CN210505131U - Lifter guide rail frame bolt connection reliability detection device - Google Patents

Abstract

The utility model discloses an elevator guide rail frame bolted connection reliability detection device, wherein, elevator guide rail frame bolted connection reliability detection device includes guide rail frame and two cages of arranging along the guide rail frame left and right sides, and cage drive support is installed to the cage top, guide rail frame includes from supreme a plurality of standard festival frames of arranging in proper order down, through guide rail frame bolt and guide rail frame nut cooperation fixed connection between the adjacent standard festival frame, the bolt detection module who is used for towards guide rail frame bolt is installed at cage drive support top, bolt detection module and cage PLC controller signal connection, and cage PLC controller still respectively signal connection has audible-visual alarm module, touch-sensitive screen, frequency conversion drive module and first wireless module. The utility model discloses a detection device installation and debugging is simple, and the operation is reliable and stable, and dust and fatlute are little to the detection effect influence, and the assembly cost is lower.

Description

Lifter guide rail frame bolt connection reliability detection device

Technical Field

The utility model relates to an engineering machine tool technical field specifically is an elevator guide rail frame bolted connection reliability detection device.

Background

The construction elevator is a dual-purpose elevator for people and goods for vertical transportation, and tens of thousands of elevator devices are applied to all large sites in the country every day. The safety of the guide rail frame is the important importance of the operation safety of the construction elevator, so far, a plurality of major safety accidents caused by the damage of the guide rail frame have occurred in China, and the direct high-altitude falling of the cage of the elevator is mainly caused by the falling of the guide rail frame bolt. In view of the above circumstances, how to provide a lifter guide rail frame bolted connection reliability detection device, avoid appearing the cage high altitude and weigh down the ground and cause major safety accident, become the problem that this application needs to solve.

Disclosure of Invention

An object of the utility model is to provide an elevator guide rail frame bolted connection reliability detection device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an elevator guide rail frame bolted connection reliability detection device, includes guide rail frame and two cages of arranging along the guide rail frame left and right sides, cage drive support, its characterized in that are installed to the cage top: guide rail frame includes follows supreme a plurality of standards of arranging in proper order down and economizes the frame, and through guide rail frame bolt and guide rail frame nut cooperation fixed connection between the adjacent standard festival frame, the bolt detection module who is used for towards guide rail frame bolt is installed at cage drive support top, bolt detection module and cage PLC controller signal connection, cage PLC controller still respectively signal connection have audible-visual alarm module, touch-sensitive screen, frequency conversion drive module and first wireless module, still include ground command control system, ground command control system includes ground PLC controller, second wireless module and ground command button, ground PLC controller respectively with second wireless module, ground command button signal connection, be connected through the radio signal communication between second wireless module and the first wireless module.

As a further aspect of the present invention: the bolt detection module adopts a magnetic leakage detector, an infrared detector or an ultrasonic detector.

As a further aspect of the present invention: the ground PLC controller is also connected with an acousto-optic alarm module and a touch screen.

As a further aspect of the present invention: the sound-light alarm module adopts an alarm three-color lamp and an alarm loudspeaker.

As a further aspect of the present invention: and the ground PLC controller is connected with the cage PLC controller through wireless communication.

As a further aspect of the present invention: the ground instruction button comprises a starting button, an uplink button and a downlink button for controlling the lifting of the left suspension cage, a starting button, an uplink button and a downlink button for controlling the lifting of the right suspension cage, and a detection starting button, a detection stopping button and a detection returning button for controlling the detection of the guide rail frame bolt.

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

(1) the function can be realized by additionally arranging the bolt detection module and the wireless communication module on the basis of the traditional elevator control system, and compared with a camera image processing scheme, the cost is lower.

(2) The installation and debugging are simple, and after the support is installed, the vertical distance between the bolt detection module and the guide rail frame can be adjusted.

(3) The operation is stable and reliable, and the dust and the oil sludge have little influence on the detection effect.

Drawings

Fig. 1 is a schematic view of the whole installation of the elevator of the present invention;

FIG. 2 is a dimension diagram of a standard section of an elevator according to an embodiment of the present invention;

fig. 3 is a block diagram of the control system of the present invention;

fig. 4 is the utility model discloses carry out the real-time step picture that detects to guide rail frame bolt.

In the figure: 100-a cage, 200-a cage driving support, 300-a standard section frame, 400-a guide rail frame bolt, 500-a standard section rack, 1-a cage PLC controller, 2-a sound and light alarm module, 3-a touch screen, 4-a bolt detection module, 5-a first wireless module, 6-a frequency conversion driving module, 7-a ground PLC controller, 8-a second wireless module and 9-a ground instruction button.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides an embodiment: the utility model provides an elevator guide rail frame bolted connection reliability detection device, includes guide rail frame and two cage 100 of arranging along the guide rail frame left and right sides, cage drive support 200, its characterized in that are installed to cage 100 top: the guide rail frame comprises a plurality of standard section frames 300 which are sequentially arranged from bottom to top, adjacent standard section frames 300 are fixedly connected through guide rail frame bolts 400 and guide rail frame nuts in a matched mode, a bolt detection module 4 used for facing the guide rail frame bolts 400 is installed at the top of the suspension cage driving support 200, the bolt detection module 4 is in signal connection with the suspension cage PLC controller 1, the suspension cage PLC controller 1 is further in signal connection with an acousto-optic alarm module 2, a touch screen 3, a variable frequency driving module 6 and a first wireless module 5 respectively, the ground control system further comprises a ground instruction control system, the ground instruction control system comprises a ground PLC controller 7, a second wireless module 8 and a ground instruction button 9, the ground PLC controller 7 is in signal connection with the second wireless module 8 and the ground instruction button 9 respectively, and the second wireless module 8 is in wireless signal communication connection with the first wireless module 5, and wireless communication connection between the ground PLC and the cage PLC is realized.

Wherein, bolt detection module 4 adopts magnetic leakage detector, infrared ray detector or ultrasonic detector.

The ground PLC controller 7 is also connected with an acousto-optic alarm module 2 and a touch screen 3; the sound and light alarm module 2 adopts an alarm three-color lamp and an alarm loudspeaker.

And the variable-frequency driving module 6 adopts a variable-frequency driving motor. Preferably, the output end of the variable frequency driving motor is provided with a driving gear, the standard knot frame 300 is fixed with a standard knot rack 500 corresponding to the driving gear, the standard knot racks are spliced to form a whole running rack, the suspension cage 100 is also provided with a guide wheel, the standard knot frame 300 is also fixed with a guide rail corresponding to the guide wheel, and the suspension cage is driven by the variable frequency driving motor to run up and down. It will be appreciated that other lift drive configurations for cage 100 may be used. Of course, the tail end of the variable frequency driving motor is also provided with an encoder for detecting the rotating speed of the variable frequency driving motor, the encoder is in signal connection with the cage PLC controller 1, and the cage PLC controller 1 can convert the rotating speed of the variable frequency driving motor into the operating speed of the cage 100.

The ground instruction button 9 comprises a start button, an uplink button and a downlink button for controlling the lifting of the left suspension cage, a start button, an uplink button and a downlink button for controlling the lifting of the right suspension cage, and a detection start button, a detection stop button and a detection return button for controlling the detection of the guide rail frame bolt.

A method for detecting the bolt connection reliability of a guide rail frame of an elevator specifically comprises the following steps:

s1, controlling the left and right suspension cages 100 to park in place at the lower limit positions through the ground command button 9;

s2, pressing a detection start button of the ground command button 9 for a long time, sending a start signal to the ground PLC controller 7 by the start button, sending the start signal to the cage PLC controller 1 by the ground PLC controller 7 through wireless communication between the second wireless module 8 and the first wireless module 5, starting the bolt detection module 4 for detecting the guide rail frame bolt 400 by the cage PLC controller 1, and starting the variable frequency driving module 6 inside the cage 100 by the cage PLC controller 1;

s3, the two cages 100 start to ascend synchronously at low speed under the drive of the variable-frequency drive module 6;

s4, during the period when two cages 100 are moving upward, cage PLC controller 1 calculates a travel distance S, S = ═ v · Δ t, where v is the instantaneous speed of cage 100, and Δ t is the time that cage 100 is moving;

s5, the bolt detection module 4 starts to detect the guide rail frame bolts 400 distributed on the guide rail frame, the detected continuous metal length is L, L is the actual length of the guide rail frame bolts 400, h is the initial length of the guide rail frame bolts 400, and i is the length of the standard knot frame 300; if L is more than h, resetting the running distance S; if the accumulated running distance S of the cage 100 is more than i and L is less than h, the cage PLC 1 controls the variable frequency driving module 6 to stop working, the cage 100 stops working, the fault position of the guide rail frame bolt 400 is recorded, and meanwhile, an audible and visual alarm is output through the audible and visual alarm module 2; in this example, h is 245mm and i is 1508 mm. In the actual detection process, the bolt detection module 4 also detects the length information of the standard knot frame 300, and since the length of the standard knot frame 300 is much longer than the actual length of the guide rail frame bolt 400, the cage PLC controller 1 deletes the detected length information of the standard knot frame 300.

S6, if the guide rail bracket bolt 400 is not detected to be out of order during the operation of the suspension cage 100, the acousto-optic alarm module 2 is triggered until the suspension cage 100 operates to the upper limit position, the detection of the guide rail bracket bolt 400 is completed, and the suspension cage 100 returns to the lower limit position, which indicates that no guide rail bracket bolt with the failure exists on the whole guide rail bracket.

Two cage synchronous start on left and right sides begin to detect, and the contralateral bolt that avoids probably appearing in single cage testing process drops, and the cage continues to go upward and leads to the condition that the cage crashed.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an elevator guide rail frame bolted connection reliability detection device, includes guide rail frame and two cages of arranging along the guide rail frame left and right sides, cage drive support, its characterized in that are installed to the cage top: guide rail frame includes follows supreme a plurality of standards of arranging in proper order down and economizes the frame, and through guide rail frame bolt and guide rail frame nut cooperation fixed connection between the adjacent standard festival frame, the bolt detection module who is used for towards guide rail frame bolt is installed at cage drive support top, bolt detection module and cage PLC controller signal connection, cage PLC controller still respectively signal connection have audible-visual alarm module, touch-sensitive screen, frequency conversion drive module and first wireless module, still include ground command control system, ground command control system includes ground PLC controller, second wireless module and ground command button, ground PLC controller respectively with second wireless module, ground command button signal connection, be connected through the radio signal communication between second wireless module and the first wireless module.

2. The elevator guide rail frame bolting reliability detection apparatus according to claim 1, wherein: the bolt detection module adopts a magnetic leakage detector, an infrared detector or an ultrasonic detector.

3. The elevator guide rail frame bolting reliability detection apparatus according to claim 1, wherein: the ground PLC controller is also connected with an acousto-optic alarm module and a touch screen.

4. The elevator guide rail frame bolting reliability detecting apparatus according to claim 3, wherein: the sound-light alarm module adopts an alarm three-color lamp and an alarm loudspeaker.

5. The elevator guide rail frame bolting reliability detection apparatus according to claim 1, wherein: and the ground PLC controller is connected with the cage PLC controller through wireless communication.

6. The elevator guide rail frame bolting reliability detection apparatus according to claim 1, wherein: the ground instruction button comprises a starting button, an uplink button and a downlink button for controlling the lifting of the left suspension cage, a starting button, an uplink button and a downlink button for controlling the lifting of the right suspension cage, and a detection starting button, a detection stopping button and a detection returning button for controlling the detection of the guide rail frame bolt.

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