CN216785372U - Learning tool for absolute position of elevator - Google Patents

Abstract

The utility model relates to the technical field of elevators, in particular to a learning tool for absolute positions of elevators. The learning tool for the absolute position of the elevator is in communication connection with an elevator control system, and a detector is arranged on the elevator and can detect the absolute position of the elevator; the learning tool for the absolute position of the elevator comprises a box body and a circuit board arranged in the box body; the elevator absolute position learning tool can acquire the absolute position of the corresponding target position sent by the detector when the elevator runs to the corresponding target position selected by the page turning button, and the absolute position can be recorded by operating the calibration button. The utility model has the advantages that: the operation is simple, the structure of the learning tool is simple, and the learning cost is low.

Description

Learning tool for absolute position of elevator

Technical Field

The utility model relates to the technical field of elevators, in particular to a learning tool for absolute positions of elevators.

Background

Before the elevator runs, the absolute position of the flat floor of each floor needs to be learned, so that the elevator can be accurately stopped at the corresponding position, and the probability of closing the elevator can be reduced.

The existing learning of the absolute position of the elevator needs to be carried out through a debugging server of an elevator control system, the operation is complex, the operation can be carried out only by a person with higher technical level, when the elevator stops at the target position, the absolute position value of each target position is written in after the elevator enters a specific menu through a manual operation server, the learning cost is high, and the manpower and the time are wasted.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a learning tool for the absolute position of an elevator, which has the following technical scheme:

the learning tool for the absolute position of the elevator is in communication connection with an elevator control system, and a detector is arranged on the elevator and can detect the absolute position of the elevator; the learning tool for the absolute position of the elevator comprises a box body and a circuit board arranged in the box body; the elevator absolute position learning tool can acquire the absolute position of the corresponding target position sent by the detector when the elevator runs to the corresponding target position selected by the page turning button, and the calibration button can be operated to record the absolute position.

So set up, operating personnel only need select the target location that needs the demarcation through turning over the page button, and the absolute position value of this target location is write in to rethread demarcation button, easy operation, and learning tool simple structure, and the study is with low costs.

In one embodiment, a first display area is arranged on the box body, a first display is arranged in the first display area, and the first display can display the state of the learning tool of the current absolute position of the elevator.

So set up to whether suggestion operating personnel can carry out next operation at present.

In one embodiment, the first display comprises at least four first indicator lamps, the four first indicator lamps are arranged at intervals in parallel, and the first indicator lamps can be turned on, turned on or turned off constantly.

So set up, simple structure, and utilize the mode that the pilot lamp is often bright, is glimmered or is extinguish to show, and is simply understandable.

In one embodiment, a second display area is arranged on the box body, and the second display area can display the currently calibrated target position.

The arrangement is such that the operator is prompted whether the target position to be selected has been correctly selected.

In one embodiment, a first display board and a second display are arranged in the second display area, and the first display board and the second display are matched to display floors of 0-99 floors.

By the arrangement, the learning tool can realize the learning calibration of buildings with different floors, and the application scene is enlarged.

In one embodiment, the second display comprises at least ten second indicator lights capable of being turned on, turned off, or turned on constantly to display the currently targeted target location.

So set up, simple structure, and utilize the mode that the pilot lamp is often bright, is glimmered or is extinguish to show, and is simply understandable.

In one embodiment, a third display and a fourth display are further arranged in the second display area, the third display is used for displaying whether the elevator is in the upper limit position, and the fourth display is used for displaying whether the elevator is in the lower limit position.

So set up, can indicate operating personnel upper limit position and lower limit position's demarcation state.

In one embodiment, the third display and the fourth display are both a third indicator light, and the third indicator light can be turned on, turned off or blinked normally.

So set up, simple structure, and utilize the mode that the pilot lamp is often bright, is glimmered or is extinguish to show, and is simply understandable.

In one embodiment, a third display area is further arranged on the box body and used for displaying the absolute position value read currently.

In one embodiment, a first identifier and a second identifier are provided on the box body, the first identifier corresponds to the page turning button and is used for identifying the page turning button, and the second identifier corresponds to the calibration button and is used for identifying the calibration button.

So set up, can make operating personnel correspond and turn over a page button and mark the button, avoid the maloperation.

Compared with the prior art, the elevator absolute position learning tool provided by the utility model realizes the learning of the absolute position of the elevator on the target position by arranging the calibration button and the page turning button on the box body, has the advantages of simple operation, simple structure and low learning cost, and does not need to write the absolute position value of each target position into a specific menu after a server is manually operated to enter the specific menu.

Drawings

Fig. 1 is a schematic structural diagram of an elevator absolute position learning tool provided by the utility model;

fig. 2 is a flow chart of an elevator absolute position learning method provided by the utility model.

The symbols in the drawings represent the following meanings:

100. a learning tool; 10. a box body; 11. a page turning button; 111. a first button; 112. a second button; 113. a first identifier; 12. calibrating the button; 121. a second identifier; 13. a first display area; 131. a first display; 132. a third identifier; 14. a second display area; 141. a first display panel; 142. a second display; 143. a fourth identification; 144. a third display; 145. a fourth display; 146. a fifth identification; 15. and a third display area.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "mounted on" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, the present invention provides a learning tool 100 for an absolute position of an elevator (hereinafter referred to as a learning tool 100), which is used for learning the absolute position of the elevator.

Learning tool 100 is connected with the communication of elevator control system, and the sedan-chair top of the car of elevator is equipped with the detector, is equipped with the detection chi in the well, and the detector detects the position of elevator with the detection chi cooperation to give learning tool 100 with the information transfer that reads. The detector can be a magnetic induction type detecting magnetic stripe or a photoelectric type transmitting device, a receiving device and the like, and the detecting ruler can be a magnetic grating ruler or a grating ruler and the like. It is to be construed that the communication connection refers to a wire connection or a wireless connection.

The learning tool 100 includes a case 10 and a circuit board (not shown) disposed in the case 10.

The box body 10 is provided with a page turning button 11 and a calibration button 12, and the page turning button 11 and the calibration button 12 are respectively electrically connected with the circuit board. The page turning button 11 is used for selecting a target position to be calibrated, whether the elevator stops at the position selected by the page turning button 11 is observed through human eyes, if the elevator stops at the corresponding position, the calibration button 12 is pressed down, and the value of the absolute position detected by the detector is transmitted to the elevator control system for storage and recording.

Optionally, the box body 10 can be held by an operator, and is small in size and convenient to operate.

The page turning button 11 comprises a first button 111 and a second button 112, the first button 111 is used for turning pages upwards, if the current elevator is located at one floor, the learning tool 100 is calibrated at the first floor, the first floor and the second floor are selected for calibration if the first button 111 is pressed, the third floor is selected for calibration if the first button is pressed again, and the like; the second button 112 is used to turn down the page, if the current elevator is located at the eighth floor, the learning tool 100 performs calibration at the eighth floor, and when the second button 112 is pressed, the seventh floor is selected for calibration, and when the second button is pressed again, the sixth floor is selected for calibration, and so on.

The box 10 is provided with a first mark 113, and the first mark 113 is located at the corresponding position of the first button 111 and the second button 112. In this embodiment, "Δ" is set on the first button 111 as the first indicator 113 corresponding to the first button 111, and "# is set on the second button 112 as the first indicator 113 corresponding to the second button 112, in other embodiments, the first indicator 113 may also be set on the left side, the right side, etc. of the first button 111 and the second button 112, respectively, the" # "may also be set on the first button 111 to identify the first button 111, or may be identified with characters such as" up ", and the" ↓ "," down ", etc. may also be set on the second button 112 to identify.

The box 10 is provided with a second mark 121, and the second mark 121 corresponds to the calibration button 12 to prompt an operator that the button is the calibration button 12. In this embodiment, "mark" is set on the mark button 12 as the second mark 121, and in other embodiments, english words may be set on the left side, the right side, and the like of the mark button 12 as the second mark 121.

The box 10 is provided with a first display area 13, and a first display 131 is provided in the first display area 13 to display the current status of the learning tool 100.

The first display 131 includes at least four first indicator lights, which are spaced and arranged in parallel, and the first indicator lights can be turned on, or turned off to indicate different states of the learning tool 100.

When the learning tool 100 is in communication connection with the elevator control system, one of the first indicator lights is normally on, which indicates that the communication is successful; if the elevator control system judges that the learning condition of the absolute position of the elevator is met currently, the other first indicator lamp in the first indicator lamps is normally on; if the operator presses the calibration button 12 when calibrating a certain position, a third first indicator light in the first indicator lights flickers to indicate that calibration is being input; after calibration is completed, the fourth first indicator lamp in the first indicator lamps is always on, and the position is indicated to be calibrated.

In this embodiment, in the first display area 13, there are four first indicator lights, from left to right, the first indicator light indicates a communication state, the second indicator light indicates a learning condition whether the elevator is currently in an absolute position, the third indicator light indicates whether calibration is input, and the fourth indicator light indicates whether calibration is completed. In other embodiments, the sequence of the four first indicator lights can be other, for example, from left to right, the first indicator light indicates whether calibration is input, the second first indicator light indicates whether calibration is completed, the third first indicator light indicates a communication state, the fourth first indicator light indicates whether the current learning condition of the absolute position of the elevator is met, or the sequence of the four first indicator lights is arbitrarily exchanged. In other embodiments, the first indicator lights may also be five or more, and other first indicator lights may also display other states of the learning tool 100.

The first display area 13 is provided with third marks 132, and the number of the third marks 132 corresponds to the number of the first indicator lights one by one, and is used for marking the meaning represented by each first indicator light. In this embodiment, from the left to the right, the first indicator 113 is located below the first indicator and is identified by "communication status", the second first indicator 113 is located below the second first indicator and is identified by "calibration enable", the third first indicator 113 is located below the third first indicator and is identified by "calibration input", and the fourth first indicator 113 is located below the fourth first indicator and is identified by "calibration complete". In other embodiments, the third mark 132 may be located above, to the left of, or to the right of the first indicator light, and may be marked by an english word or the like.

The box 10 is provided with a second display area 14, and the second display area 14 can display the position calibrated by the current learning tool 100.

The second display area 14 is provided with a first display panel 141 and a second display 142, and the first display panel 141 and the second display 142 can display floors of 0-99 floors in cooperation. Generally, the floor does not exceed 99 floors, so that the 0-99 floors can basically meet the calibration of buildings with all different floor numbers.

The second display 142 includes at least ten second indicator lamps which can be turned on, flashed, or turned off at regular intervals, the first display panel 141 can display floor information and can be changed according to the floor information, the ten second indicator lamps represent 10 numbers of 0 to 9, and the first display panel 141 and the ten second indicator lamps cooperate to display floors of 0 to 99 floors. For example, if 11 layers are to be calibrated, the second indicator light representing 1 is turned on by pressing the page turning button 11 until 1 is displayed on the first display panel 141, and the second indicator light representing 1 is turned on after 11 layers are calibrated.

In this embodiment, the first display panel 141 is located at the left side of the second indicator lamps for displaying the ten-digit number of the floor, from left to right, ten second indicator lamps are spaced and arranged side by side for displaying the one-digit number of the floor, the first second indicator lamp represents 0, the second indicator lamp represents 1, the third second indicator lamp represents 2, the fourth second indicator lamp represents 3, the fifth second indicator lamp represents 4, the sixth second indicator lamp represents 5, the seventh second indicator lamp represents 6, the eighth second indicator lamp represents 7, the ninth second indicator lamp represents 8, and the tenth second indicator lamp represents 9, so as to comply with the reading habit of the average person. In other embodiments, the first display panel 141 may be further disposed at the right side of the second indicator lamps, and the order of the ten second indicator lamps may be further arbitrarily adjusted. For example, if the layer 12 needs to be targeted, the page flip button 11 is flipped to cause the first display panel 141 to display a 1, and the second indication of 2 flashes to indicate that the layer 12 has been selected to await targeting.

The corresponding position of each second indicator light is provided with a fourth mark 143 to distinguish each second indicator light. In this embodiment, an arabic number is used as a mark below each second indicator light, but in other embodiments, the mark may be performed on the upper side, the left side, or the right side of the second indicator light, or may be performed using a chinese number.

The second display area 14 is also provided with a third display 144 and a fourth display 145, the third display 144 being used to indicate whether the elevator is in the upper limit position and the fourth display 145 being used to indicate whether the elevator is in the lower limit position. It is to be explained that the upper extreme position refers to the lowest position in the shaft where the elevator is allowed to descend, and the upper extreme position is the highest position in the shaft where the elevator is allowed to ascend.

When the lower limit position needs to be calibrated, the page turning button 11 is used for selecting, the fourth display 145 displays that the lower limit position is selected, and then the lower limit position is calibrated; when the upper limit position needs to be calibrated, the lower limit position is calibrated again by selecting through the page turning button 11 until the third display 144 shows that the lower limit position is selected.

In the present embodiment, the third indicator light 144 and the fourth indicator light 145 are both the third indicator light, and can indicate different states by being constantly turned on, turned off, and turned off. When the upper limit position is selected through the page turning button 11, the third indicator light of the third display 144 blinks, when the calibration is completed, the third indicator light of the third display 144 is always on, when the lower limit position is selected through the page turning button 11, the third indicator light of the fourth display 145 blinks, and when the calibration is completed, the third indicator light of the fourth display 145 is always on. In other embodiments, the third display 144 and the fourth display 145 may also be displayed as a display screen or the like.

The corresponding positions of the third display 144 and the fourth display 145 are provided with a fifth mark 146 for marking. In this embodiment, the fifth marks 146 are respectively disposed on the right sides of the third display 144 and the fourth display 145, and the marks are marked by the "upper reference position" and the "lower reference position" in chinese, in other embodiments, english may also be used as the fifth marks 146, and the fifth marks 146 are also respectively disposed on the left sides or other positions of the third display 144 and the fourth display 145.

The second display area 14 can also be adapted according to the settings of the elevator control system to automatically skip over floors that are not available. For example, if the building has only 5 floors or only 5 floors need to be calibrated, after the setting in the elevator control system, the elevator control system sends the information of the total floors to be calibrated to the learning tool 100, and when the page turning button 11 is pressed, the page turning button 11 only cycles among the lower limit position, 0, 1, 2, 3, 4, 5 and the upper limit position, so as to save the selection time.

The box 10 is further provided with a third display area 15, and the third display area 15 is used for displaying the read absolute position.

Referring to fig. 2, the present invention further provides a method for learning an absolute position of an elevator, which learns an absolute position of a target position of an elevator by using the learning tool 100, the method comprising:

s1, selecting a target position to be calibrated through the page turning button 11;

s2, pressing the calibration button 12 when the elevator runs to the target position;

the S3 learning tool 100 sends the absolute position value of the read target position to the master for storage.

The step of S1 includes:

s11, the elevator is adjusted to a maintenance mode and is operated to a lower limit position;

s12, selecting the lower limit position through the page turning button 11, and displaying the waiting calibration on the fourth display 145;

s13 presses the calibration button 12 and the fourth display 145 shows that the lower limit calibration is complete.

In S12, the fourth display 145 is an indicator light, the fourth display 145 displays that the manner of waiting for calibration is the indicator light blinking, and in S13, the fourth display 145 displays that the manner of completing calibration is the indicator light constantly on.

The step of S1 further includes:

s14, the elevator is adjusted to the maintenance mode, and the elevator runs to the Nth floor needing to be calibrated;

s15, selecting the Nth floor through the page turning button 11, and displaying in the second display area 14 to wait for calibration;

s16 presses the calibrate button 12, the second display area 14 displays the calibration completed, and the second display 142 representing the single digit floor number of the nth floor displays the calibration completed.

In S15, since the second display 142 is the third indicator light, the second indicator light representing the first floor number of the nth floor displays the waiting calibration, the second display 142 displays the waiting calibration in a blinking manner, and in S16, the second display 142 displays the calibration completion in a blinking manner as the third indicator light is normally on.

The step S1 further includes:

s17, the elevator is adjusted to a maintenance mode and is operated to an upper limit position;

s18, selecting the upper limit position through the page turning button 11, the third display 144 displaying waiting calibration;

s19 presses the calibration button 12 and the third display 144 shows that the upper limit calibration is complete.

In S18, the third display 144 is the third indicator light, the third display 144 displays that the indicator light is blinking when the manner of waiting for calibration is performed, and in S18, the third display 144 displays that the manner of completing calibration is that the third indicator light is constantly on.

Here, the lower extreme position refers to the lowest position in the hoistway where the elevator is allowed to descend, and the upper extreme position refers to the highest position in the hoistway where the elevator is allowed to ascend. In this embodiment, the lower limit position is 100mm below the flat layer of the 0-layer, and the upper limit position is 100mm above the flat layer of the top layer. The flat floor means the ground of each floor.

The steps after S11 before S12, after S14 before S15, after S17 before S18 further include:

s101, judging whether the elevator is in a flat floor or not.

In S101, the elevator is determined to be on the leveling floor by judging whether the floor of the elevator car is flush with the floor of the corresponding floor by the human eyes of the operator, and if so, the steps S12, S15 or S18 are performed, and if not, the elevator control system performs adjustment.

The step before S11 further includes:

s19, the learning tool 100 is in communication connection with the elevator control system, and the first display 131 representing the communication state in the first display area 13 displays whether the communication is normal or not;

if yes, S191 the elevator control system judges whether the current learning condition of the target position is met;

if not, checking.

In S191, if the learning condition of the target position is currently satisfied, the process proceeds to S11;

if not, checking.

In this embodiment, the first display 131 is a first indicator light, and if the learning tool 100 and the elevator control system successfully establish communication, the corresponding indicator light is always on.

In steps S13, S16, and S19, after the index button 12 is pressed, the corresponding first display 131 in the first display area 13 displays whether or not the index is being input.

In this embodiment, the first display 131 is a first indicator light, and when the calibration button 12 is pressed, the first indicator light in the first display area 13, which represents whether the calibration is being input, is always on.

After all the target position calibrations are completed, i.e., the learning tool 100 completes the calibration of the lower limit position, all the floors, and the upper limit position, the corresponding first display 131 in the first display area 13 displays that the calibration is completed.

In this embodiment, the first display 131 is a first indicator light, and after the calibration is completed, the first indicator light representing whether the calibration is completed in the first display area 13 is normally on.

In the working process, the learning tool 100 is in communication connection with the elevator control system, if the communication is successful, the first indicator lamp representing the communication state in the first display area 13 is continuously lightened, at the moment, the elevator control system judges whether the current learning condition of the absolute position is met, and if the current learning condition of the absolute position is met, the first indicator lamp representing the calibration enabling in the first display area 13 is continuously lightened; through the page turning button 11, the third indicator light in the third display 144 is enabled to flash, at the moment, the first indicator light representing the calibration input in the first display area 13 flashes, the elevator is operated to the lower limit position, whether the elevator is located at the lower limit position is observed, if yes, the calibration button 12 is pressed, the absolute position of the lower limit position is written, and the third indicator light of the fourth display 145 is enabled to be normally on; turning over the first button 111 to make the first display board 141 show 0, the second indicator light representing 0 in the second display 142 flickers, moving the elevator to the flat floor position of 0 floor, observing whether the elevator is in the flat floor of 0 floor, if yes, pressing the calibration button 12 to write the absolute position of 0 floor, and the second indicator light representing 0 in the second display 142 is normally on; therefore, all floors and upper limit positions are calibrated in sequence, and after the calibration is completed, the first indicator light representing the completion of the calibration in the first display area 13 is normally on.

The technical features of the above embodiments may be combined arbitrarily, and for simplicity of description, the communication connection is not referred to as a wire connection or a wireless connection. All possible combinations of the individual features in the above-described embodiments are described, but the combination of these features should be considered as being within the scope of the present description, provided that it is not contradictory.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the utility model, and these changes and modifications are all within the scope of the utility model. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (10)

1. The learning tool for the absolute position of the elevator is in communication connection with an elevator control system, and a detector is arranged on the elevator and can detect the absolute position of the elevator;

the elevator absolute position learning tool is characterized by comprising a box body (10) and a circuit board arranged in the box body (10); the elevator absolute position learning device is characterized in that a page turning button (11) and a calibration button (12) are arranged on the box body (10), the page turning button (11) and the calibration button (12) are respectively electrically connected with the circuit board, different target positions can be selected for calibration by operating the page turning button (11), when the elevator runs to the corresponding target position selected by the page turning button (11), the elevator absolute position learning tool can acquire the absolute position of the corresponding target position sent by the detector, and the calibration button (12) is operated to record the absolute position.

2. The elevator absolute position learning tool according to claim 1, characterized in that a first display area (13) is arranged on the box body (10), the first display area (13) is provided with a first display (131), and the first display (131) can display the current state of the elevator absolute position learning tool.

3. The elevator absolute position learning tool according to claim 2, wherein the first display (131) comprises at least four first indicator lights, the four first indicator lights are spaced and arranged in parallel, and the first indicator lights can be turned on, turned on or off constantly.

4. The elevator absolute position learning tool according to claim 1, characterized in that a second display area (14) is provided on the box (10), and the second display area (14) can display the target position currently calibrated.

5. The elevator absolute position learning tool according to claim 4, wherein a first display board (141) and a second display (142) are provided in the second display area (14), and the first display board (141) and the second display (142) cooperate to display a floor of 0-99 floors.

6. The elevator absolute position learning tool of claim 5, wherein the second display (142) comprises at least ten second indicator lights that can be turned on, or off at regular intervals.

7. The elevator absolute position learning tool according to claim 5, characterized in that a third display (144) and a fourth display (145) are further arranged in the second display area (14), the third display (144) is used for displaying whether the elevator is located at the upper limit position, and the fourth display (145) is used for displaying whether the elevator is located at the lower limit position.

8. The elevator absolute position learning tool according to claim 7, wherein the third display (144) and the fourth display (145) are each a third indicator light, and the third indicator light can be turned on, off, or flash.

9. The elevator absolute position learning tool according to claim 1, wherein a third display area (15) is further provided on the box body (10), and the third display area (15) is used for displaying the currently read absolute position.

10. The elevator absolute position learning tool according to claim 1, wherein the box (10) is provided with a first identifier (113) and a second identifier (121), the first identifier (113) corresponds to the page turning button (11) and is used for identifying the page turning button (11), and the second identifier (121) corresponds to the calibration button (12) and is used for identifying the calibration button (12).

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