CN209861961U - Raise chickens and eat device with automatic feeding - Google Patents

Abstract

The utility model discloses a raise chickens and eat device with automatic feeding, include: the automatic weighing device comprises a base, a weighing plate, a first weight sensor, M springs, a feeding groove, a second weight sensor, M springs, a storage tank, N support frames, a feeding hopper, a discharge port, a material blocking block, P discharge parts and a control box; the discharge portion includes: the support, the spring III, the sheath, the sleeve, the lifting rod and the electromagnet; the weighing plate is arranged on the base through M springs, two ends of the weight sensor I are connected with the weighing plate and the base respectively, the feeding groove is arranged on the base through M springs, two ends of the weight sensor II are connected with the feeding groove and the base respectively, and the N support frames are arranged around the bottom of the storage tank. The utility model discloses a set up base, weighing plate, weight inductor one, M spring one, feeding groove, weight inductor two, M spring two have realized the effect of the fodder of eating the adapted amount according to the weight of chicken comes the automation.

Description

Raise chickens and eat device with automatic feeding

Technical Field

The utility model relates to a feed and eat the device, especially indicate a raise chickens and eat device with automatic feeding.

Background

The chicken raising is one of important components of agricultural breeding, and the production behaviors of chicken and eggs are obtained by utilizing the physiological functions of chickens through artificial feeding and breeding by using modes of mountain chicken raising, plastic greenhouse chicken raising, cage chicken raising and the like and converting plant feed into animal energy.

In the process of raising chickens, feeding is the most critical link, the corresponding weight of feed needs to be fed to chickens with different weights, if the feed is less, the chickens cannot fully eat and grow well, the yield of chicken is influenced, the production benefit is reduced, if the feed is too much, the chickens cannot eat the feed completely, the feed waste can be caused, the production cost is increased, the mode of artificial feeding is mainly adopted for feeding the chickens, a large amount of manpower and time are needed for artificial feeding, the production cost is increased, and the large-scale breeding is not facilitated.

In order to enable chicken feeding to be automatic, the prior art provides a feed storage barrel, a feed tray, a plug ball and an elastic device, wherein the feed storage barrel, the feed tray, the plug ball and the elastic device are used for enabling the chicken to peck the feed tray and enable the plug ball to move downwards so as to discharge, but the plug ball simultaneously bears upward pulling force of the elastic device, downward pressure of the feed on the plug ball and pecking force of the chicken, the pressure of the feed on the plug ball is smaller and smaller as the feed in the feed storage barrel is less and less, the chicken is more and more difficult to drive the plug ball to move downwards through the pecking force until the chicken cannot peck the feed, and the device fails at the moment and cannot automatically feed; moreover, the device can not scientifically and reasonably feed the chicken according to the weight of the chicken.

Based on the above circumstances, there is a need for an automatic feeding device for raising chickens, so as to solve the problem that the above devices cannot automatically and reasonably feed chickens.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a raise chickens and eat device with automatic feeding, include:

the automatic weighing device comprises a base, a weighing plate, a first weight sensor, M springs, a feeding groove, a second weight sensor, M springs, a storage tank, N support frames, a feeding hopper, a discharge port, a material blocking block, P discharge parts and a control box; the discharge portion includes: the support, the spring III, the sheath, the sleeve, the lifting rod and the electromagnet;

the weighing plate is arranged on the base through M springs I, two ends of a weight sensor I are respectively connected with the weighing plate and the base, a feeding groove is arranged on the base through M springs II, two ends of the weight sensor II are respectively connected with the feeding groove and the base, N support frames are arranged around the bottom of the storage tank, a feeding hopper is arranged at the top of the storage tank, a discharge port is arranged at the bottom of the storage tank, a material blocking block is matched with the discharge port, two ends of P discharge portions are respectively connected with the storage tank and the material blocking block, a support is fixed at the bottom of the material blocking block, two ends of a spring III are respectively connected with the bottom of the storage tank and the support, a sheath sleeve is sleeved outside the spring III, a sleeve is arranged at the bottom of the storage tank, a lifting rod is arranged on the support, the lifting rod is connected with the sleeve, an electromagnet is arranged in the sleeve, the weight sensor I and the weight sensor, the control box is connected with the electromagnet in a control mode, and the M, N, P are all larger than 1.

Preferably, still include agitator motor, (mixing) shaft, Q stirring vane, agitator motor sets up at the top of storage tank, (mixing) shaft and agitator motor's output shaft, and Q stirring vane sets up on the (mixing) shaft, and the control box is connected with agitator motor control, Q is greater than 1.

Preferably, still include temperature-sensing ware one, temperature-sensing ware two, R heating device, temperature-sensing ware one sets up on the storage tank outer wall, and temperature-sensing ware two sets up on the storage tank inner wall, and R heating device sets up on the inner wall of storage tank, and temperature-sensing ware one, temperature-sensing ware two and control box signal connection, control box and heating device control connection, R is greater than 1.

Preferably, the storage tank further comprises a third weight sensor, and the third weight sensor is arranged at the bottom of the storage tank.

Preferably, still include wash water pipe, nozzle, wash water pipe sets up on the outer wall of storage tank, and the nozzle setting is on wash water pipe.

Preferably, still include the heat preservation insulating layer, the heat preservation insulating layer sets up on the storage tank.

The utility model discloses at least, include following beneficial effect:

in the scheme, by arranging a base and a weighing plate arranged on the base through M springs I, arranging a first weight sensor with two ends respectively connected with the weighing plate and the base, arranging a feeding groove arranged on the base through M springs II, arranging a second weight sensor with two ends respectively connected with the feeding groove and the base, arranging N support frames around the bottom of the storage tank, arranging a feeding hopper at the top of the storage tank, arranging a discharge port at the bottom of the storage tank, arranging a material blocking block matched with the discharge port, arranging P discharge parts with two ends respectively connected with the storage tank and the material blocking block, arranging a support fixed at the bottom of the material blocking block, arranging a third spring with two ends respectively connected with the bottom of the storage tank and the support, arranging a sheath sleeved outside the third spring, arranging a sleeve at the bottom of the storage tank, arranging a lifting rod on the support, and connecting the lifting rod with the sleeve, the electromagnet is arranged in the sleeve, the first weight sensor and the second weight sensor are in signal connection with the control box, the control box is in control connection with the electromagnet, the M, N, P is larger than 1, therefore, when a chicken walks onto the weighing plate to eat, the first weight sensor below the weighing plate detects the weight of the chicken, the weight signal is sent to the control box, the control box calculates the weight of the feed to be fed according to the weight of the chicken, the control box controls the electromagnet to generate a magnetic field according to a level signal output by the first weight sensor, the magnetic field pushes the lifting rod to move downwards, the material blocking block is driven to move downwards, the discharge hole is opened, the feed falls into the feeding groove from the discharge hole, when the second weight sensor senses that the weight of the feed in the feeding groove reaches the calculated weight, the control box controls the electromagnet to be closed, the material blocking block blocks the discharge hole under the pulling force of the third spring, the feeding is stopped, so that the most appropriate amount of feed is supplied to the chickens, the feed is not small in amount and wasted, full-automatic feeding is realized, manual feeding and caring are not needed, the automation degree of chicken raising is greatly improved, and the labor cost is reduced. Simultaneously, in this scheme, through setting up the agitator motor at the storage tank top to and set up in agitator motor output shaft's (mixing) shaft, set up at the epaxial Q stirring vane of stirring, the control box is connected with agitator motor control, Q is greater than 1, and like this, agitator motor drives the (mixing) shaft and rotates, and then drives stirring vane and rotate, and stirring vane stirs the fodder in the storage tank, prevents that the fodder from bonding, also is favorable to the whereabouts from the discharge gate of fodder, has improved the feed efficiency of device. Simultaneously, in this scheme, through setting up temperature-sensing ware one on the storage tank outer wall to and set up temperature-sensing ware two on the storage tank inner wall, set up R heating device on the storage tank inner wall, temperature-sensing ware one, temperature-sensing ware two and control box signal connection, control box and heating device control connection, R is greater than 1, like this, when outside temperature is lower is sensed to temperature-sensing ware one, the control box heats the fodder according to the level signal control heating device of temperature-sensing ware output, and through the temperature of temperature-sensing ware two real time monitoring fodder, when fodder temperature adaptation jar external environment temperature, stop the heating promptly, the fodder of optimum temperature can be eaten to the chicken this moment, reduces the probability that the chicken got ill by a wide margin, and the energy resource consumption of reduction device. Simultaneously, in this scheme, through setting up weight inductor three in storage tank bottoms portion, like this, can implement the reserves of monitoring jar interior fodder through weight inductor three, weight inductor three conveys the controller with the signal, when the reserves is less than a definite value, sends the police dispatch newspaper by the controller, reminds the staff to add the fodder, prevents to take place the condition of disconnected material. Simultaneously, in this scheme, through setting up the washing water pipe on the storage tank outer wall, set up the nozzle on washing water pipe, like this, can wash the feeding groove through washing water pipe and nozzle, prevent that remaining fodder from being eaten by the chicken after rotten on the feeding groove, reduced the probability that the chicken got ill. Simultaneously, in this scheme, through setting up the thermal insulation layer on the storage tank, like this, can keep jar interior fodder to be in lower temperature in summer, do benefit to the fodder and keep for a long time, can keep jar interior fodder to be in higher temperature in winter, reduce the heat and scatter and disappear, improved the adaptability of device greatly.

Drawings

Fig. 1 is a schematic structural diagram of a feeding device according to an embodiment of the present invention.

Fig. 2 is a partial schematic view of the position a of the present invention.

Fig. 3 is a partial schematic view of the present invention at B.

Fig. 4 is a partial schematic view of the present invention at C.

Description of the drawings: 1-a base, 2-a weighing plate, 3-a first weight sensor, 4-a first spring, 5-a feeding trough, 6-a second weight sensor, 7-a second spring, 8-a material storage tank, 9-a support frame, 10-a feed hopper, 11-a discharge port, 12-a material blocking block, 13-a discharge part, 14-a control box, 15-a support, 16-a third spring, 17-a sheath, 18-a sleeve, 19-a lifting rod, 20-an electromagnet, 21-a stirring motor, 22-a stirring shaft, 23-a stirring blade, 24-a first temperature sensor, 25-a second temperature sensor, 26-a heating device, 27-a third weight sensor, 28-a flushing water pipe, 29-a nozzle and 30-a heat preservation and insulation layer.

Detailed Description

The embodiments of the present invention will be described in more detail below with reference to the accompanying drawings and reference numerals, so that those skilled in the art can implement the embodiments after studying the specification. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "upper", "horizontal", "inner", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Fig. 1-4 show that the utility model discloses a raise chickens and eat device with automatic feeding, include:

the automatic weighing device comprises a base 1, a weighing plate 2, a first weight sensor 3, M first springs 4, a feeding groove 5, a second weight sensor 6, M second springs 7, a storage tank 8, N support frames 9, a feeding hopper 10, a discharge hole 11, a material blocking block 12, P discharge parts 13 and a control box 14; the discharging section 13 includes: the device comprises a support 15, a spring III 16, a sheath 17, a sleeve 18, a lifting rod 19 and an electromagnet 20;

the weighing plate 2 is arranged on the base 1 through M springs I4, two ends of a weight sensor I3 are respectively connected with the weighing plate 2 and the base 1, a feeding groove 5 is arranged on the base 1 through M springs II 7, two ends of a weight sensor II 6 are respectively connected with the feeding groove 5 and the base 1, N support frames 9 are arranged around the bottom of the storage tank 8, a feed hopper 10 is arranged at the top of the storage tank 8, a discharge port 11 is arranged at the bottom of the storage tank 8, a material blocking block 12 is matched with the discharge port 11, two ends of P discharging parts 13 are respectively connected with the storage tank 8 and the material blocking block 12, a support 15 is fixed at the bottom of the material blocking block 12, two ends of a spring III 16 are respectively connected with the bottom of the storage tank 8 and the support 15, a sheath 17 is sleeved outside the spring III 16, a sleeve 18 is arranged at the bottom of the storage tank 8, a lifting rod 19 is arranged on the support 15, and the lifting rod 19 is connected, the electromagnet 20 is arranged in the sleeve 18, the first weight sensor 3 and the second weight sensor 6 are in signal connection with the control box 14, the control box 14 is in control connection with the electromagnet 20, and the M, N, P is larger than 1.

Adopt this kind of scheme, through setting up base 1 to and set up weighing plate 2 of installing on base 1 through a M spring 4, set up the weight inductor 3 that weighing plate 2 and base 1 are connected respectively at both ends, the model of weight inductor 3 is: TJH-4A sets up feeding groove 5 of installing on base 1 through two 7 of M springs, sets up two 6 of weight inductor that feeding groove 5 and base 1 are connected respectively at both ends, and the model of two 6 of weight inductor is: TJH-4A, N support frames 9 arranged around the bottom of a storage tank 8, a feed hopper 10 arranged at the top of the storage tank 8, a discharge port 11 arranged at the bottom of the storage tank 8, a material blocking block 12 matched with the discharge port 11, P discharge parts 13 with two ends respectively connected with the storage tank 8 and the material blocking block 12, a support 15 fixed at the bottom of the material blocking block 12, a spring III 16 with two ends respectively connected with the bottom of the storage tank 8 and the support 15, a sheath 17 sleeved outside the spring III 16, a sleeve 18 arranged at the bottom of the storage tank 8, a lifting rod 19 arranged on the support 15, the lifting rod 19 connected with the sleeve 18, an electromagnet 20 arranged in the sleeve 18, a first weight inductor 3 and a second weight inductor 6 in signal connection with a control box 14, the control box 14 in control connection with the electromagnet 20, wherein M, N, P is larger than 1, when a chicken walks onto the weighing plate 2 for feeding, the weight sensor I3 below the weighing plate 2 detects the weight of the chicken, a weight signal is sent to the control box 14, the control box 14 calculates the weight of the feed to be fed according to the weight of the chicken, the control box 14 controls the electromagnet 20 to generate a magnetic field according to a level signal output by the weight sensor I3, the magnetic field pushes the lifting rod 19 to move downwards so as to drive the material blocking block 12 to move downwards, the discharge hole 11 is opened, the feed falls into the feeding groove 5 from the discharge hole 11, when the weight sensor II 6 senses that the weight of the feed in the feeding groove 5 reaches the calculated weight, the control box 14 controls the electromagnet 20 to be closed, the material blocking block 12 blocks the discharge hole 11 under the pulling force of the spring III 16 to stop feeding, the most suitable amount of feed is supplied to the chicken, and the feed is neither small in amount nor wasted, and full-automatic feeding is realized, the chicken feeder does not need manual feeding and caring, greatly improves the automation degree of chicken raising, and reduces the labor cost.

In another example, the stirring device further comprises a stirring motor 21, a stirring shaft 22 and Q stirring blades 23, wherein the stirring motor 21 is arranged at the top of the storage tank 8, the stirring shaft 22 is connected with an output shaft of the stirring motor 21, the Q stirring blades 23 are arranged on the stirring shaft 22, the control box 14 is in control connection with the stirring motor 21, and Q is greater than 1.

Adopt this kind of scheme, through setting up agitator motor 21 at storage tank 8 top to and set up in agitator motor 21 output shaft's (mixing) shaft 22, set up Q stirring vane 23 on (mixing) shaft 22, control box 14 and agitator motor 21 control connection, Q is greater than 1, and like this, agitator motor 21 drives (mixing) shaft 22 and rotates, and then drives stirring vane 23 and rotate, and stirring vane 23 stirs the fodder in the storage tank 8, prevents that the fodder from bonding, also is favorable to the fodder from 11 whereabouts of discharge gates, has improved the feed efficiency of device.

In another example, the device further comprises a first temperature sensor 24, a second temperature sensor 25 and R heating devices 26, wherein the first temperature sensor 24 is arranged on the outer wall of the storage tank 8, the second temperature sensor 25 is arranged on the inner wall of the storage tank 8, the R heating devices 26 are arranged on the inner wall of the storage tank 8, the first temperature sensor 24 and the second temperature sensor 25 are in signal connection with the control box 14, the control box 14 is in control connection with the heating devices 26, and R is greater than 1.

Adopt this kind of scheme, through setting up the first 24 of temperature-sensing ware on the outer wall of storage tank 8 to and set up the second 25 of temperature-sensing ware on the inner wall of storage tank 8, the model of the first 24 of temperature-sensing ware and the second 25 of temperature-sensing ware is: S-TMB-M006, R heating device 26 that sets up on the storage tank 8 inner wall, temperature-sensing ware 24, temperature-sensing ware two 25 and control box 14 signal connection, control box 14 and heating device 26 control connection, R is greater than 1, like this, when temperature-sensing ware 24 senses that outside air is lower, control box 14 heats the fodder according to the level signal control heating device 26 of temperature-sensing ware 24 output, and through the temperature-sensing ware two 25 real time monitoring fodder temperature, when the fodder temperature adapts to the external environment temperature of jar, stop heating promptly, the fodder of optimum temperature can be eaten to the chicken at this moment, reduce the probability that the chicken got ill by a wide margin, and reduce the energy consumption of device.

In another example, a third weight sensor 27 is further included, and the third weight sensor 27 is disposed at the bottom of the material storage tank 8.

Adopt this kind of scheme, through setting up the weight inductor three 27 in the storage tank 8 bottom, the model of weight inductor three 27 is: TJH-4A, like this, can implement the reserves of control jar interior fodder through weight inductor three 27, weight inductor three with signal transmission to controller, when the reserves is less than a definite value, send out the police dispatch newspaper by the controller, remind the staff to add the fodder, prevent to take place the condition of disconnected material.

In another example, the device further comprises a flushing water pipe 28 and a nozzle 29, wherein the flushing water pipe 28 is arranged on the outer wall of the storage tank 8, and the nozzle 29 is arranged on the flushing water pipe 28.

Adopt this kind of scheme, through setting up the washing water pipe 28 on the storage tank 8 outer wall, set up the nozzle 29 on washing water pipe 28, like this, can wash feeding groove 5 through washing water pipe 28 and nozzle 29, prevent that the rotten back of remaining fodder on feeding groove 5 from being eaten by the chicken, reduced the probability that the chicken got ill.

In another example, the storage tank further comprises a thermal insulation layer 30, and the thermal insulation layer 30 is arranged on the storage tank 8.

Adopt this kind of scheme, through setting up the thermal insulation layer 30 on storage tank 8, like this, can keep jar interior fodder to be in lower temperature in summer, do benefit to the fodder to keep for a long time, can keep jar interior fodder to be in higher temperature in winter, reduce the heat and scatter and disappear, improved the adaptability of device greatly.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (6)

1. A raise chickens and eat device with automatic feeding, its characterized in that includes: the automatic weighing device comprises a base (1), a weighing plate (2), a first weight sensor (3), M first springs (4), a feeding groove (5), a second weight sensor (6), M second springs (7), a storage tank (8), N support frames (9), a feeding hopper (10), a discharge hole (11), a material blocking block (12), P discharge parts (13) and a control box (14); the discharge section (13) comprises: the device comprises a support (15), a spring III (16), a sheath (17), a sleeve (18), a lifting rod (19) and an electromagnet (20);

the weighing plate (2) is arranged on the base (1) through M springs I (4), two ends of a weight sensor I (3) are respectively connected with the weighing plate (2) and the base (1), the feeding groove (5) is arranged on the base (1) through M springs II (7), two ends of a weight sensor II (6) are respectively connected with the feeding groove (5) and the base (1), N support frames (9) are arranged around the bottom of the material storage tank (8), a feed hopper (10) is arranged at the top of the material storage tank (8), a discharge port (11) is arranged at the bottom of the material storage tank (8), a material blocking block (12) is matched with the discharge port (11), two ends of P discharge parts (13) are respectively connected with the material storage tank (8) and the material blocking block (12), a support (15) is fixed at the bottom of the material blocking block (12), two ends of a spring III (16) are respectively connected with the bottom of the material storage tank (8) and the material storage support (15), sheath (17) cover is established in the outside of spring three (16), and sleeve (18) set up in the bottom of storage tank (8), and lifter (19) set up on support (15), and lifter (19) are connected with sleeve (18), and electro-magnet (20) set up in sleeve (18), and weight inductor one (3), weight inductor two (6) and control box (14) signal connection, control box (14) and electro-magnet (20) control connection, M, N, P all is greater than 1.

2. The automatic feeding device for raising chickens, according to claim 1, further comprising a stirring motor (21), a stirring shaft (22) and Q stirring blades (23), wherein the stirring motor (21) is arranged at the top of the storage tank (8), the stirring shaft (22) is connected with an output shaft of the stirring motor (21), the Q stirring blades (23) are arranged on the stirring shaft (22), the control box (14) is in control connection with the stirring motor (21), and Q is greater than 1.

3. The automatic feeding device for raising chickens according to claim 1, further comprising a first temperature sensor (24), a second temperature sensor (25) and R heating devices (26), wherein the first temperature sensor (24) is arranged on the outer wall of the storage tank (8), the second temperature sensor (25) is arranged on the inner wall of the storage tank (8), the R heating devices (26) are arranged on the inner wall of the storage tank (8), the first temperature sensor (24) and the second temperature sensor (25) are in signal connection with the control box (14), the control box (14) is in control connection with the heating devices (26), and R is greater than 1.

4. The automatic feeding device for raising chickens of claim 1, further comprising a third weight sensor (27), wherein the third weight sensor (27) is arranged at the bottom of the storage tank (8).

5. The automatic feeding device for raising chickens of claim 1, further comprising a washing water pipe (28) and a nozzle (29), wherein the washing water pipe (28) is arranged on the outer wall of the material storage tank (8), and the nozzle (29) is arranged on the washing water pipe (28).

6. The automatic feeding device for raising chickens of claim 1, further comprising a thermal insulation layer (30), wherein the thermal insulation layer (30) is arranged on the storage tank (8).