CN210143517U - Novel sika deer young deer colony house - Google Patents

Abstract

The utility model discloses a novel gird of sika deer's young deer, which comprises two side walls, a rear wall, a railing wall and a house cover, wherein the house cover is provided with a light-transmitting window and a ventilation opening which can be opened and closed, and the outer wall of the railing wall is provided with an adjustable light-shading component; an inner wall parallel to the rear wall is arranged between the two side walls, and the distance between the inner wall and the rear wall is smaller than the distance between the inner wall and the railing wall; the inner wall and the railing wall are divided into a plurality of ring chambers by a plurality of guardrails, and each ring chamber is also internally provided with a light-emitting component and a temperature control component; the railing wall is provided with a plurality of front doors corresponding to the ring chamber, the inner wall is provided with a plurality of inner doors corresponding to the ring chamber, a corridor is formed between the inner wall and the rear wall, and the rear wall is provided with a rear door. The utility model discloses can provide controllable illumination and temperature, colony house sound insulation is effectual moreover, provides better growth condition for the young deer, guarantees that it can grow rapidly, shortens development cycle, brings economic benefits for foster household as early as possible.

Description

Novel sika deer young deer colony house

Technical Field

The utility model belongs to the artificial breeding field of sika, concretely relates to novel sika deer young deer colony house.

Background

The sika deer is a precious economic animal, and the whole body is precious. The deer antler of the sika deer product is a rare medicinal material, has important medical care value, accumulates capital for economic construction, improves and enhances the living standard of people, and is a pleasing ornamental animal. Environmental factors can change many physiological functions of deer and influence the production performance. The change of illumination length is not only an important factor influencing the seasonal oestrus of the antler growth and the antler growth of the stags and the stags, but also directly influences the growth and development of the stags. The winter breeding management work of the sika deer young deer is very important. A novel young deer colony house of sika deer is a method for improving the growth and development of young deer in winter by using controllable light temperature-increasing equipment, namely, the young deer colony house is changed and updated on the basis of previous young deer maintenance. In the process of growth and development of the young deer, the method has the characteristics of high efficiency, simplicity, convenience, high welfare treatment and the like.

The existing sika deer cultivation is mainly carried out in a semi-scatter cultivation mode by utilizing facilities such as fences and the like, the cultivation environment cannot be adjusted, and the growth period of the young deer is long and sexual maturity is late; moreover, the nature of the deer is cautious, and the nerves of the young deer are more sensitive and sensitive to tiny sound disturbance, so that the existing animal breeding colony house or equipment cannot be directly applied to breeding of the young deer.

SUMMERY OF THE UTILITY MODEL

In order to solve the above-mentioned current problem, the utility model provides a novel sika deer colony house that young deer was bred is applicable to specially, concrete scheme is as follows:

including two sides side wall, one side back wall one side railing wall and room lid, be equipped with light trap and the vent that can open and close on the room lid, be equipped with the trough of a plurality of half outside the railing wall half in the railing wall on the railing wall, be equipped with the back door on the back wall.

Furthermore, the rail wall comprises two vertical stand columns and a plurality of rails which are arranged between the stand columns and horizontally arranged, vertical sliding grooves are formed in the stand columns, and a light shading assembly is arranged between the two vertical sliding grooves; the light-shading assembly comprises a rolling shaft, two ends of the rolling shaft are arranged at the upper end of the railing wall through bearings and are parallel to the railing, and the rolling shaft is in transmission connection with a power device to realize forward rotation and reverse rotation; the roller bearing is rolled up and is equipped with heat preservation thermal-insulated cloth, the lower extreme fixedly connected with sill bar of heat preservation thermal-insulated cloth, the both ends of sill bar are located in the vertical spout.

Furthermore, the power device comprises a transmission gear arranged at one end of the rolling shaft and a motor arranged outside the rear wall, and an output shaft of the motor is in transmission connection with the transmission gear through a chain.

Further, the side wall with the back wall is the cavity wall, the side wall with separate into exocoel, middle chamber and inner chamber from the extroversion inwards in proper order through the baffle in the back wall, be equipped with a plurality of spliced poles that connect in two relative inner walls and staggered arrangement each other in the exocoel, the middle intracavity is filled and is had sound absorbing material, the inner wall shaping of inner chamber is unevenness irregular face.

Furthermore, an inner wall parallel to the rear wall is arranged between the two side walls, and the distance between the inner wall and the rear wall is smaller than the distance between the inner wall and the railing wall; a plurality of ring chambers are divided between the inner wall and the railing wall by a plurality of guardrails, a light-emitting component and a temperature control component are also arranged in each ring chamber, a plurality of inner doors corresponding to the ring chambers are arranged on the inner wall, and a corridor is formed between the inner wall and the rear wall; a plurality of convex mirrors are arranged under the house cover and above the ring chamber through a base, and the height of the inner wall is lower than that of the side wall; the light-emitting assembly comprises a plurality of light-emitting boxes arranged in the corridor, LED light sources are arranged in the light-emitting boxes, and through holes which are opposite to the convex mirrors are formed in the top surfaces of the light-emitting boxes.

Furthermore, a baffle shaft is arranged on the top surface of the light-emitting box, a turntable penetrates through the baffle shaft through a bearing, and the radius of the turntable is equal to the distance between the baffle shaft and the through hole; the outer edge of the turntable is provided with a plurality of light blocking sheets which are uniformly distributed along the circumference, two sides of every two adjacent light blocking sheets are mutually overlapped, the light transmittance of the plurality of light blocking sheets is gradually increased along the anticlockwise direction, and the length of each light blocking sheet is larger than the diameter of each through hole;

the light-emitting box is characterized in that a micro motor is arranged on one side of the turntable, and an output shaft of the micro motor is in transmission connection with the turntable through a belt.

Furthermore, a switch cavity is formed in the bottom surface, close to the end portion, of the bottom rod, a touch switch is arranged in the switch cavity, the bottom of the vertical sliding groove extends along the bottom surface to form a switch board, and a switch column corresponding to the touch switch is arranged on the switch board.

The micro-motor is connected with the light touch switch through a light touch switch; an induction circuit is further arranged between the light touch switch and the power supply, the induction circuit comprises a capacitor connected in series between the light touch switch and the power supply, and the capacitor is connected with a calculation branch in parallel;

the calculation branch comprises an operational amplifier, a first single chip microcomputer and a motor driving chip which are connected in series, wherein an enabling end of the motor driving chip is connected with an output pin of the first single chip microcomputer, an input pin of the first single chip microcomputer is connected with an output pin of the operational amplifier, an input pin of the operational amplifier is connected with a plurality of optical sensors, and the optical sensors are arranged between the light-transmitting window and the convex mirror; the input pin of the first single chip microcomputer is also connected with a control terminal;

the calculation branch is also connected in parallel with a timing branch, the timing branch comprises a crystal oscillator and a second single chip microcomputer which are connected in series, an input pin of the second single chip microcomputer is connected with the main control circuit, an output pin of the second single chip microcomputer is connected with an enabling end of the motor driving chip, and an input pin of the second single chip microcomputer is also connected with a control terminal.

Further, the temperature control assembly comprises a temperature sensor and an air conditioner, the temperature sensor is arranged in the ring chamber, the air conditioner is arranged on the back wall, the temperature sensor is electrically connected with a display panel, and the display panel is arranged outside the ring house.

The beneficial effects of the utility model reside in that: the utility model provides a novel gird of sika deer young deer can provide controllable illumination and temperature, and the gird gives sound insulation effectually moreover, provides better growth condition for young deer, guarantees that it can grow rapidly, shortens development cycle, brings economic benefits for foster household as early as possible.

Drawings

FIG. 1 is a schematic structural diagram of embodiment 1 of the present invention,

figure 2 is a structural plan view of the embodiment 1 of the invention,

FIG. 3 is an enlarged view of the structure at A in FIG. 1,

figure 4 is a structural side view of the embodiment 1 of the invention,

FIG. 5 is a schematic view showing the internal structure of the side wall and the rear wall according to embodiment 1 of the present invention,

FIG. 6 is a schematic view showing the internal structure of a light-emitting box according to embodiment 1 of the present invention,

FIG. 7 is a top view of the structure of the light-emitting box according to embodiment 1 of the present invention,

FIG. 8 is an enlarged view of the structure of the bottom bar in accordance with embodiment 2 of the present invention,

fig. 9 is a structural side view of embodiment 2 of the present invention,

fig. 10 is a circuit diagram of the main control circuit of the present invention.

Figure number and name: 1. side wall, 2, rear wall, 201, rear door, 3, railing wall, 301, trough, 4, room cover, 5, inner wall, 501, inner door, 6, guardrail, 7, round room, 8, corridor, 9, railing, 10, vertical chute, 1001, switch board, 1002, switch post, 11, roller, 12, heat preservation and insulation cloth, 13, bottom rod, 1301, switch cavity, 1302, tact switch, 14, transmission gear, 15, the device comprises a motor, 16, a convex mirror, 17, a light-emitting box, 1701, a through hole, 1702, a baffle shaft, 1703, a turntable, 1704, a light blocking sheet, 1705, a micro motor, 18, a capacitor, 19, an operational amplifier, 20, a first single chip microcomputer, 21, a motor driving chip, 22, a light sensor, 23, a second single chip microcomputer, 24, a temperature sensor, 25, an air conditioner, 26, a display panel, 27, an outer cavity, 28, an intermediate cavity, 29, an inner cavity, 30, a connecting column, 31 and a crystal oscillator.

Detailed Description

In order to explain the technical content, structural features, achieved objects and functions of the present invention in detail, the following embodiments are described in detail with reference to the accompanying drawings.

Example 1

Referring to fig. 1 to 4, the utility model provides a new girth for sika deer, which comprises two side walls 1, a rear wall 2, a balustrade 3 and a cover 4, wherein the cover 4 is provided with a light-transmitting window 401 and a vent 402 which can be opened and closed, an inner wall 5 parallel to the rear wall 2 is arranged between the two side walls 1, and the distance between the inner wall 5 and the rear wall 2 is smaller than the distance between the inner wall 5 and the balustrade 3; a plurality of ring chambers 7 are divided between the inner wall 5 and the railing wall 3 by a plurality of guardrails 6, and a light-emitting component and a temperature control component are also arranged in each ring chamber 7; a plurality of troughs 301 (which are convenient for mechanical feeding and are convenient for young deer to eat and eat) are arranged on the parapet wall 3, correspond to the enclosure 7, are arranged on the parapet wall 3, are arranged on the inner wall 5, are arranged in the enclosure 7, are provided with a plurality of inner doors 501, correspond to the enclosure 7, form a corridor 8 between the inner wall 5 and the rear wall 2, and are provided with rear doors 201 on the rear wall 2.

The colony house is 8-10m wide, and the length is designed according to the number scale of female deer or overwintering young deer bred in the deer farm, 30-50m and 3m high, so as to avoid damaging the deer antlers or deer only during deer regulation in antler growing season. The inside of the young deer house can be divided into a plurality of partitions by fences according to the sizes of young deer groups, and the whole shed house is connected in series by doors among the partitions. The rear wall of the young deer house is of a common masonry structure or a steel frame structure, the young deer house is in a state of being sat in the north to the south, the southwest is inclined by 15 degrees to 30 degrees, and the distance between the young deer houses is 3-5 m; the house cover of the young deer colony house is herringbone, the eaves extend out 1.5m and are 3m away from the ground, a feed feeding vehicle can conveniently operate, the feed in the feeding trough is prevented from being wetted by rain and snow, and good ventilation and good illumination are ensured.

The corridor is used for poking deer and raising management on the one hand, and on the other hand, the room is not in direct contact with the rear wall, so that a certain buffer space is provided, and the room has certain buffer capacity for temperature.

With reference to fig. 1 and 3, the balustrade wall 3 includes two vertical posts and a plurality of balustrades 9 horizontally disposed between the posts, wherein the posts are provided with vertical chutes 10, and a light-shielding assembly is disposed between the two vertical chutes 10; the light-shading assembly comprises a rolling shaft 11, two ends of the rolling shaft are arranged at the upper end of the railing wall 3 through bearings and are parallel to the railing, and the rolling shaft 11 is in transmission connection with a power device to realize forward rotation and reverse rotation; the roller 11 is rolled up and is equipped with heat preservation thermal-insulated cloth 12, and the lower extreme fixedly connected with sill bar 13 of heat preservation thermal-insulated cloth 12, and the both ends of sill bar 13 are located in vertical spout 10. The power device comprises a transmission gear 14 arranged at one end of the roller 11 and a motor 15 arranged outside the rear wall 2, and an output shaft of the motor 15 is in transmission connection with the transmission gear 14 through a chain.

The bottom rod can move up and down along the vertical sliding groove along with the forward rotation or the reverse rotation of the roller driven by the motor, so that the purpose of opening and closing the food groove is achieved, and the heat-insulating cloth is used for reducing the influence of outdoor temperature on the indoor temperature of the ring. As shown in fig. 5, the side wall 1 and the rear wall 2 are both hollow walls, and can be built by hollow bricks and trowelled by sand and cement, or can be made by a steel frame structure and a heat-insulating color steel plate; the ceiling is a heat-preservation color steel plate. The south side of the deer shed is isolated by a rail, the eave extends out 1.5 meters, a feed trough with a full length is arranged at the position 0.5 meter away from the ground, the feed trough is divided into two parts by the rail, the young deer is fed at the inner side, and the feed is fed by a feed vehicle at the outer side. The ground height in the deer house is slightly higher than the ground outside, and clean and dry wheat straw mess or rice straw mess is placed on the ground in the deer house, and is changed once every half month, and through heat dissipation of the young deer and heat absorption of the grass mess, the local environment temperature of the colony house is improved, the adverse effect of low temperature on the health of the young deer is avoided, and the energy requirement increased due to cold environment resistance is reduced.

The exocoel 27 that separates into in proper order from the extroversion through the baffle in side wall 1 and the back wall 2, middle chamber 28 and inner chamber 29, be equipped with a plurality of spliced poles 30 of connecting in two relative inner walls and crisscross arrangement of each other in the exocoel 27, the spliced pole can influence the propagation of sound in the exocoel as the barrier when guaranteeing exocoel intensity, middle chamber 28 intussuseption is filled with sound absorbing material, the inner wall shaping of inner chamber 29 is unevenness's irregular surface, further improve sound absorbing effect, when continuing to reduce outdoor temperature and to circle indoor temperature influence, can also play syllable-dividing effect, it frightens the young deer in the circle room to reduce external noise.

As shown in fig. 4, a plurality of convex mirrors 16 are arranged on the lower part of the room cover 4, which is positioned right above the ring chamber 7, through the base, and the height of the inner wall 5 is lower than that of the side wall 1; the light-emitting component comprises a plurality of light-emitting boxes 17 arranged in the corridor 8, LED light sources are arranged in the light-emitting boxes 17, and through holes 1701 which are opposite to the convex mirrors 16 are formed in the top surfaces of the light-emitting boxes 17. The indoor light source is arranged in the corridor, the light source can relatively uniformly irradiate the girth room through the reflection of the convex mirror, the phenomenon that the traditional light source directly irradiates the young deer is avoided, and the light source is arranged in the corridor, so that the follow-up operations such as maintenance and replacement are convenient, and the influence on the young deer is reduced as much as possible.

With reference to fig. 6 and 7, a baffle shaft 1702 is disposed on the top surface of the light-emitting box 17, a rotary disc 1703 is disposed on the baffle shaft 1702 through a bearing, and the radius of the rotary disc 1703 is equal to the distance between the baffle shaft 1702 and the through hole 1701; the outer edge of the turntable 1703 is provided with a plurality of light-blocking sheets 1704 which are uniformly arranged along the circumference, two sides of two adjacent light-blocking sheets 1704 are mutually overlapped, the light transmittance of the plurality of light-blocking sheets 1704 is gradually increased along the anticlockwise direction, and the length of each light-blocking sheet 1704 is larger than the diameter of the through hole 1701; a micro motor 1705 is arranged on one side of the rotating disc 1703 on the light-emitting box 17, and an output shaft of the micro motor 1705 is in transmission connection with the rotating disc 1703 through a belt. The LED light source and the power supply of the micro motor can be arranged in the light-emitting box, and can also be directly connected with commercial power through a wire, and the working state of the light-emitting box is adjusted through manual control.

Because the turntable with the light blocking sheet arranged on the outer edge is arranged outside the light source, the brightness of light irradiating the girth chamber can be uniformly adjusted along with the forward rotation or the reverse rotation of the turntable under the condition that the brightness of the light source is inconvenient, for example, the brightness of the light irradiating the convex mirror after the light is turned on is gradually increased from zero, and the brightness of the light irradiating the convex mirror before the light is turned off is gradually reduced to zero, so that the stimulation of artificial light source brightness and darkness is prevented from being generated on the young deer.

The temperature control assembly comprises a temperature sensor 24 and an air conditioner 25, the temperature sensor 24 is arranged in the colony room 7, the air conditioner 25 is arranged on the rear wall 2, the temperature of the colony house is more uniformly controlled through the buffer of the corridor, and the direct refrigeration or heating stimulation to the young deer is avoided; the temperature sensor 24 is electrically connected to a display panel 26, and the display panel 26 is provided outside the housing.

The temperature in the colony room is monitored through the display panel, and then the temperature in the colony house is in a range suitable for the growth of the young deer by utilizing an air conditioner.

The utility model provides a novel sika deer girth is used for raising six months old to sixteen months old young deer.

Under normal conditions, under the condition that temperature and illumination are suitable, the difference between the colony house and the traditional breeding field is not large, the young deer can enter and exit from the crib, rest in the colony room or move outdoors

Test examples

Choose for use and carry out 12 months 'breeding after the young stag of the sika deer of two sets of six months ages, the quantity of every young stag of group is 30, and the young stag of first group adopts embodiment 1's novel colony house to raise, and the young stag of second group adopts traditional deer to raise, and other for example fodder, feeding mode etc. are identical, and statistics every two months young stags go out the quantity of antler, and the statistical result is shown as table 1:

TABLE 1

	Two months old	Four months old	Six months old	Eight months old	Ten months old	Twelve months old
							First group	0	0	0	1	12	26
Second group	0	0	0	0	2	11

As can be seen from Table 1, the illumination time required by the growth of the young stags and the relatively stable environmental temperature are ensured, so that the growth and development speed of the young stags can be effectively increased, the growth period of young deer cultivation is shortened, the reduction time is about two months, and the wild peach antler can be sawn for more than two times. And in subsequent observation, the wild peach antler grown by the young stags in the second year with the illumination and the temperature kept is not ossified, so that the antler taking period is prolonged, and the economic benefit of the spotted deer is effectively prevented from being influenced by the too fast ossification of the antler.

Example 2

As shown in fig. 8, the present embodiment is different from embodiment 1 in that: the bottom surface of the bottom rod 13 close to the end part is provided with a switch cavity 1301, a light touch switch 1302 is arranged in the switch cavity 1301, the bottom of the vertical chute 10 extends along the bottom surface to form a switch board 1001, and a switch column 1002 corresponding to the light touch switch 1302 is arranged on the switch board 1001.

Referring to fig. 10, the touch control device further includes a main control circuit connected to the micro motor 1705, the main control circuit is connected to a power source, and the main control circuit is connected to the tact switch 1302 in series; an induction circuit is also arranged between the tact switch 1302 and the power supply, the induction circuit comprises a capacitor 18 connected between the tact switch 1302 and the power supply in series, and the capacitor 18 is connected with a calculation branch in parallel;

the calculation branch comprises an operational amplifier 19, a first single chip microcomputer 20 and a motor driving chip 21 which are connected in series, wherein an enabling end of the motor driving chip 21 is connected with an output pin of the first single chip microcomputer 20, an input pin of the first single chip microcomputer 20 is connected with an output pin of the operational amplifier 19, an input pin of the operational amplifier 19 is connected with a plurality of optical sensors 22, and as shown in fig. 9, the optical sensors 22 are arranged between the light-transmitting window 401 and the convex mirror 16; the input pin of the first single chip microcomputer 20 is also connected with a control terminal;

the calculation branch is also connected in parallel with a timing branch, the timing branch comprises a crystal oscillator 31 and a second single chip microcomputer 23 which are connected in series, an input pin of the second single chip microcomputer 23 is connected with the main control circuit, an output pin of the second single chip microcomputer 23 is connected with an enabling end of the motor driving chip 21, and an input pin of the second single chip microcomputer 23 is also connected with a control terminal, even if the reset period of the branch is 24 hours.

On the premise of the structure of embodiment 1, each control structure of this embodiment is self-regulated by a control system: when the heat-preservation and heat-insulation cloth is opened, the outside temperature and the illumination are relatively proper, and the young deer can freely enter and exit the ring chamber and is in a free moving state.

When the external temperature is too hot or too cold and the illumination is insufficient due to weather factors, the young deer is generally driven into the girth chamber and then the heat-preservation and heat-insulation cloth is put down; when the switch column is pressed against the light touch switch, the heat-insulating cloth is completely closed, namely the ring chamber is relatively closed with the outside; at the moment, the first single chip microcomputer compares the illumination intensity received by the optical sensor with the threshold value, so that whether the illumination intensity in the girth room meets the growth requirement of the young deer or not is judged. If yes, the first single chip microcomputer does not send working instructions to the LED light source and the micro motor; if not, the first single chip sends a working instruction to the LED light source and the micro motor to enable the turntable to rotate by a specified angle, so that illumination supplement is provided in the ring chamber. (assuming that the LED light source in the light-emitting box is in a normally open state in the above process, the light source is also connected to the main control circuit in actual use, and the switch is determined according to the judgment result of the calculation branch like the micro motor)

The branch circuit is calculated to start timing at the moment when the switch column contacts the tact switch, representing the time for closing the colony house, and the closing of the colony house represents illumination judgment, and only two results are obtained: the illumination is satisfied, and an artificial light source is not supplemented; if the illumination is not satisfied, an artificial light source is supplemented. That is to say, in this stage, the illumination in the colony house is definitely in accordance with the growth requirement of the young deer, so the statistics of the time for placing the heat-preservation and heat-insulation cloth by the timing branch is the duration of the illumination of the young deer in the colony house, the artificial light source is not started after the multiple times of timing accumulation reach the daily illumination duration (because the young deer is possibly manually released out of the colony house for outdoor activities in the middle), the timing is reset every 24 hours, the illumination time per day is ensured to be enough but not excessive, and the influence on the normal biological clock of the young deer on the growth of the young deer is avoided.

Compared with the embodiment 1, each index and the system of the embodiment are controlled by the intelligent control circuit to realize automatic adjustment, so that the workload of a farmer is reduced, and meanwhile, the growth environment of the young deer can be adjusted more scientifically and accurately.

To sum up, the preferred embodiment of the present invention is only, the protection scope of the present invention is not limited thereto, and all equivalent changes and modifications made in accordance with the patent scope and the content of the specification of the present invention are all within the scope covered by the present invention.

Claims (9)

1. The utility model provides a novel sika deer young deer colony house which characterized in that: including two side walls (1), one side back wall (2) one side railing wall (3) and room lid (4), be equipped with light trap (401) and vent (402) that can open and close on room lid (4), be equipped with food bowl (301) of a plurality of half in railing wall (3) outer half in railing wall (3) on railing wall (3), be equipped with back door (201) on back wall (2).

2. The novel girth for young sika deer as claimed in claim 1, wherein: the rail wall (3) comprises two vertical columns and a plurality of rails (9) which are arranged between the columns and horizontally arranged, vertical sliding grooves (10) are formed in the columns, and a light-shading assembly is arranged between the two vertical sliding grooves (10); the light shading assembly comprises a rolling shaft (11) with two ends arranged at the upper end of the railing wall (3) through bearings and parallel to the railing, and the rolling shaft (11) is in transmission connection with a power device to realize forward rotation and reverse rotation; the roller (11) is rolled with heat-insulating cloth (12), the lower end of the heat-insulating cloth (12) is fixedly connected with a bottom rod (13), and two ends of the bottom rod (13) are arranged in the vertical sliding grooves (10).

3. The novel girth for young sika deer as claimed in claim 2, wherein: the power device comprises a transmission gear (14) arranged at one end of the rolling shaft (11) and a motor (15) arranged outside the rear wall (2), and an output shaft of the motor (15) is in transmission connection with the transmission gear (14) through a chain.

4. A novel girth for sika deer antlers as claimed in claim 3, wherein: side wall (1) with back wall (2) are the cavity wall, side wall (1) with exocoel (27), middle chamber (28) and inner chamber (29) that separate into in proper order from the extroversion through the baffle in back wall (2), be equipped with a plurality of spliced poles (30) of connecting in two relative inner walls and mutual staggered arrangement in exocoel (27), middle chamber (28) intussuseption is filled with sound absorbing material, the inner wall shaping of inner chamber (29) is unevenness's irregular surface.

5. The novel girth for young sika deer as claimed in claim 4, wherein: an inner wall (5) parallel to the rear wall (2) is arranged between the two side walls (1), and the distance between the inner wall (5) and the rear wall (2) is smaller than the distance between the inner wall (5) and the railing wall (3); a plurality of ring chambers (7) are formed between the inner wall (5) and the railing wall (3) by a plurality of guardrails (6), a light-emitting component and a temperature control component are further arranged in each ring chamber (7), a plurality of inner doors (501) corresponding to the ring chambers (7) are arranged on the inner wall (5), and a corridor (8) is formed between the inner wall (5) and the rear wall (2); a plurality of convex mirrors (16) are arranged under the house cover (4) and above the ring chamber (7) through a base, and the height of the inner wall (5) is lower than that of the side wall (1); the light-emitting assembly comprises a plurality of light-emitting boxes (17) arranged in the corridor (8), LED light sources are arranged in the light-emitting boxes (17), and through holes (1701) which are opposite to the convex mirrors (16) are formed in the top surfaces of the light-emitting boxes (17).

6. The novel girth for young sika deer as claimed in claim 5, wherein: a baffle shaft (1702) is arranged on the top surface of the light-emitting box (17), a turntable (1703) penetrates through the baffle shaft (1702) through a bearing, and the radius of the turntable (1703) is equal to the distance between the baffle shaft (1702) and the through hole (1701); a plurality of light-blocking sheets (1704) uniformly arranged along the circumference are arranged at the outer edge of the turntable (1703), two sides of two adjacent light-blocking sheets (1704) are mutually overlapped, the light transmittance of the plurality of light-blocking sheets (1704) is gradually increased along the anticlockwise direction, and the length of each light-blocking sheet (1704) is greater than the diameter of the through hole (1701);

be located on light-emitting box (17) one side of carousel (1703) is equipped with micro motor (1705), the output shaft of micro motor (1705) pass through the belt with carousel (1703) transmission is connected.

7. The novel girth for young sika deer as claimed in claim 6, wherein: the bottom surface of the bottom rod (13) close to the end part is provided with a switch cavity (1301), a touch switch (1302) is arranged in the switch cavity (1301), the bottom of the vertical sliding groove (10) extends along the bottom surface to form a switch board (1001), and a switch column (1002) corresponding to the touch switch (1302) is arranged on the switch board (1001).

8. The novel girth for young sika deer as claimed in claim 7, wherein: the micro-motor controller also comprises a main control circuit connected with the micro-motor (1705), the main control circuit is connected with a power supply, and the main control circuit is connected with the light touch switch (1302) in series; an induction circuit is further arranged between the light-touch switch (1302) and the power supply, the induction circuit comprises a capacitor (18) connected between the light-touch switch (1302) and the power supply in series, and a calculation branch is connected in parallel to the capacitor (18);

the calculation branch comprises an operational amplifier (19), a first single chip microcomputer (20) and a motor drive chip (21) which are connected in series, an enabling end of the motor drive chip (21) is connected with an output pin of the first single chip microcomputer (20), an input pin of the first single chip microcomputer (20) is connected with an output pin of the operational amplifier (19), an input pin of the operational amplifier (19) is connected with a plurality of optical sensors (22), and the optical sensors (22) are arranged between the light-transmitting window (401) and the convex mirror (16); the input pin of the first single chip microcomputer (20) is also connected with a control terminal;

the calculation branch is also connected in parallel with a timing branch, the timing branch comprises a crystal oscillator (31) and a second single chip microcomputer (23) which are connected in series, an input pin of the second single chip microcomputer (23) is connected with the main control circuit, an output pin of the second single chip microcomputer (23) is connected with an enabling end of the motor driving chip (21), and an input pin of the second single chip microcomputer (23) is also connected with a control terminal.

9. The novel girth for young sika deer as claimed in claim 5, wherein: the temperature control assembly comprises a temperature sensor (24) and an air conditioner (25), the temperature sensor (24) is arranged in the colony room (7), the air conditioner (25) is arranged on the rear wall (2), the temperature sensor (24) is electrically connected with a display panel (26), and the display panel (26) is arranged outside the colony house.

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