Summer feeding and water supplying device for animal husbandry
Technical Field
The invention relates to a summer feed water supply device for animal husbandry, belonging to the field of summer feed water supply devices for animal husbandry.
Background
The physiological function of the raw animals is changed into animal energy by artificial feeding and breeding, so as to obtain the production departments of animal products such as meat, eggs, milk, wool, cashmere, skin, silk, medicinal materials and the like. Is different from self-sufficient livestock breeding, and is mainly characterized by centralization, scale production and profit-making production purposes. The method is an extremely important link for exchanging substances between human beings and the nature, the animal husbandry is one of the components of agriculture, and the two major pillars which are parallel to the planting industry and are used for agricultural production are that at present, breeding personnel mainly cool the living environment of animals in summer to avoid summer heat, but the appetite of the animals cannot be guaranteed.
The feed feeding and water supplying device for the livestock husbandry in summer does not change the size of the feed according to the actual condition of the animals when feeding, so that the appetite of the animals is reduced, and the growth speed of the animals is reduced.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a summer feeding and water supplying device for animal husbandry, which solves the problem that the prior art is imperfect, and the feed size of the prior summer feeding and water supplying device for animal husbandry is not changed according to the actual condition of animals when feeding, so that the appetite of the animals is reduced, and the growth speed of the animals is reduced.
In order to achieve the purpose, the invention is realized by the following technical scheme: the feeding and water supplying device for the livestock husbandry in summer structurally comprises a supply device, a machine body, a discharge chute, a discharge opening, a placing bin, a water pipe, a controller, a support frame, a hand push rod and a heat dissipation opening, wherein the supply device is installed inside the machine body; the feeding device consists of a stirring device, a material distributing device, a conveying device, an automatic moving device, a water feeding device and a cutting device; the bottom end of the stirring device is in conduction connection with the inside of the material distributing device, the front side of the outer ring of the bottom end of the material distributing device is meshed with the side face of the left end of the conveying device, a water supply device is arranged above the right end of the conveying device, the automatic moving device is arranged below the conveying device, the bottom side of the right end of the stirring device is in transmission connection with the left side of the top end of the cutting device, and the left end of the cutting device is fixedly connected with the right side of the bottom end of.
Further, agitating unit comprises motor, transmission gear pole, location steering gear pole, drive belt, goes up the puddler, feeder hopper down, motor bottom left side meshes with drive gear pole right-hand member top, the transmission gear pole left end is connected with the puddler right-hand member transmission down through location steering gear pole, be parallel to each other between puddler and the last puddler down and install inside the first end of feeder hopper, the drive belt both ends are connected to puddler and last puddler right-hand member down respectively.
Further, feed divider comprises branch material pole, driving motor, branch material room, branch charging tray, left discharging pipe, right discharging pipe, second drive belt, toothed disc, feeder hopper bottom and the inside turn-on connection of branch material room, the driving motor front end is connected with the branch charging tray is inside perpendicular, divide the material pole to arrange in proper order in the branch charging tray side according to the same angle, divide the material pole outside and divide the indoor side sliding connection of material, divide the charging tray back to carry out the transmission through second drive belt and toothed disc front end and be connected, left discharging pipe top and the welding of branch material room lower left corner, right discharging pipe top and the lower right corner fixed connection of branch material room.
Further, transmission device comprises linkage gear pole, linkage gear, driving drum, transmission band, driven cylinder, ejection of compact connecting pipe, linkage gear pole left end side meshes with toothed disc outer lane front side mutually, linkage gear pole right-hand member carries out the transmission through linkage gear and driving drum front end side and is connected, the transmission band both ends are connected to driving drum and driven drum side respectively, ejection of compact connecting pipe left end top is connected with the laminating of transmission band right-hand member side.
Furthermore, the automatic moving device is composed of a transmission gear disc, a second motor, a third transmission belt, a rotating wheel, a rotating connecting rod, a linkage rotating wheel, a middle transmission wheel, a fourth transmission belt, a bottom connecting belt and a moving wheel.
Furthermore, the side surface of the top end of the second motor is meshed with the front side of the outer ring of the transmission gear disc, the transmission gear disc is connected to the side surface of the rear end of the rotating wheel through a third transmission belt, one end of the rotating connecting rod is connected to the front side of the outer ring of the rotating wheel, the other end of the rotating connecting rod is fixed to the front side of the outer ring of the left half end of the linkage rotating wheel, two ends of the middle transmission wheel are respectively fixed to the side surface of the front end of the linkage rotating wheel and the side surface of the middle transmission wheel, the moving wheels are symmetrically arranged on two sides of the.
Further, water supply installation comprises inlet tube, retaining frame, heater, gear pump, outlet pipe, the inlet tube bottom is connected with the inside switch-on of retaining frame, the heater is installed at retaining frame left half end top wall inboardly, the gear pump top is connected with retaining frame bottom is perpendicular, outlet pipe top and gear pump bottom fixed connection.
Furthermore, the cutting device comprises a left L-shaped positioning frame, a left buffering reset rod, a left indirect pressing block, a linkage belt, a left movable frame, a bottom plate, a cutting knife, a right indirect pressing block, a right L-shaped positioning frame, an L-shaped supporting frame, a right buffering reset rod, a right movable frame, a triangular power connecting block, a passive driving belt, a driving gear disc, a transmission rod and a left positioning supporting frame.
Further, the left end of the left positioning support frame is vertically connected with the right side of the lower half end of the feed hopper, the bottom of the right end of the left positioning support frame is welded with the top of the left L-shaped positioning frame, the side surface of the lower half end of the left movable frame is in sliding connection with the inner part of the right end of the left L-shaped positioning frame, one end of the left buffering reset rod is fixed at the bottom of the left end of the left movable frame, the other end of the left buffering reset rod is fixed at the top of the right end of the left positioning support frame, the bottom of the left movable frame is vertically arranged at the bottom of the bottom plate in sequence at the same interval from left to right, the top of the right end of the bottom plate is vertically connected with the bottom of the right buffering reset rod, one end of the right buffering reset rod is connected to the bottom side of the top of the right movable frame, the other end of the left end of the right L-shaped positioning, the driving gear disc is connected to the front side of the top end of the triangular power connecting block through a passive driving belt, and two ends of the bottom of the triangular power connecting block are connected to the side face of the front end of the left indirect lower pressing block and the side face of the front end of the right indirect lower pressing block through linkage belts respectively.
Further, the gear pump can perform a rotational operation by itself.
Further, the mobile wheel can improve the convenience of moving the equipment.
Advantageous effects
The invention relates to a feeding and water-feeding device used in summer in animal husbandry, which is characterized in that a motor is required to generate driving torque as a power source, the motor can drive a lower stirring rod to rotate through the transmission between a transmission gear rod and a positioning steering gear rod, the lower stirring rod can drive an upper stirring rod to rotate through a transmission belt, so that the fed feed can be stirred, the driving motor can drive a distributing disc to rotate, the distributing disc can discharge the feed entering the distributing chamber from a left discharge pipe and a right discharge pipe through the distributing rod respectively, the feed discharged from the right discharge pipe can fall onto the transmission belt, the distributing disc drives a gear disc to rotate through a second transmission belt, the gear disc drives the transmission belt to rotate through the transmission among a linkage gear rod, a linkage gear and a transmission roller, and the transmission gear rod can drive the whole triangular power connecting block to move through the transmission among a passive transmission belt and a driving gear disc, the triangular power connecting block can drive the left indirect lower pressing block and the right indirect lower pressing block to rotate through the linkage belt, the left indirect lower pressing block and the right indirect lower pressing block can intermittently push the bottom plate and the cutting knife downwards, the cutting knife can cut the feed in size, the left buffering reset rod and the right buffering reset rod can help the bottom plate and the cutting knife to reset through the left movable frame and the right movable frame, thus the cutting can be repeatedly carried out, the cutting frequency can be accelerated as long as the rotating speed of the motor is changed, the feed can be smaller, the second motor can drive the rotating wheel to rotate through the transmission between the transmission gear disc and the third transmission belt, the rotating wheel drives the linkage rotating wheel to rotate through the rotating connecting rod, thereby driving the middle transmission wheel, the fourth transmission belt, the bottom drives the moving wheel to rotate, the gear pump can discharge the water in the water storage frame through the water outlet pipe, the heater can control the water temperature.
The feeding and water supplying device for the livestock husbandry in summer can automatically move, so that the working strength of workers can be reduced, the using maneuverability of equipment can be improved, and meanwhile, the size of the feed can be changed according to the actual condition of animals, so that the feed with proper size can be eaten by different animals.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
FIG. 1 is a schematic structural view of a summer feeding and watering device for animal husbandry according to the present invention.
FIG. 2 is a schematic view of the structure of the feeding device of the present invention.
FIG. 3 is a detailed structural diagram of the feeding device of the present invention.
Fig. 4 is a schematic structural diagram of the working state of the feeding device of the present invention.
In the figure: a supply device-1, a machine body-2, a discharge chute-3, a discharge opening-4, a placing bin-5, a water pipe-6, a controller-7, a support frame-8, a hand push rod-9, a heat dissipation opening-10, a stirring device-11, a material distribution device-12, a transmission device-13, an automatic moving device-14, a water supply device-15, a cutting device-16, a motor-111, a transmission gear rod-112, a positioning steering gear rod-113, a transmission belt-114, an upper stirring rod-115, a lower stirring rod-116, a feed hopper-117, a material distribution rod-121, a driving motor-122, a material distribution chamber-123, a material distribution disk-124, a left material outlet pipe-125, a right material outlet pipe-126, a second transmission belt-127, a material distribution disk-124, A gear disc-128, a linkage gear rod-131, a linkage gear-132, a transmission roller-133, a transmission belt-134, a driven roller-135, a discharge connecting pipe-136, a transmission gear disc-141, a second motor-142, a third transmission belt-143, a rotating wheel-144, a rotating connecting rod-145, a linkage rotating wheel-146, a middle transmission wheel-147, a fourth transmission belt-148, a bottom connecting belt-149, a moving wheel-1410, a water inlet pipe-151, a water storage frame-152, a heater-153, a gear pump-154, a water outlet pipe-155, a left L-shaped positioning frame-161, a left buffering reset rod-162, a left indirect lower pressing block-163, a linkage belt-164, a left movable frame-165, a bottom plate-166, a cutting knife-167, A right indirect lower pressing block-168, a right L-shaped positioning frame-169, an L-shaped supporting frame-1610, a right buffering reset rod-1611, a right movable frame-1612, a triangular power connecting block-1613, a passive transmission belt-1614, a driving gear disc-1615, a transmission rod-1616 and a left positioning supporting frame-1617.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Referring to fig. 1-4, the present invention provides a feeding water device for livestock husbandry in summer, which comprises: the structure of the device comprises a supply device 1, a machine body 2, a discharge chute 3, a discharge opening 4, a placing bin 5, a water pipe 6, a controller 7, a support frame 8, a hand push rod 9 and a heat dissipation opening 10, wherein the supply device 1 is installed inside the machine body 2, the bottom of the placing bin 5 is vertically connected with the top of the left half end of the machine body 2, the right end of the discharge opening 4 is welded with the left side of the placing bin 5, the right end of the discharge chute 3 is connected to the inside of the machine body 2, the heat dissipation openings 10 are sequentially arranged at the left end and the right end of the front side of the machine body 2 at the same interval from top to bottom, the bottom of the support frame 8 is vertically connected with the top of the right end of the machine body 2, the controller 7 is installed at the top end of the support; the feeding device 1 consists of a stirring device 11, a material separating device 12, a conveying device 13, an automatic moving device 14, a water feeding device 15 and a cutting device 16; the bottom end of the stirring device 11 is connected with the inside of the material distributing device 12 in a conduction mode, the front side of the outer ring at the bottom end of the material distributing device 12 is meshed with the side face at the left end of the conveying device 13, the water supply device 15 is arranged above the right end of the conveying device 13, the automatic moving device 14 is arranged below the conveying device 13, the bottom side at the right end of the stirring device 11 is in transmission connection with the left side at the top end of the cutting device 16, the left end of the cutting device 16 is fixedly connected with the right side at the bottom end of the stirring device 11, the stirring device 11 is composed of a motor 111, a transmission gear rod 112, a positioning steering gear rod 113, a transmission belt 114, an upper stirring rod 115, a lower stirring rod 116 and a feeding hopper 117, the left side at the bottom end of the motor 111 is meshed with the top side at the right end of the transmission gear rod 112, the left end of the transmission gear rod 112 is in transmission connection with the right end, the two ends of the transmission belt 114 are respectively connected to the right ends of the lower stirring rod 116 and the upper stirring rod 115, the material distribution device 12 is composed of a material distribution rod 121, a driving motor 122, a material distribution chamber 123, a material distribution disc 124, a left material discharge pipe 125, a right material discharge pipe 126, a second transmission belt 127 and a gear disc 128, the bottom end of the feed hopper 117 is in conduction connection with the inside of the material distribution chamber 123, the front end of the driving motor 122 is vertically connected with the inside of the material distribution disc 124, the material distribution rods 121 are sequentially arranged on the side surface of the material distribution disc 124 according to the same angle, the outer side of the material distribution rod 121 is in sliding connection with the inner side surface of the material distribution chamber 123, the back of the material distribution disc 124 is in transmission connection with the front end of the gear disc 128 through the second transmission belt 127, the top end of the left material discharge pipe 125 is welded with the lower left corner of the material distribution chamber, The automatic moving device 14 comprises a transmission gear disc 141, a second motor 142, a third transmission belt 143, a rotating wheel 144, a rotating connecting rod 145, a linkage rotating wheel 146, a middle transmission wheel 147, a fourth transmission belt 148, a bottom connecting belt 149 and a moving wheel 1410, the side surface of the top end of the second motor 142 is meshed with the front side of the outer ring of the transmission gear disc 141, the transmission gear disc 141 is connected to the rear side surface of the rotating wheel 144 through the third transmission belt 143, one end of the rotary connecting rod 145 is connected to the front side of the outer ring of the rotating wheel 144, the other end of the rotary connecting rod is fixed to the front side of the outer ring of the left half end of the linkage rotating wheel 146, the two ends of the middle driving wheel 147 are respectively fixed to the front side of the front end of the linkage rotating wheel 146 and the side surface of the middle driving wheel 147, the moving wheels 1410 are symmetrically arranged on the two sides of the middle driving wheel 147, the middle driving wheel 147 is in transmission connection with the moving wheels 1410 through a bottom connecting belt 149, the water supply device 15 is composed of a water inlet pipe 151, a water storage frame 152, a heater 153, a gear pump 154 and a water outlet pipe 155, the bottom end of the water inlet pipe 151 is in conduction connection with the interior of the water storage frame 152, the heater 153 is installed on the inner side of the top wall of the left half end of the water storage frame 152, A left indirect lower pressing block 163, a linkage belt 164, a left movable frame 165, a bottom plate 166, a cutting knife 167, a right indirect lower pressing block 168, a right L-shaped positioning frame 169, an L-shaped supporting frame 1610, a right buffering reset rod 1611, a right movable frame 1612, a triangular power connecting block 1613, a passive transmission belt 1614, a driving gear disc 1615, a transmission rod 1616 and a left positioning supporting frame 1617, wherein the left end of the left positioning supporting frame 1617 is vertically connected with the right side of the lower half end of the feed hopper 117, the bottom of the right end of the left positioning supporting frame 1617 is welded with the top of the left L-shaped positioning frame 161, the side surface of the lower half end of the left movable frame 165 is connected with the inside of the right end of the left L-shaped positioning frame 161 in a sliding manner, one end of the left buffering reset rod 162 is fixed at the bottom of the left end of the left movable frame 165, the other end of the left buffering reset rod is fixed at the top of the right end of the left, bottom plate 166 right-hand member top is connected perpendicularly with right buffering release link 1611 bottom, right buffering release link 1611 one end is connected to right side adjustable shelf 1612 top bottom side, and the other end is fixed in L shape support frame 1610 left end top, the inside and right adjustable shelf 1612 half terminal surface sliding connection down of right side L shape locating rack 169 left end, transmission gear pole 112 right-hand member is passed through transfer line 1616 and is carried out the transmission with driving gear dish 1615 outer lane front side and is connected, driving gear dish 1615 is connected to triangle power connecting block 1613 top front side through passive drive belt 1614, triangle power connecting block 1613 bottom both ends are connected to left indirectness through linkage belt 164 respectively and push down block 163 and right indirectness and push down block 168 front end side, gear pump 154 can rotate the work alone, it can improve the convenience that equipment removed to remove wheel 1410.
The heater 153 in this patent refers to an electric appliance that uses electric energy to achieve a heating effect. The intelligent temperature control device has the advantages of small volume, high heating power, wide application range, intelligent control mode and high temperature control precision. Wide application range, long service life and high reliability. The core of the heater principle is energy conversion, most widely, the conversion of electrical energy into thermal energy.
When the feed distributing device is used, a driving torque is required to be generated by the motor 111 to serve as a power source, the motor 111 can drive the lower stirring rod 116 to rotate through the transmission between the transmission gear rod 112 and the positioning steering gear rod 113, the lower stirring rod 116 can drive the upper stirring rod 115 to rotate through the transmission belt 114, so that the fed feed can be stirred, the driving motor 122 can drive the feed distributing disk 124 to rotate, the feed distributing disk 124 can discharge the feed entering the feed distributing chamber 123 from the left discharge pipe 125 and the right discharge pipe 126 through the feed distributing rod 121, the feed discharged from the right discharge pipe 126 falls onto the transmission belt 134, the feed distributing disk 124 drives the gear disk 128 to rotate through the second transmission belt 127, the gear disk 128 drives the transmission belt 134 to rotate through the transmission among the linkage gear rod 131, the linkage gear 132 and the transmission roller 133, and the transmission gear rod 112 can drive the transmission belt 1614, The transmission between the driving gear disc 1615 drives the whole triangular power connecting block 1613 to move, the triangular power connecting block 1613 can drive the left indirect pressing block 163 and the right indirect pressing block 168 to rotate through the linkage belt 164, the left indirect pressing block 163 and the right indirect pressing block 168 can intermittently push the bottom plate 166 and the cutting knife 167 downwards, the cutting knife 167 can cut the fodder in size, the left buffer reset rod 162 and the right buffer reset rod 1611 can help the bottom plate 166 and the cutting knife 167 to reset through the left movable frame 165 and the right movable frame 1612, so that the cutting can be repeatedly performed, the cutting frequency can be accelerated as long as the rotating speed of the motor 111 is changed, so that the fodder is smaller, the second motor 142 can drive the rotating wheel 144 to rotate through the transmission between the transmission gear disc 141 and the third transmission belt 143, and the rotating wheel 144 drives the linkage rotating wheel 146 to rotate through the rotation connecting rod 145, thereby, the middle driving wheel 147, the fourth driving belt 148 and the bottom connecting belt 149 are driven to drive the moving wheel 1410 to rotate, the gear pump 154 can discharge the water in the water storage frame 152 through the water outlet pipe 155, and the heater 153 can control the water temperature.
The feeding and water supplying device solves the problems that the prior art is incomplete, the size of feed is not changed according to the actual condition of animals when the feeding and water supplying device for livestock husbandry in summer is used for feeding, the appetite of the animals can be reduced, and the growth speed of the animals is reduced.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.