CN216314790U - Be used for scale infrared monitoring devices that keep warm of newborn chick - Google Patents

Abstract

The utility model provides a heat-preservation infrared monitoring device for large-scale born chicks. The infrared monitoring device for heat preservation of the large-scale born chicks comprises: a heat preservation box body; and the surface of the partition plate is fixed on the inner side of the heat preservation box body and is used for partitioning the inner space of the heat preservation box body. The heat-preservation infrared monitoring device for the large-scale born chicks, provided by the utility model, has the advantages that the inner part of the heat-preservation box body is divided into two groups of heat-preservation spaces through the partition plate, when the chicks are cultured in a heat-preservation mode, the chicks are preferentially arranged on one side of the partition plate, when the supporting component on one side needs to be cleaned and maintained, the chicks are moved to the other side of the partition plate, the supporting component on the other side is adopted to continuously culture the chicks in the heat-preservation mode in the heat-preservation box body in a heat-preservation mode, the time for opening the heat-preservation box body when the supporting component is cleaned is shortened, the detection and dynamic detection of the growth environment of the chicks are carried out through the temperature sensor and the infrared sensor, and the survival rate of the heat-preservation culture of the chicks is guaranteed.

Description

Be used for scale infrared monitoring devices that keep warm of newborn chick

Technical Field

The utility model relates to the technical field of chick heat preservation, in particular to a heat preservation infrared monitoring device for large-scale born chicks.

Background

With the continuous development and progress of domestic breeding industry, the demand of chicken is increased year by year, and in the process of broiler breeding, a good growth environment needs to be ensured from chicks.

After the chicks are hatched, the chicks are easy to die when the change range of the environmental temperature is large in the growth process, the survival rate of the chicks is reduced, the chicks need to be stored in the heat preservation equipment for constant-temperature breeding, the stability of the growth environment of the chicks is guaranteed, and the influence of the cold environment on the breeding of the chicks is avoided.

In the prior art, when the existing chick heat preservation equipment is used for breeding chicks, a single-box heat preservation and storage mode is adopted for breeding, so that after the chicks in the heat preservation box are bred for a long time, the breeding plate part is easily influenced by excrement to cause pollution to the breeding environment of the chicks.

Although the inside bearing structure of chick insulation can drop the excrement to the inside of storing the board, but the long-time activity of chick easily leads to being infected with of chick excrement, need wholly demolish and maintain the bearing structure when clearance and maintenance, and can't continue to keep warm to the chick and store.

Therefore, it is necessary to provide a heat preservation infrared monitoring device for large-scale newborn chicks to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a heat-preservation infrared monitoring device for large-scale born chicks, which solves the problem that the chicks are inconvenient to keep on heat-preservation breeding when excrement in a chick heat preservation box is cleaned.

In order to solve the technical problem, the utility model provides an infrared monitoring device for heat preservation of large-scale newborn chicks, which comprises: a heat preservation box body; the surface of the partition board is fixed on the inner side of the heat preservation box body and used for partitioning the inner space of the heat preservation box body, and a temperature sensor is fixedly installed at the top of the partition board through an embedding hole; the cover plate is rotatably connected to the top of the heat preservation box body through a hinge and used for sealing the heat preservation box body; the surface of the infrared sensor is fixedly arranged on the inner side of the cover plate and is used for monitoring the state of the chicks in the heat preservation box body; the turnover mechanism is used for connecting the heat preservation box body and the cover plate; the supporting component is movably arranged on the inner side of the heat preservation box body and comprises a collecting box, a supporting net rack and air outlet meshes and is used for supporting the chicks in the heat preservation box body; the surface of the heat preservation lamp bank is inlaid in the inner side of the heat preservation box body, and the heat preservation lamp bank is used for keeping the chickens in the heat preservation box body warm.

Preferably, the bottom of baffle is provided with arch notch for the chick is in the both sides of baffle remove.

Preferably, the valve is arranged on the inner side of the partition plate in a vertically sliding mode and used for shielding the arched notch, and a pull ring is arranged at the top of the valve and used for pulling the valve up and down.

Preferably, the surface of the supporting net rack is movably arranged above the collecting box and used for supporting the chicks.

Preferably, the air outlet mesh is arranged on the side surface of the collecting box, and the inside of the air outlet mesh is communicated with the inside of the collecting box and used for outputting the gas in the heat preservation box.

Preferably, the side of the heat preservation lamp group is provided with an air hole, the inner side of the heat preservation lamp group is communicated with the outside, and the input end of the air hole is provided with a fan.

Preferably, the inner wall of the heat preservation box body is fixedly connected with a limiting sliding plate, a baffle is movably mounted between the surface of the limiting sliding plate and the inner surface of the heat preservation box body, and the baffle is used for shielding a notch after the supporting component is pulled out.

Compared with the related technology, the infrared monitoring device for heat preservation of the large-scale born chicks, provided by the utility model, has the following beneficial effects:

the utility model provides a heat-preservation infrared monitoring device for large-scale newborn chicks, wherein the interior of a heat-preservation box body is divided into two groups of heat-preservation spaces through a partition plate, when the chicks are cultured in a heat-preservation mode, the chicks are preferentially arranged on one side of the partition plate, when a supporting component on one side needs to be cleaned and maintained, the chicks are moved to the other side of the partition plate, the supporting component on the other side is adopted to continuously culture the chicks in the heat-preservation box body in a heat-preservation mode, the time for opening the heat-preservation box body when the supporting component is cleaned is shortened, the chick growth environment is detected and dynamically detected through a temperature sensor and an infrared sensor, and the survival rate of the chick heat-preservation culture is guaranteed.

Drawings

FIG. 1 is a three-dimensional view of a preferred embodiment of the infrared monitoring device for heat preservation of large-scale newborn chicks, provided by the utility model;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of the portion B shown in FIG. 1;

fig. 4 is a three-dimensional view of the support assembly shown in fig. 1.

Reference numbers in the figures:

1. a heat preservation box body;

2. a partition plate 21, an embedding hole 22, a temperature sensor 23 and a valve;

3. a cover plate;

4. an infrared sensor;

5. a turnover mechanism;

6. the device comprises a support assembly, a collection box, a support net rack, a collection box, a support net rack and an air outlet mesh;

7. a heat preservation lamp group 71 and air holes;

8. a limiting sliding plate;

9. and a baffle plate.

Detailed Description

The utility model is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3 and fig. 4 in combination, wherein fig. 1 is a three-dimensional view of a preferred embodiment of the infrared monitoring device for scale heat preservation of newborn chicks according to the present invention; FIG. 2 is an enlarged view of portion A of FIG. 1; FIG. 3 is an enlarged view of the portion B shown in FIG. 1; fig. 4 is a three-dimensional view of the support assembly shown in fig. 1.

Example 1:

a infrared monitoring devices that is used for scale birth chick heat preservation includes: a heat preservation box body 1; the surface of the partition plate 2 is fixed on the inner side of the heat preservation box body 1 and used for partitioning the inner space of the heat preservation box body 1, and a temperature sensor 22 is fixedly installed at the top of the partition plate 2 through an embedding hole 21; the cover plate 3 is rotatably connected to the top of the heat preservation box body 1 through a hinge and used for sealing the heat preservation box body 1; the surface of the infrared sensor 4 is fixedly arranged on the inner side of the cover plate 3 and is used for monitoring the state of chicks in the heat preservation box body 1; the turnover mechanism 5 is used for connecting the heat preservation box body 1 and the cover plate 3; the supporting component 6 is movably arranged on the inner side of the heat preservation box body 1, and the supporting component 6 comprises a collecting box 61, a supporting net rack 62 and air outlet meshes 63 and is used for supporting chicks in the heat preservation box body 1; the heat preservation banks 7, the surface mosaic of heat preservation banks 7 in the inboard of heat preservation box 1 is used for right the chick of heat preservation box 1 inside provides the heat preservation.

Be provided with baffle 2 in the inboard of insulation box 1, baffle 2 separates into at least two sets of breed spaces with the inside of insulation box 1, and the convenience is when extracting and clearing up the supporting component 6 of one side, and the chick can keep normal breed on the supporting component 6 of opposite side.

Inlay the inboard temperature sensor 22 in hole 21 and be used for monitoring insulation environment and the temperature state of insulation box 1 inside, inlay the both sides that hole 21 can communicate baffle 2 simultaneously for no matter which side that is located baffle 2 of chick, the homoenergetic detects the environment of chick.

The cover plate 3 is convenient to overturn and adjust through the overturning mechanism 5, and the opening and the closing of the cover plate 3 are convenient to control.

Supporting component 6 is used for supporting heat retaining chick, is used for the collection to chick excrement simultaneously, because support rack 62 is porous structure, nevertheless support rack 62 is after using a period, and the surface still can appear piling up of excrement, needs clear up, consequently adopts the structure of collecting box 61 and support rack 62 integral type, can directly follow the side of insulation box 1 and demolish the maintenance.

The support components 6 are provided with two groups and correspondingly distributed on two sides of the partition board 2.

The feeding part can be internally placed or externally connected with feeding equipment according to the use requirement.

The bottom of baffle 2 is provided with the arch notch for the chick is in the both sides of baffle 2 remove.

The baffle 2 of arch notch makes things convenient for the chick to remove to the culture space of opposite side from the culture space of one side, does not need manual single removal to remove, only need drive the chick to arch notch can.

The valve 23 slides up and down on the inner side of the partition plate 2, the valve 23 is used for shielding the arch-shaped notch, and a pull ring is arranged at the top of the valve 23 and used for pulling the valve 23 up and down.

The top in arch notch sets up the structure of valve 23 for opening and closing of arch notch is controlled, prevents that the chick from moving through arch notch is random, and the guarantee chick is located the stability of breeding that keeps warm in one side breed space.

The pull ring structure is adopted above the valve 23, so that the valve 23 is conveniently pulled upwards, and the movable adjustment and control of the valve 23 are convenient.

The surface of the supporting net rack 62 is movably arranged above the collecting box 61 and is used for supporting the chicks.

The upper surface of the supporting net rack 62 and the upper surface of the collecting box 61 are on the same plane, so that the supporting assembly 6 is convenient to mount and dismount integrally;

corresponding installation chutes are formed in the two sides of the heat preservation box body 1 and used for installing and using the collection box 61.

The collecting box 61 can select whether to use the latch structure according to the use requirement in actual use, and is used for fixing and limiting the collecting box 61 after installation.

The gas outlet mesh 63 is arranged on the side surface of the collecting box 61, and the inside of the gas outlet mesh 63 is communicated with the inside of the collecting box 61 for outputting the gas inside the heat preservation box 1.

The side surface of the heat preservation lamp group 7 is provided with an air hole 71, the inner side of the heat preservation lamp group 7 is communicated with the outside, and the input end of the air hole 71 is provided with a fan.

The back of the heat preservation lamp group 7 is the same as the outside, outside air is conveniently extracted to enter the heat preservation lamp group 7 through the built-in fan, and the air is heated by the heat preservation lamp group 7 after entering the heat preservation lamp group 7 and then is conveyed to the inside of the heat preservation box body 1 through the air holes 71;

on one hand, the circulation of air in the heat preservation box body 1 can be ensured;

on the other hand, the heated gas is conveyed to the inside of the heat preservation box body 1 and then is discharged from the inside of the air outlet mesh 63 after passing through the mesh structure of the support net rack 62, so that the smell in the collection box 61 is discharged along with the flow of the air, the smell of excrement is prevented from flowing into the activity space of the chicks through the support net rack 62, and the heat preservation and breeding environment of the chicks is optimized;

and the uniformity of the internal temperature of the heat preservation box body 1 can be guaranteed through the heated gas flow.

The working principle of the infrared monitoring device for heat preservation of the large-scale born chicks provided by the utility model is as follows:

the infrared sensor 4 dynamically monitors the chicks in the heat preservation box body 1 so as to ensure the safety of the breeding of the chicks;

the temperature sensor 22 detects the ambient temperature inside the heat preservation box body 1, and provides guarantee for temperature control and regulation;

when the chick is required to be adjusted in the breeding space:

the cover plate 3 is opened preferentially;

pulling the valve 23 upwards to open the arch-shaped gap completely;

driving the chicks on one side to the arch-shaped notch, and ensuring that each chick moves to the other side of the partition plate 2 through the arch-shaped notch;

when the chicks are completely moved, the valve 23 is pushed downwards, so that the arch-shaped gap is closed;

at this time, the cover plate 3 is closed;

horizontally extracting the used supporting component 6, splitting the extracted supporting component 6, separating the supporting net rack 62 from the collecting box 61, and independently cleaning and maintaining;

after cleaning, the support frame 62 is remounted above the collection box 61, and the combined support assembly 6 is remounted to the original position.

Compared with the related technology, the infrared monitoring device for heat preservation of the large-scale born chicks, provided by the utility model, has the following beneficial effects:

divide into two sets of heat preservation spaces with the inside of heat preservation box 1 through baffle 2, when the chick keeps warm and breeds, preferentially settle the chick in one side of baffle 2, when needs clear up and maintain the supporting component 6 of one side, remove the chick to the opposite side of baffle 2, the supporting component 6 that adopts the opposite side continues to keep warm to breed the chick of heat preservation box 1 inside, need open the time of heat preservation box 1 when reducing clearance supporting component 6, carry out growing environment's detection and dynamic detection to the chick through temperature sensor 22 and infrared sensor 4, guarantee the survival rate that the chick keeps warm and breeds.

Example 2:

the inner wall of the heat preservation box body 1 is fixedly connected with a limiting sliding plate 8, a baffle plate 9 is movably mounted between the surface of the limiting sliding plate 8 and the inner surface of the heat preservation box body 1, and the baffle plate 9 is used for shielding a notch formed after the supporting component 6 is pulled out.

Because the side of heat preservation box 1 is provided with the breach that provides the installation of supporting component 6 and dismantle, after supporting component 6 extracted, the breach on the heat preservation box 1 then was in the state of opening, and long-time opening can lead to the loss in a large number of the inside temperature of heat preservation box 1, influences normal heat preservation.

Therefore, a baffle plate 9 structure which can be movably adjusted up and down is arranged on the inner wall of the heat preservation box body 1 and is used for shielding the opened gap;

before the support assembly 6 is pulled out, the bottom of the baffle 9 is abutted against the top of the support assembly 6;

after the supporting component 6 is pulled out, the baffle 9 slides downwards under the action of gravity and automatically seals the gap part on the side surface of the heat preservation box body 1;

when the supporting component 6 needs to be reinstalled, the baffle 9 is only required to be lifted upwards, so that the baffle 9 rises above the notch on the side surface of the heat preservation box body 1, and the normal installation of the supporting component 6 is not affected;

and (4) inserting the support assembly 6 into the notch again, and then loosening the baffle plate 9.

Has the advantages that:

the notch on the heat preservation box body 1 is automatically closed through the baffle 9 structure, and a large amount of heat loss appears after the surface supporting assembly 6 is extracted, and when the supporting assembly 6 is cleaned up, the stability of the heat preservation temperature in the heat preservation box body 1 is ensured.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. The utility model provides a be used for scale birth chick infrared monitoring devices that keeps warm which characterized in that includes:

a heat preservation box body;

the surface of the partition board is fixed on the inner side of the heat preservation box body and used for partitioning the inner space of the heat preservation box body, and a temperature sensor is fixedly installed at the top of the partition board through an embedding hole;

the cover plate is rotatably connected to the top of the heat preservation box body through a hinge and used for sealing the heat preservation box body;

the surface of the infrared sensor is fixedly arranged on the inner side of the cover plate and is used for monitoring the state of the chicks in the heat preservation box body;

the turnover mechanism is used for connecting the heat preservation box body and the cover plate;

the supporting component is movably arranged on the inner side of the heat preservation box body and comprises a collecting box, a supporting net rack and air outlet meshes and is used for supporting the chicks in the heat preservation box body;

the surface of the heat preservation lamp bank is inlaid in the inner side of the heat preservation box body, and the heat preservation lamp bank is used for keeping the chickens in the heat preservation box body warm.

2. The infrared monitoring device for scale birth chick heat preservation according to claim 1, wherein the bottom of the partition plate is provided with an arched notch for chicks to move on both sides of the partition plate.

3. The infrared monitoring device for large-scale heat preservation of newborn chicks as claimed in claim 2, wherein a valve is arranged on the inner side of the partition plate in a sliding manner up and down and used for shielding the arched notch, and a pull ring is arranged on the top of the valve and used for pulling the valve up and down.

4. The infrared monitoring device for the heat preservation of the scaled born chicks as claimed in claim 1, wherein the surface of the supporting net rack is movably installed above the collecting box for supporting the chicks.

5. The infrared monitoring device for large-scale heat preservation of newborn chicks as claimed in claim 1, wherein the vent holes are opened on the side surface of the collection box, and the inside of the vent holes is communicated with the inside of the collection box for outputting the gas inside the heat preservation box.

6. The infrared monitoring device for the heat preservation of the large-scale newborn chicks as claimed in claim 1, wherein air holes are formed in the side faces of the heat preservation lamp groups, the inner sides of the heat preservation lamp groups are communicated with the outside, and the input ends of the air holes are provided with fans.

7. The infrared monitoring device for large-scale heat preservation of newborn chicks as claimed in claim 1, wherein the inner wall of the heat preservation box body is fixedly connected with a limiting sliding plate, a baffle is movably arranged between the surface of the limiting sliding plate and the inner surface of the heat preservation box body, and the baffle is used for shielding a gap after the support component is pulled out.

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