KR0167161B1 - Hall node controller of elevator - Google Patents

Abstract

The present invention relates to a hall node control device of an elevator. In the related art, when a hall node fails due to improper use or aging of a user, the network must be reconfigured after replacing the node in order to diagnose and repair the failure. This required very highly trained professionals and the need to carry equipment for network reconfiguration. Therefore, in order to solve the conventional problem, the present invention does not cause a logical problem even if the Hall nodes have the same network input / output structure so that the Hall nodes are interchanged with each other, and the teaching of the layer to which each Hall node belongs is separated from the Hall node. It is effective to make it through a separate means so that even if the hall nodes are replaced with each other, the teaching of the floor to which the hall nodes belong is not required.

Description

Hall node control device of elevator

1 is a block diagram of a conventional hall node controller.

FIG. 2 is a network input / output structure diagram between the main controller of the elevator and the hall node in FIG.

3 is a block diagram of a hall node control device of the elevator of the present invention.

4 is a network input / output structure diagram of the elevator main controller and hall node of FIG.

* Explanation of symbols for the main parts of the drawings

11: main controller 12: network

13 ₁ -13n: Hall node by floor 14 ₁ -14n: Elevator call button

15 ₁ -15n: Floor Indicator 16 ₁ -16n: Floor Teaser

The present invention relates to an elevator hall node control device for facilitating the diagnosis and repair of a hall node of an elevator. Particularly, when a hall node fails due to improper use or aging of a user, the fault is diagnosed only by replacing a failed hall node. It relates to a hall node control device of an elevator that can be repaired.

As shown in FIG. 1, the hall node control device of the conventional elevator is installed in the hall of each floor and the main controller 1 which processes according to the priority of the information when the call information is input from each hall node. Elevator call buttons 4 _1-4 n for calling the elevator to the desired floor, a floor indicator 5 1-5 _n for indicating where the elevator is located, and an elevator call button 4 _1-4 . 4n) continues to monitor whether there is a call, and if there is a call, the content of the call is transmitted to the main controller 1 through the network 2, or the main controller 1 controls the information and display of the current elevator position. Hall nodes (3 ₁ , 3 ₂ , ....., 3n), which receive a command and control floor indicators and the like, are connected in parallel.

Looking at the prior art configured as described above is as follows.

The main controller 1 and the respective hall nodes 3 ₁ , 3 ₂ , ....., 3n are connected in parallel by one network 2 and the information exchange between them is shown in FIG. same.

In other words, the hole node of each layer _{(3 1, 3 2, .....} , 3n) will be invoked while continuing to monitor that the call of the layer to which they belong through the elevator call button (4 ₁ -4n) If so, the contents of the call, such as up or down, are communicated to the main controller 1 via the communication network 2.

Then, when the call information is passed from each of the Hall nodes 3 ₁ , 3 ₂ , ....., 3n, the main controller 1 stores them in an internal buffer and processes them one by one according to priority.

In parallel with this, the main controller 1 issues the current elevator position and indicator control command to the hall nodes 3 ₁ , 3 ₂ ,..., 3n via the network 2.

Each node yiettara hole _{(3 1, 3 2, .....} , 3n) is the content received is input through the current network (2), the control command information and indicators about the position of the elevator from the primary controller (1) and it controls the display layer (5 ₁ -5n) according to.

In the above, when the call information is passed from each of the Hall nodes 3 ₁ , 3 ₂ , ....., 3n, the main controller 1 stores them in a buffer and processes them one by one according to the priority. In parallel with this, the main controller 1 issues a current elevator position and indicator control command to each hall node 3 ₁ , 3 ₂ , ....., 3n via the network 2.

However, in the conventional technology, if a hall node fails due to improper use or aging of the user, the network must be reconfigured after replacing the node in order to diagnose and repair the failure by replacing the node. There was a problem that a specialist who received it was necessary and also had to carry equipment for network reconfiguration.

Therefore, in order to solve the conventional problem, the present invention does not cause a logical problem even if the Hall nodes have the same network input / output structure so that the Hall nodes are interchanged with each other, and the grant of the layer to which each Hall node belongs is separated from the Hall node. It is made through a separate means to create a hall node control device of the elevator so that even if the hall nodes are replaced with each other so that it is not necessary to provide the floor belonging to the hall node, it will be described in detail with reference to the accompanying drawings as follows. .

The third turn and also a hole node control device configuration of the present invention the elevator, and thus, as shown, and equipped with the network input of the same construction for performing the information exchange of the parts Hall node (13 ₁ -13n), and wherein the holes node (13 ₁ -13n) each installed separately from the call when a notification is to monitor the time T layer (16 ₁ -16n), and a network (12) for applying a number of layers corresponding to the nodes in the hall call in the priority in and a control command of the hole node (13 ₁ -13n) to the main controller 11 falls, the person and the elevator call button (14 ₁ -14n) of each layer for calling the elevator if want to go to the desired floor, the elevator is located the indicator consists of a layer (15 ₁ -15n) let me know where.

Referring to the operation and effects of the present invention configured as described above in detail.

In the past, each hall node was given a logical address to communicate with the number of the layer to which it belongs, when constructing a network or producing a hole node.

In this case, the Hall node had to be replaced by node.

Accordingly, the present invention gives a number of layers belonging to each node separately hole to install, time T layer (16 ₁ -16n) for each node in order that holes can be repaired by replacing only the failed node hole when the hole failed node .

As a method of assigning the number of the layer to which the hall node itself belongs, a method of binary representation through a first dip switch operation, a method of representing a second rotary switch by turning, and a third same resistance connected in series for each floor It can be implemented as a voltage divider and then read and calculate the voltage of each layer.

For example, in a 15-storey building, if the voltage on the top floor is 15V, if the input voltage of any floor is nVolts, 0≤n≤15, the floor number is n.

The floor bridges, which can be implemented in the same manner as described above, are installed in the hall nodes.

When installing the elevator, by operating the dip switch for the layer in time T (16 ₁ -16n) installed on each floor when a given number of layers to which it belongs by reading the layer number given from each floor in time T (16 ₁ -16n) Know the number of the floor to which the Hall node belongs.

Once holes node (13 ₁ -13n) the Knowing the layer number to which it belongs that the elevator call button on his network layer the direction of their layer number and the called whenever the elevator by calling (14 ₁ -14n) The main controller 11 is notified through (12).

Then, the main controller 11 is monitoring the network 12, the hall call of the user from the node (13 ₁ -13n) when the notification is brought to register it in its own read buffer.

In this way, a number of user's calls are registered in the main controller 11, and only one of the registered calls is selected according to the priority, and the elevator is sent to the corresponding floor, and the number of the floor in which the elevator is currently in progress is transmitted to the network 12. through holes node (13 ₁ -13n) to give the hole the node (13 ₁ -13n) the indicator layer (15 ₁ -15n) for displaying when the elevator reaches the destination floor main controller 11 further network (12 ) Do not output a command for displaying floors.

Once you reach the destination floor in the elevator door opened, the guests take the main controller 11 issues a command to the node hole to turn off the lights in the elevator call button (14 ₁ -14n).

At this time, even if an error occurs in any one of the hall nodes, it is possible to simply diagnose and repair the fault simply by replacing it with another normal hall node, and thus does not require a high level expert.

As described in detail above, in the present invention, since each hall node has the same network input / output structure, a logical problem does not occur even when the hole nodes are replaced with each other. It is made through a switch, a rotary switch, or a means using a resistor, so even if the hall nodes are replaced with each other, it is not necessary to separately assign the floors to which the hall nodes belong. It is effective to diagnose and repair the problem.

Claims (4)

When inputting call information from each hall node, the main controller processes according to the priority of the information, and continuously monitors whether there is a call by the elevator call button, and if there is a call, the call contents are transmitted to the main controller through the network or An elevator composed of n hall nodes that receive information and display control information on the current elevator position and control floor indicators according to the contents thereof. The elevator floor is provided separately to each of the hall nodes. Hall node control device of the elevator, characterized in that further comprises a floor teaching to give the number of. The elevator hall node control apparatus according to claim 1, wherein the floor teaching allows the dip switch to be expressed in binary through manipulation. The elevator hall node control apparatus according to claim 1, wherein the floor teachings are represented by turning a rotary switch. The elevator hall node control apparatus according to claim 1, wherein the floor teaching device connects the same resistors in series to each floor to make a voltage divider, and then reads and calculates the voltage of each floor.