CN210418833U - Special equipment monitoring device - Google Patents

Abstract

The utility model discloses a carry out special equipment monitoring devices, including first activity measuring pole, fixed connection ring connector link, pointer, bolt assembly, can dismantle the go-between, can dismantle go-between connector link and push-and-pull dynamometer, first activity measuring pole one side is equipped with the push pedal, through first connecting sleeve connection between first activity measuring pole and the push pedal, and push pedal outside cover is equipped with the lagging, and the lagging end is equipped with second activity measuring pole, the utility model discloses the beneficial effect who reaches is: the utility model discloses reading the scale numerical value on the push-pull dynamometer when the elevator is not closing, promptly be the clamp force of monitoring the elevator, contrast between qualified numerical value interval alright with whether qualified can with the clamp force that obtains this elevator, easy operation, the function is practical, and general purpose is wide.

Description

Special equipment monitoring device

Technical Field

The utility model relates to a special equipment monitoring devices, in particular to carry out special equipment monitoring devices belongs to technical field.

Background

In the existing life, an elevator is a common tool, the elevator is extremely dangerous to human as a special device, various data of the elevator need to be monitored regularly, the clamping force of a door of the elevator is an important detection item, and the traditional clamping force detection device is complicated in structure, difficult to use, difficult to maintain and extremely poor in universality.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome prior art's defect, provide one kind and carry out special equipment monitoring devices.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model relates to a device for monitoring special equipment, which comprises a first movable detection rod, a fixed connecting ring connecting buckle, a pointer, a bolt component, a detachable connecting ring connecting buckle and a push-pull dynamometer, wherein one side of the first movable detection rod is provided with a push plate, the first movable detection rod is connected with the push plate through a first connecting sleeve, the outer side of the push plate is sleeved with a sleeve plate, the tail end of the sleeve plate is provided with a second movable detection rod, the sleeve plate is connected with the second movable detection rod through a second connecting sleeve, the middle part of the sleeve plate is provided with a push plate limiting groove, the push plate is positioned in the push plate limiting groove at the middle part of the sleeve plate, one side of the top end of the push plate is connected with a push plate extension plate, the push plate is connected with the push plate extension plate through two connecting shafts, and the sleeve plate at the joint of the push plate and the, lie in the lagging top fixedly connected with lagging of push pedal extension board one side extends the board, install the push-and-pull effort meter between push pedal extension board and the lagging extension board, fixed connection ring is connected to push-and-pull effort meter one side, fixed connection ring one side is connected in the inboard fixed connection ring connector link of lagging extension board, the detachable connection ring is connected to the push-and-pull effort meter opposite side, detachable connection ring connector link of push pedal extension board one side is connected to detachable connection ring one side.

Preferably, the length of the connecting shaft sliding groove is smaller than that of the push plate limiting groove, and the width of the connecting shaft sliding groove is the same as the diameter of the connecting shaft.

Preferably, the push-pull dynamometer is a push-pull dynamometer.

Preferably, a bolt assembly is installed at the joint of the push-pull dynamometer and the detachable connecting ring, and the bolt assembly and the detachable connecting ring are in threaded connection.

Preferably, the inner sides of the first movable detection rod and the second movable detection rod are both provided with arc-shaped grooves, and the surfaces of the grooves on the inner sides of the first movable detection rod and the second movable detection rod are both provided with rubber cushions.

Preferably, the outer side baffles of the first movable detection rod and the second movable detection rod are respectively and rotatably connected with the first movable detection rod and the second movable detection rod.

Preferably, the first connecting sleeve and the second connecting sleeve are both hexagonal threaded sleeves.

The utility model discloses the beneficial effect who reaches is: the utility model discloses a professional monitoring personnel will dismantle the go-between at first and be fixed in the inboard of push pedal extension board, and with first activity detection rod joint to the lift-cabin door one side that needs the monitoring, then the operation closes the lift-cabin door, connect to behind the second activity detection rod and continue the extrusion at lift-cabin door other end joint, first activity detection rod and second activity detection rod can drive between lagging extension board and the push pedal extension board and do the opposite direction motion when inside extruded, and make the scale on the push-pull dynamometer produce the change, read the scale numerical value on the push-pull dynamometer after the elevator is not closing, be the clamp force of monitoring the elevator promptly, contrast between the qualified numerical value interval alright with whether qualified can with the clamp force that obtains this elevator, the operation is simple, the function is practical, the universality is wide.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a drawing showing the installation structure of the push-pull force gauge of the present invention;

fig. 3 is a schematic view of the position of the connecting shaft of the present invention.

In the figure, 1, a first movable detection rod; 2. fixing a connecting ring connecting buckle; 3. a pointer; 4. a bolt assembly; 5. the connecting ring can be disassembled; 6. the connecting ring connecting buckle can be disassembled; 7. a second movable detection lever; 8. a push plate extension plate; 9. a connecting shaft chute; 10. A push-pull force meter; 11. fixing a connecting ring; 12. a first connecting sleeve; 13. a strap extension plate; 14. pushing the plate; 15. sheathing; 16. a second connecting sleeve; 17. a push plate limiting groove; 18. and (7) connecting the shafts.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Examples

As shown in fig. 1-3, the utility model provides a device for monitoring special equipment, which comprises a first movable detection rod 1, a fixed connecting ring connector 2, a pointer 3, a bolt component 4, a detachable connecting ring 5, a detachable connecting ring connector 6 and a push-pull force meter 10, wherein a push plate 14 is arranged on one side of the first movable detection rod 1, the first movable detection rod 1 is connected with the push plate 14 through a first connecting sleeve 12, a sleeve plate 15 is sleeved on the outer side of the push plate 14, a second movable detection rod 7 is arranged at the tail end of the sleeve plate 15, the sleeve plate 15 is connected with the second movable detection rod 7 through a second connecting sleeve 16, a push plate limiting groove 17 is arranged in the middle of the sleeve plate 15, the push plate 14 is positioned in the push plate limiting groove 17 in the middle of the sleeve plate 15, a push plate extension plate 8 is connected on one side of the top end of the push plate 14, the push plate 14 is connected, two connecting shaft sliding grooves 9 are cut on a sleeve plate 15 at the joint of the push plate 14 and the push plate extension plate 8, a sleeve plate 15 top end fixedly connected with sleeve plate extension plate 13 positioned on one side of the push plate extension plate 8, a push-pull force meter 10 is installed between the push plate extension plate 8 and the sleeve plate extension plate 13, a fixed connecting ring 11 is connected on one side of the push-pull force meter 10, one side of the fixed connecting ring 11 is connected with a fixed connecting ring connecting buckle 2 on the inner side of the sleeve plate extension plate 13, a detachable connecting ring 5 is connected on the other side of the push-pull force meter 10, and a detachable connecting ring connecting buckle 6 on one side of the push plate extension plate.

Further, the length of the connecting shaft sliding groove 9 is smaller than that of the push plate limiting groove 17, and the width of the connecting shaft sliding groove 9 is the same as that of the connecting shaft 18, so that the connecting shaft is prevented from shaking during sliding.

Furthermore, the push-pull dynamometer 10 is a push-pull dynamometer, which is convenient for use and observation and low in cost.

Further, the bolt assembly 4 is installed at the junction of the push-pull dynamometer 10 and the detachable connecting ring 5, and the bolt assembly 4 and the detachable connecting ring 5 are in threaded connection, so that disassembly, assembly and maintenance are facilitated.

Further, the inboard of first activity detection pole 1 and second activity detection pole 7 all is equipped with the arc recess, and the recess surface of first activity detection pole 1 and second activity detection pole 7 inboard all is equipped with the cushion of rubber material, and the frictional force on increase and measurement body surface reaches skid-proof function.

Further, the outside baffle of first activity test rod 1 and second activity test rod 7 rotates with first activity test rod 1 and second activity test rod 7 respectively and is connected, makes the utility model discloses when being suitable for the clamp force monitoring work with the elevator, also be applicable to the pressure measurement in other operations equally, general use nature is more extensive.

Further, the first connecting sleeve 12 and the second connecting sleeve 16 are both hexagonal threaded sleeves, which facilitates the assembly and disassembly of the first movable detecting rod 1 and the second movable detecting rod 7.

Specifically, the utility model discloses during the use, professional monitoring personnel will dismantle go-between 5 at first and be fixed in the inboard of push pedal extension board 8, and with 1 joint of first activity measuring rod to the lift-cabin door one side that needs the monitoring, then the operation is closed the lift-cabin door, connect to behind second activity measuring rod 7 and continue the extrusion in the other end of lift-cabin door joint, can drive sleeve board extension board 13 and push pedal extension board 8 and do the opposite direction motion when first activity measuring rod 1 and second activity measuring rod 7 are inside the extrusion, and make the scale on the push-pull dynamometer 10 change, read the scale numerical value on the push-pull dynamometer 10 after the elevator is not closing, be promptly the clamp force of monitoring the elevator promptly, contrast qualified numerical value interval alright whether can be qualified with the clamp force that obtains this elevator.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The device for monitoring the special equipment comprises a first movable detection rod (1), a fixed connecting ring connecting buckle (2), a pointer (3), a bolt assembly (4), a detachable connecting ring (5), a detachable connecting ring connecting buckle (6) and a push-pull force meter (10), and is characterized in that a push plate (14) is arranged on one side of the first movable detection rod (1), the first movable detection rod (1) and the push plate (14) are connected through a first connecting sleeve (12), a sleeve plate (15) is sleeved on the outer side of the push plate (14), a second movable detection rod (7) is arranged at the tail end of the sleeve plate (15), the sleeve plate (15) and the second movable detection rod (7) are connected through a second connecting sleeve (16), a push plate limiting groove (17) is formed in the middle of the sleeve plate (15), the push plate (14) is located in the push plate limiting groove (17) in the middle of the sleeve plate (15), one side of the top end of the push plate (14) is connected with a push plate extension plate (8), the push plate (14) and the push plate extension plate (8) are connected through two connecting shafts (18), two connecting shaft sliding grooves (9) are drilled on a sleeve plate (15) at the joint of the push plate (14) and the push plate extension plate (8), the top end of the sleeve plate (15) at one side of the push plate extension plate (8) is fixedly connected with a sleeve plate extension plate (13), a push-pull dynamometer (10) is arranged between the push plate extension plate (8) and the sleeve plate extension plate (13), one side of the push-pull dynamometer (10) is connected with a fixed connecting ring (11), one side of the fixed connecting ring (11) is connected with a fixed connecting ring connecting buckle (2) on the inner side of the sleeve plate extension plate (13), the detachable connecting ring (5) is connected to the other side of the push-pull dynamometer (10), and the detachable connecting ring connecting buckle (6) on one side of the push plate extending plate (8) is connected to one side of the detachable connecting ring (5).

2. A device for monitoring a specific apparatus according to claim 1, wherein the length of the connecting shaft sliding groove (9) is smaller than the length of the push plate limiting groove (17), and the width of the connecting shaft sliding groove (9) is the same as the diameter of the connecting shaft (18).

3. A device as claimed in claim 1, wherein the push-pull dynamometer (10) is a push-pull dynamometer.

4. A device for monitoring a specific type of equipment according to claim 1, wherein a bolt assembly (4) is installed at the connection between the push-pull force gauge (10) and the detachable connection ring (5), and the bolt assembly (4) and the detachable connection ring (5) are in threaded connection.

5. A device for monitoring special equipment according to claim 1, wherein the inner sides of the first movable detection rod (1) and the second movable detection rod (7) are provided with arc-shaped grooves, and the surfaces of the grooves on the inner sides of the first movable detection rod (1) and the second movable detection rod (7) are provided with rubber cushions.

6. A device for monitoring a process plant according to claim 1, wherein the external side guards of the first (1) and second (7) motion detection levers are rotatably connected to the first (1) and second (7) motion detection levers, respectively.

7. A device as claimed in claim 1, wherein the first and second coupling sleeves (12, 16) are hexagonal threaded sleeves.

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