IES20150329A2 - Anti-falling elevator - Google Patents

Abstract

The invention relates to an anti-falling elevator. The anti-falling elevator mainly includes a triggering unit is mounted on the trestle, the trolley wheel is freely rotatably mounted on the trestle by the supporting shaft, the guide rail is arranged between the first gear and the trolley wheel, the first gear engages with the gear surface of the guide rail trolley wheel rolls on the smooth surface of the guide rail, the connecting rod make the second gear revolve around the axis of the first gear and engage with the first gear, the connecting rod is provided with a triggering bore pluggably matting with the triggering end, when the triggering end withdraw from the triggering bore, the elastic force makes the second gear engage with the guide rail, at this moment, the mechanism has zero freedom degree, the elevator can not move upward or downward so as to avoid the elevator from falling when it is in fault state. <Figure 15>

Description

Anti-falling elevator Field of the Invention The invention relates to an elevator, especially to an anti-falling elevator.

Description of prior art When the elevator is in an accident under some condition, the elevator may speedily fall down or rise up, such movement may cause serious harm to the passenger in the elevator, especially when rescuers evacuate passengers from the elevator stuck between two floors, the elevator may speedily move 10 down, so the moving cabin combined with the static wall or floor may cut anything therebetween, such that some parts of the passenger or rescuer may be cut down by the moving elevator.

How to avoid the elevator from moving down or falling unexpectedly so as is to reduce the chance of injury, it is a problem waiting to be solved.

Summary of the present invention The object of the invention is to provide an anti-falling elevator so as to solve the above problem.

Therefore, the invention provides an anti-falling elevator, the anti-falling elevator comprises a trestle fixedly connected with the elevator cabin, a guide rail arranged along the elevator shaft , a traction machine, a steel cable connected with the trestle on the cabin and comprises an anti-falling 25 unit. The anti-falling unit comprises a first gear, a second gear, a trolley wheel, a triggering unit, a connecting rod, an elastic component and a 2/11 supporting shaft. The triggering unit is mounted on the trestle, the trolley wheel is freely rotatably mounted on the trestle by the supporting shaft, the first gear is freely rotatably mounted on the trestle by the supporting shaft, the guide rail is configured between the first gear and the trolley wheel, the 5 first gear engages with the gear surface of the guide rail, the trolley wheel rolls on the smooth surface of the guide rail, the connecting rod makes the second gear revolve around the axis of the first gear, mean while the second gear freely rotates with respect to the connecting rod, the second gear engages with the first gear, the connecting rod is provided with a triggering 10 bore matting with the triggering end of the triggering unit, the triggering end pluggably mates with the triggering bore.

Specifically, when the triggering end inserts into the triggering bore, the second gear arranged on the connecting rod is held at the position where is is below the first gear and away from the gear surface of the guide rail, that is the triggering end makes the second gear not contact with the gear surface. When the triggering end withdraws from the triggering bore, the elastic force from the elastic component makes the second gear on the connecting rod locate near to the gear surface of the guide rail and makes the second 20 gear contact and engage with the gear surface of the guide rail.

Specifically, when the triggering end inserts into the triggering bore, the second gear arranged on the connecting rod is held at the position where is above the first gear and away from the gear surface of the guide rail, that is 25 the triggering end makes the second gear not contact with the gear surface.

When the triggering end withdraws from the triggering bore, the elastic force from the elastic component makes the second gear on the connecting 3/11 rod locate near to the gear surface of the guide rail and makes the second gear contact and engage with the gear surface of the guide rail.

Specifically, when the second gear do not get involved, the second gear rotates in an engagement with the first gear, which rotates in an 5 engagement with the guide rail. When the second gear gets involved, the tooth of the second gear withstands the tooth of the guide rail due to each motion direction of respective tooth of the second gear and the guide rail, the limiting action of the trolley wheel arranged behind the guide rail (smooth surface) avoids the guide rail from deformation caused by the force 10 when the second gear gets involved, thus the first gear, the second gear and the guide rail are tightly stuck together. Because the withstanding action between the second gear and the guide rail stops the first gear rotating in an engagement with the second gear so as to stop the first gear rotating, that is the first gear stops rotating in an engagement with the guide rail so is as to stop the elevator in fault state moving down unexpectedly.

Advantageous Effects When the elevator is in a state of normal operation, the triggering unit make the second gear hold in the position where is away from the gear surface of 20 the guide rail, the first gear engages with the gear surface of the guide rail, the first gear rotates to drive the second gear rotating, the trolley wheel rolls on the smooth surface of the guide rail, the mechanism consisting of the first gear, the second gear, the connecting rod, the guide rail and the trolley wheel has one freedom degree, so the elevator operates normally.

When the elevator is in fault state, the triggering unit is triggered, the triggering end withdraws from the triggering bore, the elastic force from the elastic component makes the second gear on the connecting rod locate near 4/11 to the gear surface of the guide rail and makes the second gear contact and engage with the gear surface of the guide rail, at this moment, the first gear, the guide rail and the second gear engage with one another, the mechanism consisting of the first gear, the second gear, the connecting rod, the guide 5 rail and the trolley wheel has zero freedom degree, so the elevator do not move down.

Especially, because the second gear is located below the first gear, the tendency of the elevator moving downwards makes the first gear engage 10 downward with the guide rail, while the second gear located below the first gear is bound to exert a force with opposite direction to stop the first gear from trying to rotate. So the anti-falling process of the elevator is such, the triggering end is triggered, the elastic force from the elasic component make the first gear, the second gear and the guide rail build and hold a stuck is engagement relationship between one another, such stuck engagement relationship stops the elevator from trying to fall in fault state.

The gear engagement makes the mechanism have zero freedom degree, which is different from that the wheel makes the mechanism have zero 20 freedom degree, the wheel is easy to slip between the first gear and the guide rail, such that the elevator may fall or raise; while the gear makes the first gear, the second gear and the guide rail tightly stuck together for avoiding the elevator from falling.

Brief description of the drawing In the following, the invention will be described in greater detail by means of some embodiments with reference to the accompanying drawings, in /11 which Fig.l is a 3d-drawing of the anti-falling unit of the invention; Fig.2 is from Fig.l, wherein trestle of one side is hidden; Fig.3 is a front view of the Fig.l; Fig.4 is a front view of the Fig.2; Fig.5 is from Fig.4, wherein the second gear is to get involved; Fig.6-7 are drawings of the connecting rod connecting with the triggering unit; Fig.8 is a 3d-drawing of the trestle; io Fig.9 is a 3d-drawing ofthe connecting rod; Fig.10 is a sectional view of the connecting rod in Fig.9; Fig.ll is an exploded 3d-drawing ofthe anti-falling unit in Fig.l; Fig.12-13 are 3d-drawings ofthe triggering unit; Fig.14 is a drawing of the anti-falling unit in embodiment 2; is Fig.15 is a 3d-drawing ofthe anti-falling elevator in embodiment 1. 0. the anti-falling unit; l.the first gear; 2. the guide rail; 3. the trolley wheel; 4. the second gear; 5. the supporting shaft; 6. the trestle; 7. the connecting rod; 8. the spring; 9. the triggering unit; 10. the bushing; 601. the through hole; 602. the screw hole; 701. the triggering bore; 901. the triggering end.

Detailed description of the preferred embodiment Embodiment 1 Referring to Fig.l, Fig.2, Fig.ll and Fig.12, it is an anti-falling unit 0 suitable for the elevator of the invention, the anti-falling unit 0 includes a trestle 6 fixedly connected with elevator cabin, a first gear 1, a second gear 4, a guide / 11 rail 2, a trolley wheel 3, a triggering unit 9, a connecting rod 7, a spring 8, a supporting shaft 5, a nut, a washer, a split pin and a bushing 10. The triggering unit 9 is removably mounted to the trestle 6 by screw, the trolley wheel 3 is freely rotatably mounted between two trestles 6 by the 5 supporting shaft 5, the first gear 1 is freely rotatably mounted between two trestles 6 by the supporting shaft 5, the guide rail is configured between the first gear 1 and the trolley wheel 3, the first gear 1 engages with the gear surface of the guide rail 2, the trolley wheel 3 rolls on the smooth surface of the guide rail 2, the connecting rod 7 makes the second gear 4 revolve io around the axis of the first gear 1, mean while the second gear 4 freely rotates with respect to the connecting rod 7. The second gear 4 engages with the first gear 1, the connecting rod 7 is provided with a triggering bore 701 matting with the triggering end 901 of the triggering unit 9, the triggering end 901 pluggably mates with the triggering bore 701. The is bushing 10 adjusts the position of the second gear4 to align the central surface of the first gear 1 with the central surface of the second gear 4, the trestles 6 on both sides of the first gear 1 are connected by the nut and washer, then the split pin avoids the nut from looseness and drop out.

Referring to Fig.3 and Fig.4, when the triggering end 901 inserts into the triggering bore 701, the second gear 4 on the connecting rod 7 is held at the present position where is below the first gear 1 and away from the gear surface of the guide rail 2, that is the triggering end 901 makes the second gear 4 not contact with the gear surface, at this moment, the spring 8 is in 25 tension state.

Referring to Fig.6, the triggering end 901 of the triggering unit 9 inserts 7/11 into the triggering bore 701, the connecting rod 7 is limited at the present position, that is the connecting rod 7 is straight down.

Referring to Fig.7,the triggering end 901 withdraws from the triggering bore 701, the elastic force from the spring 8 makes the second gear 4 on the connecting rod 7 locate near to the gear surface of the guide rail 2 and makes the second gear 4 contact and engage with the gear surface of the guide rail 2, referring to Fig.5.

Referring to Fig.8, the trestle 6 is provided with a through hole 601 matching the gap of the supporting shaft 5 and a screw hole 602 for mounting the triggering unit 9.

Referring to Fig.9 and Fig.10, each end of the head and tail ends of the connecting rod 7 is provided with a through hole 601 matching the gap of the supporting shaft 5, the side surface of the connecting rod 7 is provided with a triggering bore 701 pluggably matting with the triggering end 901 of the triggering unit 9, the triggering bore 701 is a blind bore matching the gap of the triggering end 901, the front end of the triggering bore 701 is provided with chamfer convenient to receive the triggering end 901.

Referring to Fig .12 and Fig.13, the front end of the triggering unit 9 is provided with a scalable triggering end 901 controlled by the electromagnetic coil. The triggering end 901 retracts when the triggering signal exerts on the triggering unit 9.

When the second gear 4 do not get involved, the second gear 4 rotates in an 8/11 engagement with the first gear 1, which rotates in an engagement with the guide rail 2. When the second gear 4 gets involved, the tooth of the second gear 4 withstands the tooth of the guide rail 2 due to each motion direction of respective tooth of the second gear 4 and the guide rail 2, the limiting 5 action of the trolley wheel 3 arranged behind the guide rail 2 (smooth surface) avoids the guide rail 2 from deformation caused by the force when the second gear 4 gets involved, thus the first gear 1, the second gear 4 and the guide rail 2 are tightly stuck together. Because the withstanding action between the second gear 4 and the guide rail 2 stops the first gear 1 io rotating in an engagement with the second gear 4 so as to stop the first gear 1 rotating, that is the first gear 1 stops rotating in an engagement with the guide rail 2 so as to stop the elevator in fault state moving down or falling unexpectedly for guaranteeing safe evacuation. is Referring to Fig.15, it is an anti-falling elevator of the invention, each of four corners of the top portion of the elevator cabin is provided with an anti-falling unit 0, the braking function of the elevator can be activated automatically by the control unit or manually by pushing the button in the cabin. The triggering unit 9 electrically connects with the control unit, the 20 triggering unit 9 can be activated automatically or manually when the elevator is in fault state. The power supply of the triggering unit 9 is from the emergency battery on the top portion of the cabin.

Embodiment 2 Arranging the second gear 4 arranged below the trestle 6 in embodiment 1 above the trestle 6, when the triggering end 901 inserts into the triggering 9/11 bore 701, the second gear 4 on the connecting rod 7 is held at the present position where is above the first gear 1 and away from the gear surface of the guide rail 2, that is the triggering end 901 makes the second gear 4 not contact with the gear surface. When the triggering end 901 withdraws from the triggering bore 701, the elastic force from the spring 8 makes the second gear 4 on the connecting rod 7 locate near to the gear surface of the guide rail 2 and makes the second gear 4 contact and engage with the gear surface of the guide rail 2, such arrangement can also achieve the anti-falling function.

Claims (3)

Claims

1. An anti-falling elevator, comprising a trestle (6) fixedly connected with the elevator cabin, a guide rail (2) arranged along the elevator shaft, a traction machine, a steel cable connected with the trestle on the cabin and comprising an anti-falling unit (0); characterized in that s the anti-falling unit (0) comprises a first gear (1), a second gear (4), a trolley wheel (3), a triggering unit (9), a connecting rod (7), an elastic component (8) and a supporting shaft (5); the triggering unit (9) mounted on the trestle (6), the trolley wheel (3) freely rotatably mounted on the trestle (6) by the supporting shaft (5), the first gear (1) freely rotatably io mounted on the trestle (6) by the supporting shaft (5), the guide rail configured between the first gear (1) and the trolley wheel (3), the first gear (1) engaging with the gear surface of the guide rail (2), the trolley wheel (3) rolling on the smooth surface of the guide rail (2), the connecting rod (7) making the second gear (4) revolve around the axis of the first gear (1), is mean while the second gear {4) freely rotating with respect to the connecting rod (7), the second gear (4) engaging with the first gear (1), the connecting rod (7) provided with a triggering bore (701) matting with the triggering end (901) of the triggering unit (9), the triggering end (901) pluggably matting with the triggering bore (701).

2. An anti-falling elevator according to claim 1, characterized in that when the triggering end (901) inserts into the triggering bore (701), the second gear (4) arranged on the connecting rod (7) is held at the position where is below the first gear (1) and away from the gear surface of 25 the guide rail (2), that is the triggering end (901) making the second gear (4) not contact with the gear surface; 11/11 when the triggering end (901) withdraws from the triggering bore (701), the elastic force from the elastic component (8) making the second gear (4) on the connecting rod (7) locate near to the gear surface of the guide rail (2) and making the second gear (4) contact and engage with the gear surface of 5 the guide rail (2).

3. An anti-falling elevator according to claim 1, characterized in that when the triggering end (901) inserts into the triggering bore (701), the second gear (4) arranged on the connecting rod (7) is held at the io position where is above the first gear (1) and away from the gear surface of the guide rail (2), that is the triggering end (901) making the second gear (4) not contact with the gear surface; when the triggering end (901) withdraws from the triggering bore (701), the elastic force from the elastic component (8) making the second gear (4) on is the connecting rod (7) locate near to the gear surface of the guide rail (2) and making the second gear (4) contact and engage with the gear surface of the guide rail (2).