JP6182404B2 - Elevator equipment - Google Patents

Description

  The present invention relates to an elevator apparatus having a rail support device used to fix a rail for guiding a car to a building.

  2. Description of the Related Art An elevator device is known that includes a rail support device that is used to fix a rail that guides a car to a building. As a specific configuration of the rail support device, an opposing portion of the rail bracket fixed to the guide rail side and an opposing portion of the rail bracket fixed to the building wall side are arranged to face each other, and a vibration isolating material is provided between the opposing portions. And a stopper member having a stopper member fixed and established at the opposing portion of the rail bracket on the building wall side, and an insertion tag in which the head portion of the stopper member is inserted into the opposing portion of the rail bracket on the guide rail side. There is a known configuration in which the guide rail is prevented from being displaced by a certain amount exceeding the normal travel by this stopper portion (see Patent Document 1).

JP 2012-126509 A

  However, in conventional elevator equipment, vibration-damping materials and stopper members are used to suppress the propagation of vibration to the building, so when an excessive load is applied to the rail from the building side during an earthquake, it is suppressed by rubber. It is difficult to manage the effect, and the position of the rail changes when it is necessary to replace the anti-vibration material and the stopper member due to deterioration, so it is necessary to check the installation position of the rail again. It was.

  The objective of this invention is providing the elevator apparatus which can suppress transmission of a displacement with a simple structure, when an excessive load is applied to a rail from the building side at the time of an earthquake.

In order to achieve the above-mentioned object, the present invention provides a car, a rail for guiding the car in the running direction, a rail-side rail bracket fixed to the rail side, a building-side rail bracket fixed to the building side, an elevator apparatus provided with a rail support unit for connecting the building side rail bracket and the rail side rail bracket, said rail supporting device, relative by frictional force between the building side rail bracket and the rail side rail bracket And a bolt inserted into a large hole formed in each of the opposed portions of the rail-side rail bracket and the building-side rail bracket, and is inserted into a through hole formed in a central portion of the disc spring. The rail side bracket and the building side rail bracket are screwed onto the bolt. A nut for urging the disc spring so as to give a frictional force to the rail, and the large hole has an inner diameter larger than the outermost diameter of the head of the bolt, and the rail side rail bracket and each of said opposing portions of the building side rail bracket, and the nut and the bolt is fastened through the washer, and had us when earthquake, the rail side rail bracket and the building-side rail bracket and between the disc spring When a load larger than the frictional force between the rails is applied to the rail, the rail support device overcomes the frictional force of the building-side rail bracket within the gap formed between the bolt and the large hole. and the displacement amount, the displacement of the building side, characterized the Turkey to suppress from the building side from being transmitted to the rail side.

According to the above configuration, in a steady state, even if the car is moved up and down, the rail-side rail bracket, the building-side rail bracket, and the disc spring are not displaced by the frictional force of the disc spring. On the other hand, when an earthquake occurs, if the building vibrates greatly and an excessive load is applied to the rail from the building side, the connecting structure with play with bolts and large holes will operate, and the bolts will move within the play range existing in the large holes Therefore, the movement of the bolt in the play-like connecting structure suppresses the displacement on the building side from being transmitted to the rail side. Therefore, occurrence of rail displacement, deformation of the rail, and displacement of the rail connecting portion can be prevented within a certain range, so that it is not necessary to confirm the installation position of the rail again after the earthquake is settled. Furthermore, while making use of the structure in which the bolt is inserted and held in the center of the disc spring, it is easy to connect with play by inserting the bolt into the large hole formed in the opposing part of the rail side rail bracket and the building side rail bracket. Can be configured. Therefore, the rail support device can be reduced in size by simplifying the configuration.

  In addition to the above-described configuration, the present invention is characterized in that the disc springs are arranged by using a plurality of disc springs with their center protrusions attached to each other.

  According to the said structure, the transmission of a displacement can be easily controlled by distinguishing the normal state and the time of the occurrence of an earthquake etc. using the characteristic of the spring characteristic of a disc spring. In addition, the disc spring has a simple configuration and is not deteriorated when a rail support device is configured using rubber by using a combination of a pair of disc springs each having a central protrusion. Rail support device.

  According to the elevator apparatus of the present invention, in a steady state, the rail-side rail bracket, the building-side rail bracket, and the disc spring do not shift due to the frictional force of the disc spring even when the car is moved up and down. On the other hand, when an earthquake occurs, if the building vibrates greatly and an excessive load is applied to the rail from the building side, the connecting structure with play with bolts and large holes will operate, and the bolts will move within the range of play existing in the large holes. Therefore, the movement of the bolt in the play-like connecting structure suppresses the displacement on the building side from being transmitted to the rail side. Therefore, occurrence of rail displacement, deformation of the rail, and displacement of the rail connecting portion can be prevented within a certain range, so that it is not necessary to confirm the installation position of the rail again after the earthquake is settled.

It is a front view which shows the principal part of the elevator apparatus by one embodiment of this invention. It is a principal part enlarged view of the elevator apparatus shown in FIG. FIG. 3 is a plan view of the rail support device shown in FIG. 2. It is a principal part enlarged view of the elevator apparatus by other embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a front view showing a main part of an elevator apparatus according to an embodiment of the present invention.

  The rail 1 arranged in the vertical direction is fixed to the building 7 at a plurality of locations in the longitudinal direction by a rail support device including a rail side rail bracket 2, disc springs 3a and 3b, a building side rail bracket 4, and the like. A plurality of guide devices 6 movably engaged with the rail 1 are attached to the car 5, and the car 5 is guided up and down along the rail 1 through the guide device 6.

  2 and 3 are an enlarged view and a plan view showing the rail support device described above.

  On the rail 1 side, the rail 1 is sandwiched between the rail side rail bracket 2 arranged on the surface of the rail 1 on the building 7 side and the rail clip 11 arranged on the surface of the rail 1 opposite to the building side. The bolts 20 are inserted from the rail clip 11 side using the through holes formed at the positions where the nuts 21 are fitted, and the nuts 21 are tightened so as to be fitted into the bolts 20 from the building 7 side. By this tightening, the rail-side rail bracket 2 is firmly fixed to the rail 1.

  On the other hand, on the building 7 side, anchor bolts 23 are embedded in the building 7, and the building side rail bracket 4 is arranged while inserting through holes in the anchor bolts 23, and nuts fitted into the anchor bolts 23 from the rail 1 side. 22 is tightened, and the building side rail bracket 4 is firmly fixed to the building 7.

  The rail-side rail bracket 2 is bent in an L-shape, and the building-side rail bracket 4 is also bent in an L-shape, and an opposing portion is formed between the opposing portions. A rail support device is configured. Large holes 12a and 12b that have an inner diameter larger than the outer diameter of the bolt 8 and have a play structure between the bolt 8 and the opposing portion of the rail-side rail bracket 2 and the building-side rail bracket 4 Are formed respectively. The washer 10 and the disc springs 3a and 3b are respectively formed with holes for inserting the bolts 8 in the center thereof.

  The bolt 8 is inserted from the upper side of the rail side rail bracket 2 and has a hole formed in the center portion of the washer 10, a large hole 12 a formed in the opposite portion of the rail side rail bracket 2, the rail side rail bracket 2 and the building side. A through-hole formed in the central part of the disc springs 3a and 3b arranged at the opposed part to the rail bracket 4, a large hole 12b formed in the opposed part of the building-side rail bracket 4, and an underside of the building-side rail bracket 4 The washer 10 is inserted into a hole formed in the center of the washer 10. As described above, the inner diameters of the large holes 12a and 12b are sufficiently large with respect to the outer diameter of the bolt 8, and there is a play between the two, and the play is connected so that both can move relatively within this play range. It has a structure.

  The disc springs 3a and 3b are arranged in such a manner that two discs are used in a state where two disc springs are overlapped with each other, and their center protruding portions are in contact with each other. The disc springs 3a and 3b are urged by tightening the nut 9 screwed to the bolt 8, and the spring force is pressed against each other so that a frictional force is generated against the rail-side rail bracket 2 and the building-side rail bracket 4. It has been.

  At this time, the bolt 8 is movable in the forward / backward / left / right and other radial directions within the range of play existing in the large holes 12a and 12b formed in the facing portion of the rail side rail bracket 2 and the building side rail bracket 4. is there. However, frictional force is generated by the spring force of the disc springs 3a and 3b constituting the rail support device. In a steady state, the rail-side rail bracket 2 and the building are utilized while taking advantage of the spring characteristics of the disc springs 3a and 3b. The side rail bracket 4 and the rail support device have an integral connection structure. Therefore, in the steady state, even if the car 5 moves up and down, the position of the rail-side rail bracket 2 and the building-side rail bracket 4 and the disc springs 3a and 3b does not shift due to the frictional force of the disc springs 3a and 3b.

  However, when the car 5 stops suddenly or an earthquake occurs, the situation changes when a large load is applied to the rail 1 via the guide device 6. That is, when the load applied to the rail 1 becomes larger than the frictional force between the rail-side rail bracket 2 and the building-side rail bracket 4 and the disc springs 3a and 3b, the range of play in which the bolt 8 exists in the large holes 12a and 12b. Therefore, the transmission of displacement between the rail-side rail bracket 2 and the building-side rail bracket 4 is suppressed.

  In particular, when an earthquake occurs and the building 7 is vibrated greatly and an excessive load is applied to the rail 1 from the building 7 side, a connecting structure with play by the bolt 8 and the large holes 12a and 12b is activated, and the bolt 8 is connected to the large holes 12a and 12b. It moves within the range of play that exists within. Due to the movement of the bolt 8 in this playful connecting structure, the displacement of the building 7 side is suppressed from being transmitted to the rail 1 side. Therefore, occurrence of displacement of the rail 1, deformation of the rail 1, and displacement of the connecting portion of the rail 1 can be prevented within a certain range, and it is not necessary to confirm the installation position of the rail 1 again after the earthquake is settled. .

  In this way, by utilizing the characteristics of the spring characteristics of the disc springs 3a and 3b, the transmission of displacement can be easily controlled by distinguishing between a normal state and an earthquake occurrence. In addition, the disc springs 3a and 3b can be a rail support device having a simple configuration by combining a pair of disc springs with the central protrusions attached to each other. Further, the disc springs 3a and 3b are not deteriorated as in the case where the rail support device is configured by using rubber as in the prior art, and can be a small rail support device.

  Further, while taking advantage of the configuration in which the bolt 8 is inserted and held in the center of the disc springs 3a and 3b, the bolt 8 is inserted into the large holes 12a and 12b formed in the opposing portions of the rail-side rail bracket 2 and the building-side rail bracket 4, respectively. Therefore, it is possible to easily construct a connecting structure having a play, and thus the rail support device can be simplified in size and reduced in size.

  FIG. 4 is an enlarged view showing a main part of an elevator apparatus according to another embodiment of the present invention.

  In the previous embodiment, the disc support 3a, 3b is arranged between the facing portion of the rail-side rail bracket 2 and the facing portion of the building-side rail bracket 4 to configure the rail support device. In the form, the arrangement of the disc springs 3a and 3b is changed.

  The rail-side rail bracket 2 fixed to the rail 1 side is disposed close to or substantially in contact with the facing portion of the building-side rail bracket 4 fixed to the building 7 side. Large holes 12 a and 12 b having an inner diameter larger than the outer diameter of the bolt 8 are formed in the opposing portions of the rail-side rail bracket 2 and the building-side rail bracket 4, respectively. On the upper surface side of the rail-side rail bracket 2, a pair of disc springs 3a and 3b with their center protrusions attached to each other are disposed as in the case of FIG. 2, and a washer 10 is disposed on the upper portion.

  The bolt 8 is inserted from the upper side of the washer 10, and is formed in a hole formed in the central part of the washer 10, a through hole formed in the central part of the disc springs 3 a and 3 b, and an opposing part of the rail side rail bracket 2. Inserted into the large hole 12a, the large hole 12b formed in the facing portion of the building side rail bracket 4, and the hole formed in the center of the washer 10 disposed on the lower surface side of the building side rail bracket 4, and the lower end side of the bolt 8 A nut 9 is fastened to the nut.

  The disc springs 3a and 3b are arranged not on the opposite side of the rail side rail bracket 2 and the building side rail bracket 4 but on the opposite side of the rail side rail bracket 2 and on the opposite side of the rail side rail bracket 2 here. Yes. Even in such an arrangement, the spring force of the disc springs 3a and 3b generates a frictional force so as to maintain the connection state between the rail-side rail bracket 2 and the building-side rail bracket 4, and the rail-side rail bracket in a steady state. 2, the building side rail bracket 4 and the disc springs 3a and 3b are held in an integral configuration. In addition, the bolt 8 is connected with play that can move in the radial direction within the large holes 12a and 12b formed in the opposing portions of the rail-side rail bracket 2 and the building-side rail bracket 4 in the forward / backward / left / right and other radial directions. It has a structure.

  Therefore, even if the car 5 is moved up and down in a steady state, the rail-side rail bracket 2 and the building-side rail bracket 4 and the disc spring 3 maintain an integral connection relationship, and the relative positional relationship is not shifted. Absent. However, the situation changes when the car 5 stops suddenly or an earthquake occurs and a larger load is applied.

  For example, when an earthquake occurs and the building 7 side shakes and a load greater than the frictional force between the rail-side rail bracket 2 and the building-side rail bracket 4 by the disc springs 3a and 3b is applied, the bolts 8 are inserted into the large holes 12a and 12b. It is moved within the range of play that exists in. For this reason, even if the building side rail bracket 4 is shaken by an earthquake, the displacement is suppressed from being transmitted to the rail side rail bracket 2 side. Accordingly, occurrence or deformation of the rail 1 or displacement of the connecting portion of the rail 1 is prevented.

  The present invention is not limited to the above-described embodiment, such as the mounting structure and shape of the rail-side rail bracket 2 and the building-side rail bracket 4, and the position and number of the disc springs 3a and 3b. Other configurations can be adopted in consideration of the balance with the strength and the size of the device to be arranged.

  As described above, the elevator apparatus according to the present invention includes the disc springs 3a and 3b that relatively hold the rail-side rail bracket 2 and the building-side rail bracket 4 with frictional force as rail support devices, and an earthquake. And a connecting structure with play that suppresses transmission from the building 7 side to the rail 1 side by allowing displacement overcoming the frictional force of the building side rail bracket 4 in the play range. .

  According to such a configuration, in the steady state, even if the car 5 moves up and down, the position of the rail side rail bracket 2 and the building side rail bracket 4 and the disc springs 3a and 3b is caused by the frictional force of the disc springs 3a and 3b. Will not slip. On the other hand, when an earthquake occurs, if the building 7 vibrates greatly and an excessive load is applied to the rail 1 from the building 7 side, a connecting structure with play by the bolt 8 and the large holes 12a and 12b is activated, and the bolt 8 is connected to the large holes 12a and 12b. It moves within the range of the play that exists inside, and the displacement of the building 7 side is suppressed from being transmitted to the rail 1 side by the movement of the bolt 8 within this playful connecting structure. Therefore, occurrence of displacement of the rail 1, deformation of the rail 1, and displacement of the connecting portion of the rail 1 can be prevented within a certain range, and it is not necessary to confirm the installation position of the rail 1 again after the earthquake is settled. .

  In addition to the above-described configuration, the present invention is characterized in that the disc springs 3a and 3b are arranged by using a plurality of disc springs with their center protruding portions attached to each other.

  According to such a configuration, the transmission of displacement can be easily controlled by distinguishing between the normal state and the time of occurrence of an earthquake by utilizing the characteristics of the spring characteristics of the disc springs 3a and 3b. In addition, the disc springs 3a and 3b are a combination of a pair of disc springs with the center protrusions attached to each other, so that the deterioration is the same as when a rail support device is configured using rubber with a simple configuration. And a small rail support device.

  Further, in the present invention, in addition to the above-described configuration, the playful connecting structure is inserted into a through hole formed in the central part of the disc springs 3a and 3b, and the opposing part of the rail side rail bracket 2 and the building side rail bracket 4 The disc springs 3a and 3b are biased so as to apply a frictional force to the rail side rail bracket 2 and the building side rail bracket 4 by screwing into the bolts 8 inserted into the large holes 12a and 12b respectively formed in The large hole 12a, 12b is provided with a nut 9, and the large hole 12a, 12b is characterized in that a connecting structure having a play as a diameter having a play with the bolt 8 is configured.

  According to such a configuration, the large holes 12a formed in the opposing portions of the rail-side rail bracket 2 and the building-side rail bracket 4 while utilizing the configuration in which the bolt 8 is inserted and held in the center of the disc springs 3a and 3b. , 12b can be easily constructed by inserting the bolt 8 into the play structure. Therefore, the rail support device can be reduced in size by simplifying the configuration.

1 Rail 2 Rail Side Rail Bracket 3a, 3b Belleville Spring 4 Building Side Rail Bracket 5 Car 7 Building 8 Bolt 9 Nut 12a, 12b Large Hole

Claims (2)

A rail that guides the car in the running direction, a rail-side rail bracket that is fixed to the rail side, a building-side rail bracket that is fixed to the building side, the rail-side rail bracket, and the building-side rail bracket an elevator apparatus provided with a rail support unit for connecting,
The rail support device is
A disc spring that relatively holds the rail side rail bracket and the building side rail bracket by frictional force;
Bolts inserted into the through holes formed in the central part of the disc spring and inserted into the large holes formed in the opposing parts of the rail side rail bracket and the building side rail bracket,
A nut that is screwed into the bolt and biases the disc spring so as to give a frictional force to the rail-side rail bracket and the building-side rail bracket;
The large hole has an inner diameter larger than the outermost diameter of the head of the bolt,
The bolt and the nut are fastened to each of the facing portions of the rail side rail bracket and the building side rail bracket via a washer,
And had us when an earthquake occurs, if the load greater than the frictional force between the rail side rail bracket and the building-side rail brackets and said disc spring is applied to the rail, the rail support unit, the bolt is said large hole The displacement of the building side is moved within the range of the clearance formed between the building side rail bracket and the building side displacement is suppressed from being transmitted from the building side to the rail side. Ru
Elevator device comprising a call.   The elevator apparatus according to claim 1, wherein the disc springs are arranged by using a plurality of disc springs with their center protrusions attached to each other.