CN209740545U - Remote control system for water paradise skin raft elevator - Google Patents

Abstract

The utility model discloses a remote control system of a water paradise skin raft hoister, which comprises an acquisition unit, a transmission unit and a data center which are connected in sequence; the acquisition unit comprises a field controller PLC, a field video acquisition device, a field audio acquisition device and a field data acquisition device connected with the field controller PLC, and the field controller PLC, the field video acquisition device and the field audio acquisition device are respectively connected with the transmission unit. The remote controller system of the utility model has the characteristics of long controllable distance and strong operability; the high-definition camera is adopted to observe and know the running state of the equipment in real time, the position where the fault occurs can be quickly positioned when the fault occurs, the time for processing the fault is reduced, and the working efficiency is improved; the audio collector is adopted to collect the audio on site, so that the original sound can be reproduced on site conveniently when sudden failures occur, and the judgment of failure reasons is accelerated.

Description

Remote control system for water paradise skin raft elevator

Technical Field

The utility model relates to an environmental information gathers and control technical field, specific theory is a paradise skin raft lifting machine remote control system on water.

Background

The water park is a large tourist site, is one of main parks, and most recreational facilities are related to water, belong to recreational artificial tourist attractions, and comprise a swimming pool, artificial surfing, a rubber valve on water and the like. The amusement facility is a water paradise skin raft elevator for operation purposes, runs in a closed area and bears a carrier for tourists to play. With the development of science and the progress of society, the modern game machines and amusement facilities fully utilize advanced technologies such as machinery, electricity, light, sound, water, force and the like. The method integrates the intellectual property, the interest, the scientificity and the surprise into a whole, and is popular among young people. Plays an active role in enriching the entertainment life of people, building up the physique of people, mastering the business life of people and beautifying the urban environment.

The overwater paradise is an important class in children entertainment, wherein the overwater paradise combined slide is the overwater skin raft elevator which is the most famous, is popular with children, has a plurality of styles, and is particularly important for safety inspection and monitoring of equipment of the skin raft elevator.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a paradise skin raft lifting machine remote control system on water can realize that managers revise the field device operation procedure at remote to and carry out real time monitoring to the operation conditions of field device.

The utility model discloses a following technical scheme realizes: a remote control system for a water paradise skin raft elevator comprises an acquisition unit, a transmission unit and a data center which are sequentially connected; the acquisition unit comprises a field controller PLC, a field video acquisition device, a field audio acquisition device and a field data acquisition device connected with the field controller PLC, and the field controller PLC, the field video acquisition device and the field audio acquisition device are respectively connected with the transmission unit.

further, for better realization the utility model discloses, field data collection equipment draws pressure sensor including correlation formula photoelectric sensor, reflection type photoelectric sensor, the strain gauge that is connected with field controller PLC respectively.

Further, for better realization the utility model discloses, on-the-spot video acquisition equipment includes a plurality of high definition digtal camera, and is a plurality of high definition digtal camera is connected with transmission unit respectively.

Further, for better realization the utility model discloses, on-spot audio frequency collection equipment includes a plurality of audio frequency collector, and is a plurality of audio frequency collector is connected with transmission unit respectively.

Furthermore, in order to better realize the utility model, the transmission unit comprises an exchanger, a router and a video gateway which are respectively connected with the exchanger; the switch is respectively connected with a plurality of high definition cameras, a plurality of audio collectors and a field controller PLC.

Further, for better realization the utility model discloses, data center includes industrial computer, the remote server be connected with video gateway, the remote display be connected with the remote server, with the on-the-spot display of industrial computer connection, the remote server passes through internet and router wireless connection.

furthermore, in order to better realize the utility model, the type of the correlation type photoelectric sensor is E3FA-TP 11-5M.

Further, in order to better realize the utility model, the reflective photoelectric sensor is E32-D82-2M.

Further, in order to better realize the utility model, the model of the strain type pull pressure sensor is BSLS-2.

The working principle is as follows:

The acquisition unit comprises a field controller PLC, a field video acquisition device, a field audio acquisition device and a field data acquisition device connected with the field controller PLC, and is mainly used for recording and acquiring field data, video, audio and recorded data of the field controller PLC and preventing field data loss caused by damage in a remote transmission process. The transmission unit provides data for fast forwarding, accesses the internet through the gateway and the routing equipment, and is used for sending the field equipment operation image acquired by the acquisition unit to the remote server. The data center is used for storing the acquired video pictures of the field equipment, acquiring field fault alarm signals and field data in real time; the administrator can directly observe the real-time running state of the field device in the control room, so that the remote modification of the running program of the device and the monitoring of data are realized.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

(1) The remote controller system of the utility model has the characteristics of long controllable distance and strong operability, and greatly meets the convenience requirements of manufacturers, maintenance personnel and operating personnel;

(2) The utility model adopts the high-definition camera to observe and know the running state of the equipment in real time, can quickly locate the position with fault when the fault occurs, reduces the time for processing the fault and improves the working efficiency; the audio collector is adopted to collect the audio on site, so that the original sound reproduction can be conveniently carried out on the site when sudden failures occur, and the judgment on the failure reasons is accelerated;

(3) The utility model adopts the field controller PLC to record the collected data of the collecting unit, thereby preventing the damage in the remote transmission process and the loss of the field data;

(4) the administrator can directly observe the real-time running state of the field device in a remote or background control room, so that the remote modification of the device running program and the real-time monitoring of data are realized, the maintenance of the field device can be efficiently and energy-efficiently completed, the labor intensity of personnel is reduced, the maintenance cost is reduced, and the operability of the device and the safety of the field device are improved.

Drawings

FIG. 1 is a block diagram of the unit module of the present invention;

FIG. 2 is a schematic diagram of the sensor arrangement position of the present invention;

wherein 1, a reflective photoelectric sensor; 2. a correlation type photoelectric sensor; 4. a strain type pull pressure sensor.

Detailed Description

the present invention will be described in further detail with reference to examples, but the present invention is not limited thereto.

Example 1:

The utility model is realized by the following technical proposal, as shown in figure 1-2, a remote control system of a water paradise skin raft hoister, which comprises an acquisition unit, a transmission unit and a data center which are connected in sequence; the acquisition unit comprises a field controller PLC, a field video acquisition device, a field audio acquisition device and a field data acquisition device connected with the field controller PLC, and the field controller PLC, the field video acquisition device and the field audio acquisition device are respectively connected with the transmission unit.

It is required to explain, through the aforesaid improvement, the utility model provides a paradise skin raft lifting machine remote control system on water is based on the remote control system of ethernet, handles and controls the information of paradise scene skin raft lifting machine equipment on water and environment. The remote control system has the characteristics of long controllable distance and strong operability, and greatly meets the convenience requirements of manufacturers, maintenance personnel and operators.

The system mainly comprises three modules, namely an acquisition unit, a transmission unit and a data center, wherein the acquisition unit comprises a field controller PLC, a field video acquisition device, a field audio acquisition device and a field data acquisition device connected with the field controller PLC, and the system is mainly used for recording and acquiring field data, video, audio and recording data of the field controller PLC and preventing the field data from being lost due to damage in the remote transmission process. The transmission unit provides data for fast forwarding, accesses the internet through the gateway and the routing equipment, and is used for sending the field equipment operation image acquired by the acquisition unit to the remote server. The data center is used for storing the acquired video pictures of the field equipment, acquiring field fault alarm signals and field data in real time; the administrator can directly observe the real-time running state of the field device in the control room, so that the remote modification of the running program of the device and the monitoring of data are realized. The system can efficiently and energy-efficiently finish the maintenance of the field equipment, reduce the labor intensity of personnel, reduce the maintenance cost and improve the operability and the safety of the equipment.

Other parts of this embodiment are the same as those of the above embodiment, and thus are not described again.

Example 2:

The present embodiment is further optimized based on the above embodiments, and as shown in fig. 1-2, the field data collecting device includes a correlation type photoelectric sensor 2, a reflection type photoelectric sensor 1, and a strain type pull pressure sensor 4, which are respectively connected to a field controller PLC. The type of the correlation type photoelectric sensor 2 is E3FA-TP 11-5M; the reflective photoelectric sensor 1 is E32-D82-2M; the model of the strain type pull pressure sensor 4 is BSLS-2.

it should be noted that, with the above improvement, the field data acquisition device detects data from the corresponding sensor and transmits the data to the data center through the field controller PLC. The sensor comprises a correlation photoelectric sensor 2, a reflection type photoelectric sensor 1 and a strain type pull pressure sensor 4, wherein the correlation photoelectric sensor 2 and the reflection type photoelectric sensor 1 convert measured changes into changes of optical signals, and then the optical signals are further converted into electric signals by virtue of photoelectric elements.

As shown in fig. 2, the sensor is arranged at a position on a skin raft lifter, wherein the correlation type photoelectric sensor 2 is used for detecting the specific position of the skin raft on the equipment; the reflection type photoelectric sensor 1 is used for detecting whether the push handle on the main chain reaches a given position; the strain type pull pressure sensor 4 takes an elastic body as a medium, changes the resistance value of the strain type pull pressure sensor by acting a force on the resistance strain pieces attached to two sides of the strain type pull pressure sensor, and converts the resistance value into an electric signal through a corresponding circuit, thereby realizing the following control. In the system, the strain type tension and pressure sensors 4 are used for distinguishing the skin rafts with different sizes, specifically, analog current signals obtained by the sensors are used, and then the current signals are processed to achieve the purpose of distinguishing.

Other parts of this embodiment are the same as those of the above embodiment, and thus are not described again.

example 3:

The present embodiment is further optimized on the basis of the above embodiments, and as shown in fig. 1, the on-site video acquisition device includes a plurality of high-definition cameras, and the plurality of high-definition cameras are respectively connected to the transmission unit; the on-site audio acquisition equipment comprises a plurality of audio collectors, and the audio collectors are respectively connected with the transmission unit.

It should be noted that, through the improvement, the on-site video acquisition equipment mainly comprises a high-definition camera, the running state of the equipment is known through the real-time observation of the camera body, the position where a fault occurs can be quickly positioned when the fault occurs, the fault processing time is shortened, and the working efficiency is improved.

the on-site audio acquisition equipment mainly comprises an audio acquisition device, collects on-site audio, and can conveniently reproduce original sound on site to accelerate the judgment of failure reasons when sudden failures occur.

Other parts of this embodiment are the same as those of the above embodiment, and thus are not described again.

Example 4:

The present embodiment is further optimized on the basis of the above embodiments, and as shown in fig. 1-2, the transmission unit includes an exchange, a router and a video gateway, which are respectively connected to the exchange; the switch is respectively connected with a plurality of high definition cameras, a plurality of audio collectors and a field controller PLC.

The data center comprises an industrial personal computer connected with the video gateway, a remote server, a remote display connected with the remote server and a field display connected with the industrial personal computer, and the remote server is in wireless connection with the router through the internet.

It should be noted that, through the above improvement, the system mainly includes three major parts, namely, a collection unit, a transmission unit and a data center, wherein the collection unit includes a field controller PLC of an overwater park, a field video collection device, a field audio collection device and a field data collection device, a plurality of high definition cameras in the field video collection device and a plurality of audio collectors in the field audio collection device are connected with a switch, and a correlation photoelectric sensor 2, a reflection photoelectric sensor 1 and a strain type pull pressure sensor 4 in the switch and the field data collection device are respectively connected with the field controller PLC, so that the field controller PLC is used for recording collected data, and preventing damage in a remote transmission process and field data loss.

the field video acquisition equipment mainly comprises a high-definition camera, the running state of the equipment is known through the real-time observation of the camera body on the field equipment, the position where a fault occurs can be quickly positioned when the fault occurs, the fault processing time is shortened, and the working efficiency is improved. The field audio acquisition equipment mainly comprises an audio acquisition device, collects the field audio, is convenient to reproduce the original sound on the field when sudden faults occur, and accelerates the judgment of the fault reasons.

The correlation type photoelectric sensor 2 is used for detecting the specific position of the equipment epithelial raft; the reflection type photoelectric sensor 1 is used for detecting whether the push handle on the main chain reaches a given position; the strain type pull pressure sensor 4 takes an elastic body as a medium, changes the resistance value of the strain type pull pressure sensor by acting a force on the resistance strain pieces attached to two sides of the strain type pull pressure sensor, and converts the resistance value into an electric signal through a corresponding circuit, thereby realizing the following control. In the system, the strain type tension and pressure sensors 4 are used for distinguishing the skin rafts with different sizes, specifically, analog current signals obtained by the sensors are used, and then the current signals are processed to achieve the purpose of distinguishing. And finally, the correlation type photoelectric sensor 2, the reflection type photoelectric sensor 1 and the strain type pull pressure sensor 4 send signals to a field controller PLC in the form of electric signals, the field controller PLC processes data and records original data with an industrial personal computer, and finally, the remote transmission is carried out and the data are stored in a remote server.

The transmission unit comprises switch, router, video gateway, and router and video gateway are connected with the switch respectively, and the switch provides high definition digtal camera and audio collector's video, audio monitoring access to and data forward fast to the ethernet structure through router and video gateway combination provides wireless network connection, and the data that will gather the unit collection are introduced into remote server storage, and show in real time on remote display.

The data center mainly comprises an industrial personal computer, a remote server, a remote display and a field display, wherein the industrial personal computer and the remote server are used for storing video pictures and field fault alarm information acquired by the acquisition unit and acquiring field data in real time. The manager can directly observe the real-time running state of the field device in a field or background controller, so that the remote modification of the device running program and the monitoring of data are realized. The maintenance of the equipment can be efficiently and energy-saving completed, the labor intensity of personnel is reduced, the maintenance cost is reduced, and the operability of the equipment and the safety of the equipment are improved.

Other parts of this embodiment are the same as those of the above embodiment, and thus are not described again.

the above is only the preferred embodiment of the present invention, not to the limitation of the present invention in any form, all the technical matters of the present invention all fall into the protection scope of the present invention to any simple modification and equivalent change of the above embodiments.

Claims (8)

1. The utility model provides an amusement park skin raft lifting machine remote control system on water which characterized in that: the system comprises an acquisition unit, a transmission unit and a data center which are connected in sequence; the acquisition unit comprises a field controller PLC, a field video acquisition device, a field audio acquisition device and a field data acquisition device connected with the field controller PLC, and the field controller PLC, the field video acquisition device and the field audio acquisition device are respectively connected with the transmission unit; the field data acquisition equipment comprises a correlation type photoelectric sensor (2), a reflection type photoelectric sensor (1) and a strain type pull pressure sensor (4) which are respectively connected with a field controller PLC.

2. The remote control system for the water paradise raft elevator as recited in claim 1, wherein: the on-site video acquisition equipment comprises a plurality of high-definition cameras which are connected with the transmission unit respectively.

3. The remote control system for the water paradise raft elevator as recited in claim 1, wherein: the on-site audio acquisition equipment comprises a plurality of audio collectors, and the audio collectors are respectively connected with the transmission unit.

4. The remote control system for the water paradise raft elevator as recited in claim 1, wherein: the transmission unit comprises an exchanger, a router and a video gateway, wherein the router and the video gateway are respectively connected with the exchanger; the switch is respectively connected with a plurality of high definition cameras, a plurality of audio collectors and a field controller PLC.

5. The remote control system for the lifting machine of the skin raft for the water park as claimed in any one of claims 1 to 4, wherein: the data center comprises an industrial personal computer connected with the video gateway, a remote server, a remote display connected with the remote server and a field display connected with the industrial personal computer, and the remote server is in wireless connection with the router through the internet.

6. the remote control system for the water paradise raft elevator as recited in claim 1, wherein: the type of the correlation type photoelectric sensor (2) is E3FA-TP 11-5M.

7. The remote control system for the water paradise raft elevator as recited in claim 1, wherein: the reflective photoelectric sensor (1) is E32-D82-2M in model number.

8. The remote control system for the water paradise raft elevator as recited in claim 1, wherein: the strain type pull pressure sensor (4) is BSLS-2 in model.