JP6213389B2 - Elevator control device - Google Patents

Description

  The present invention relates to an elevator control device.

  Patent Document 1 below describes a control panel having a plurality of doors. The control panel includes a switch mechanism that detects that the door is open.

JP 2009-44444 A

  In the control panel described in Patent Document 1, it is necessary to provide a switch mechanism for each portion where adjacent doors face each other. For this reason, the configuration of the control panel is complicated when the number of doors is large.

  The present invention has been made to solve the above problems. The object is to provide an elevator control device that can detect that the door is open with a simple configuration.

  The elevator control device according to the present invention is provided in a housing having an opening surface, a housing-side contact portion provided in the housing, a first door and a second door that open and close the opening surface, and the first door, A first contact portion that contacts the housing-side contact portion when the first door is closed, a second contact portion that is provided on the first door and is electrically connected to the first contact portion, and is provided on the second door; And a third contact portion that contacts the second contact portion and is electrically connected to the housing side contact portion when the first door and the second door are closed.

  An elevator control device according to the present invention includes a housing having an opening surface, a housing-side contact portion provided in the housing, a first door, a second door, and a third door that open and close the opening surface, and a first door. A first contact portion that contacts the housing-side contact portion when the first door is closed, a second contact portion that is provided on the first door and is electrically connected to the first contact portion, and a second door Is provided on the third contact portion that is electrically connected to the housing side contact portion when the second door is closed, and is provided on the third door, and contacts the second contact portion when the first door and the third door are closed. And a fifth contact portion provided on the third door, electrically connected to the fourth contact portion, and contacting the third contact portion when the second door and the third door are closed. It is a thing.

  The elevator control device according to the present invention includes a first door, a second door, and a third door that open and close an opening surface, and a first contact that contacts the housing side contact portion when the first door is closed. And a second contact portion provided on the first door and electrically connected to the first contact portion, and provided on the second door and electrically connected to the housing side contact portion when the second door is closed. A third contact portion, a fourth contact portion provided on the third door, and a fifth contact portion provided on the third door and electrically connected to the fourth contact portion. A plurality of third doors provided with the connected fourth contact portion and the fifth contact portion are provided, and when all of the first door, the second door, and the plurality of third doors are closed, Is in contact with the second contact portion, one of the fifth contact portions is in contact with the third contact portion, the housing side contact portion, the first contact portion, the second contact portion, the third contact portion, and the fourth contact portion. Contact part In which beauty one closed circuit including all of the fifth contact portion is formed.

  In the present invention, when all of the plurality of doors that open and close the opening surface are closed, one closed circuit is formed. For this reason, according to this invention, it can detect with the simple structure that the door of an elevator control apparatus is open.

It is a perspective view which shows an example of the elevator control apparatus in Embodiment 1 of this invention. It is a side view for demonstrating the structure of the elevator control apparatus in Embodiment 1 of this invention. It is a side view for demonstrating the structure of the elevator control apparatus in Embodiment 1 of this invention. It is a perspective view for demonstrating the structure of the elevator control apparatus in Embodiment 2 of this invention. It is a perspective view for demonstrating the structure of the elevator control apparatus in Embodiment 3 of this invention. It is a side view for demonstrating the structure of the elevator control apparatus in Embodiment 4 of this invention. It is a perspective view which shows an example of the elevator control apparatus in Embodiment 5 of this invention.

  The present invention will be described in detail with reference to the accompanying drawings. In each figure, the same or corresponding parts are denoted by the same reference numerals. The overlapping description will be simplified or omitted as appropriate.

Embodiment 1 FIG.
FIG. 1 is a perspective view showing an example of an elevator control apparatus according to Embodiment 1. FIG. Hereinafter, an example of the configuration of the elevator control device will be described with reference to FIG.

  As shown in FIG. 1, the elevator control device includes a housing 1. The housing 1 is installed, for example, inside a hoistway. For example, equipment for controlling an elevator or the like is housed in the housing 1.

  The housing 1 has an opening surface. The elevator control device includes a plurality of doors that open and close the opening surface of the housing 1. The elevator control device includes a first door 2, a second door 3, and a third door 4. The 1st door 2, the 2nd door 3, and the 3rd door 4 are all formed in the same shape and the same magnitude | size, for example. A plurality of third doors 4 are provided. In order to distinguish the plurality of third doors 4, the reference numerals are written with lowercase letters. FIG. 1 shows an elevator control device including three third doors 4 as an example. The elevator control device shown in FIG. 1 includes a third door 4a, a third door 4b, and a third door 4c.

  The 1st door 2 is provided in the position which opens and closes the area | region of the lower end side of an opening surface. When the first door 2 is closed, the lower end of the first door 2 is positioned along the edge of the housing 1 that forms the lower end of the opening surface. When the first door 2 is closed, the left end of the first door 2 is positioned along the edge of the housing 1 that forms the left end of the opening surface. When the first door 2 is closed, the right end of the first door 2 is positioned along the edge of the housing 1 that forms the right end of the opening surface.

  The 2nd door 3 is provided in the position which opens and closes the area | region of the upper end side of an opening surface. When the second door 3 is closed, the upper end of the second door 3 is positioned along the edge of the housing 1 that forms the upper end of the opening surface. When the second door 3 is closed, the left end of the second door 3 is positioned along the edge of the housing 1 that forms the left end of the opening surface. When the second door 3 is closed, the right end of the second door 3 is positioned along the edge of the housing 1 that forms the right end of the opening surface.

  The third door 4 is provided between the first door 2 and the second door 3. That is, the 3rd door 4 opens and closes the area | region where the 1st door 2 and the 2nd door 3 do not open and close among opening surfaces. The third door 4 a is provided adjacent to the upper side of the first door 2. The third door 4b is provided adjacent to the upper side of the third door 4a. The third door 4c is provided adjacent to the upper side of the third door 4b. The third door 4 c is provided adjacent to the lower side of the second door 3. The lower end of the third door 4a is positioned along the upper end of the first door 2 when the first door 2 and the third door 4a are closed. The lower end of the third door 4b is positioned along the upper end of the third door 4a when the third door 4a and the third door 4b are closed. The lower end of the third door 4c is located along the upper end of the third door 4b when the third door 4b and the third door 4c are closed. The upper end of the third door 4 c is located along the lower end of the second door 3 when the second door 3 and the third door 4 c are closed. When the third door 4 is closed, the left end of the third door 4 is positioned along the edge of the housing 1 that forms the left end of the opening surface. When the third door 4 is closed, the right end of the third door 4 is positioned along the edge of the housing 1 that forms the right end of the opening surface.

  Thus, the opening surface of the housing 1 is opened and closed by the first door 2, the second door 3, and the third door 4. The elevator control device does not include doors other than the first door 2, the second door 3, and the third door 4.

  The elevator control device includes a detection unit 5 and a conductor 6. The detection unit 5 is, for example, a device or a substrate inside the housing 1. The conductor 6 is formed of a conductive member. The conductor 6 is insulated and protected. Although FIG. 1 shows the connection relationship between the detection unit 5 and the conductor 6, the actual arrangement of the detection unit 5 and the conductor 6 is not limited.

  The elevator control device includes a housing side contact portion 7. The housing side contact portion 7 is formed of a conductive member. The housing side contact portion 7 is provided so as to be detachable from the housing 1. The case side contact portion 7 is provided, for example, at an edge portion that forms the opening surface of the case 1. The case side contact portion 7 is provided at the lower end portion of the case 1, for example. The housing side contact portion 7 is connected to the detection portion 5 by a conductor 6. That is, the housing side contact portion 7 is electrically connected to the detection portion 5.

  The first door 2 is provided with a first contact part 8 and a second contact part 9. The 1st contact part 8 and the 2nd contact part 9 are formed with the member which has electroconductivity. The first contact portion 8 and the second contact portion 9 are detachably attached to the first door 2. The first contact portion 8 is provided at the lower end portion of the first door 2. The second contact portion 9 is provided at the upper end portion of the first door 2. The second contact portion 9 is connected to the first contact portion 8 by the conductor 6. That is, the second contact portion 9 is electrically connected to the first contact portion 8.

  The second door 3 is provided with a third contact portion 10. The third contact portion 10 is formed of a conductive member. The third contact portion 10 is detachably provided on the second door 3. The third contact portion 10 is provided at the lower end portion of the second door 3. The third contact part 10 is connected to the detection part 5 by a conductor 6. That is, the third contact part 10 is electrically connected to the housing side contact part 7 via the detection part 5.

  The third door 4 is provided with a fourth contact portion 11 and a fifth contact portion 12. The 4th contact part 11 and the 5th contact part 12 are formed with the member which has electroconductivity. The fourth contact portion 11 and the fifth contact portion 12 are detachably provided to the third door 4. The fourth contact portion 11 is provided at the lower end portion of the third door 4. The fifth contact portion 12 is provided at the upper end portion of the third door 4. The fifth contact portion 12 is connected to the fourth contact portion 11 by the conductor 6. The fifth contact portion 12 of the third door 4 a is connected to the fourth contact portion 11 of the third door 4 a by the conductor 6. The fifth contact portion 12 of the third door 4 b is connected to the fourth contact portion 11 of the third door 4 b by the conductor 6. The fifth contact portion 12 of the third door 4 c is connected to the fourth contact portion 11 of the third door 4 c by the conductor 6. That is, the 4th contact part 11 and the 5th contact part 12 which were provided in the same 3rd door 4 are electrically connected.

  As described above, the elevator control device includes the housing side contact portion 7, the first contact portion 8, the second contact portion 9, the third contact portion 10, the fourth contact portion 11, and the fifth contact portion 12. Hereinafter, these are collectively referred to as a “contact portion”. Each contact part is formed in the same shape and the same size, for example.

  The first contact portion 8 contacts the housing side contact portion 7 when the first door 2 is closed. The fourth contact portion 11 of the third door 4a comes into contact with the second contact portion 9 when the first door 2 and the third door 4a are closed. The fourth contact portion 11 of the third door 4b contacts the fifth contact portion 12 of the third door 4a when the third door 4a and the third door 4b are closed. The fourth contact portion 11 of the third door 4c contacts the fifth contact portion 12 of the third door 4b when the third door 4b and the third door 4c are closed. The third contact portion 10 comes into contact with the fifth contact portion 12 of the third door 4c when the third door 4c and the second door 3 are closed.

  When all of the first door 2, the second door 3, and the plurality of third doors 4 are closed, the following state is obtained. One of the fourth contact portions 11 contacts the second contact portion 9. One of the fifth contact portions 12 contacts the third contact portion 10. The other fifth contact portion 12 contacts the other fourth contact portion 11 on a one-to-one basis. As a result, one closed circuit including all of the housing side contact portion 7, the first contact portion 8, the second contact portion 9, the third contact portion 10, the fourth contact portion 11, and the fifth contact portion 12 is formed. .

  2 and 3 are side views for explaining the configuration of the elevator control apparatus in the first embodiment. 2 and 3 show the relationship between two adjacent doors. 2 and 3 show the relationship between the third door 4a and the third door 4b as an example.

  FIG. 2 shows a state in which the third door 4a is closed and the third door 4b is open. In this state, the fourth contact portion 11 of the third door 4b is not in contact with the fifth contact portion 12 of the third door 4a. In this case, even if all of the other contact portions not shown in FIG. 2 are electrically connected, the closed circuit is not formed. That is, even if all other doors not shown in FIG. 2 are closed, the closed circuit is not formed.

  FIG. 3 shows a state in which both the third door 4a and the third door 4b are closed. In this state, the fourth contact portion 11 of the third door 4b is in contact with the fifth contact portion 12 of the third door 4a. In this case, the closed circuit is formed if all the other contact portions not shown in FIG. 2 are electrically connected. That is, if all other doors (not shown in FIG. 2) are closed, the closed circuit is formed.

  Thus, when even one of the first door 2, the second door 3, and the plurality of third doors 4 is open, the closed circuit is not formed. On the other hand, when all of the first door 2, the second door 3, and the plurality of third doors 4 are closed, the closed circuit is formed. The relationship between the two adjacent doors described with reference to FIGS. 2 and 3 is the same except for the combination of the third door 4a and the third door 4b. That is, the relationship between the first door 2 and the third door 4a, the relationship between the third door 4b and the third door 4c, and the relationship between the third door 4c and the second door 3 are also the relationships shown in FIGS. It is the same.

  The detection unit 5 detects conduction between the conductor 6 connected to the housing-side contact unit 7 and the conductor 6 connected to the third contact unit 10. That the continuity is detected by the detection unit 5 means that the closed circuit is formed. In this case, all of the 1st door 2, the 2nd door 3, and the some 3rd door 4 are closed. On the other hand, the fact that continuity is not detected by the detection unit 5 means that the closed circuit is not formed. In this case, at least one of the first door 2, the second door 3, and the plurality of third doors 4 is open.

  In the first embodiment, when all of the first door 2, the second door 3, and the plurality of third doors 4 are closed, one closed circuit is formed. The closed circuit is formed by the conductor 6 and each contact portion. The detection unit 5 detects that the door that opens and closes the opening surface of the housing 1 is open based on the fact that the closed circuit is not formed. For this reason, in the elevator control apparatus in Embodiment 1, complicated parts, such as a switch, are unnecessary. As a result, it is possible to detect that the door of the elevator control device is open with a simple and inexpensive configuration.

Embodiment 2. FIG.
In Embodiment 2, the contact portion has elasticity. Hereinafter, the configuration of the elevator control device will be described focusing on the differences from the first embodiment. Parts that are the same as or equivalent to those in the first embodiment are given the same reference numerals, and a part of the description is omitted.

  FIG. 4 is a perspective view for explaining the configuration of the elevator control apparatus in the second embodiment. FIG. 4 shows two contact portions that come into contact when two adjacent doors are closed. FIG. 4 shows, as an example, the fifth contact portion 12 of the third door 4a and the fourth contact portion 11 of the third door 4b.

  The fourth contact portion 11 and the fifth contact portion 12 shown in FIG. 4 have elasticity. The fourth contact portion 11 and the fifth contact portion 12 can move in directions that interfere with each other by elastic deformation. For this reason, for example, even if the 3rd door 4a and the 3rd door 4b are doors provided with hinge structure, the order of opening and closing of the 3rd door 4a and the 3rd door 4b is not restricted.

  Note that not all the contact portions need to have elasticity. Even when only two contact portions that come into contact with each other when two adjacent doors are closed have elasticity, an effect that the opening / closing order of the two doors is not restricted is obtained.

  Furthermore, you may form a contact part as a twin contact like an electrical switching contact. In this case, the contact reliability of the contact portion can be improved.

Embodiment 3 FIG.
In Embodiment 3, the contact portion includes a magnet. Hereinafter, the configuration of the elevator control device will be described focusing on the differences from the first embodiment. Parts that are the same as or equivalent to those in the first embodiment are given the same reference numerals, and a part of the description is omitted.

  FIG. 5 is a perspective view for explaining the configuration of the elevator control apparatus in the third embodiment. FIG. 5 shows the fifth contact portion 12 of the third door 4a as an example.

  The fifth contact portion 12 of the third door 4a shown in FIG. Moreover, the 4th contact part 11 of the 3rd door 4b which is not illustrated in FIG. 5 is also provided with the magnet. When the third door 4a and the third door 4b are closed, the magnet 13 is attracted to the magnet provided in the fourth contact portion 11 of the third door 4b. For this reason, the 5th contact part 12 and the 4th contact part 11 can be made to contact more reliably. As a result, even if there is an error in the processing accuracy of the housing 1 and the door that opens and closes the opening surface, the contact reliability of the contact portion can be improved.

  Note that not all of the contact portions need be provided with magnets. Even when only two contact portions that come into contact with each other when two adjacent doors are closed are provided with magnets, the effect of improving the contact reliability of the two contact portions can be obtained.

  Furthermore, the contact portion may include an elastic member. In this case, the effect that the door opening / closing order is not restricted is also obtained.

Embodiment 4 FIG.
In the fourth embodiment, the contact portion is formed as a connector. Hereinafter, the configuration of the elevator control device will be described focusing on the differences from the first embodiment. Parts that are the same as or equivalent to those in the first embodiment are given the same reference numerals, and a part of the description is omitted.

  FIG. 6 is a side view for explaining the configuration of the elevator control apparatus in the fourth embodiment. FIG. 6 shows the relationship between two adjacent doors. FIG. 6 shows the relationship between the third door 4a and the third door 4b as an example.

  The fourth contact part 11 and the fifth contact part 12 shown in FIG. 6 are formed as connectors. The fifth contact portion 12 is connected to the fourth contact portion 11 by moving upward. For this reason, when the 3rd door 4a and the 3rd door 4b are doors provided with the slide structure, the 5th contact part 12 and the 4th contact part 11 can be made to contact more reliably. As a result, the contact reliability of the contact part provided in the door provided with the slide structure can be improved.

  Note that not all the contact portions are necessarily formed as connectors. Even when only two contact portions that come into contact with each other when two adjacent doors are closed are connectors, the effect of improving the contact reliability of the two contact portions can be obtained.

  In the fourth embodiment, the type of connector and the door opening / closing order are not limited. Moreover, either of the two connectors to be connected may be a male connector, and either may be a female connector.

Embodiment 5. FIG.
In the fifth embodiment, the plurality of doors that open and close the opening surface of the housing 1 include different types of doors. Hereinafter, the configuration of the elevator control device will be described focusing on the differences from the first embodiment. Parts that are the same as or equivalent to those in the first embodiment are given the same reference numerals, and a part of the description is omitted.

  FIG. 7 is a perspective view showing an example of the elevator control apparatus in the fifth embodiment. As shown in FIG. 7, the first door 2, the second door 3, and the plurality of third doors 4 are not all formed in the same shape and the same size. The third door 4 a is formed in the same shape and size as the first door 2. The second door 3 and the third door 4 b are formed smaller than the first door 2. The 2nd door 3 and the 3rd door 4b are formed in the same shape and the same magnitude | size. The third door 4 c is formed larger than the first door 2.

  The first door 2, the second door 3, and the third door 4 shown in FIG. 7 are not all opened / closed by the same opening / closing mechanism. The 1st door 2, the 3rd door 4a, and the 3rd door 4c are doors provided with the slide structure. On the other hand, the 2nd door 3 and the 3rd door 4b are doors provided with the hinge structure.

  As described above, in the fifth embodiment, doors having different shapes, sizes, and opening / closing mechanisms are mixed as a plurality of doors that open and close the opening surface of the housing 1. For example, the 1st door 2, the 2nd door 3, and the some 3rd door 4 include both the door provided with the sliding structure and the door provided with the hinge structure. Also in this case, when all of the first door 2, the second door 3, and the plurality of third doors 4 are closed, one closed circuit is formed. For this reason, it is possible to detect that the door of the elevator control device is open with a simple and inexpensive configuration regardless of the type of the door.

  In the first to fifth embodiments, the third contact portion 10 provided on the second door 3 is connected to the detection portion 5 by the conductor 6. However, if a new contact portion is provided, the third contact portion 10 may not be connected to the detection portion 5. For example, the housing 1 is provided with a new housing-side contact portion connected to the detection unit 5 at the upper end or the like. The second door 3 is provided with a new contact portion which is connected to the third contact portion 10 by the conductor 6 and comes into contact with the above-described new housing side contact portion when the second door 3 is closed. The third contact portion 10 is electrically connected to the housing-side contact portion 7 when the second door 3 is closed. Also in this case, when all of the first door 2, the second door 3, and the plurality of third doors 4 are closed, one closed circuit is formed. As a result, it is possible to detect that the door of the elevator control device is open with a simple and inexpensive configuration.

  In the first to fifth embodiments, the elevator control device includes a first door 2, a second door 3, and three third doors 4. However, the number of the third doors 4 in the present invention may be two or four or more. Also in this case, it is possible to detect that the door of the elevator control device is open with a simple and inexpensive configuration.

  The number of the third doors 4 in the present invention may be one. When there is one third door 4, the fourth contact portion 11 of the third door 4 contacts the second contact portion 9. The fifth contact portion 12 of the third door 4 contacts the third contact portion 10. When there is one third door 4, the fourth contact portion 11 and the fifth contact portion 12 do not contact each other. Also in this case, when all of the first door 2, the second door 3, and the third door 4 are closed, one closed circuit is formed. As a result, it is possible to detect that the door of the elevator control device is open with a simple and inexpensive configuration.

  In the present invention, the third door 4 may not be provided. That is, the opening surface may be opened and closed by only two of the first door 2 and the second door 3. When the third door 4 is not provided, the third contact portion 10 contacts the second contact portion 9 when the first door 2 and the second door 3 are closed. Also in this case, when both the first door 2 and the second door 3 are closed, one closed circuit is formed. As a result, it is possible to detect that the door of the elevator control device is open with a simple and inexpensive configuration.

  As the conductor 6 in the present invention, for example, an insulated wire is used. In this case, the elevator control device can be configured at a lower cost.

  The present invention can be applied to devices other than elevator control devices. If the present invention is applied to an apparatus having a plurality of doors that open and close the opening surface of the housing, it can be detected that at least one door is open.

  DESCRIPTION OF SYMBOLS 1 Case, 2nd door, 3nd door, 4th door, 4a 3rd door, 4b 3rd door, 4c 3rd door, 5 detection part, 6 conductor, 7 Case side contact part, 8 1st Contact part, 9 Second contact part, 10 3rd contact part, 11 4th contact part, 12 5th contact part, 13 Magnet

Claims (13)

A housing having an opening surface;
A housing-side contact portion provided in the housing;
A first door and a second door for opening and closing the opening surface;
A first contact portion that is provided on the first door and contacts the housing-side contact portion when the first door is closed;
A second contact portion provided on the first door and electrically connected to the first contact portion;
A third contact portion provided on the second door, wherein the third contact portion is in contact with the second contact portion and electrically connected to the housing side contact portion when the first door and the second door are closed;
Elevator control device with. A housing having an opening surface;
A housing-side contact portion provided in the housing;
A first door, a second door and a third door for opening and closing the opening surface;
A first contact portion that is provided on the first door and contacts the housing-side contact portion when the first door is closed;
A second contact portion provided on the first door and electrically connected to the first contact portion;
A third contact portion provided on the second door and electrically connected to the housing side contact portion when the second door is closed;
A fourth contact portion that is provided on the third door and contacts the second contact portion when the first door and the third door are closed;
A fifth contact portion provided on the third door, electrically connected to the fourth contact portion, and contacting the third contact portion when the second door and the third door are closed;
Elevator control device with. A housing having an opening surface;
A housing-side contact portion provided in the housing;
A first door, a second door and a third door for opening and closing the opening surface;
A first contact portion that is provided on the first door and contacts the housing-side contact portion when the first door is closed;
A second contact portion provided on the first door and electrically connected to the first contact portion;
A third contact portion provided on the second door and electrically connected to the housing side contact portion when the second door is closed;
A fourth contact portion provided on the third door;
A fifth contact portion provided on the third door and electrically connected to the fourth contact portion;
With
A plurality of the third doors provided with the fourth contact part and the fifth contact part electrically connected are provided,
When all of the first door, the second door, and the plurality of third doors are closed, one of the fourth contact portions contacts the second contact portion, and one of the fifth contact portions. One contacts the third contact portion and includes all of the housing side contact portion, the first contact portion, the second contact portion, the third contact portion, the fourth contact portion, and the fifth contact portion. Elevator control device in which two closed circuits are formed.   2. The elevator control device according to claim 1, wherein the housing-side contact portion, the first contact portion, the second contact portion, and the third contact portion include one having elasticity.   The said housing | casing side contact part, the said 1st contact part, the said 2nd contact part, the said 3rd contact part, the said 4th contact part, and the said 5th contact part include what has elasticity. Elevator control device.   The elevator control device according to claim 1 or 4, wherein the housing-side contact portion, the first contact portion, the second contact portion, and the third contact portion include a magnet.   The said housing side contact part, the said 1st contact part, the said 2nd contact part, the said 3rd contact part, the said 4th contact part, and the said 5th contact part include what was provided with the magnet. The elevator control device according to any one of 5.   The elevator control according to any one of claims 1, 4, and 6, wherein the housing side contact portion, the first contact portion, the second contact portion, and the third contact portion include those formed as connectors. apparatus.   The said housing side contact part, the said 1st contact part, the said 2nd contact part, the said 3rd contact part, the said 4th contact part, and the said 5th contact part include what was formed as a connector. The elevator control device according to any one of 5 and 7.   The elevator control device according to any one of claims 1, 4, 6, and 8, wherein the first door and the second door include both a door having a sliding structure and a door having a hinge structure.   The said 1st door, the said 2nd door, and the said 3rd door are any one of the Claims 2, 3, 5, 7, and 9 containing both the door provided with the sliding structure and the door provided with the hinge structure. The elevator control device described.   The elevator control device according to any one of claims 1, 4, 6, 8, and 10, wherein the second contact portion is connected to the first contact portion by an insulated electric wire. The second contact portion is connected to the first contact portion by an insulated wire.
The elevator control device according to any one of claims 2, 3, 5, 7, 9, and 11, wherein the fifth contact portion is connected to the fourth contact portion by an insulated and protected electric wire.

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