CN217216984U - Cable irradiation electron accelerator - Google Patents

Abstract

The utility model belongs to the technical field of cables, in particular to a cable irradiation electron accelerator, aiming at the problem that the existing probe is highly fixed and the cable is easy to separate from a limit component, the following proposal is proposed, which comprises an irradiation box and an irradiation probe inside the irradiation box, the right side of the middle end inside the irradiation box is rotationally connected with a big fluted disc, the surface of the big fluted disc is bolted with a winding wheel, the left teeth of the big fluted disc are meshed with a lifting cylinder, the bottom of the lifting cylinder and the top of the irradiation probe are fixedly installed, the irradiation probe can be driven to lift and operate through structural transmission, the irradiation probe is moved upwards when not rotating, the irradiation probe is separated from the track position far away from the cable walking, the irradiation probe is prevented from being damaged through the track position of the cable walking outside, and the limit wheel carrier can move downwards to limit the cable when the irradiation probe ascends, the cable is prevented from tilting upwards and even separating from the track position where the cable runs when the cable does not run.

Description

Cable irradiation electron accelerator

Technical Field

The utility model relates to a cable technical field especially relates to a cable irradiation electron accelerator.

Background

Need use the electron accelerator to handle the irradiation to the cable in the cable course of working, mainly need use electric field generator and special probe among the irradiation process, utilize the probe to carry out the irradiation to the cable, but its probe of present electron accelerator is fixed inside the equipment mostly, high fixed, this kind of mode leads to the probe to be damaged by external article easily, and the cable does not often have limit structure at the top in equipment inside for the convenience irradiation, this just leads to rolling equipment not rotating or when the cable is not hard up on the production line, the cable often can upwards perk, lead to the cable to break away from the inside spacing subassembly of equipment easily, influence subsequent irradiation, therefore, the utility model provides a cable irradiation electron accelerator for solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that the cable breaks away from spacing subassembly easily because of the probe height fixing existing in the prior art, and the cable irradiation electron accelerator that provides.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a cable irradiation electron accelerator comprises an irradiation box and an irradiation probe inside the irradiation box, wherein a large fluted disc is connected to the right side of the middle end inside the irradiation box in a rotating mode, a winding wheel is connected to the surface of the large fluted disc in a bolted mode, a lifting cylinder is meshed with left teeth of the large fluted disc, the bottom of the lifting cylinder and the top of the irradiation probe are fixedly installed, a square rod is connected to the inside of the lifting cylinder in a sliding mode, the top end of the square rod is connected with the top end of the inside of the irradiation box in a bolted mode, a large gear is meshed with the left teeth of the lifting cylinder, a winding wheel is connected to the surface of the large gear in a bolted mode, a transmission rope is wound inside the winding wheel, the surface of the transmission rope is connected with the inside of a guide wheel in a sliding mode, a limiting wheel frame is bolted to one end, far away from the winding wheel, of the winding wheel is provided with an adjusting mechanism in an internal winding mode, and the irradiation probe can be driven to ascend and descend through structural transmission, when not operating, with irradiation probe rebound, let irradiation probe break away from the track position of cable walking, avoid the external track position through cable walking to destroy irradiation probe, when irradiation probe goes up, let spacing wheel carrier can move down and carry out spacingly to the cable in addition, avoid the cable to make progress the perk when not walking and break away from the track position of cable walking even.

Preferably, the adjusting mechanism comprises a lead screw, a moving block, a hinged rod, a transmission rod and a connecting rope, wherein two ends of the lead screw are rotatably sleeved with the inside of the irradiation box, the left end of the surface of the lead screw is in threaded connection with a screw hole of the moving block, the surface of the moving block is hinged with the right end of the hinged rod, the left end of the hinged rod is hinged with a hole in the surface of the transmission rod, the top end of the transmission rod is hinged with the top end of the inside of the irradiation box, the bottom end of the transmission rod is in bolted connection with the right end of the connecting rope, and the connecting rope is far away from the inside winding of a winding wheel at one end of the transmission rod.

Further, the lead screw is rotated, the lead screw can drive the moving block to move rightwards, the moving block can drive the hinge rod to move rightwards, the hinge rod can drive the transmission rod to rotate rightwards, the transmission rod can drive the connecting rope to move rightwards, and the left end of the connecting rope is wound by the winding wheel, so that when the connecting rope moves rightwards, the connecting rope can drive the winding wheel to rotate clockwise.

Preferably, the radii of the big fluted disc and the big gear are consistent, and the axis of the big gear is rotatably connected with the left side of the middle end in the irradiation box.

Furthermore, the rotating angles and paths of the big gear disc and the big gear are consistent due to the radiuses of the big gear disc and the big gear, the transmission of the structure is facilitated, the big gear is limited by the rotation of the irradiation box, the big gear can stably rotate, and the smooth transmission of the structure is guaranteed.

Preferably, the transmission rope is in a U-shaped structure and is connected with the guide wheel, and the axis of the guide wheel is rotatably connected with the inside of the irradiation box.

Further, the structure of driving rope makes things convenient for the guide of guide wheel to the driving rope lets the trend at driving rope both ends opposite after the guide of guide wheel, and guarantee structural transmission is smooth and easy, and the guide wheel is rotated spacingly by the irradiation case.

Preferably, the hole at the rear side of the limiting wheel carrier is connected with a limiting block in a sliding mode, and the rear side of the limiting block is bolted with the inside of the irradiation box.

Further, spacing wheel carrier comprises the spacing wheel of spacing frame and spacing frame bottom, and the long form slide opening that sets up from top to bottom is seted up on the surface of spacing frame, and the stopper passes through the slide rail and slides the setting with the slide opening of spacing wheel carrier, lets the reciprocating that spacing wheel carrier can be steady, avoids the skew of spacing wheel carrier to spacing wheel carrier self carries the structure of balancing weight class, lets spacing wheel carrier can descend steadily.

Preferably, the rear side of the moving block is connected with the inside of the irradiation box in a sliding mode, and the bottom end of the transmission rod inclines to the left.

Furthermore, the moving block is arranged in a sliding mode through the sliding rail and the irradiation box, the irradiation box can slide left and right stably, the moving block is prevented from being driven by the lead screw to rotate and deflect, and the transmission rod is convenient to drive the connecting rope to move in the state of the transmission rod.

Has the advantages that:

1. the adjusting mechanism can drive the large fluted disc to rotate through the winding wheel, and the large fluted disc can drive the irradiation probe to lift through the lifting cylinder;

2. the lifting cylinder can drive the rolling wheel to rotate through the large gear disc, the rolling wheel can lead the limiting wheel frame to move through the guide of the transmission rope and the guide wheel, and the limiting wheel frame is used for limiting the cable;

the utility model discloses in: can drive irradiation probe lift operation through the structural transmission, with irradiation probe rebound when not running, let irradiation probe break away from the track position of keeping away from the cable walking, avoid the external track position through the cable walking to destroy irradiation probe, when irradiation probe goes up, let spacing wheel carrier can move down and carry out spacingly to the cable in addition, avoid the cable to make progress the perk when not walking and break away from the track position of cable walking even.

Drawings

Fig. 1 is a schematic front view of a cable irradiation electron accelerator according to the present invention;

fig. 2 is a schematic diagram of a rear view structure of a big fluted disc of a cable irradiation electron accelerator according to the present invention;

fig. 3 is a left side view structural diagram of a large fluted disc of a cable irradiation electron accelerator according to the present invention;

fig. 4 is a schematic perspective view of a moving block of a cable irradiation electron accelerator according to the present invention.

In the figure: 1. an irradiation box; 2. an adjustment mechanism; 21. a screw rod; 22. a moving block; 23. a hinged lever; 24. a transmission rod; 25. connecting ropes; 3. irradiating the probe; 4. a big fluted disc; 5. a winding wheel; 6. a lifting cylinder; 7. a square bar; 8. a bull gear; 9. a winding wheel; 10. a drive rope; 11. a guide wheel; 12. and a limiting wheel frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example one

Referring to fig. 1-4, a cable irradiation electron accelerator comprises an irradiation box 1 and an irradiation probe 3 in the irradiation box 1, wherein the right side of the middle end in the irradiation box 1 is rotatably connected with a large fluted disc 4, the surface of the large fluted disc 4 is bolted with a winding wheel 5, teeth on the left side of the large fluted disc 4 are meshed with a lifting cylinder 6, the bottom of the lifting cylinder 6 is fixedly installed with the top of the irradiation probe 3, the inside of the lifting cylinder 6 is slidably connected with a square rod 7, the top end of the square rod 7 is bolted with the top end in the irradiation box 1, teeth on the left side of the lifting cylinder 6 are meshed with a large gear 8, the surface of the large gear 8 is bolted with a winding wheel 9, the inside of the winding wheel 9 is wound with a transmission rope 10, the surface of the transmission rope 10 is slidably connected with the inside of a guide wheel 11, one end of the transmission rope 10 far away from the winding wheel 9 is bolted with a limiting wheel frame 12, the inside of the winding wheel 5 is wound with an adjusting mechanism 2, and the adjusting mechanism 2 is sleeved with the irradiation box 1, the adjusting mechanism 2 can drive the winding wheel 5 to rotate, the winding wheel 5 can drive the big fluted disc 4 to rotate, the big fluted disc 4 can drive the lifting cylinder 6 to move, the lifting cylinder 6 is limited on the surface of the square rod 7 in a sliding manner, the lifting cylinder 6 can drive the irradiation probe 3 to move, meanwhile, the lifting cylinder 6 can drive the big gear 8 to rotate, the big gear 8 can drive the winding wheel 9 to rotate, the winding wheel 9 drives the transmission rope 10 to move, the limiting wheel frame 12 is internally provided with a balancing weight, the limiting wheel frame 12 can drive the transmission rope 10 to move, the guide wheel 11 can guide the transmission rope 10, the limiting wheel frame 12 can limit the cable, the irradiation probe 3 can be driven to lift through structural transmission, the irradiation probe 3 can be moved upwards when the cable is not in operation, the irradiation probe 3 can be separated from a track position far away from the cable to move, and the irradiation probe 3 can be prevented from being damaged by the track position where the cable runs from the outside, when the irradiation probe 3 rises, the limiting wheel frame 12 can move downwards to limit the cable, so that the cable is prevented from tilting upwards and even separating from the track position where the cable runs when the cable does not run.

In the utility model, the adjusting mechanism 2 comprises a screw rod 21, a moving block 22, a hinge rod 23, a transmission rod 24 and a connecting rope 25, both ends of the screw rod 21 are rotatably sleeved with the inside of the irradiation box 1, the left end of the surface of the screw rod 21 is connected with the screw hole of the moving block 22 in a threaded manner, the surface of the moving block 22 is hinged with the right end of the hinge rod 23, the left end of the hinge rod 23 is hinged with the hole of the surface of the transmission rod 24, the top end of the transmission rod 24 is hinged with the top end of the inside of the irradiation box 1, the bottom end of the transmission rod 24 is bolted with the right end of the connecting rope 25, the inside of a winding wheel 5 at one end of the connecting rope 25 far away from the transmission rod 24 is wound, the right end of the screw rod 21 extends to the right side of the irradiation box 1 and is bolted with a hand wheel, a user can drive the screw rod 21 to rotate through the hand wheel, the screw rod 21 can drive the moving block 22 to move, the hinge rod 22 can drive the hinge rod 23 to move, the transmission rod 23 can drive the rotation of the transmission rod 24, the transmission rod 24 can drive the connecting rope 25 to move, and because the left end of the connecting rope 25 is wound by the winding wheel 5, when the connecting rope 25 moves, the connecting rope 25 can drive the winding wheel 5 to rotate.

The utility model discloses in, big fluted disc 4 and gear wheel 8's radius is unanimous, and gear wheel 8's axle center department rotates with the left side of the inside middle-end of irradiation case and is connected, and big fluted disc 4 and gear wheel 8's radius lets big fluted disc 4 and gear wheel 8 pivoted angle and route unanimous, makes things convenient for the transmission of structure, and gear wheel 8 is spacing by irradiation case 1 rotation, lets gear wheel 8 can rotate steadily, ensures the driven smooth and easy of structure.

The utility model discloses in, driving rope 10 is U type structure and is connected with guide wheel 11, and the axle center department of guide wheel 11 is connected with the inside rotation of irradiation case 1, and the structure of driving rope 10 makes things convenient for the guide of guide wheel 11 to driving rope 10 lets the trend opposite at driving rope 10 both ends after the guide of guide wheel 11, ensures that the structure is driven smooth and easy, and guide wheel 11 is rotated spacingly by irradiation case 1.

The utility model discloses in, the hole sliding connection of spacing wheel carrier 12 rear side has the stopper, the rear side of stopper and the inside bolt of irradiation case 1, spacing wheel carrier 12 comprises the spacing round of spacing frame and spacing frame bottom, the long form slide opening that sets up about the surface of spacing frame is seted up, the stopper passes through the slide rail and slides with the slide opening of spacing wheel carrier 12 and sets up, let reciprocating that spacing wheel carrier 12 can be steady, avoid the skew of spacing wheel carrier 12, and spacing wheel carrier 12 self carries the structure of balancing weight class etc., let spacing wheel carrier 12 can descend steadily.

The utility model discloses in, the rear side of movable block 22 and the inside sliding connection of irradiation case 1, the bottom of transfer line 24 is to the left bank, and movable block 22 passes through the slide rail and slides with irradiation case 1 and set up, lets irradiation case 1 can steady horizontal slip, avoids movable block 22 to be driven by lead screw 21 and rotates the skew, and the convenient transfer line 24 of state of transfer line 24 drives and connects rope 25 and remove.

Example two

This example differs from example 1 in that: lead screw 21 is replaced by the worm, moving block 22 is replaced by the worm wheel, the worm wheel is meshed with the worm wheel, the worm wheel is rotatably connected with irradiation box 1, hinge rod 23 is hinged to the worm wheel, the worm can drive the worm wheel to rotate, the worm wheel can drive hinge rod 23 to move, but the structure is greatly limited by the size of the worm wheel, and therefore the structure of lead screw 21 and moving block 22 is preferred.

The working principle is as follows: the irradiation probe 3 can perform irradiation operation on the cable, when the operation is stopped, the lead screw 21 is rotated, the lead screw 21 can drive the moving block 22 to move rightwards, the moving block 22 can drive the hinge rod 23 to move rightwards, the hinge rod 23 can drive the transmission rod 24 to rotate rightwards, the transmission rod 24 can drive the connecting rope 25 to move rightwards, because the left end of the connecting rope 25 is wound by the winding wheel 5, when the connecting rope 25 moves rightwards, the connecting rope 25 can drive the winding wheel 5 to rotate clockwise, the winding wheel 5 can drive the big fluted disc 4 to rotate clockwise, the big fluted disc 4 can drive the lifting cylinder 6 to move upwards, the lifting cylinder 6 slides on the surface of the square rod 7 for limiting, the lifting cylinder 6 can drive the irradiation probe 3 to move upwards, meanwhile, the lifting cylinder 6 can drive the big gear 8 to rotate anticlockwise, the big gear 8 can drive the winding wheel 9 to rotate anticlockwise, and the winding wheel 9 emits the transmission rope 10, the limiting wheel frame 12 is internally provided with a balancing weight, so that the limiting wheel frame 12 can drive the transmission rope 10 to move downwards, the guide wheel 11 can guide the transmission rope 10, and the downwards-moving limiting wheel frame 12 can limit the cable.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a cable irradiation electron accelerator, includes irradiation case (1) and irradiation case (1) inside irradiation probe (3), its characterized in that, the right side of irradiation case (1) inside middle-end rotates and is connected with big fluted disc (4), the surface bolt joint of big fluted disc (4) has wind-up wheel (5), the left tooth meshing of big fluted disc (4) has a lift section of thick bamboo (6), the bottom of lift section of thick bamboo (6) and the top fixed mounting of irradiation probe (3), the inside sliding connection of lift section of thick bamboo (6) has square bar (7), the top and the inside top bolt joint of irradiation case (1) of square bar (7), the left tooth meshing of lift section of thick bamboo (6) has gear wheel (8), the surface bolt joint of gear wheel (8) has a roll driving wheel (9), the inside winding of roll driving wheel (9) has rope (10), the surface of rope (10) and the inside sliding connection of guide wheel (11), one end, far away from the winding wheel (9), of the transmission rope (10) is bolted with a limiting wheel frame (12), and an adjusting mechanism (2) is wound inside the winding wheel (5).

2. The cable irradiation electron accelerator according to claim 1, wherein the adjusting mechanism (2) comprises a lead screw (21), a moving block (22), a hinge rod (23), a transmission rod (24) and a connecting rope (25), both ends of the screw rod (21) are rotatably sleeved with the inside of the irradiation box (1), the left end of the surface of the screw rod (21) is in threaded connection with a screw hole of the moving block (22), the surface of the moving block (22) is hinged with the right end of the hinged rod (23), the left end of the hinged rod (23) is hinged with the hole on the surface of the transmission rod (24), the top end of the transmission rod (24) is hinged with the top end of the inside of the irradiation box (1), the bottom end of the transmission rod (24) is bolted with the right end of the connecting rope (25), and the connecting rope (25) is far away from the inside of the winding wheel (5) at one end of the transmission rod (24).

3. The cable irradiation electron accelerator of claim 1, wherein the radius of the big fluted disc (4) is consistent with that of the big gear (8), and the axis of the big gear (8) is rotatably connected with the left side of the middle end inside the irradiation box (1).

4. The cable irradiation electron accelerator according to claim 1, wherein the driving rope (10) is connected to the guiding wheel (11) in a U-shaped structure, and the axis of the guiding wheel (11) is rotatably connected to the inside of the irradiation box (1).

5. The cable irradiation electron accelerator according to claim 1, wherein the hole at the rear side of the limiting wheel frame (12) is slidably connected with a limiting block, and the rear side of the limiting block is bolted with the inside of the irradiation box (1).

6. The accelerator as claimed in claim 2, wherein the rear side of the moving block (22) is slidably connected to the inside of the irradiation box (1), and the bottom end of the driving rod (24) is inclined to the left.

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