circumference, and the circumferential side wall is in transmission connection with the driving wheel through the transmission belt; the bottom end of the movable rod is provided with a columnar bulge along the axial direction; a plurality of arc-shaped through grooves are formed in the adjusting ring and distributed in a fan blade type, and a circle of electromagnet II corresponding to the electromagnet I is arranged on the outer side of the adjusting ring; two ends of the columnar bulge of the movable rod are respectively arranged in the corresponding grooves of the arc-shaped through groove of the adjusting ring and the fixed disk; when the adjusting ring rotates along the driving shaft by rotating, the moving rod can move along the radial direction of the groove, so that the circumferential size enclosed by the moving rod is changed.

4. The constant temperature accelerator for cable crosslinking according to claim 1, characterized in that: the constant temperature accelerator also comprises a temperature sensor, a prompt lamp and a controller; the temperature sensor is arranged in the constant temperature box body; the prompting lamp is arranged on the outer wall of the constant temperature box body; the prompting lamp and the temperature sensor are electrically connected with the controller.

5. The thermostatic accelerator for cable crosslinking according to claim 3, wherein: the speed regulating mechanism also comprises a handle, an angle sensor and a pressure sensor; the handle is fixedly arranged on the adjusting ring; an angle sensor and a pressure sensor are arranged on the handle; and the electromagnet I, the electromagnet II, the angle sensor and the pressure sensor are electrically connected with a controller.

6. The constant temperature accelerator for cable crosslinking according to claim 1, characterized in that: the side wall of the constant temperature box body is provided with an opening I, and the opening is provided with a box door I.

7. The thermostatic accelerator for cable crosslinking according to claim 3, wherein: the side wall of the speed regulating box is provided with an opening II, and the opening is provided with a box door II.

8. The thermostatic accelerator for cable crosslinking according to claim 3, wherein: the drive belt also includes a buckle.