CN216798302U - A shower system of decontaminating for plant - Google Patents

Abstract

A shower decontamination system for a farm comprising: the shower system comprises an identity recognition device, an inlet locking device, a shower system, a pedal, an outlet locking device and a control system; the pedal includes: the shower system comprises a pedal main body, a gravity detection device and a water flow detection device, wherein the water flow detection device is arranged on the pedal main body and is used for detecting a water flow signal so as to detect whether the shower system is started or not; above-mentioned a shower system of decontaminating for plant sets up gravity detection device through setting up on the footboard and detects and judge whether correct posture, detects shower system through setting up rivers detection device and whether opens, whether both combine the analysis correct bathing, start the timing under the correct state, detect whether the timing reaches the requirement to carry out effectual control to the bathing, effectively solve the difficult problem of piggery admission personnel bathing supervision, reduce the risk.

Description

A shower system of decontaminating for plant

Technical Field

The utility model relates to a bathing cleaning system in the livestock breeding industry, in particular to a shower decontamination system for a farm.

Background

Since the first epidemic situation of the African swine fever virus is found in 8 months in 2018, in the current pig-raising industry, in order to reduce the risk of infecting the African swine fever pig farm, internal workers often adopt closed management during working, and are not allowed to flow across pigsties in the working process of the day. However, for workers on vacation return and external visitors, due to the fact that the track outside the vacation return is difficult to capture, whether the workers have places with high epidemic infection risks such as slaughterhouses, livestock product trading markets and other pig farms before entering the vacation return or not is uncertain, and when the workers stay in the places, body parts and personal objects often become pathogenic carriers such as ears, hairs, nostrils, fingers, clothes, shoes, mobile phones and the like. Meanwhile, the processes of personnel admission, including registration, isolation, washing and disinfection, changing clothes and the like, are all controlled by managers at all transfer points and washing and disinfection points, and the randomness in the supervision process and the violation of personnel admission can cause pathogen admission. In order to reduce the probability of carrying African swine fever by personnel entering the pig farm, at present, the pig farm usually adopts a shower mode at each washing, disinfecting and transfer point to achieve the aim, according to data statistics, one effective bathing (the time is not less than 5min, the whole body is wetted by water) can reduce the virus carrying probability by about 80 percent, thereby reducing the risk of suffering from swine fever in the pig farm. For personnel in a production area of a pig farm, the frequency of washing and disinfecting is high every day, generally 2-6 times, and after the washing and disinfecting times are many, the people can be in a state of feeling; when the outside people enter the bathroom, the outside people can also take a bath at each isolation point, and the outside people do not know how long the outside people have been washed in the bath process and possibly leave the bathroom in advance, and the following phenomena are brought as a result: the washing and disinfecting effect can not meet the requirement of reducing virus. In addition, in the decontamination process, the privacy of personnel is high, and a common video supervision mode is not applicable. Therefore, the decontamination process of personnel is difficult to effectively supervise, and the decontamination effectiveness of the personnel entering the field is improved.

At present, aiming at the problem of difficult supervision of decontamination of personnel entering a field, the technical scheme on the market is that on the basis of normally being suitable for shower showers, a laser radar is utilized and a positioning induction sensor is assisted, the standing position and the bathing state of the decontamination personnel are monitored in real time, and meanwhile, the water outlet time and the water outlet quantity of a shower head are controlled, so that the aim of decontamination of the monitoring personnel is fulfilled.

In addition, in a shower system improved by the prior art, a sensor is adopted to detect the decontamination process, the detection angle of the sensor is limited, the whole bathroom environment cannot be covered, the position of a person is difficult to accurately obtain, and the person is uncertain whether the person stands below the shower head although water flows out of the shower head in the decontamination process. The scheme is high in cost, the implementation mode of the scheme relates to a plurality of sensors and laser radar devices, a special shower head needs to be configured, and the corresponding price is hard to bear for a small-scale pig farm. The bathroom environment needs to be adjusted in the installation process, the existing equipment can be greatly changed, and the installation process is large in quantity. Later maintenance is inconvenient, and the scheme relates to a plurality of modules, and the cooperation between each module has constituted bathing system, but in the use, considers the higher condition of bathroom humidity, and the fault rate of module can be higher, and later maintenance is more difficult. Although the prior art can improve the problem of difficult supervision of personnel entering a field to a certain extent, the corresponding cost is higher and the problem of difficult supervision is difficult to be fundamentally improved in the implementation process.

Disclosure of Invention

Based on this, there is a need for a shower decontamination system for farms that improves bath supervision issues.

A shower decontamination system for a farm, comprising: the shower room locking device comprises an identity recognition device arranged at a shower inlet for carrying out identity recognition or identity verification, an inlet locking device controlled to unlock or lock the shower room inlet, a shower system arranged in the shower room, a pedal correspondingly arranged with the shower system, an outlet locking device controlled to unlock or lock the shower room outlet, and a control system for receiving an operation signal or detection data and controlling the inlet locking device or the shower system or the outlet locking device to act according to the received signal or data; the pedal includes: the shower system comprises a pedal body, a gravity detection device which is arranged on the pedal body and detects the weight born by the pedal body, and a water flow detection device which is arranged on the pedal body and detects a water flow signal to detect whether the shower system is started or not.

In a preferred embodiment, further comprising: a control switch disposed in the shower enclosure and communicatively coupled to the control system to activate the exit signal.

In a preferred embodiment, the shower system comprises: a chambered shower system disposed in a shower enclosure, the chambered shower system comprising: the water temperature detection device is arranged in the water delivery pipeline and is relatively close to the shower water outlet device or is arranged between the water delivery switch and the shower water outlet device.

In a preferred embodiment, the shower inlet comprises: -an area entrance, -and a shower room entrance, the identification device comprising: the shower room comprises an identity recognition system and an identity verification system, wherein the identity recognition system is arranged at the entrance of the area for identity recognition, the identity verification system is arranged at the entrance of the shower room for identity verification, and identity information recognized by the identity recognition system comprises: any one of face information, ID card information and identity document information, the identity information verified by the identity verification system comprises: any one of ID card information, identity document information and communication identity information, wherein the identity document information comprises: any one or more of identity card number, passport number, permit number of hong Kong and Macau, Tailoc permit number, Taiwan permit number, the communication identity information includes: any one of a mobile phone number and a part of mobile phone numbers.

In a preferred embodiment, the control system comprises: the bathroom comprises a control box and a master control system, wherein the control box is arranged in the bathroom and used for receiving detection data or operation instructions of a gravity detection device or a water flow detection device in the bathroom, the master control system is in communication connection with the control boxes and used for receiving detection signals or instruction signals of the control boxes to carry out unified allocation or control, and the control boxes are provided with display devices for displaying timing time and indicator lamps for indicating a bathing state.

In a preferred embodiment, the pedal further comprises: set up the supporting legs of footboard main part below, the footboard main part includes: the gravity detection device is characterized by comprising an upper pedal and a mounting sleeve, wherein the upper pedal is provided with water leakage holes, the mounting sleeve is arranged on the lower surface of the upper pedal, the gravity detection device is arranged below the pedal main body, the water flow detection device is arranged below the upper pedal, and the water leakage holes of the upper pedal and the water flow detection device are correspondingly arranged.

In a preferred embodiment, the gravity detection devices are arranged below the edge position or corner position of the pedal main body relatively, the water flow detection devices are arranged below the middle area of the pedal main body relatively, and the water leakage holes form different partitions on the upper pedal according to different positions of the water flow detection devices.

In a preferred embodiment, a plurality of water chutes are further disposed below the upper pedal body, the plurality of water chutes form a water guiding area, the water flow detecting device is disposed in the water guiding area, the gravity detecting device is disposed outside the water guiding area, one water flow detecting device is disposed in each direction of each side of the upper pedal, the supporting legs are disposed below the mounting sleeve, the gravity detecting device is disposed in the mounting sleeve and disposed on the upper portions of the supporting legs, and the water flow detecting device includes: the water flow detection device comprises a water flow detection box and a conductive electrode which is arranged above the water flow detection box and detects a water flow signal.

In a preferred embodiment, the mounting sleeve, the supporting leg and the gravity detecting device are correspondingly arranged and oppositely arranged at an end corner of the upper pedal, and the mounting sleeve comprises: the relative outer sleeve that sets up outside, and set up and be in mount pad or erection column in the outer sleeve, gravity detection device sets up in the outer sleeve and pass through the mounting pad or erection column, last footboard and installation are fixed on the footboard, be provided with the mating holes on the gravity detection device, the supporting legs includes: columniform supports the installation department, sets up support on the installation department and be less than the columniform supporting part that the installation department set up and set up support on the supporting part and be less than the support location portion that the supporting part set up, support location portion with the mating holes of gravity detection device coordinates the location.

In a preferred embodiment, the water chutes are assembled to form a rectangular or square outer frame according to the shape of the upper pedal, and the opposite corners of the outer frame are connected in a splicing manner to form partitions or blocks, one water flow detection device is arranged in each partition of the water chutes, the gravity detection devices are waterproof gravity detection devices, and the lower parts or the lower surfaces of the supporting legs are adsorbed on the ground through suckers; the conductive electrode is a copper sheet electrode, the water flow detection device is fixed on the upper pedal through a fixing piece, a cable on the pedal is sealed or wrapped through waterproof glue, and the cable comprises: the water leakage holes are formed in the water guide grooves, and the partition formed by the water leakage holes corresponds to the partition formed by the water guide grooves.

The shower decontamination system for the farm controls the personnel to enter or leave the shower room by arranging the inlet locking device and the outlet locking device, and controls the personnel to enter or leave the shower room according with the conditions; the state of a person to be decontaminated is detected by arranging the pedal, the weight of the person standing on the pedal is detected by arranging the gravity detection device on the pedal and judged, whether the person stands at a correct position and is in a correct posture is judged, the state of the shower system is detected by arranging the water flow detection device on the pedal, the shower system is started, meanwhile, the gravity detection device and the water flow detection device are used for detecting whether the person is correctly bathed or not, whether the time is controlled or not according to the bathing state, the time is started only when the gravity detection device and the water flow detection device are simultaneously in the correct state, and whether the bathing reaches the required time specified for decontamination or not is detected by timing, so that whether the bathing requirement is met or not is detected, thereby effectively monitoring the bathing, effectively solving the problem of difficult bathing supervision of the person entering the pig farm, and reducing the risk of the pig farm infecting African swine fever, reduces the economic loss caused by the epidemic situation of the African swine fever. Meanwhile, the whole system is simple, the modification is very simple and easy, the investment cost of the pig farm for the decontamination problem of the personnel entering the farm is greatly reduced, and the economic benefit of the pig farm is improved.

The problems that at present, workers in a pig farm are not standard in flow and guest tracks are difficult to capture, and biological safety risks are caused in pig farm cultivation are solved, and the problems that supervision is difficult and decontamination effectiveness is poor in the biological safety prevention and control process in the pig farm industry are solved. The biological safety prevention and control level of the pig farm is essentially improved, the capability of resisting the epidemic situation of the African swine fever is improved, and the production and management losses are reduced. The problems of difficult supervision and poor personnel decontamination effectiveness in the existing pig farm industry are solved. The technical scheme of the utility model is simple, the client application effect is good, the problem of difficult personnel decontamination supervision faced by the client at present is greatly improved, and the probability of the client infecting the swine fever epidemic situation is reduced.

Drawings

FIG. 1 is a schematic view of a portion of a shower decontamination system for a farm in accordance with one embodiment of the present invention;

FIG. 2 is a schematic view of a portion of a pedal according to an embodiment of the present invention;

FIG. 3 is a front view of a portion of a pedal according to an embodiment of the present invention;

FIG. 4 is a rear view of a portion of the pedal of one embodiment of the present invention;

FIG. 5 is an exploded view of a portion of the pedal of one embodiment of the present invention;

FIG. 6 is an exploded view of another perspective of the partial structure of the treadbase in accordance with one embodiment of the present invention;

FIG. 7 is a partial schematic view of a portion of a pedal of one embodiment of the present invention with portions of the pedal removed;

FIG. 8 is a cross-sectional view taken along line C-C of FIG. 7;

fig. 9 is an enlarged view of a portion D of fig. 8;

FIG. 10 is a cross-sectional view taken along line A-A of FIG. 7;

fig. 11 is an enlarged view of a portion B of fig. 10.

Detailed Description

As shown in fig. 1 to 11, the present invention provides a shower decontamination system 100 for a farm, comprising: an identification device disposed at the shower inlet for identification or authentication, an inlet lock 24 controlled to open or close the shower inlet 22, a shower system 40 disposed in the shower enclosure 102, a pedal 60 disposed in association with the shower system 40, an outlet lock 28 controlled to open or close the shower outlet 25, and a control system 80 receiving an operation signal or detection data and controlling the operation of the inlet lock 24 or the shower system 40 or the outlet lock 28 according to the received signal or data.

Further, the pedal 60 of the present embodiment includes: the water flow monitor includes a pedal body 62, a gravity detecting device 64 provided to the pedal body 62 and detecting a weight borne by the pedal body, and a water flow detecting device 66 provided to the pedal body 64 and detecting a water flow signal.

The pedal 60 of the present embodiment further includes: a support foot 68 provided below the pedal main body 62. The pedal body 62 of the present embodiment includes: an upper step 622 provided with a water leakage hole 623, and a mounting sleeve 624 provided on the lower surface of the upper step 622. The mounting sleeve 624 of the present embodiment includes: an outer sleeve 626 disposed opposite the outboard or outer race, and a mounting seat or post 628 disposed in the outer sleeve 626. The mounting posts 628 of the present embodiment are disposed corresponding to the mounting holes of the gravity detecting device 64.

In order to prevent the person taking a shower from standing on the step 60 with one foot, the gravity detecting device 64 of the present embodiment is provided in plurality below the step body 62. A plurality of gravity sensing devices 64 are positioned relatively below the edge or corner locations of the pallet body 62. Preferably, a plurality of gravity detecting devices 64 of the present embodiment are disposed opposite to each other below the pedal main body 62, which is uniformly distributed at an edge position or a corner position. The main body of the pedal main body 62 of the present embodiment is an upper pedal 622 plate-type polygonal structure. Further, a plurality of gravity detecting devices 64 of the present embodiment are provided below the end corner positions of the pedal main body 62. For convenience of processing, layout and installation, the upper pedal 622 of the present embodiment is configured as a plate-type square or rectangular structure. Preferably, the upper pedal 622 of the present embodiment is configured as a plate-type square structure. A plurality of gravity detecting devices 64 of the present embodiment are provided below the four end corners of the pedal body 62. When the person to be bathed stands partially or stands with one foot, the inductors of the gravity detection devices 64 at the four end angles are different in deformation and transmit respective detection signals to the control system 80, and when the deviation is too serious or exceeds a set range, the control system 80 can control and prompt and can control untimely. The gravity detecting device 64 of the present embodiment is disposed outside the water guide area. Further, the gravity detecting device 64 of the present embodiment is preferably a waterproof gravity detecting device.

The support foot 68 of this embodiment is disposed below the mounting sleeve 624. For waterproofing and moisture proofing, the gravity detecting device 64 of the present embodiment is disposed in the mounting sleeve 624 and above the supporting foot 68.

The mounting sleeve 624, the supporting leg 68 and the gravity detecting device 64 are disposed relatively below the end corner of the upper pedal 622.

Further, the gravity detecting device 64 of the present embodiment is disposed in the outer sleeve 626 and passes through the mounting post 628, the upper pedal 622 and is fixed on the upper pedal 622 by fixing members (e.g., screws, bolts, etc.). The gravity detecting device 64 of the present embodiment is provided with a fitting hole 642.

The support foot 68 of the present embodiment includes: a cylindrical support mounting portion 682, a cylindrical support portion 684 provided on the support mounting portion 682 and smaller than the support mounting portion 682, and a support positioning portion 686 provided on the support portion 684 and smaller than the support portion 684. The support positioning portion 686 of the present embodiment is positioned in cooperation with the fitting hole 642 of the gravity detection device 64.

Further, the lower portion or surface of the holder mounting 682 of the present embodiment is sucked to the floor by a suction cup to be mounted on the floor of the shower room.

In order to detect the water flow signal more comprehensively and better, the water flow detecting device 66 of the present embodiment is provided in plurality below the upper pedal 622. The water leakage holes on the upper pedal 622 are arranged corresponding to the water flow detection device 66. A plurality of water flow detection devices 66 are provided below the upper step 622 relative to a neutral or non-centered position in the middle region. The water leakage holes 623 of the upper pedal 622 of this embodiment form different partitions on the upper pedal 622 according to different positions of the water flow detection devices 66.

Further, it is preferable that the water flow detecting devices 66 of the present embodiment are respectively provided one on each side of the upper pedal 622 in the direction of the side.

Further, a plurality of water guide grooves 69 are provided below the main body of the upper step 622 in this embodiment. A plurality of water guide grooves 69 are assembled to form a water guide area. The water flow detecting means 66 of the present embodiment is provided in the water guide area. The water chute 69 may be fixed to the lower surface of the upper step 622 by a fixing member.

The gutter 69 of the present embodiment is assembled to form a rectangular or square outer frame according to the rectangular or square shape of the upper step 622, and diagonal corners of the outer frame are connected to form partitions or blocks.

Preferably, the water leakage hole 623 of the present embodiment is partitioned in the partition of the water guide groove 69. The water flow detecting devices 66 of the present embodiment are provided in each of the partitions of the water guide groove 69. The water leakage hole 623 is partitioned to correspond to each water flow detecting means 66.

The water flow detection device 66 of the present embodiment includes: a water flow detecting case 662 and a conductive electrode 664 which is disposed above the water flow detecting case 662 and detects a water flow signal. Preferably, the conductive electrode 664 of the present embodiment is a copper sheet electrode. The water flow detecting device 66 of the present embodiment is fixed to the upper step 622 by a fixing member. The cables or power lines arranged on the pedal main body 62 are sealed or wrapped by waterproof glue for water and moisture prevention.

Further, the control system 80 of the present embodiment receives the weight detection data of the gravity detection device 64, compares the weight detection data with the preset data or the preset data range to determine whether a person is on the pedal 60, receives the water flow detection data of the water flow detection device 66, determines whether to take a bath according to the detection data, controls to calculate the bath time if a person is detected on the pedal 60 and a person is detected to take a bath, determines that the bath requirement is met if the calculated bath time is greater than the preset qualified bath time, and controls to unlock the outlet locking device 28 if a leaving signal is received and the bath requirement is detected to be met.

Further, the shower decontamination system 100 for a farm of the present embodiment further includes: a control switch 90 disposed in the shower enclosure 102 and communicatively coupled to the control system 80 and activates the exit signal. The control switch 90 of the present embodiment receives the operation instruction and transmits a signal to the control system 80, and if the control system 80 determines that the exit signal is determined according to the operation information and determines that the current bath of the current bath room meets the bath requirement, the exit locking device 28 is controlled to unlock, and the unlocking duration is controlled for a set time, such as a set unlocking state, to be maintained for 2 min.

The control system 80 of the present embodiment determines that a person is present on the pedal 60 based on the gravity detection data of the gravity detection device 64, and controls to give an instruction. The work indication can be carried out by adopting a setting indicator lamp.

The control system 80 of the present embodiment controls the instruction when determining that the bathing or showering system is operating based on the water flow detection data of the water flow detection device 66. And an indicator lamp can be arranged for indicating work.

The indication of the operation of the gravity sensing device 64 and the indication of the operation of the water flow sensing device 66 of this embodiment are provided by different indicator lights to facilitate the operator to correct incorrect positions in time, whether standing is incorrect (e.g., standing on one foot or not on a foot pedal) or whether the shower system 40 is not operating.

Further, the control system 80 of the present embodiment suspends the calculation of the bathing time when it is determined that the person is off the pedal based on the gravity detection data of the gravity detection device 64 or when it is determined that the bathing is stopped based on the detection signal of the water flow detection device 66. That is, the time measurement is suspended when the single detection data of the gravity detecting device 64 or the water flow detecting device 66 does not satisfy the requirement, and the time at this time is not counted in the bathing time.

Further, in the present embodiment, if the control system 80 determines that the person leaves the pedal and stops bathing, the control stops calculating the bathing time. If the bathing operation is started again, the presence of a person on the step 60 is detected, and the bathing is detected, the control recalculates the bathing time.

Further, the control system 80 of the present embodiment includes: a control box 82 which is arranged in the bath chamber 102 and receives the detection data of the gravity detection device 64 or the water flow detection device 66 in the bath chamber 102, and a general control system which is in communication connection with each control box 82 and receives the detection signals or the instruction signals of the control boxes 82 for unified allocation or control.

Further, the control box 82 of the present embodiment is provided with a display device 822 and an indicator lamp 824. The indicator light includes: the first indicator light and the second indicator light.

The control box 82 of the present embodiment receives the weight detection data of the gravity detection device 64 in the bath chamber 10, compares the weight detection data with the preset data or the preset data range to determine whether a person is on the pedal 60, and controls the first indicator light to indicate if a person is detected to stand on the pedal 60. The control box 82 of the present embodiment receives the water flow detection data of the water flow detection device 66 in the bathroom 10 where the user is located, determines whether or not to take a bath based on the detection data, and controls the second indicator lamp to indicate when it is determined that a bath is taking place. If it is determined that a person is on the pedal 60 and bathing is detected, the timing is controlled and the display device 822 is controlled to display the time. The counting is suspended when it is determined that the person is off the pedal based on the gravity detection data of the gravity detector 64 or when the bathing is stopped based on the detection signal of the water flow detector 66. When the correct bathing operation is continued after the provisional measurement or within the set time, it is determined whether or not a person is on the step 60 based on the weight detection data of the gravity detector 64, and the measurement is continued when it is determined that the bathing operation is being performed based on the water flow detection data of the water flow detector 66.

If the control system 80 determines that the person leaves the pedal 60 and stops bathing, it controls to stop timing, and if the control box 82 receives the leaving signal and detects that the current bathing meets the bathing requirement, it controls the outlet locking device 28 to unlock. If the leaving signal is received, but the current bathing does not meet the bathing requirement, the user cannot leave, if the user is judged to be on the pedal according to the detection and the user is judged to have a bath according to the detection, the timing is controlled to be carried out again, and the display device 822 is used for displaying.

In order to avoid the situation that a person stands on the pedal with one foot, in the control system, the treading weight range of the person can be set according to the relation between the deformation of the inductor and the weight in the gravity detection device 64, for example, the weight range for standing the person is 40kg-100 kg. The setting can also be carried out according to the distinction between internal staff and external staff, and the internal staff is given a certain adjusting range or proportion according to the weight of the staff for setting. A specific range such as 40kg to 100kg may be set for the alien person.

Further, the shower system 40 of the present embodiment includes: a chambered shower system 42 disposed in the shower enclosure 102. Each of the sub-chamber shower systems 42 may be connected to a common water supply system, and the cold water and the hot water are supplied through different pipes and are supplied in a concentrated manner. A hot water supply may also be used for each or several of the chambered shower systems 42. The specific setting is as required and is not limited.

The chambered shower system 42 of the present embodiment includes: water delivery pipe 422, water temperature detection device 424 disposed in water delivery pipe 422 for detecting water temperature, water delivery switch 426 disposed at water inlet of water delivery pipe 422, and shower water outlet device 428 disposed at water outlet of water delivery pipe 422.

The step 60 of the present embodiment is provided in correspondence with the shower outlet 428. A water temperature sensing device 424 is disposed in water delivery conduit 422 and is disposed relatively close to shower outlet 428 or is disposed at a location between water delivery switch 426 and shower outlet 428. The control system 80 receives the water temperature data detected by the water temperature detecting device 424 and compares and analyzes the data with a preset temperature or a set temperature, controls the adjusting water delivery switch 426 to adjust the respective water inflow of the cold water and the hot water at the water inlet, and adjusts the mixing ratio of the cold water and the hot water to adjust the water temperature to a set water temperature value, so as to adjust the water outlet temperature.

Further, the shower inlet of the present embodiment includes: a zone inlet, and a shower room inlet. The identity recognition device includes: a face recognition system arranged at the entrance of the area and an authentication system arranged at the entrance of the shower room. If the face recognition system receives the face information for recognition and transmits the face information to the control system 80, the control system 80 allocates the shower room 102 according to the recognition information, if the identity verification system at the inlet of the shower room 102 receives the identity information, the identity verification is performed according to the allocation information and the identity information, and if the verification is correct, the control system 80 controls the inlet locking device 24 to unlock the inlet. The identity authentication can be carried out by adopting the mobile phone number of the related personnel or information with identity information such as certificate numbers or names.

The shower enclosure inlet and outlet may be arranged as a single opening for access so that the inlet and outlet closures 24, 28 are arranged as a single closure. In order to facilitate the arrangement of orderly entrance and exit of the decontaminating personnel and the arrangement of the shower room for the personnel, the shower room of the embodiment is provided with an entrance and an exit respectively, the entrance is provided with an entrance door, the entrance door is provided with an entrance locking device 24 for controlling entrance, the exit is provided with an exit door, the exit door is provided with an exit locking device 28, and the exit is controlled by controlling the exit locking device 28 to exit.

The shower decontamination system 100 for the farm is particularly suitable for the farm such as a pig farm, is suitable for the shower decontamination system 100 for the farm for safely preventing and controlling the organisms in the pig farm, and solves the problem of effectively supervising the decontamination effectiveness of the personnel entering the pig farm under the non-video condition.

The shower decontamination system 100 for a farm of the present invention comprises: shower system 40, control system 80, pedal 60, inlet lock 24, outlet lock 28. The control system 80 includes: a control box 82 and an overall control system provided in the bath chamber 102. A water delivery switch 426 of the shower system 40 is operatively connected to the water delivery conduit 422 for controlling the flow of water during a shower, and the respective water intake or mixing ratio of the hot and cold water. The shower outlet 428 is a shower head and is connected to the other end of the water pipe 422, i.e. the water outlet end. The foot plate 60 is fixed to the bottom of the shower enclosure and does not affect the position of the bathroom drain.

For ease of operation and for easy viewing of the display indicator and indicator light indicator, the control box 82 may be mounted on a wall about 30cm above the water delivery switch 426. The control switch 90 activates the exit signal and, for ease of operation, may be mounted on the wall at the exit of the shower enclosure about 1.5m from the floor of the shower outlet. The inlet and outlet locks 24, 28 are mounted on the inlet and outlet doors, respectively. The detection assembly comprises: a gravity detecting means 64 for detecting the weight of an entering person, and a water flow detecting means 66 for detecting the water flow of the step.

The shower system 40 is provided with a water temperature detecting device 424 for detecting the temperature of the water flowing through the water pipe 422 and determining whether the temperature of the water flowing out of the shower water outlet device 428, i.e. the shower head, reaches a preset temperature value requirement. The specific water temperature detection device 424 detects the temperature of water entering the water delivery pipeline 422, and controls the real-time adjustment of the water delivery switch 426 according to a set water temperature value.

The inlet of the shower room is provided with an inlet locking device 24 for controlling the inlet, and the outlet of the shower room is provided with an outlet locking device 28 for controlling the outlet, so that the unidirectional inlet and outlet requirements of the shower room in the bathing process are met.

The gravity sensing device 64 is mounted with a mounting housing or mounting bracket and is mounted below the corner of the upper pedal 622 by fasteners such as screws or bolts. The water flow detecting means 66 is provided with a mounting case or mounting box or mounting bracket fixed to the lower surface of the upper step 622. A cold water pipe for delivering cold water and a hot water pipe for delivering hot water are connected to the water delivery switch 426 of the shower system 40.

The control box 82 in the shower enclosure controls the water temperature sensing device 424, the gravity sensing device 64, the water flow sensing device 66, the inlet lock 24, the outlet set outlet lock 28, etc. in the shower enclosure. The control box 82 is provided with a signal transmitter and receiver for signal transmission, an indicator light for the shower status of the user, and a display device such as a display screen.

The master control system comprises a back-end platform used for instruction control and information interaction. The back end platform is used for sending and receiving information to and from the control box 82, and for general deployment and control. The total control system comprises: the information transmitted and received includes data information such as detection data and control information of the control box 82, the shower system 40, the pedal 60, and the like. The rear end platform of the master control system can be a mobile phone APP or computer end control software. The master control system can store the detection data and the data of the control box 82 to form a working log, and can modify the instruction of the control box 82.

The shower decontamination system 100 for the farm is particularly suitable for the biological safety prevention and control of the pig farm, adopts a non-video monitoring mode, effectively detects the weight of a person stepping on the pedal 60 in the bathroom and the water flow passing through the pedal 60, and reminds the person whether the person has a correct bath and whether the bath time meets the specified requirements of the pig farm through the state indicator lamp. In the process of bathing the person, the system can detect the bathing state of the person and the water temperature of the shower head in real time and feed back the detection result to the rear-end manager in real time. Pig farm biological safety prevention and control is used for shower of plant to wash and disappear system includes shower system 40, control system 80, and control system 80 control system linkage electron entrance guard, audio alert realize reminding and guiding the standard and the validity that the personnel bathe, ensure that the personnel can both reach the washing and disappearing requirement of pig farm regulation when walking out the bathroom to improve pig farm's biological safety prevention and control level.

Before bathing, the personnel firstly carry out identity recognition such as face recognition at the entrance of the washing and disinfecting center, and the control system distributes the shower rooms according to the recognition information and the use information of the shower rooms. When entering the bathroom, the shower inlet 22 and the inlet closure 24 are closed, at which point the shower inlet 22 and the shower outlet 25 are in a closed state. The shower room entrance 22 is requested to be opened, the identity verification system at the shower room entrance inputs identity information for verification, such as a mobile phone number for verification, the verification is unlocked through the entrance locking device 24, and the shower room entrance 22 is opened for entering. When entering the shower room for bathing, a bather stands on the pedal 60, starts the shower system 40, controls and adjusts the water delivery switch 426 according to the preset water temperature or the current set water temperature, and ensures that the water temperature flowing through the water delivery pipeline 422 reaches the set temperature value. During bathing, the control box 82 displays the bathing state and the bathing time of people in real time, when the bathing time meets the requirement of decontamination, the control switch 90 on the wall beside the outlet is pressed, the control box 80 receives a leaving starting signal of the control switch 90, detects whether the current bathing meets the bathing requirement, if the bathing requirement is met, the outlet locking device 28 is controlled to be unlocked, the unlocking state is kept for set time such as 2min, and the outlet 25 of the shower room is opened to leave. At the same time, the bathing time displayed by the display means on the control box 80 is restored to the initial state.

The water flow detection device 66 includes: a water flow detecting case 662 and a conductive electrode 664 disposed above the water flow detecting case 662 and detecting a water flow signal. When water flows through the conductive electrode 664, the conductive electrode 664 is conducted to detect whether the person turns on the water delivery switch 426 during the bathing process. The gravity detection device 64 detects whether a person stands on the pedal in real time, and when the weight of the person standing on the pedal does not reach a preset value, the control box 82 controls to give an alarm prompt.

The water temperature of the shower system 40 may be set in a unified manner or may be set individually. In order to facilitate uniform management and meet specific use requirements of a farm, the method adopts uniform setting. The water temperature detection device 424 detects the water temperature flowing through the water conveying pipeline 422 in real time, ensures that the water temperature accords with the temperature value set by a pig farm, and is also suitable for personnel to use.

The water temperature detection device 424 detects the temperature of water entering the water delivery pipeline 422, and controls the real-time adjustment of the water delivery switch 426 according to a set water temperature value. In order to realize automatic adjustment of water temperature, the water delivery switch 426 comprises a cold water inlet and a hot water inlet, and control valves capable of controlling and automatically adjusting the water outlet are respectively installed to adjust the proportion of cold water and hot water. The water temperature detection device 424 is disposed at a water outlet of the water delivery switch 426, detects a current water temperature, and determines whether a current temperature value reaches a preset temperature value.

Before entering a bathroom for bath, a person firstly performs identity recognition such as face brushing recognition at an entrance of a washing and disinfecting center, and at the moment, the washing and disinfecting center distributes a shower room for the person according to the face brushing result of the person. When a person enters the position of the shower room 102, the person to be washed away needs to input four digits after the person enters the mobile phone number in the identity recognition system on the wall of the entrance of the shower room, and after the mobile phone number is correctly input, the entrance of the shower room is opened, and the person enters the bathroom. After the person to be washed and disinfected enters the bathroom after completing the door entering operation, the door lock at the entrance can automatically rebound and close. When the water flow detection device 66 detects water flow, the indication lamp on the control box 82 indicating the water flow status, i.e., the second indication lamp, changes from red to green when the bather turns on the water delivery switch 426. When the bather stands on the pedal 60, the weight detecting device 64 on the pedal 60 detects the weight change, and the indication lamp representing the gravity state, namely the first indication lamp on the control box 82 changes from red to green within the normal setting range. When both the status indicators, i.e., the first indicator and the second indicator, are green, the timer in the control box 82 starts counting time and displays the time on the display device.

During the bathing process, the timer in the control box 82 will count only when the status indicators are green, and will pause when the person leaves the pedal 60 (at which time the water delivery switch 426 is still on) or stands on the pedal 60 (at which time the water delivery switch 426 is off). When the personnel stand on the pedal and the time of opening the water delivery switch 426 meets the set time such as 8min and above, the washing and disinfecting personnel meet the bathing requirement.

Whether a person stands on the footrests during bathing is achieved by detecting the deformation of the sensors of the gravity detection means 64 (e.g. a total deformation of 2 mm). In order to avoid the situation that a person stands on the pedal with one foot, in the control system 80, the treading weight range of the person is set according to the relation between the deformation of the sensor of the gravity detection device 64 and the weight, and in the control system 80, the standing weight range of the person is 40kg-100kg, and the weight range can basically cover all the weight of the person entering the field. In the control system 80, for a part with a weight lower than 40kg, when the system is used for installing the sensor for calibration, the deformation amount corresponding to the weight of the part can be set to 0. When the bathing time reaches the requirement of the pig farm for the set bathing time such as 8min, the person can leave the pedal 60. When the person leaves the pedal 60 and turns off the water delivery switch 426, the status indicators on the control box 82 turn red, and the timer on the control box 82 stops. When the person finishes bathing and is ready to leave the bathroom, the person presses the control switch 90 at the position of the exit. At this point, the exit lock 28, such as a door lock, of the exit will be unlocked. At the same time, the timer on the control box 82 is reset to zero. After pressing the control switch 90, the outlet lock 28, e.g. a door lock, of the outlet remains open for 2min, avoiding the situation that a person has not yet had time to leave the shower room, but the shower room is closed again. In this case, the person cannot leave the bathroom, and can leave the bathroom only after pressing the control switch 90 after bathing again and satisfying the bathing requirement for a time of 8min or more.

The total height of the pedal 60 is about 2cm, the whole body is fixed on the ground of the bathroom in a sucking disc mode, and the original bathroom structure cannot be changed in the installation process. Meanwhile, the pedal 60 is integrally hollow, so that the shower water outlet device 428, namely the water outlet of the shower head, can smoothly flow through the pedal 60, and the water outlet hole of the shower room cannot be blocked.

The shower decontamination system 100 for the farm does not need to change the bathroom environment of the pig farm in the implementation process like the prior art, comprises the steps of replacing the prior bath equipment of the bathroom, replacing and then assembling the whole set of bath components, and has the disadvantages of complex overall process and difficult later maintenance.

In the implementation process of the shower decontamination system 100 for a farm, the whole set of equipment and the system are based on the existing environment of a pig farm bathroom, wherein the pedal 60 is placed on the floor of the shower room, the control box 82 and the control switch 90 are fixed on the wall surface of the bathroom, and the water temperature detection device 424 is assembled in the water delivery pipeline 422. The whole process basically does not change the environment of the bathroom, and the construction work amount is small.

Unlike the prior art, which mainly uses a laser radar, a water flow and a temperature sensor to monitor the bathing state of the personnel, the shower decontamination system 100 for a farm of the present invention uses a method of weighing a human body and detecting a water flow to monitor the bathing state of the personnel. Compared with the prior scheme that the engineering construction amount is large, the change of the prior environment of a pig farm is large, and the later maintenance is inconvenient, the shower decontamination system 100 for the farm provided by the utility model basically does not change the prior shower room environment in the implementation process, only needs the shower room to provide power needed by equipment, and is convenient for the later maintenance. The shower decontamination system 100 for the farm solves the problem of difficult supervision of the decontamination of the personnel in the pig farm in a simple manner, and the supervision effect meets the use requirements of customers from the aspect of actual use conditions.

The shower decontamination system 100 for the farm effectively solves the problem of difficult bath supervision of personnel entering the farm, reduces the risk of the farm infecting the African swine fever, and reduces the economic loss caused by the epidemic situation of the African swine fever. The investment cost of the pig farm for the decontamination problem of the personnel entering the farm is greatly reduced, and the economic benefit of the pig farm is improved.

The shower decontamination system 100 for the farm is a biological safety prevention and control shower decontamination system for the farm, which is suitable for the pig industry, and solves the problems of difficult personnel decontamination supervision and poor personnel decontamination effectiveness in the existing pig farm industry. The shower decontamination system 100 for the farm has simple principle and good application effect, greatly solves the problem of difficult personnel decontamination supervision in the prior art, and reduces the probability of the pig farm infecting the swine fever epidemic situation.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the present invention. 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 shall be subject to the appended claims.

Claims (10)

1. A shower decontamination system for a farm, comprising: the shower room locking device comprises an identity recognition device arranged at a shower inlet for carrying out identity recognition or identity verification, an inlet locking device controlled to unlock or lock the shower room inlet, a shower system arranged in the shower room, a pedal correspondingly arranged with the shower system, an outlet locking device controlled to unlock or lock the shower room outlet, and a control system for receiving an operation signal or detection data and controlling the inlet locking device or the shower system or the outlet locking device to act according to the received signal or data; the pedal includes: the shower system comprises a pedal body, a gravity detection device which is arranged on the pedal body and detects the weight born by the pedal body, and a water flow detection device which is arranged on the pedal body and detects a water flow signal to detect whether the shower system is started or not.

2. The shower decontamination system for a farm of claim 1, further comprising:

a control switch disposed in the shower enclosure and communicatively coupled to the control system to activate the exit signal.

3. The shower decontamination system for a farm of claim 1, wherein said shower system comprises: a chambered shower system disposed in a shower enclosure, the chambered shower system comprising: the water temperature detection device is arranged in the water delivery pipeline and is relatively close to the shower water outlet device or is arranged between the water delivery switch and the shower water outlet device.

4. The shower decontamination system for a farm of claim 1, wherein said shower inlet comprises: -an area entrance, -and a shower room entrance, the identification device comprising: the shower room comprises an identity recognition system and an identity verification system, wherein the identity recognition system is arranged at the entrance of the area for identity recognition, the identity verification system is arranged at the entrance of the shower room for identity verification, and identity information recognized by the identity recognition system comprises: any one of face information, ID card information and identity document information, the identity information verified by the identity verification system comprises: any one of ID card information, identity document information and communication identity information, wherein the identity document information comprises: any one or more of identification card number, passport number, hong Kong and Macao pass number, Taiwan pass number and Taiwan pass number, the communication identity information includes: any one of a mobile phone number and a part of mobile phone numbers.

5. The shower decontamination system for a farm of claim 1, wherein said control system comprises: the bathroom comprises a control box and a master control system, wherein the control box is arranged in the bathroom and used for receiving detection data or operation instructions of a gravity detection device or a water flow detection device in the bathroom, the master control system is in communication connection with the control boxes and used for receiving detection signals or instruction signals of the control boxes for unified allocation or control, and the control boxes are provided with display devices for displaying timing time and indicator lamps for indicating bathing states.

6. The shower decontamination system for a farm of any one of claims 1-5, wherein said foot plate further comprises: set up the supporting legs of footboard main part below, the footboard main part includes: the gravity detection device is characterized by comprising an upper pedal and a mounting sleeve, wherein the upper pedal is provided with water leakage holes, the mounting sleeve is arranged on the lower surface of the upper pedal, the gravity detection device is arranged below the pedal main body, the water flow detection device is arranged below the upper pedal, and the water leakage holes of the upper pedal and the water flow detection device are correspondingly arranged.

7. A shower decontamination system for a farm according to claim 6, wherein a plurality of said gravity sensing devices are disposed relatively under the edge or corner of said main body, a plurality of said water flow sensing devices are disposed relatively under the middle of said main body, and said water leakage holes are formed in different zones on said upper step according to the positions of the water flow sensing devices.

8. The shower decontamination system for a farm according to claim 6, wherein a plurality of water chutes are further provided below the upper pedal body, the plurality of water chutes form a water guiding area, the water flow detection device is provided in the water guiding area, the gravity detection device is provided outside the water guiding area, one water flow detection device is provided in each direction of each side of the upper pedal, the support legs are provided below the mounting sleeve, the gravity detection device is provided in the mounting sleeve and placed on the upper portions of the support legs, and the water flow detection device comprises: the water flow detection device comprises a water flow detection box and a conductive electrode which is arranged above the water flow detection box and detects a water flow signal.

9. The shower decontamination system for a farm of claim 8, wherein said mounting sleeves, support legs, gravity sensing means are disposed correspondingly and oppositely at the end corners of said upper deck, said mounting sleeves comprising: the relative outer sleeve that sets up outside, and set up and be in mount pad or erection column in the outer sleeve, gravity detection device sets up in the outer sleeve and pass through the mounting pad or erection column, last footboard and installation are fixed on the footboard, be provided with the mating holes on the gravity detection device, the supporting legs includes: columniform supports the installation department, sets up support on the installation department and be less than the columniform supporting part that the installation department set up and set up support on the supporting part and be less than the support location portion that the supporting part set up, support location portion with the mating holes of gravity detection device coordinates the location.

10. The shower decontamination system for a farm according to claim 8, wherein the water chutes are assembled to form a rectangular or square outer frame according to the shape of the upper pedal, and the diagonal corners of the outer frame are spliced to form partitions or blocks, one water flow detection device is arranged in each partition of the water chutes, the partitions formed by the water leakage holes are arranged corresponding to the partitions formed by the water chutes, the gravity detection device is a waterproof gravity detection device, and the lower support legs or the lower surface of the support legs are adsorbed on the ground through suckers; the conductive electrode is a copper sheet electrode, the water flow detection device is fixed on the upper pedal through a fixing piece, a cable on the pedal is sealed or wrapped through waterproof glue, and the cable comprises: any one or more of a power line, a wire, a cord, a communication line.

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