CN218600798U

CN218600798U - Novel cable impact vibration rain test machine

Info

Publication number: CN218600798U
Application number: CN202222049458.9U
Authority: CN
Inventors: 王泽刚; 陈照海
Original assignee: Xi'an Sushi Guangbo Environmental Reliability Laboratory Co ltd
Current assignee: Xi'an Sushi Guangbo Environmental Reliability Laboratory Co ltd
Priority date: 2022-08-04
Filing date: 2022-08-04
Publication date: 2023-03-10
Anticipated expiration: 2032-08-04

Abstract

The utility model provides a novel cable impact vibration rain test machine, which comprises a pole frame, a test box, a vertical rod, a regulating block, a cross rod, a moving ring, a hanging rod, a hanging ring, a cable, a Venturi tube, a connecting hose, a sprinkler head, a drain valve, a regulating turntable structure and a secondary test detection seat structure, wherein four corners of the lower end of the test box are connected with the pole frame through bolts; the vertical rods are all arranged on the left side and the right side of the inner wall of the test box through bolts; the adjusting blocks are sleeved on the outer walls of the vertical rods and the cross rods, and the joints of the adjusting blocks are fixed through bolts; the moving ring is sleeved on the outer wall of the cross rod and is fixed through a bolt; one end of the suspender is welded with the movable ring, and the other end of the suspender is welded with the hanging ring. The utility model has the advantages that: through the setting of adjusting the carousel structure, drive the regulation and control box and rotate, cooperate venturi to rotate simultaneously and carry out the work that detects in the face of the different position departments of cable.

Description

Novel cable impact vibration rain test machine

Technical Field

The utility model belongs to the technical field of the cable is experimental, especially, relate to a novel cable impact shock rain test machine.

Background

The cable is a general name of articles such as optical cables and electric cables, has multiple purposes, is mainly used for controlling multiple functions such as installation, connecting equipment, electric power transmission and the like, is a common and indispensable object in daily life, needs to be installed carefully due to electrification of the cable, and is used safely after the existing cable is processed and is subjected to an impact vibration rain test on a testing machine in advance.

However, the existing cable impact vibration rain test machine has the problems that the device is inconvenient to adjust to present different directions for testing and the test mode of the device is single.

Therefore, the invention is necessary to invent a novel cable impact vibration rain test machine.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a novel cable impact vibration rain test machine to solve current cable impact vibration rain test machine and be not convenient for adjust the device and be different directions and test and the experimental single problem of mode of the device. A novel cable impact vibration rain test machine comprises a rod frame, a test box, a vertical rod, an adjusting block, a transverse rod, a movable ring, a hanging rod, a hanging ring, a cable, a Venturi tube, a connecting hose, a sprinkler head, a drain valve, an adjusting turntable structure and a secondary test detection seat structure, wherein four corners of the lower end of the test box are connected with the rod frame through bolts; the vertical rods are all arranged on the left side and the right side of the inner wall of the test box through bolts; the adjusting blocks are sleeved on the outer walls of the vertical rods and the transverse rods, and the joints of the adjusting blocks are fixed through bolts; the moving ring is sleeved on the outer wall of the cross rod and is fixed through a bolt; one end of the suspender is welded with the movable ring, and the other end of the suspender is welded with the hanging ring; the cable is inserted into the hanging ring; the upper end and the right end of the Venturi tube are both connected with connecting hoses in a flange mode; the spraying head is in threaded connection with the lower end of the Venturi tube; the drainage valve is in threaded connection with the middle part of the lower side in the test box; the adjusting turntable structure is arranged on the outer wall of the Venturi tube; the secondary test detection seat structure is arranged at the rear part of the inner wall of the test box; the adjusting turntable structure comprises a rotating motor, a speed reducer, a transmission rotating shaft, a regulating box, an operating screw, a T-shaped rotating rod and an extending disassembling and assembling rod structure, wherein the rotating motor is arranged at the lower part of the front end of the speed reducer through a bolt; one end of the transmission rotating shaft is connected with the speed reducer in a key mode, and the other end of the transmission rotating shaft is connected with the regulating and controlling box through a bolt; the operation screw is arranged in the regulation and control box through a bearing, and a T-shaped rotating rod is welded at the upper end of the operation screw; the extension disassembling and assembling rod structure is arranged in the regulating box.

Preferably, the extension disassembling and assembling rod structure comprises an anti-dropping plate, a sliding plate, a sleeve pipe, a control rod, a left sleeve seat and a right sleeve seat, wherein the anti-dropping plate is welded on the left side of the front surface and the rear surface of the sliding plate; one end of the sleeve pipe is welded with the sliding plate, and the other end of the sleeve pipe is inserted with a control rod; the left end of the left sleeve joint seat is welded with a control rod, and the right end of the left sleeve joint seat is connected with the right sleeve joint seat through a bolt and a nut.

Preferably, the secondary test detection seat structure comprises a sliding box, a sliding groove, a lifting seat, a detection spring, a pressure sensor and a protection head, wherein the sliding groove is formed in the middle part inside the sliding box; the lifting seat is inserted into the sliding groove; the detection spring bolt is arranged at the lower part of the inner wall of the chute; one end of the pressure sensor is mounted on the upper surface of the lifting seat through a bolt, and the other end of the pressure sensor is in threaded connection with the protective head.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, the setting of rotation motor, reduction gear and transmission pivot, drive regulation and control box and rotate, cooperate venturi to rotate simultaneously and carry out the work that detects in the face of the different position department of cable.

2. The utility model discloses in, thereby the setting of regulation and control box, operation screw rod and T type dwang, thereby the interval between control of cooperation venturi activity and the cable is used.

3. The utility model discloses in, the setting of anticreep board and sliding plate, stable regulation and control box internal activity is used.

4. The utility model discloses in, the setting of cup joint pipe and control lever, be convenient for cooperate about venturi activity regulation.

5. The utility model discloses in, the left side cup joint the setting of seat and the right side cup joint the seat, be convenient for cooperate venturi to install or dismantle.

6. The utility model discloses in, the setting of smooth box and spout, stable cooperation lift seat moves about.

7. The utility model discloses in, the setting of lift seat and detection spring, cooperation pressure sensor activity is used.

8. The utility model discloses in, pressure sensor and protection head's setting, to cable shock detection behind the cooperation detection spring to its effect that detects has been increased.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the adjusting turntable structure of the present invention.

Fig. 3 is a schematic structural view of the extension disassembling and assembling rod structure of the present invention.

Fig. 4 is a schematic structural diagram of the secondary test detection seat structure of the present invention.

In the figure:

1. a pole frame; 2. a test chamber; 3. a vertical rod; 4. an adjusting block; 5. a cross bar; 6. a moving ring; 7. a boom; 8. a hoisting ring; 9. a cable; 10. a venturi tube; 11. a connecting hose; 12. a sprinkler head; 13. a drain valve; 14. adjusting the structure of the turntable; 141. rotating the motor; 142. a speed reducer; 143. a transmission rotating shaft; 144. a regulatory cassette; 145. operating the screw; 146. a T-shaped rotating rod; 147. an extension disassembling rod structure; 1471. an anti-drop plate; 1472. a sliding plate; 1473. sleeving a pipe; 1474. a control lever; 1475. a left socket joint seat; 1476. a right socket joint seat; 15. a secondary test detection seat structure; 151. a slide box; 152. a chute; 153. a lifting seat; 154. detecting a spring; 155. a pressure sensor; 156. the head is protected.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

the embodiment is as follows:

as shown in the attached figure 1, the novel cable impact vibration rain test machine comprises a pole frame 1, a test box 2, a vertical rod 3, an adjusting block 4, a cross rod 5, a moving ring 6, a suspension rod 7, a suspension ring 8, a cable 9, a venturi tube 10, a connecting hose 11, a sprinkler head 12, a drain valve 13, an adjusting turntable structure 14 and a secondary test detection seat structure 15, wherein four corners of the lower end of the test box 2 are connected with the pole frame 1 through bolts; the vertical rods 3 are all arranged on the left side and the right side of the inner wall of the test box 2 through bolts; the adjusting blocks 4 are sleeved on the outer walls of the vertical rods 3 and the cross rods 5, and the joints are fixed through bolts; the moving ring 6 is sleeved on the outer wall of the cross rod 5 and is fixed through a bolt; one end of the suspender 7 is welded with the movable ring 6, and the other end is welded with the hanging ring 8; the cable 9 is inserted into the hanging ring 8; the upper end and the right end of the Venturi tube 10 are both connected with connecting hoses 11 in a flange manner; the sprinkler head 12 is connected with the lower end of the venturi tube 10 in a threaded manner; the drain valve 13 is in threaded connection with the middle part of the lower side in the test box 2; the adjusting turntable structure 14 is arranged on the outer wall of the venturi tube 10; the secondary test detection seat structure 15 is installed at the rear part of the inner wall of the test box 2.

As shown in fig. 2, in the above embodiment, specifically, the adjusting dial structure 14 includes a rotating motor 141, a speed reducer 142, a transmission rotation shaft 143, a control box 144, an operating screw 145, a t-shaped rotation rod 146 and an extending and detaching rod structure 147, and the rotating motor 141 is mounted at the lower portion of the front end of the speed reducer 142 by bolts; the front driving rotating motor 141 drives the transmission rotating shaft 143 and the regulating box 144 to rotate through the speed reducer 142; one end of the transmission rotating shaft 143 is connected with the speed reducer 142 in a key way, and the other end is connected with the regulating and controlling box 144 in a bolt way; when the regulating box 144 rotates, the sleeve 1473 and the control rod 1474 are matched to drive the venturi tube 10 to rotate and face different directions of the cable 9; the operation screw 145 is installed inside the regulating and controlling box 144 through a bearing, and a T-shaped rotating rod 146 is welded at the upper end of the operation screw 145; the extended dismounting rod structure 147 is arranged in the regulating box 144; rotating the T-shaped rotating rod 146 rotates the operating screw 145 to move the sliding plate 1472 in the regulating box 144.

As shown in fig. 3, in the above embodiment, specifically, the extended dismounting rod structure 147 includes an anti-separation plate 1471, a sliding plate 1472, a sleeve 1473, a control rod 1474, a left sleeve 1475 and a right sleeve 1476, and the anti-separation plate 1471 is welded on the left side of the front and back surfaces of the sliding plate 1472; one end of the sleeve 1473 is welded with the sliding plate 1472, and the other end of the sleeve 1473 is spliced with a control rod 1474; the position of the movable control rod 1474 in the sleeve 1473 drives the sprinkler head 12 to move left and right for adjustment; the left end of the left sleeve 1475 is welded with a control rod 1474, and the right end of the left sleeve 1475 is connected with the right sleeve 1476 through bolts and nuts.

As shown in fig. 4, in the above embodiment, specifically, the secondary test detection seat structure 15 includes a slide box 151, a slide groove 152, a lifting seat 153, a detection spring 154, a pressure sensor 155, and a protection head 156, wherein the slide groove 152 is formed in the middle part inside the slide box 151; the lifting seat 153 in the sliding groove 152 is pressed down to a proper position; the lifting seat 153 is inserted into the sliding groove 152; the detection spring 154 is mounted on the lower part of the inner wall of the chute 152 by bolts; the connection part of the slide box 151 and the lifting seat 153 is turned into a bolt for fixing; one end of the pressure sensor 155 is installed on the upper surface of the lifting seat 153 through a bolt, and the other end of the pressure sensor is in threaded connection with the protective head 156; the bolts at the connection between the slide box 151 and the lifting base 153 are separated, so that the lifting base 153 moves upward by the elastic force of the detection spring 154, and the movable lifting base 153 performs an impact shock test on the cable 9 by the pressure sensor 155 and the protection head 156, thereby completing the work.

In the above embodiment, specifically, the speed reducer 142 is mounted on the upper side of the rear portion of the left surface of the test chamber 2 by bolts, and the speed reducer 142 rotatably supports the control box 144 through the transmission rotating shaft 143.

In the above embodiment, specifically, a T-shaped groove is formed in the regulating and controlling box 144, an operating screw 145 is movably supported in the groove, and the upper end of the operating screw 145 is driven to rotate by a T-shaped rotating rod 146.

In the above embodiment, specifically, the anti-dropping plate 1471 and the sliding plate 1472 are inserted into the adjusting box 144, and the inside of the sliding plate 1472 is threadedly connected to the operating screw 145.

In the above embodiment, specifically, the left socket 1475 and the right socket 1476 are both configured as a steel plate seat shaped like a Chinese character 'ji', and the venturi tube 10 is clasped inside the left socket 1475 and the right socket 1476.

In the above embodiment, specifically, the slide box 151 is installed at the middle part of the rear part of the inner wall of the test box 2 by bolts, and meanwhile, the sliding groove 152 inside the slide box 151 is matched with the lifting seat 153, and the lifting seat 153 is an i-shaped steel seat.

In the above embodiment, specifically, the upper end of the detection spring 154 abuts against the lifting seat 153, a bolt is connected to a joint of the lifting seat 153 and the sliding box 151 through a thread, a plurality of threaded holes are formed in the right side inside the sliding box 151, and the bolt is connected to the threaded holes through a thread.

In the above embodiment, specifically, the rotating motor 141 is a model SL57S2 motor, and the pressure sensor 155 is a model DYMH-103 pressure sensor.

Principle of operation

The utility model discloses a theory of operation: the movable adjusting block 4 reaches a proper position on the outer walls of the vertical rod 3 and the cross rod 5, then bolts at the joint of the movable adjusting block are screwed, then the movable moving ring 6 is matched with the suspension rod 7 and the suspension ring 8 to reach the proper position and then is screwed with the bolts at the joint of the movable adjusting block, finally the cable 9 passes through the suspension ring 8 to be hoisted, after the assembly is finished, the Venturi tube 10 is connected with a water injection position and an air pump through a connecting hose 11, so that water and air are mixed in the Venturi tube 10 and are sprayed out from the spraying head 12 to carry out the work of an impact vibration rain test on the cable 9, in the working process, the driving rotating motor 141 drives the transmission rotating shaft 143 and the adjusting and controlling box 144 to rotate through the reducer 142, when the adjusting and controlling box 144 rotates, the sleeving pipe 1473 and the control rod 1474 are matched to drive the Venturi tube 10 to rotate and face different directions of the cable 9, then, the T-shaped rotating rod 146 is rotated to drive the operating screw 145 to rotate so as to drive the sliding plate 1472 to move in the adjusting and controlling box 144, so that the venturi tube 10 can be driven to adjust the distance between the venturi tube and the cable 9, finally, the movable control rod 1474 is moved in the sleeve tube 1473 to drive the sprinkler head 12 to move left and right for adjustment, after the adjustment is completed, the bolt at the joint of the sprinkler head 12 is screwed therewith for use, when other impact vibration tests are performed, the lifting seat 153 in the sliding chute 152 is pressed down to reach a proper position, then, the bolt is turned over at the joint of the sliding box 151 and the lifting seat 153 for fixation, then, the pressure sensor 155 is connected with the computer, and finally, the bolt at the joint of the sliding box 151 and the lifting seat 153 is separated, so that the lifting seat 153 moves upwards through the elastic force of the detection spring 154, and the movable lifting seat 153 performs the impact vibration test on the cable 9 through the pressure sensor 155 and the protection head 156, thereby completing the work.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims

1. The novel cable impact vibration rain test machine is characterized by comprising a pole frame (1), a test box (2), a vertical rod (3), a regulating block (4), a cross rod (5), a movable ring (6), a suspension rod (7), a suspension ring (8), a cable (9), a Venturi tube (10), a connecting hose (11), a sprinkler head (12), a drain valve (13), a regulating turntable structure (14) and a secondary test detection seat structure (15), wherein four corners of the lower end of the test box (2) are in bolted connection with the pole frame (1); the vertical rods (3) are all installed on the left side and the right side of the inner wall of the test box (2) through bolts; the adjusting blocks (4) are sleeved on the outer walls of the vertical rods (3) and the transverse rods (5), and the connecting parts are fixed through bolts; the moving ring (6) is sleeved on the outer wall of the cross rod (5) and is fixed through a bolt; one end of the suspender (7) is welded with the movable ring (6), and the other end is welded with the hanging ring (8); the cable (9) is inserted into the hanging ring (8); the upper end and the right end of the Venturi tube (10) are both connected with a connecting hose (11) in a flange mode; the spraying head (12) is in threaded connection with the lower end of the Venturi tube (10); the drainage valve (13) is in threaded connection with the middle part of the lower side in the test box (2); the adjusting turntable structure (14) is arranged on the outer wall of the Venturi tube (10); the secondary test detection seat structure (15) is arranged at the rear part of the inner wall of the test box (2); the adjusting turntable structure (14) comprises a rotating motor (141), a speed reducer (142), a transmission rotating shaft (143), a regulating box (144), an operating screw rod (145), a T-shaped rotating rod (146) and an extending disassembling and assembling rod structure (147), wherein the rotating motor (141) is arranged at the lower part of the front end of the speed reducer (142) through a bolt; one end of the transmission rotating shaft (143) is connected with the speed reducer (142) in a key mode, and the other end of the transmission rotating shaft is connected with the regulating and controlling box (144) through a bolt; the operation screw rod (145) is arranged in the regulation and control box (144) through a bearing, and a T-shaped rotating rod (146) is welded at the upper end of the operation screw rod (145); the extension disassembling and assembling rod structure (147) is arranged in the regulating box (144).

2. The new cable impact shock rain tester as claimed in claim 1, wherein the extended dismounting and mounting rod structure (147) comprises a retaining plate (1471), a sliding plate (1472), a sleeve pipe (1473), a control rod (1474), a left sleeve seat (1475) and a right sleeve seat (1476), the retaining plate (1471) is welded on the left side of the front and back surfaces of the sliding plate (1472); one end of the sleeve pipe (1473) is welded with the sliding plate (1472), and the other end of the sleeve pipe is spliced with a control rod (1474); the left end of the left sleeve joint seat (1475) is welded with a control rod (1474), and the right end of the left sleeve joint seat (1475) is connected with the right sleeve joint seat (1476) through bolts and nuts.

3. The novel cable impact vibration rain test machine according to claim 1, wherein the reducer (142) is installed on the upper side of the rear portion of the left surface of the test box (2) through bolts, the reducer (142) rotatably supports the control box (144) through a transmission rotating shaft (143), a T-shaped groove is formed in the control box (144), an operating screw (145) is movably supported in the groove, and the upper end of the operating screw (145) is driven to rotate through the T-shaped rotating rod (146).

4. The new cable impact shock rain tester as claimed in claim 2, wherein the anti-drop plate (1471) and the sliding plate (1472) are inserted into the control box (144), and the inside of the sliding plate (1472) is screw-connected with the operation screw (145).

5. The novel cable impact shock rain test machine according to claim 1, wherein the secondary test detection seat structure (15) comprises a slide box (151), a sliding groove (152), a lifting seat (153), a detection spring (154), a pressure sensor (155) and a protection head (156), wherein the sliding groove (152) is formed in the middle part inside the slide box (151); the lifting seat (153) is inserted into the sliding groove (152); the detection spring (154) is mounted at the lower part of the inner wall of the sliding groove (152) through a bolt; one end of the pressure sensor (155) is installed on the upper surface of the lifting seat (153) through a bolt, and the other end of the pressure sensor is in threaded connection with the protective head (156).

6. The novel cable impact vibration rain test machine according to claim 5, characterized in that the slide box (151) is installed at the middle part of the rear part of the inner wall of the test box (2) through bolts, meanwhile, a sliding groove (152) in the slide box (151) is matched with a lifting seat (153), and the lifting seat (153) adopts an I-shaped steel seat.

7. The novel cable impact shock rain test machine according to claim 5, characterized in that the upper end of the detection spring (154) is abutted against the lifting seat (153), a bolt is connected to the joint of the lifting seat (153) and the slide box (151) through a thread, a plurality of threaded holes are formed in the right side inside the slide box (151), and the bolt is connected to the threaded holes through a thread.