CN206407779U - Elevator and its anti-enabling shear - Google Patents

Abstract

The utility model is related to a kind of elevator and its anti-enabling shear, including two clamping plates being oppositely arranged and the mechanical linkage arm being connected with gate up and down, and clamping plate on hoistway and coordinates arrangement with level position of elevator；When Elevator landing opens the door, gate is opened, and mechanical linkage arm is moved and inserted between two clamping plates with gate；At closing time, gate closure, mechanical linkage arm is moved and exited between two clamping plates with gate Elevator landing.When Elevator landing opens the door, mechanical linkage arm is stretched under the drive of gate between two clamping plates, and when enabling accidental movement failure occurs for elevator, mechanical linkage arm is stuck between two clamping plates, effectively prevents enabling shearing accident from occurring, it is ensured that the safety of passenger；When elevator closes the door operation, mechanical linkage arm is withdrawn under the drive of gate from clamping plate, it is to avoid operationally mechanical linkage arm is interfered elevator with clamping plate.The anti-enabling shear uses mechanical linkage mode, and reliability is higher, and reduction improvement cost.

Description

Elevator and its anti-enabling shear

Technical field

The utility model is related to elevator safety operation technical field, more particularly to a kind of elevator and its anti-enabling shearing dress Put.

Background technology

With continuing to develop for Process of Urbanization Construction, elevator quantity is growing day by day, and bad, elevator is maintained at elevator aging and scene Hidden danger is heavy, and accidental movement failure when passenger's death by accident is mostly due to door-opened elevator causes.Elevator mainly passes through band-type brake Stop car, during often there is passenger's turnover elevator, the situation that brake force deficiency causes to slip ladder occurs for elevator, it is impossible to keep away Accidental movement when exempting from door-opened elevator causes the situation that passenger crushes, it is difficult to meet in national standard on ensuring car in Men Qu Accidental movement be less than 0.95m relevant regulations, elevator has been installed at present not possessing prevents enabling shearing function, therefore is equipped with Prevent that car door area accidental movement function from being the problem of elevator industry is in the urgent need to address.

Utility model content

The purpose of this utility model is to provide a kind of elevator and its anti-enabling shear, can prevent door-opened elevator from cutting Cut accident, it is ensured that the safety of passenger.

To realize the purpose of this utility model, adopt the technical scheme that：

A kind of anti-enabling shear of elevator, including two clamping plates being oppositely arranged and the machinery being connected with gate up and down Transmission arm, clamping plate on hoistway and coordinates arrangement with level position of elevator；When Elevator landing opens the door, gate is opened, machinery connection Swing arm is moved and inserted between two clamping plates with gate；At closing time, gate is closed Elevator landing, and mechanical linkage arm is with sedan-chair Door is moved and exited between two clamping plates together.

When Elevator landing opens the door, mechanical linkage arm is stretched under the drive of gate between two clamping plates, when elevator is opened During door accidental movement failure, mechanical linkage arm is stuck between two clamping plates, effectively prevents enabling shearing accident from occurring, it is ensured that passenger Safety；When elevator closes the door operation, mechanical linkage arm is withdrawn under the drive of gate from clamping plate, it is to avoid elevator is operationally Mechanical linkage arm is interfered with clamping plate.The anti-enabling shear of the elevator is by the way of mechanical linkage, compared to electric operation Device, its reliability is higher, and reduction improvement cost.

Technical scheme is further illustrated below：

It is further that the anti-enabling shear of elevator also includes on car and one-to-one with mechanical linkage arm The direct of travel of guide pad, the sliding channel that guide pad is passed through provided with confession mechanical linkage arm, sliding channel and gate be arranged in parallel. Motion of the guide pad to mechanical linkage arm play the guiding role, and makes the motion of mechanical linkage arm more steady.

It is further that guide pad is fixed on the top of car.It is easy to the installation of guide pad and mechanical linkage arm and daily Safeguard.

It is further that mechanical linkage arm includes the first gangbar, the one end and the being be arranged in parallel with gate direct of travel Second gangbar of one gangbar connection, the other end of the second gangbar is connected with gate, and the first gangbar passes through sliding channel.

It is further that the first gangbar and the second gangbar are arranged vertically, and mechanical linkage arm is L-shaped.

It is further that the anti-enabling shear of elevator includes being electrically connected with elevator motion control device and and mechanical linkage The one-to-one self-inspection slowdown monitoring switch of arm, mechanical linkage arm is provided with the baffle plate being oppositely arranged with self-inspection slowdown monitoring switch, and baffle plate is located at certainly Detection switch is close to the side of car；Mechanical linkage arm is to during one lateral movement of clamping plate, and baffle plate is abutted against with self-inspection slowdown monitoring switch, elevator Operation controller control elevator stops ladder.When baffle plate is abutted against with self-inspection slowdown monitoring switch, self-inspection slowdown monitoring switch sends the signal to elevator fortune Line control unit, elevator motion control device control elevator is not run, and further improves the security of elevator；Mechanical linkage arm exits two When between individual clamping plate, baffle plate is separated with self-inspection slowdown monitoring switch, and self-inspection slowdown monitoring switch sends the signal to elevator motion control device, elevator fortune Row allows elevator vertical transport to act.

It is further that mechanical linkage arm has two, and two mechanical linkage arms are symmetrically arranged in the both sides of car, machinery connection Swing arm is corresponded with gate.Two mechanical linkage arms are symmetrical, and the stress for making car stop evenly, prevents car in system Stopping time makes run-off the straight, further improves the security of elevator.

It is further that Boards wall is on the cage guide of hoistway.It is easy to the installation and maintenance of clamping plate, reduction is transformed into This.

The utility model also provides a kind of elevator, including car and the anti-enabling shear of above-mentioned elevator.Including above-mentioned The elevator of the anti-enabling shear of elevator, when making cage operation to leveling opening, mechanical linkage arm is inserted under the drive of gate Between two clamping plates, prevent door-opened elevator from shearing accident, it is ensured that the safety of passenger.

Compared with prior art, the utility model has the advantages that：

The utility model is when Elevator landing opens the door, and mechanical linkage arm is stretched under the drive of gate between two clamping plates, When enabling accidental movement failure occurs for elevator, mechanical linkage arm is stuck between two clamping plates, effectively prevents enabling shearing accident Occur, it is ensured that the safety of passenger；When elevator closes the door operation, mechanical linkage arm is withdrawn under the drive of gate from clamping plate, is kept away Exempting from elevator, operationally mechanical linkage arm is interfered with clamping plate.The anti-enabling shear of the elevator uses the side of mechanical linkage Formula, compared to electrically-operated arrangement, its reliability is higher, and reduction improvement cost.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model embodiment elevator；

Fig. 2 is the connection diagram of the utility model embodiment clamping plate and elevator rail.

Description of reference numerals：

10. car, 110. car tops, 20. clamping plates, 210. insert ports, 30. mechanical linkage arms, 310. first gangbar, 320. Second gangbar, 40. cage guides, 50. self-inspection slowdown monitoring switch, 60. baffle plates, 70. guide pads, 80. gates.

Embodiment

Embodiment of the present utility model is described in detail below in conjunction with the accompanying drawings：

As depicted in figs. 1 and 2, a kind of elevator, including car 10 and the anti-enabling shear of elevator, the anti-enabling of the elevator are cut Cutting apparatus includes two clamping plates 20 being oppositely arranged up and down and the mechanical linkage arm 30 being connected with gate 80, and clamping plate 20 is located at well On road, hoistway every layer of level position of elevator of correspondence, which all coordinates, is disposed with two clamping plates 20；When Elevator landing opens the door, gate 80 dozens Open, mechanical linkage arm 30 is moved and inserted between two clamping plates 20 with gate 80；At closing time, gate 80 is closed Elevator landing Close, mechanical linkage arm 30 is moved and exited between two clamping plates 20 with gate 80.

When Elevator landing opens the door, mechanical linkage arm 30 is stretched under the drive of gate 80 between two clamping plates 20, works as elevator During generation enabling accidental movement failure, mechanical linkage arm 30 is stuck between two clamping plates 20, effectively prevents enabling shearing accident from sending out It is raw, it is ensured that the safety of passenger；When elevator closes the door operation, mechanical linkage arm 30 is received under the drive of gate 80 from clamping plate 20 Return, it is to avoid operationally mechanical linkage arm 30 is interfered elevator with clamping plate 20.The anti-enabling shear of the elevator is using machinery The mode of linkage, compared to electrically-operated arrangement, its reliability is higher, and reduction improvement cost.

In the present embodiment, mechanical linkage arm 30 has two, and two mechanical linkage arms 30 are symmetrically arranged in the two of car 10 Side, mechanical linkage arm 30 is corresponded with gate 80, and two mechanical linkage arms 30 are symmetrical, makes the stress of the stop of car 10 more Uniformly, prevent car 10 from making run-off the straight in stop, further improve the security of elevator, mechanical linkage arm 30 can be with root According to being actually needed, more than one is set.And clamping plate 20 is fixed on the cage guide 40 of hoistway, it is easy to installation and the dimension of clamping plate 20 Shield, reduces improvement cost, and clamping plate 20 can also be fixed on the other positions of hoistway according to actual needs.

As shown in Fig. 2 cooperatively forming insert port 210 between two clamping plates 20, the distance between two clamping plates 20 ensure electricity When terraced flat bed is opened the door with fine motion flat bed in advance, mechanical linkage arm 30 can be moved freely in insert port 210, will not collide clamping plate 20.

As shown in figure 1, the anti-enabling shear of elevator also includes electrically connecting with elevator motion control device (accompanying drawing is not identified) Connect and with the one-to-one self-inspection slowdown monitoring switch 50 of mechanical linkage arm 30, mechanical linkage arm 30 is provided with relative with self-inspection slowdown monitoring switch 50 The baffle plate 60 of setting, baffle plate 60 is located at self-inspection slowdown monitoring switch 50 close to the side of car 10；Mechanical linkage arm 30 is to the side of clamping plate 20 During motion, baffle plate 60 is abutted against with self-inspection slowdown monitoring switch 50, and elevator motion control device control elevator stops ladder.Baffle plate 60 is opened with Autonomous test When pass 50 is abutted against, self-inspection slowdown monitoring switch 50 sends the signal to elevator motion control device, and elevator motion control device control elevator is not Operation, further improves the security of elevator；When mechanical linkage arm 30 is exited between two clamping plates 20, baffle plate 60 is opened with Autonomous test Close 50 to separate, self-inspection slowdown monitoring switch 50 sends the signal to elevator motion control device, elevator operation allows elevator vertical transport to act.

As shown in figure 1, the anti-enabling shear of elevator also include on the car 10 and with a pair of mechanical linkage arm 30 1 The guide pad 70 answered, guide pad 70 is provided with the sliding channel (accompanying drawing is not identified) passed through for mechanical linkage arm 30, sliding channel with The direct of travel of gate 80 be arranged in parallel.Motion of the guide pad 70 to mechanical linkage arm 30 play the guiding role, and makes mechanical linkage arm 30 motion is more steady.And guide pad 70 is fixed on car top 110, it is easy to the installation of guide pad 70 and mechanical linkage arm 30 and daily Safeguard.

In the present embodiment, as shown in figure 1, mechanical linkage arm 30 includes first be arranged in parallel with the direct of travel of gate 80 The second gangbar 320 that gangbar 310, one end are connected with the first gangbar 310, the other end and gate of the second gangbar 320 80 connections, the first gangbar 310 passes through the sliding channel of guide pad 70, the first gangbar 310 and the vertical cloth of the second gangbar 320 Put, mechanical linkage arm 30 is L-shaped.Mechanical linkage arm 30 can also be set to other forms according to actual needs.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope of this specification record is all considered to be.

Embodiment described above only expresses several embodiments of the present utility model, and it describes more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that for the common skill of this area For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to Protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (9)

1. a kind of anti-enabling shear of elevator, it is characterised in that two clamping plates being oppositely arranged including above and below and connect with gate The mechanical linkage arm connect, the clamping plate on hoistway and coordinates arrangement with level position of elevator；When Elevator landing opens the door, sedan-chair Door is opened, and the mechanical linkage arm is moved and inserted between two clamping plates with gate；Elevator landing at closing time, sedan-chair Door closure, the mechanical linkage arm is moved and exited between two clamping plates with gate.

2. the anti-enabling shear of elevator according to claim 1, it is characterised in that also including on car and with institute The one-to-one guide pad of mechanical linkage arm is stated, the guide pad is provided with the sliding channel passed through for the mechanical linkage arm, institute The direct of travel for stating sliding channel and gate be arranged in parallel.

3. the anti-enabling shear of elevator according to claim 2, it is characterised in that the guide pad is fixed on car Top.

4. the anti-enabling shear of elevator according to claim 2, it is characterised in that the mechanical linkage arm includes and sedan-chair The second gangbar that the first gangbar for be arrangeding in parallel of door direct of travel, one end are connected with first gangbar, described second The other end of gangbar is connected with gate, and first gangbar passes through the sliding channel.

5. the anti-enabling shear of elevator according to claim 4, it is characterised in that first gangbar and described Two gangbar are arranged vertically, and the mechanical linkage arm is L-shaped.

6. the anti-enabling shear of elevator according to claim 1, it is characterised in that including electric with elevator motion control device Property connection and with the one-to-one self-inspection slowdown monitoring switch of the mechanical linkage arm, the mechanical linkage arm be provided with and the Autonomous test The baffle plate being oppositely arranged is switched, the baffle plate is located at the self-inspection slowdown monitoring switch close to the side of car；The mechanical linkage arm to During one lateral movement of clamping plate, the baffle plate is abutted against with the self-inspection slowdown monitoring switch, and elevator motion control device control elevator stops ladder.

7. the anti-enabling shear of elevator according to any one of claim 1 to 6, it is characterised in that the mechanical linkage Arm has two, and two mechanical linkage arms are symmetrically arranged in the both sides of car, and the mechanical linkage arm is corresponded with gate.

8. the anti-enabling shear of elevator according to any one of claim 1 to 6, it is characterised in that the Boards wall In on the cage guide of hoistway.

9. a kind of elevator, it is characterised in that including the anti-shearing dress that opens the door of the elevator described in car and any one of claim 1 to 8 Put.