CN218104486U - Energy-saving heating lamp for pig farm - Google Patents

Abstract

The utility model discloses a pig farm is with energy-conserving heating lamp, including heating lamp, controller and thermal infrared imager, the heating lamp passes through the controller with thermal infrared imager electric connection, thermal infrared imager installs in the pig house. The utility model detects the temperature of the pig through the thermal infrared imager and automatically adjusts the brightness of the heating lamp through the controller according to the detected temperature, thereby saving energy consumption; meanwhile, the energy-saving floor is installed, a plurality of annular gravity sensors from inside to outside are installed on the floor of the pigsty, and the brightness of the warming lamp is automatically adjusted by positioning the piglets at different positions and stepping on different gravity sensors; the two adjusting modes are matched for use, the energy is saved, the growing requirements of piglets are better met, and when one adjusting mode fails, the other adjusting mode can play an adjusting role.

Description

Energy-saving heating lamp for pig farm

Technical Field

The utility model relates to a pig farm is with energy-conserving heating lamp belongs to cultured equipment technical field.

Background

In a large pig farm, particularly in winter, the largest restriction factor of piglets in a delivery room in winter is temperature, and various problems of piglets can be caused due to poor temperature control. After the piglets are born, the self cold resistance is poor, the required temperature is high, and the temperature of a piglet pigsty needs to be increased by a special warming lamp.

The existing piglet warming lamp used in a certain large pig farm is similar to a bathroom warmer warming lamp used by human beings during bathing, the piglet warming lamp is hung up and is vertical above the piglet through a rope, and when a breeding person observes the state of the piglet through naked eyes and judges that the piglet feels hot according to experience, the piglet warming lamp is pulled upwards manually; when the breeding personnel observe the state of the piglet by naked eyes and judge that the piglet feels cold by experience, the piglet warming lamp is manually put downwards; the heating quantity of the piglet is adjusted by adjusting the distance between the heating lamp and the piglet in the prior art, and although the adjustment of the heating quantity of the piglet is realized, the power of the heating lamp is invariable all the time, so that a large amount of energy is wasted.

Moreover, the position of the heating lamp needs to be adjusted manually by the breeding personnel, which wastes time and labor.

Furthermore, the breeder judges by experience by observing the piglet that the adjusted temperature is not the optimum temperature for the piglet which, due to instinctive reaction, will be bunched under the heating lamp when the piglet feels cold and will be separated and automatically kept away from the heating lamp when the piglet feels hot.

Disclosure of Invention

The to-be-solved technical problem of the utility model is: provides an energy-saving heating lamp for a pig farm, and aims to solve the problems in the prior art.

The utility model discloses the technical scheme who takes does: the utility model provides a pig farm is with energy-conserving heating lamp, includes heating lamp, controller and thermal infrared imager, the heating lamp passes through the controller with thermal infrared imager electric connection, the thermal infrared imager is installed in the pig house.

Preferably, the thermal infrared imager is electrically connected with an alarm through the controller.

Preferably, the thermal infrared imager is an X series thermal infrared imager.

Preferably, a plurality of annular gravity sensors are arranged on the floor of the pigsty from inside to outside, and each gravity sensor is electrically connected with the heating lamp through the controller.

The utility model has the advantages that: compared with the prior art, the utility model detects the temperature of the pig through the thermal infrared imager and automatically adjusts the brightness of the heating lamp through the controller according to the detected temperature, thereby saving energy consumption; meanwhile, the energy-saving floor is installed, a plurality of annular gravity sensors from inside to outside are installed on the floor of the pigsty, and the brightness of the warming lamp is automatically adjusted by positioning the piglets at different positions and stepping on different gravity sensors; the two adjusting modes are matched for use, so that the energy is saved, the growth requirement of piglets is better met, and when one adjusting mode fails, the other adjusting mode still can play an adjusting role.

Drawings

Fig. 1 is a front sectional view of the overall structure.

Fig. 2 is a top cross-sectional view of the overall structure.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

Reference numerals in the drawings of the specification include: the pigsty comprises a pigsty 1, a heating lamp 2, a thermal infrared imager 3, a floor 4, a first gravity sensor 41, a second gravity sensor 42 and a third gravity sensor 43.

Example 1:

an energy-saving heating lamp for a pig farm is shown in figures 1-2 and comprises a heating lamp 2, a controller and a thermal infrared imager 3, wherein the thermal infrared imager 3 is installed on the left side wall of the pig farm 1, the heating lamp 2 is hung in the center of the pig farm 1, the heating lamp 2 is provided with three levels of high, medium and low brightness, the heating lamp 2 is in the conventional structure, the principle of brightness adjustment of the heating lamp 2 is similar to that of a desk lamp, and the heating lamp 2 is electrically connected with the thermal infrared imager 3 through the controller.

The infrared thermal imaging principle is utilized to carry out nondestructive testing on the pigs and monitor the body temperature of the swinery in real time.

Setting a normal range of the body temperature of the swinery through the controller, and if the thermal infrared imager 3 detects that the temperature of the swinery is lower than the upper limit of a set value, controlling the brightness of the heating lamp 2 to be low grade through the thermal infrared imager 3; similarly, if the thermal infrared imager 3 detects that the temperature of the swinery is lower than the lower limit of the set value, the thermal infrared imager 3 controls the brightness of the heating lamp 2 to be high-grade through the controller; if the thermal infrared imager 3 detects that the temperature of the swinery is a normal value, the thermal infrared imager 3 controls the brightness of the heating lamp 2 to be a middle grade through the controller; thereby realize according to the temperature automatically regulated heating lamp 2's of swinery power, greatly reduced energy consumption and automation mechanized operation reduce intensity of labour, especially at night, need not the special messenger and guard on duty.

The thermal infrared imager 3 in the present embodiment is an X-series thermal infrared imager.

In this embodiment, thermal infrared imager 3 has the alarm through controller electric connection, and when the pig body temperature was higher than normal value, thermal infrared imager 3 sent the warning through controller control alarm, and the staff hears the alarm after, in time discovers that the piglet body temperature is unusual and in time handles, avoids the piglet state of an illness to worsen. The method reduces the breeding cost for farmers and can ensure the health of the swinery to the maximum extent.

Because the temperature that the manual work set up is not the optimum temperature for the piglet, the piglet because instinctive reaction, when the piglet feels cold, the piglet can prick and pile under heating lamp 2, when the piglet feels hot, the piglet can separate and keep away from heating lamp 2 automatically.

Therefore, as shown in fig. 1-2, the upper end of the floor 4 of the pigsty 1 is inlaid with a first gravity sensor 41, a second gravity sensor 42 and a third gravity sensor 43 in a ring shape from inside to outside, the first gravity sensor 41, the second gravity sensor 42 and the third gravity sensor 43 are all coaxially arranged with the heating lamp 2, and the first gravity sensor 41, the second gravity sensor 42 and the third gravity sensor 43 are all electrically connected with the heating lamp 2 through the controller.

When the piglets step on the first gravity sensor 41, the second gravity sensor 42 and the third gravity sensor 43 respectively, the first gravity sensor 41, the second gravity sensor 42 and the third gravity sensor 43 control the brightness of the warming lamp 2 to automatically perform corresponding adjustment, wherein when the piglets step on the first gravity sensor 41, the brightness of the warming lamp 2 is automatically adjusted to be high grade, and when the piglets step on the second gravity sensor 42, the brightness of the warming lamp 2 is automatically adjusted to be middle grade; when the piglet steps on the third gravity sensor 43, the brightness of the heating lamp 2 is automatically adjusted to a low level.

If some piglets step on the first gravity sensor 41, some piglets step on the second gravity sensor 42, and some piglets step on the third gravity sensor 43, the maximum gravity among the three gravity sensors is taken as the reference, for example, if the maximum gravity is detected by the first gravity sensor 41, which indicates that most piglets are above the first gravity sensor 41, the first gravity sensor 41 controls the brightness of the heating lamp 2 to be automatically adjusted to be high grade through the controller, and so on.

Thereby the power of the heating lamp 2 can be adjusted correspondingly according to the position of the piglet, and the piglet growth can be better adapted to.

Two kinds of adjustment mode cooperation are used, can satisfy the demand of porkling better when realizing energy-conservation, and when one of them adjustment mode became invalid, another adjustment mode still can play the regulatory action.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention, therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims (3)

1. An energy-saving heating lamp for a pig farm is characterized in that: the heating system comprises a heating lamp (2), a controller and a thermal infrared imager (3), wherein the heating lamp (2) is electrically connected with the thermal infrared imager (3) through the controller, and the thermal infrared imager (3) is installed in a pig house (1); a plurality of annular gravity sensors are arranged on the floor (4) of the pigsty (1) from inside to outside, and each gravity sensor is electrically connected with the heating lamp (2) through the controller.

2. An energy-saving heating lamp for pig farms according to claim 1, characterized in that: the thermal infrared imager (3) is electrically connected with an alarm through the controller.

3. The energy-saving heating lamp for the pig farm according to claim 1, characterized in that: the thermal infrared imager (3) is an X series thermal infrared imager.

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