CN105706959A - Infrared real-time monitoring system for chicken diseases - Google Patents
Infrared real-time monitoring system for chicken diseases Download PDFInfo
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- CN105706959A CN105706959A CN201610187112.1A CN201610187112A CN105706959A CN 105706959 A CN105706959 A CN 105706959A CN 201610187112 A CN201610187112 A CN 201610187112A CN 105706959 A CN105706959 A CN 105706959A
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- support plate
- time monitoring
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K45/00—Other aviculture appliances, e.g. devices for determining whether a bird is about to lay
Abstract
The invention discloses an infrared real-time monitoring system for chicken diseases. The infrared real-time monitoring system comprises a support assembly, a monitoring terminal, a data terminal and a sustainable power supply device, wherein the support assembly is horizontally arranged above a chicken house and comprises two vertical support plates, a transverse support plate stretching across the two vertical support plates, and a vertical driving mechanism; the monitoring terminal can reciprocate horizontally and transversely on the transverse support plate; the monitoring terminal comprises a data acquisition module, a data transmission module, a power module, and a mobile control module; the data acquisition module is provided with an infrared camera facing to the lower side of the chicken house; the data terminal is communicated with the monitoring terminal and comprises a data receiving module, a data processing module and a display module; the sustainable power supply device is arranged on the transverse support plate, and is electrically connected with the power module and used for continuously supplying power to the power module. Due to the adoption of the technical solution, the temperature condition of chicken in the chicken house can be monitored in an omnibearing manner, and a sustainable real-time monitoring state is kept.
Description
Technical field
The present invention relates to infrared real-time monitoring system equipment technical field, particularly relate to a kind of infrared real-time monitoring system of fowl disease.
Background technology
Rise along with scientific culture concept; the concept of disease propagation control and monitor in real time is increasingly paid attention to by the livestock-raising fields such as chicken and duck cattle and sheep pig; and animal would generally change when there is disease on body temperature, generally adopt the mode of infrared monitoring imaging processing can determine body temperature and the disease condition of single animal.But owing to infrared monitoring is generally only in that on a point, the area of plant is bigger, it is necessary to allow infrared real-time monitoring system can in plant all-around mobile, thus realize the domestic animal in each corner in plant is carried out the function of body temperature infrared monitoring.
Consult the Chinese patent " a kind of dead chicken detection system in chicken farm and detection method " that the patent No. is CN101431596A, it is therefore intended that improve the working environment of poultry people and improve work efficiency.The dead chicken detection system in chicken farm includes: in-situ measurement datatron, is used for gathering chicken farm real time imaging, and image carries out corresponding algorithm process and identification, it has been found that after dead chicken, send alarm signal, photo site and other relevant informations to remote monitoring center;Remote monitoring center, receives alarming short message, photo site and relevant information, sends corresponding dead chicken processing controls signal;Wireless communication networks, connects described in-situ measurement datatron and remote monitoring center, by the alarm signal of in-situ measurement datatron, photo site and relevant information transmission to remote monitoring center.
Obviously, this patent carries out the monitoring of real time imaging by designing in-situ measurement datatron, but, it is monitored to each corner of plant for making in-situ measurement datatron to move, need electric power support, and the mode that can adopt at present is mainly accumulator, it is necessary to often change, lavish labor on, and be difficult to the function of lasting monitor in real time.
Summary of the invention
For the above-mentioned problems in the prior art, now provide a kind of be intended to can comprehensive monitoring hen house chicken temperature situation and keep the infrared real-time monitoring system of fowl disease of lasting real-time monitoring state, in order to overcome above-mentioned technological deficiency.
Concrete technical scheme is as follows:
A kind of infrared real-time monitoring system of fowl disease, including carriage assembly, monitoring terminal, data terminal and continued power device, wherein,
Carriage assembly is horizontally installed to the top of hen house, the vertical supports plate vertically installed including two pieces of levels, across the horizontal support plate being arranged on two vertical supports plates and vertical driving mechanism, and vertical driving mechanism can drive horizontal support plate along horizontal vertical to moving back and forth on two vertical supports plates;
Monitoring terminal is arranged on horizontal support plate, and horizontal cross can move back and forth on horizontal support plate, monitoring terminal includes gathering the data acquisition module of chicken temperature data, in order to by the data transmission module of chicken temperature data transmission to data terminal, in order to provide the power plant module of mobile power to monitoring terminal and in order to control the mobile control module of the running status of power plant module, and data acquisition module has towards the infrared camera below hen house;
Data terminal and monitoring terminal are connected by communication, and including the data reception module in order to receive chicken temperature data, chicken temperature data process and judge the data processing module of fowl disease and in order to show the display module of processing result information;
Continued power device is installed on horizontal support plate, and is electrically connected mutually with power plant module, in order to continue to provide electric power to power plant module.
In the infrared real-time monitoring system of fowl disease provided by the invention, also having the feature that, continued power device includes motor, winding roll and conduction wheel disc, wherein,
Motor is fixedly installed on horizontal support plate, and winding roll is set on the motor shaft of motor, and winding roll is made up of the roll of the dish that turns left, right-hand rotation dish and connected left-hand rotation dish and right-hand rotation dish, and the outer coiling of roll has conductor cable;
Conduction wheel disc is fixedly arranged on horizontal support plate and relative with left-hand rotation dish, the side of conductive casters card rotating disk to the left offers two circumferential groove and is filled with conductive material in circumferential groove, the opposite side of conduction wheel disc is provided with to be electrically connected the both positive and negative polarity contact shoe of external power source both positive and negative polarity, and both positive and negative polarity contact shoe is electrically connected the conductive material in one of them circumferential groove respectively;
Left-hand rotation card offers two notches relative with circumferential groove to the side of conduction wheel disc and is filled with conductive material in notch, the opposite side of left-hand rotation dish is provided with the positive and negative contact that the one end with conductor cable is electrically connected mutually, and positive and negative contact is electrically connected the conductive material in one of them notch respectively, the other end of conductor cable is electrically connected the power positive cathode input of power set, and the conductive material being positioned at circumferential groove contacts with the conductive material being positioned at notch and is electrically connected.
In the infrared real-time monitoring system of fowl disease provided by the invention, also have the feature that, data terminal also includes data memory module, and in order to the chicken temperature data received and processing result information to be stored, and data memory module internal memory contains to judge the chicken temperature threshold value of fowl disease situation;
Data processing module compares to judge fowl disease situation by transferring chicken temperature data and chicken temperature threshold value, and when data processing module judges chicken temperature data exception and is judged to fowl disease result, display alarm information while display module display processing result information.
In the infrared real-time monitoring system of fowl disease provided by the invention, also having the feature that, monitoring terminal also includes data acquisition pretreatment module, in order to the chicken temperature data of data collecting module collected are carried out pretreatment.
In the infrared real-time monitoring system of fowl disease provided by the invention, also having the feature that, monitoring terminal also includes power supply voltage regulating module, processes in order to the voltage pressure regulation that continued power device is inputted.
In the infrared real-time monitoring system of fowl disease provided by the invention, also having the feature that, motor is fixedly installed in the side of horizontal support plate by a motor erection support, and motor shaft is positioned at the top of horizontal support plate.
In the infrared real-time monitoring system of fowl disease provided by the invention, also have the feature that, the both sides of horizontal support plate upwardly extend and are formed with two pieces of gripper shoes, motor shaft is installed on the top position of horizontal support plate by two pieces of rotating supports of gripper shoe, and offers to wear the circular hole of motor shaft in gripper shoe.
In the infrared real-time monitoring system of fowl disease provided by the invention, also having the feature that, the center of conduction wheel disc offers the through hole relative with circular hole, and conduction wheel disc is fixedly arranged in the gripper shoe away from motor erection support side, motor shaft traverse through hole.
In the infrared real-time monitoring system of fowl disease provided by the invention, also having the feature that, conduction wheel disc fits with left-hand rotation dish and contacts.
In the infrared real-time monitoring system of fowl disease provided by the invention, also having the feature that, conductive material is conducting resinl.
Having the beneficial effects that of technique scheme:
(1) by moveable monitoring terminal and horizontal support plate, enabling comprehensive monitoring hen house chicken temperature situation, and continued power device makes monitoring terminal can keep real-time monitoring state;
(2) continued power device drives winding roll to rotate by motor, and pass sequentially through the conductive material in both positive and negative polarity contact shoe, circumferential groove, the conductive material in notch, positive and negative contact and conductor cable, make it possible to remain the power supply state to power plant module, conductor cable can be carried out folding and unfolding extension when monitoring terminal moves along horizontal support plate and not affect power supply state, thus realizing monitoring terminal continued power;
(3) conduction wheel disc fits with left-hand rotation dish and contacts so that driven by motor reel can keep while rotating contacting with the conductive material in notch in circumferential groove being electrically connected, and then persistently power plant module is powered.
Accompanying drawing explanation
Fig. 1 is the overall structure schematic diagram of the infrared real-time monitoring system of fowl disease in embodiments of the invention;
Fig. 2 is the monitoring terminal structural representation of the infrared real-time monitoring system of fowl disease in embodiments of the invention;
Fig. 3 is the structural representation of the data terminal of the infrared real-time monitoring system of fowl disease in embodiments of the invention;
Fig. 4 is that in embodiments of the invention, the continued power device of the infrared real-time monitoring system of fowl disease is installed on the elevational view on horizontal support plate;
Fig. 5 is that in embodiments of the invention, the continued power device of the infrared real-time monitoring system of fowl disease is installed on the top view on horizontal support plate;
The plane that Fig. 6 is the conduction wheel disc of the continued power device of the infrared real-time monitoring system of fowl disease in embodiments of the invention partly cuts open schematic diagram;
Fig. 7 is that conduction wheel disc and the winding roll of the continued power device of the infrared real-time monitoring system of fowl disease in embodiments of the invention matches the structural representation installed.
Detailed description of the invention
For the technological means making the present invention realize, creation characteristic, reaching purpose and effect and be easy to understand, following example are specifically addressed in conjunction with 1 to 7 pair, the accompanying drawing infrared real-time monitoring system of fowl disease provided by the invention.
Below, it will describe embodiments of the present invention with reference to the accompanying drawings.In embodiments, the part of same configuration uses identical accompanying drawing labelling and omits description.
Fig. 1 is the overall structure schematic diagram of the infrared real-time monitoring system of fowl disease in embodiments of the invention, Fig. 2 is the monitoring terminal structural representation of the infrared real-time monitoring system of fowl disease in embodiments of the invention, and Fig. 3 is the structural representation of the data terminal of the infrared real-time monitoring system of fowl disease in embodiments of the invention.As shown in Figure 1 to Figure 3, the infrared real-time monitoring system of fowl disease is applied in hen house, including carriage assembly 100, monitoring terminal 200, data terminal 300 and continued power device 400, wherein,
Carriage assembly 100 is horizontally installed to the top of hen house, the vertical supports plate 12 vertically installed including two pieces of levels, across the horizontal support plate 11 being arranged on two vertical supports plates 12 and vertical driving mechanism (not shown), and vertical driving mechanism can drive horizontal support plate 11 along horizontal vertical to moving back and forth on two vertical supports plates 12;Monitoring terminal 200 is arranged on horizontal support plate 11, and horizontal cross can move back and forth on horizontal support plate 11, it data acquisition module 21 including gathering chicken temperature data, in order to the data transmission module 25 by chicken temperature data transmission to data terminal 300, in order to provide the power plant module 26 of mobile power to monitoring terminal 200, and in order to control the mobile control module 22 of the running status of power plant module 26, and data acquisition module 21 has towards the infrared camera below hen house, move back and forth on horizontal support and the function of comprehensive monitoring chicken temperature data thus realizing monitoring terminal 200;Data terminal 300 and monitoring terminal 200 are connected by communication, and including the data reception module 32 in order to receive chicken temperature data, chicken temperature data process and judge the data processing module 33 of fowl disease and in order to show the display module 31 of processing result information;Continued power device 400 is installed on horizontal support plate 11, and is electrically connected in order to continue to provide electric power to power plant module 26 with power plant module 26 phase.
In technique scheme, by moveable monitoring terminal 200 and horizontal support plate 11, enabling comprehensive monitoring hen house chicken temperature situation, and continued power device 400 makes monitoring terminal 200 can keep real-time monitoring state.And it is worthy of note, above-mentioned level is vertical and horizontal cross respectively two perpendicular directions in the horizontal direction, specifically in conjunction with shown in Fig. 1, in figure indicate direction of arrow A and B be the direction that monitoring terminal 200 moves back and forth along horizontal cross on horizontal support plate 11, direction of arrow C and the D of sign then for horizontal support plate 11 on vertical supports plate 12 along horizontal vertical to the direction moved back and forth.
In a preferred embodiment, concrete such as Fig. 1, and shown in Fig. 4 to Fig. 7, wherein, Fig. 4 is that in embodiments of the invention, the continued power device 400 of the infrared real-time monitoring system of fowl disease is installed on the elevational view on horizontal support plate, Fig. 5 is that in embodiments of the invention, the continued power device of the infrared real-time monitoring system of fowl disease is installed on the top view on horizontal support plate, the plane that Fig. 6 is the conduction wheel disc of the continued power device of the infrared real-time monitoring system of fowl disease in embodiments of the invention partly cuts open schematic diagram, Fig. 7 is that conduction wheel disc and the winding roll of the continued power device of the infrared real-time monitoring system of fowl disease in embodiments of the invention matches the structural representation installed.As it can be seen, continued power device is installed on horizontal support plate, including motor 42, winding roll 43 and conduction wheel disc 45, wherein,
Motor 42 is fixedly installed on horizontal support plate 11, winding roll 43 is set on motor 42 axle of motor 42, can along with motor 42 axle axial rotation, and winding roll 43 is made up of the roll 433 of left-hand rotation dish 431, right-hand rotation dish 432 and connected left and right rotating disk 431 and 432, the outer coiling of roll 433 has conductor cable 44;Conduction wheel disc 45 is fixedly arranged on horizontal support plate 11, and conduction wheel disc 45 is relative with left-hand rotation dish 431, conduction wheel disc 45 offers two circumferential groove 451 towards the side of left-hand rotation dish 431 and is filled with conductive material (not shown) in circumferential groove 451, the opposite side of conduction wheel disc 45 is provided with to be electrically connected the both positive and negative polarity contact shoe 452 of external power source both positive and negative polarity, and both positive and negative polarity contact shoe 452 is electrically connected the conductive material in one of them circumferential groove 451 respectively;Left-hand rotation dish 431 offers two notches 434 relative with circumferential groove 451 towards the side of conduction wheel disc 45 and is filled with conductive material in notch 434, the opposite side of left-hand rotation dish 431 is provided with the positive and negative contact 435 being electrically connected mutually with one end of conductor cable 44, and positive and negative contact 435 is electrically connected the conductive material in one of them notch 434 respectively, the other end of conductor cable 44 is electrically connected the power positive cathode input (not shown) of power plant module 26, the conductive material being positioned at circumferential groove 451 remains, with the conductive material being positioned at notch 434, the state of being electrically connected that contacts, it is electrically connected thus motor 42 drives reel that the conductive material in circumferential groove 451 and in notch 434 can be kept while rotating to contact, and then persistently power plant module 26 is powered.
In technique scheme, continued power device 400 drives winding roll 43 to rotate by motor 42, and pass sequentially through the conductive material in both positive and negative polarity contact shoe 452, circumferential groove 451, the conductive material in notch 434, positive and negative contact 435 and conductor cable 44, make it possible to remain the power supply state to power plant module 26, conductor cable 44 can be carried out folding and unfolding extension and do not affect power supply state when monitoring terminal 200 moves along horizontal support plate 11, thus realizing monitoring terminal 200 continued power.
As further preferred embodiment, specifically as shown in Figures 4 and 5, motor 42 is fixedly installed in the side of horizontal support plate 11 by motor 42 erection support, and motor 42 axle is positioned at the top of horizontal support plate 11.Further, the both sides of horizontal support plate 11 upwardly extend and are formed with two pieces of gripper shoes 13, motor 42 axle is installed on the top position of horizontal support plate 11 by two pieces of rotating supports of gripper shoe 13, and offers to wear the circular hole (not shown) of motor 42 axle in gripper shoe 13.
As further preferred embodiment, the center of conduction wheel disc 45 offers the through hole 453 relative with circular hole, and conduction wheel disc 45 is fixedly arranged in the gripper shoe 13 away from motor 42 erection support side, motor 42 axle traverse through hole 453.Further, the conductive material maintenance contacting to realize in notch 434 and annular groove that fits with left-hand rotation dish 431 of conduction wheel disc 45 is electrically connected state.And conducting resinl selected by conductive material in the present embodiment but it also may be the other materials such as elastic sheet metal, should not be limited to this.It is worthy of note, the notch 434 being opened on left-hand rotation dish 431 can also be arranged circumferentially.
In a preferred embodiment, specifically as shown in Figures 2 and 3, data terminal 300 also includes data memory module 34, in order to the chicken temperature data received and processing result information are stored, and data memory module 34 internal memory contains to judge the chicken temperature threshold value of fowl disease situation, data processing module 33 compares to judge fowl disease situation with chicken temperature threshold value by transferring chicken temperature data, and when data processing module 33 judges chicken temperature data exception and is judged to fowl disease result, display module 31 shows display alarm information while processing result information, it is thus possible to learn easily and whether hen house have chicken temperature abnormality situation.
As in further preferred embodiment, by being wirelessly transferred and reception information between data reception module 32 and data transmission module 25, thus the wireless communication transmission realized between data terminal 300 and monitoring terminal 200.Further, monitoring terminal 200 also includes data acquisition pretreatment module 23, carries out pretreatment in order to the chicken temperature data that data acquisition module 21 is gathered.It is furthermore preferred that monitoring terminal 200 also includes power supply voltage regulating module 24, and the voltage pressure regulation in order to continued power device 400 to be inputted processes.Data terminal 300 also includes a wireless control module 35, in order to the duty of data acquisition unit to be controlled.
In a preferred embodiment, horizontal support plate 11 has guide rail, and monitoring terminal 200 can moving back and forth along guide rail transverse horizontal.
In technique scheme, by moveable monitoring terminal 200 and horizontal support plate 11, enabling comprehensive monitoring hen house chicken temperature situation, and continued power device 400 makes monitoring terminal 200 can keep real-time monitoring state;Continued power device 400 drives winding roll 43 to rotate by motor 42, and pass sequentially through the conductive material in both positive and negative polarity contact shoe 452, circumferential groove 451, the conductive material in notch 434, positive and negative contact 435 and conductor cable 44, make it possible to remain the power supply state to power plant module 26, conductor cable 44 can be carried out folding and unfolding extension and do not affect power supply state when monitoring terminal 200 moves along horizontal support plate 11, thus realizing monitoring terminal 200 continued power;Conduction wheel disc 45 fits with left-hand rotation dish 431 and contacts so that motor 42 drives reel that the conductive material in circumferential groove 451 and in notch 434 can be kept while rotating to contact and is electrically connected, and then persistently power plant module 26 is powered.
The foregoing is only presently preferred embodiments of the present invention, be merely illustrative for the purpose of the present invention, and nonrestrictive.Those skilled in the art is understood, and it can be carried out many changes in the spirit and scope that the claims in the present invention limit, amendment, even equivalence, but falls within protection scope of the present invention.
Claims (10)
1. the infrared real-time monitoring system of fowl disease, it is characterised in that include carriage assembly, monitoring terminal, data terminal and continued power device, wherein,
Described carriage assembly is horizontally installed to the top of hen house, the vertical supports plate vertically installed including two pieces of levels, across the horizontal support plate being arranged on vertical supports plate described in two and vertical driving mechanism, and described vertical driving mechanism can drive described horizontal support plate along horizontal vertical to moving back and forth on vertical supports plate described in two;
Described monitoring terminal is arranged on described horizontal support plate, and horizontal cross can move back and forth on described horizontal support plate, described monitoring terminal includes gathering the data acquisition module of chicken temperature data, in order to by the data transmission module of described chicken temperature data transmission to described data terminal, in order to provide the power plant module of mobile power to described monitoring terminal and in order to control the mobile control module of the running status of described power plant module, and described data acquisition module has towards the infrared camera below described hen house;
Described data terminal and described monitoring terminal are connected by communication, and including the data reception module in order to receive described chicken temperature data, described chicken temperature data process and judge the data processing module of fowl disease and in order to show the display module of processing result information;
Described continued power device is installed on described horizontal support plate, and is electrically connected mutually with described power plant module, in order to continue to provide electric power to described power plant module.
2. the infrared real-time monitoring system of fowl disease as claimed in claim 1, it is characterised in that described continued power device includes motor, winding roll and conduction wheel disc, wherein,
Described motor is fixedly installed on described horizontal support plate, described winding roll is set on the motor shaft of described motor, and described winding roll is made up of the roll of the dish that turns left, right-hand rotation dish and be connected described left-hand rotation dish and right-hand rotation dish, the outer coiling of described roll has conductor cable;
Described conduction wheel disc is fixedly arranged on described horizontal support plate and relative with described left-hand rotation dish, described conductive casters card offers two circumferential groove to the side of described left-hand rotation dish and is filled with conductive material in described circumferential groove, the opposite side of described conduction wheel disc is provided with to be electrically connected the both positive and negative polarity contact shoe of external power source both positive and negative polarity, and described both positive and negative polarity contact shoe is electrically connected the conductive material in one of them described circumferential groove respectively;
Described left-hand rotation card offers two notches relative with described circumferential groove to the side of described conduction wheel disc and is filled with conductive material in described notch, the opposite side of described left-hand rotation dish is provided with the positive and negative contact being electrically connected mutually with one end of described conductor cable, and described positive and negative contact is electrically connected the conductive material in one of them described notch respectively, the other end of described conductor cable is electrically connected the power positive cathode input of described power set, is positioned at the conductive material of described circumferential groove and contacts with the conductive material being positioned at described notch and be electrically connected.
3. the infrared real-time monitoring system of fowl disease as claimed in claim 2, it is characterized in that, described data terminal also includes data memory module, in order to the described chicken temperature data received and processing result information to be stored, and described data memory module internal memory contains to judge the chicken temperature threshold value of fowl disease situation;
Described data processing module compares to judge fowl disease situation with described chicken temperature threshold value by transferring described chicken temperature data, and judging described chicken temperature data exception and when being judged to fowl disease result at described data processing module, described display module shows display alarm information while described processing result information.
4. the infrared real-time monitoring system of fowl disease as claimed in claim 2 or claim 3, it is characterised in that described monitoring terminal also includes data acquisition pretreatment module, in order to the described chicken temperature data of described data collecting module collected are carried out pretreatment.
5. the infrared real-time monitoring system of fowl disease as claimed in claim 4, it is characterised in that described monitoring terminal also includes power supply voltage regulating module, processes in order to the voltage pressure regulation that described continued power device is inputted.
6. the infrared real-time monitoring system of fowl disease as claimed in claim 4, it is characterised in that described motor is fixedly installed in the side of described horizontal support plate by a motor erection support, and described motor shaft is positioned at the top of described horizontal support plate.
7. the infrared real-time monitoring system of fowl disease as claimed in claim 6, it is characterized in that, the both sides of described horizontal support plate upwardly extend and are formed with two pieces of gripper shoes, described motor shaft is installed on the top position of described horizontal support plate by two pieces of rotating supports of described gripper shoe, and offers to wear the circular hole of described motor shaft in described gripper shoe.
8. the infrared real-time monitoring system of fowl disease as claimed in claim 7, it is characterized in that, the center of described conduction wheel disc offers the through hole relative with described circular hole, and described conduction wheel disc is fixedly arranged in the described gripper shoe away from described motor erection support side, the described motor shaft described through hole of traverse.
9. the infrared real-time monitoring system of fowl disease as claimed in claim 4, it is characterised in that described conduction wheel disc fits with described left-hand rotation dish and contacts.
10. the infrared real-time monitoring system of fowl disease as claimed in claim 9, it is characterised in that described conductive material is conducting resinl.
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