JP5975762B2 - Elevator shock absorber and return method thereof - Google Patents

Description

  The present invention relates to an elevator shock absorber that collides with a car or a counterweight, and a return method thereof.

  Conventionally, a cylinder provided at the bottom of the hoistway, a plunger provided on the cylinder and displaced between a standby position and a contracted position below the standby position with respect to the cylinder, and a cylinder, There is known an elevator shock absorber provided with a return spring that biases the plunger in a direction in which the plunger is displaced from the contracted position to the standby position. In this elevator shock absorber, when the car collides with the plunger, the plunger is displaced from the standby position to the contracted position, and when the car is subsequently lifted, the plunger is displaced from the contracted position to the standby position by the biasing force of the return spring. (See, for example, Patent Document 1).

JP 2008-297113 A

  However, when the car is heavy, it is necessary to lengthen the stroke of the plunger in order to reduce the impact caused by the collision between the car and the elevator shock absorber. However, when the stroke of the plunger is lengthened, it is necessary to lengthen the return spring. As a result, the return spring is easily tilted with respect to the cylinder or the plunger, and when the return spring is tilted with respect to the cylinder or the plunger, the return spring presses the plunger in a direction tilting with respect to the axis. There is a problem in that it cannot be displaced from the contracted position to the standby position.

  The present invention provides an elevator shock absorber capable of extending the plunger stroke and reliably displacing the plunger from the contracted position to the standby position, and a return method thereof.

An elevator shock absorber according to the present invention is provided between a cylinder provided at the bottom of a hoistway, and a standby position and a contracted position which is a position below the standby position with respect to the cylinder. An elevator shock absorber in which the plunger is displaced from the standby position to the contracted position when a lifting body that moves up and down the hoistway collides with the plunger, wherein the lifting body and the plunger And a control device for controlling the connecting device, and is provided in one of the cylinder and the plunger, and is engaged with the other of the cylinder and the plunger when the position of the plunger is the standby position. combined and further comprising an engaging device for supporting said plunger, said control device, the position of the plunger before When the position is in the contracted position, the connecting device connects the elevating body and the plunger, and when the position of the plunger is the standby position, the connection device releases the connection between the elevating body and the plunger. is, engagement of the engagement device, the lifting body is Ru is released when impinging on said plunger.

An elevator shock absorber return method according to the present invention includes: a cylinder provided at a bottom of a hoistway; and a retracted position that is provided in the cylinder and is a standby position and a position below the standby position with respect to the cylinder. And a plunger that moves up and down the hoistway collides with the plunger, so that the plunger is displaced from the standby position to the contracted position, and then the plunger is moved from the contracted position to the standby. A method of returning an elevator shock absorber that is displaced to a position, wherein when the position of the plunger is the contracted position, a connecting step of connecting the lifting body and the plunger, and after the connecting step, the lifting body the is raised, and a return step of displacing the standby position the plunger from the retracted position after the return process, the Engaging device provided on one of Linda and the plunger engages the other and engaging supporting said plunger by said lifting body impinges on the plunger, engagement of the engagement device Ru is released.

  According to the elevator shock absorber according to the present invention, the elevator shock absorber includes a connecting device that connects the lifting body and the plunger, and a control device that controls the connecting device, and the control device is connected when the position of the plunger is the contracted position. When the device is connected to the elevating body and the plunger, and the position of the plunger is the standby position, the connection between the elevating body and the plunger by the connecting device is released, so when the plunger is displaced from the contracted position to the standby position, It is prevented that the plunger is pressed in a direction inclined with respect to the axis. As a result, the stroke of the plunger can be lengthened, and the plunger can be reliably displaced from the contracted position to the standby position.

  According to the return method of the elevator shock absorber according to the present invention, when the plunger is in the contracted position, the connecting step of connecting the lifting body and the plunger, and after the connecting step, the lifting body is lifted, and the plunger And a return step of displacing the plunger from the contracted position to the standby position, so that when the plunger is displaced from the contracted position to the standby position, the plunger is prevented from being pressed in a direction inclined with respect to the axis. As a result, the stroke of the plunger can be lengthened, and the plunger can be reliably displaced from the contracted position to the standby position.

1 is a front view illustrating an elevator shock absorber according to Embodiment 1 of the present invention. It is a front view which shows the principal part of the elevator buffer which concerns on Embodiment 2 of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding members and parts will be described with the same reference numerals.

Embodiment 1 FIG.
1 is a front view showing an elevator shock absorber according to Embodiment 1 of the present invention. In the figure, the elevator shock absorber is provided between a cylinder 1 provided at the bottom 100 of the hoistway and a standby position relative to the cylinder 1 and a contracted position which is a position below the standby position. The plunger 2 that is displaced by the above, the car 3 that moves up and down the hoistway (lifting body) 3, the connecting device 4 that connects the plunger 2, the power supply device (control device) 5 that controls the connecting device 4, And a return spring (biasing device) 7 for biasing the plunger 2 in a direction in which the plunger 2 is displaced from the contracted position to the standby position.

  The cylinder 1 includes a base 11 placed on the bottom 100, a cylindrical cylinder body 12 standing on the base 11, a control rod 13 provided on the inside of the cylinder body 12 and standing on the base 11, and a control rod 13 and a spring receiver 14 fixed to the upper end portion. The cylinder body 12 is filled with hydraulic oil 15. The cylinder body 12 and the control rod 13 extend perpendicular to the base 11. The control rod 13 is disposed at the center in the radial direction of the cylinder body 12.

  The plunger 2 is formed at a diameter smaller than the diameter of the cylinder 1 and is disposed so that the axial direction is the same as the axial direction of the cylinder body 12, and provided at both axial ends of the cylindrical portion 21. The side plate portion 22 and the plunger upper plate 23 provided on the upper surface of the side plate portion 22 provided at the upper end portion of the cylindrical portion 21 are provided.

  The plunger 2 is inserted into the cylinder body 12 while being guided by the control rod 13. An orifice hole 221 into which the control rod 13 is inserted is formed in the side plate portion 22 provided at the lower end portion of the cylindrical portion 21, that is, the side plate portion 22 on the base 11 side. The orifice hole 221 is formed so that the hydraulic oil 15 flows between the inner peripheral surface of the orifice hole 221 and the control rod 13. The return spring 7 and the spring receiver 14 are disposed inside the plunger 2.

  The return spring 7 is disposed in a contracted manner between the spring receiver 14 and the side plate portion 22 provided at the upper end portion of the cylindrical portion 21. Therefore, the return spring 7 attaches the plunger 2 in the direction in which the space between the spring receiver 14 and the side plate portion 22 provided at the upper end of the cylindrical portion 21 expands, that is, in the direction in which the plunger 2 is displaced from the contracted position to the standby position. Rush.

  The coupling device 4 includes a magnetic body 41 fixed to the bottom of the car 3 and an electromagnet 42 fixed to the upper surface of the plunger upper plate 23. When power is supplied to the electromagnet 42, the electromagnet 42 and the magnetic body 41 attract each other. The connecting device 4 connects the car 3 and the plunger 2 when the electromagnet 42 and the magnetic body 41 attract each other.

  The detection device 6 is fixed to a switch mounting arm 61 fixed to the upper end portion of the cylinder 1, a plunger return confirmation switch 62 supported by the switch mounting arm 61, and a side plate portion 22 provided at the upper end portion of the cylindrical portion 21. The cam mounting arm 63 and the cam 64 supported by the cam mounting arm 63 are provided.

  The switch mounting arm 61 is disposed so as to extend outward in the radial direction of the cylinder 1. The cam mounting arm 63 extends in the same direction as the longitudinal direction of the switch mounting arm 61. The cam 64 operates the plunger return confirmation switch 62 according to the position of the plunger 2. Specifically, the cam 64 presses the plunger return confirmation switch 62 when the position of the plunger 2 is the contracted position. Further, when the plunger 2 is in the standby position, the pressing of the plunger return confirmation switch 62 by the cam 64 is released. Thereby, the detection apparatus 6 can detect that the position of the plunger 2 is a standby position.

  The plunger return confirmation switch 62 outputs an OFF signal when the plunger return confirmation switch 62 is pressed by the cam 64, and outputs an ON signal when the press of the plunger return confirmation switch 62 by the cam 64 is released. To do.

  The power supply device 5 receives an OFF signal and an ON signal output from the plunger return confirmation switch 62. In addition, the power supply device 5 supplies power to the electromagnet 42.

  The power supply device 5 controls the coupling device 4 based on whether or not power is supplied to the electromagnet 42 based on the detection result of the detection device 6. Specifically, the power supply device 5 supplies power to the electromagnet 42 when an OFF signal is input. Thereby, the cage | basket | car 3 and the plunger 2 are connected. On the other hand, the power supply device 5 stops the supply of power to the electromagnet 42 when the ON signal is input. Thereby, the connection between the car 3 and the plunger 2 is released.

  Next, the return operation of the elevator shock absorber will be described. When the car 3 collides with the plunger 2, the plunger 2 is pressed downward by the car 3 against the urging force of the return spring 7, and is displaced from the standby position to the contracted position.

  When the plunger 2 is displaced from the standby position to the contracted position, the plunger return confirmation switch 62 outputs an OFF signal, and the power supply device 5 supplies power to the electromagnet 42. Thereby, the cage | basket | car 3 and the plunger 2 are connected (connection process).

  Thereafter, when the car 3 starts to rise, the plunger 2 is displaced from the contracted position to the standby position as the car 3 rises (returning step). At this time, since the car 3 is raised while being guided by a guide rail (not shown), the plunger 2 is displaced without applying a force in the radial direction of the plunger 2.

  When the plunger 2 is displaced from the contracted position to the standby position, the plunger return confirmation switch 62 outputs an ON signal, and the supply of power from the power supply device 5 to the electromagnet 42 is stopped. Thereby, connection with the cage | basket | car 3 and the plunger 2 is cancelled | released (connection cancellation | release process). Thereafter, the position of the plunger 2 is maintained at the standby position by the biasing force of the return spring 7. Thus, the return operation of the elevator shock absorber is completed.

  As described above, the elevator shock absorber according to Embodiment 1 of the present invention includes the connecting device 4 that connects the car 3 and the plunger 2, and the power supply device 5 that controls the connecting device 4. The power supply device 5 connects the car 3 and the plunger 2 by the connecting device 4 when the position of the plunger 2 is the contracted position, and the car 3 by the connecting device 4 when the position of the plunger 2 is the standby position. Since the connection between the plunger 2 and the plunger 2 is released, when the plunger 2 is displaced from the contracted position to the standby position, the plunger 2 is prevented from being pressed in a direction inclined with respect to the axis. As a result, the stroke of the plunger 2 can be lengthened, and the plunger 2 can be reliably displaced from the contracted position to the standby position. Further, since the plunger 2 is displaced from the contracted position to the standby position by the ascending cage 3, it is not necessary to increase the biasing force of the return spring 7 even when the stroke of the plunger 2 is long. And the price of the return spring 7 can be reduced.

  The coupling device 4 includes a magnetic body 41 provided on the car 3 and an electromagnet 42 provided on the plunger 2 and generating a magnetic force when electric power is supplied. The electromagnet 42 generates a magnetic force. As a result, the electromagnet 42 and the magnetic body 41 are attracted to each other, and the car 3 and the plunger 2 are connected. Therefore, by controlling the supply of electric power to the electromagnet 42, the car 3 and the plunger 2 can be connected, It is possible to easily release the connection between the car 3 and the plunger 2.

  The elevator shock absorber includes a detection device 6 that detects that the position of the plunger 2 is a standby position, and the power supply device 5 supplies power to the electromagnet 42 based on the detection result of the detection device 6. Since the connecting device 4 is controlled depending on the presence or absence, the car 3 and the plunger 2 are connected when the plunger 2 is displaced from the standby position to the contracted position, and the car 3 is connected when the plunger 2 is displaced from the contracted position to the standby position. And the plunger 2 can be disconnected.

  In addition, since the elevator shock absorber includes a return spring 7 that biases the plunger 2 so that the plunger 2 is in the standby position, when the plunger 2 is displaced from the contracted position to the standby position, The position can be maintained at the standby position.

  Further, according to the elevator shock absorber returning method according to Embodiment 1 of the present invention, when the position of the plunger 2 is the contracted position, the connecting step of connecting the car 3 and the plunger 2 and the connecting step And a return step of raising the car 3 and displacing the plunger 2 from the contracted position to the standby position. When the plunger 2 is displaced from the contracted position to the standby position, the plunger 2 is inclined with respect to the axis. It is prevented that it is pressed in the direction to do. As a result, the stroke of the plunger 2 can be lengthened, and the plunger 2 can be reliably displaced from the contracted position to the standby position.

Embodiment 2. FIG.
FIG. 2 is a front view showing a main part of the elevator shock absorber according to Embodiment 1 of the present invention. In the figure, the elevator shock absorber further includes a pair of engagement devices 8 provided on the cylinder body 12 of the cylinder 1 and engaged with the plunger 2.

  The engaging device 8 includes a roller 81 that engages with a semicircular groove 211 formed on the outer peripheral surface of the cylindrical portion 21 of the plunger 2, and a pressing spring 82 that biases the roller 81 toward the inside of the cylinder body 12. And have.

  The groove 211 is disposed on the lower end side of the cylindrical portion 21. The roller 81 is arranged to engage with the groove 211 when the position of the plunger 2 is the standby position. The roller 81 is engaged with the groove 211 by the urging force of the push spring 82. The plunger 2 is supported by the engaging device 8 when the roller 81 is engaged with the groove 211. When the car 3 collides with the plunger 2, the engagement between the roller 81 and the groove 211 is released when the push spring 82 is pressed against the plunger 2 via the roller 81 and contracts. That is, the engagement of the engagement device 8 is released when the car 3 collides with the plunger 2. Other configurations are the same as those in the first embodiment.

  As described above, according to the elevator shock absorber according to Embodiment 2 of the present invention, provided in the cylinder 1 and engaged with the plunger 2 to support the plunger 2 when the position of the plunger 2 is the standby position. Since the engagement device 8 is disengaged when the car 3 collides with the plunger 2, the position of the plunger 2 is changed when the plunger 2 is displaced from the contracted position to the standby position. Can be maintained in the standby position. As a result, the position of the plunger 2 can be maintained at the standby position without using the return spring 7.

  In the second embodiment, the configuration in which the engagement device 8 is provided in the cylinder 1 has been described. However, the configuration in which the engagement device 8 is provided in the plunger 2 may be used. In this case, a groove that engages with the roller 81 is formed on the inner peripheral surface of the cylinder body 12 of the cylinder 1.

  In the second embodiment, the configuration of the elevator shock absorber provided with the return spring 7 has been described. However, the return spring 7 may be omitted.

  In each of the above-described embodiments, the magnetic body 41 is provided in the car 3 and the electromagnet 42 is provided in the plunger 2. However, the electromagnet 42 is provided in the car 3 and the magnetic body 41 is provided in the plunger 2. It may be a configuration.

  Moreover, in each said embodiment, although the cage | basket | car 3 was demonstrated to the example as a raising / lowering body, a counterweight may be sufficient.

  In each of the above embodiments, the connecting device 4 having the magnetic body 41 and the electromagnet 42 has been described. However, any device that can connect the elevating body and the plunger 2 may be used.

  DESCRIPTION OF SYMBOLS 1 Cylinder, 2 Plunger, 3 Car (elevating body), 4 Coupling device, 5 Power supply device (Control device), 6 Detection device, 7 Return spring (Biasing device), 8 Engagement device, 11 Base, 12 Cylinder body , 13 Control rod, 14 Spring receiver, 15 Hydraulic oil, 21 Cylindrical part, 22 Side plate part, 23 Plunger upper plate, 41 Magnetic body, 42 Electromagnet, 61 Switch mounting arm, 62 Plunger return confirmation switch, 63 Cam mounting arm, 64 Cam, 81 roller, 82 push spring, 100 bottom, 211 groove, 221 orifice hole.

Claims (5)

A cylinder provided at the bottom of the hoistway; and a plunger provided on the cylinder and displaced between a standby position and a contracted position below the standby position with respect to the cylinder, An elevator shock absorber in which the plunger is displaced from the standby position to the contracted position when a lifting body that moves up and down the road collides with the plunger,
A connecting device for connecting the elevating body and the plunger;
A control device for controlling the coupling device ;
An engagement device that is provided on one of the cylinder and the plunger, and engages the other of the cylinder and the plunger when the position of the plunger is the standby position, and supports the plunger ;
When the position of the plunger is the contracted position, the control device connects the lifting body and the plunger by the connecting device, and when the position of the plunger is the standby position, Releasing the connection between the elevating body and the plunger ;
The elevator shock absorber according to claim 1, wherein the engagement of the engaging device is released when the elevating body collides with the plunger .   The coupling device includes a magnetic body provided on one of the elevating body and the plunger, and an electromagnet provided on the other of the elevating body and the plunger and generating a magnetic force when power is supplied thereto, 2. The elevator shock absorber according to claim 1, wherein the electromagnet generates a magnetic force, whereby the electromagnet and the magnetic body are attracted to each other to connect the elevating body and the plunger. A detection device for detecting that the position of the plunger is the standby position;
3. The elevator shock absorber according to claim 2, wherein the control device controls the coupling device based on whether power is supplied to the electromagnet based on a detection result of the detection device.   The elevator buffer according to any one of claims 1 to 3, further comprising a biasing device that biases the plunger in a direction in which the plunger is displaced from the contracted position to the standby position. apparatus. A cylinder provided at the bottom of the hoistway; and a plunger provided on the cylinder and displaced between a standby position and a contracted position below the standby position with respect to the cylinder, The elevator shock absorber returning method includes: displacing the plunger from the contracted position to the standby position after the plunger has been displaced from the standby position to the contracted position due to a lift that moves up and down the road colliding with the plunger. And
A connecting step of connecting the elevating body and the plunger when the position of the plunger is the contracted position;
A return step of raising the lifting body after the connecting step and displacing the plunger from the contracted position to the standby position ;
After the returning step, an engagement device provided on one of the cylinder and the plunger engages with the other to support the plunger, and the elevating body collides with the plunger. A method for returning an elevator shock absorber, wherein the engagement is released .

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