SeeFigure 1-Figure 8, The present invention provides a rearing rack for animal husbandry, which structure includes: water storage tube 1, feed rack shell trough 2, railing body 3, cage trough inner cavity 4, lifting loading platform 5, tripod rod 6, The feed supply rack shell groove 2 and the railing body 3 are buckled together and are on the same vertical surface. The railing body 3 and the cage cavity 4 are an integral structure, and the water storage cylinder 1 is inserted into the feed The right side of the housing tank 2 is on the same vertical surface. The inner cavity 4 of the cage is nested under the bottom surface of the lifting platform 5 and perpendicular to each other. The lifting platform 5 and the tripod rod 6 Welded into a whole, the feed supply rack shell tank 2 is provided with a feed supply tank rack 2A, a deflection vibration isolation wheel 2B, a liquid supply tank tank 2C, and a trapezoidal shell cover 2D. The feed supply tank rack 2A is installed on the deflection partition Right above the vibration wheel 2B, the deflection vibration isolation wheel 2B is nested on the front side of the liquid supply tank 2C and is on the same vertical surface, and the feed supply tank rack 2A is installed inside the liquid supply tank 2C, The liquid supply tank 2C and the trapezoidal shell cover 2D are welded into one body, and the trapezoidal shell cover 2D and the railing body 3 are buckled together and are on the same vertical plane.
SeeFigure 4 The feed supply trough frame 2A is composed of a swirling flow lifting plate rack 2A1, a valve nozzle tube groove 2A2, and a feed bearing tank 2A3. The swirling flow plate lifting rack 2A1 is installed inside the valve nozzle tube groove 2A2 and is in the same vertical position. On the surface, the valve nozzle tube groove 2A2 is installed in the lower left corner of the feed bearing groove 2A3, and the deflection vibration isolation wheel 2B is composed of a vibration isolation elliptical balloon 2B1, a support plate 2B2, and a deflection wheel disk 2B3. The ellipsoid balloon 2B1 is nested on the top of the support plate 2B2, and the support plate 2B2 is inserted into the deflection wheel 2B3 and is on the same vertical surface. The top part cooperates with the filled water to form vibration isolation and at the same time conduct water flow to provide the effect of feeding operation.
SeeFigure 7 The swirling plate lifting frame 2A1 is composed of a collecting plate 2A11, a membrane wheel ring 2A12, and a deflector 2A13. The collecting plate 2A11 is installed inside the membrane wheel ring 2A12 and is on the same vertical surface, There are two guide plates 2A13 and they are inserted into the upper and lower sides of the membrane wheel ring 2A12, respectively. The collecting plate 2A11 is a plate seat structure in which the upper edge plate is sleeved with a three-pipe encapsulating valve seat, which is convenient The peripheral permeable conduit sucks liquid to perform the operation effect of perfusing the internal through hole to connect the structure, and the operation effect of permeable connection is formed through the collecting plate 2A11 and the membrane surface wheel ring 2A12.
SeeFigure 8 The vibration isolation ellipsoidal balloon 2B1 is composed of a damping pad block 2B11, an ellipsoidal balloon groove 2B12, and a rib ring frame 2B13. The damping pad block 2B11 is nested on the left side of the rib ring frame 2B13, and the rib The ring frame 2B13 is inserted into the inside of the ellipsoidal balloon groove 2B12 and is on the same vertical plane. The ellipsoidal balloon groove 2B12 is a composite ellipsoidal cushion groove structure with a narrow middle width inner core close to the left side, which is convenient for alignment. The cushion pressure forms the vibration isolation operation effect and the anti-shake deformation cushioning effect, and the composite vibration isolation and anti-collision effect is formed by superimposing the damping pad block 2B11 and the ellipsoidal balloon groove 2B12.
Seefigure 2 The water storage cylinder 1 is composed of a propeller through hole groove 11, a bonnet seat 12, and a cylinder tank groove 13. The propeller through hole grooves 11 are provided with two and both are installed inside the bonnet seat 12. The bonnet seat 12 is nested under the bottom of the cylinder tank 13 and the axis is collinear. The bonnet seat 12 is connected to the cylinder tank 13 to form a convenient operation effect of high-level water flow and low-level conduction supply.
SeeFigure 5 The propeller through-hole groove 11 is composed of a cross slide frame 111, a rotating brush track ring 112, and a through-hole thick frame groove 113. The cross slide frame 111 is mechanically connected to the rotating brush track ring 112 and is on the same vertical plane. , The rotating brush track ring 112 and the through-hole thick frame groove 113 are nested into one body and the axis is collinear. The cross slide frame 111 is a propeller frame structure in which the cross frame bar wraps the upper and lower flaps, which is convenient for cross sliding Cooperate with the water supply valve nozzle of the swirling flow around the brush to achieve the effect of branching water flow conduction operation when continuous feed is supplied. The cross slide frame 111 rotates around the swirl brush orbit ring 112 to improve the constriction and conduction efficiency of the swirl flow.
Work flow: The staff connects the propeller through-hole groove 11 of the water storage cylinder 1 to the bottom of the bonnet seat 12 and nesting cylinder tank 13 to form a water sedimentation conduction operation effect, so that the cross slide frame 111 surrounds the brush track ring 112 Swirl guide through-hole thick frame slot 113 leads to the feed supply rack shell 2 in the liquid supply tank slot 2C and the trapezoidal shell cover 2D, so that the railing body 3 and the cage slot inner cavity 4 are equipped with rabbits and then hoisted on the hoisting load Between the table 5 and the tripod rod 6, through the feed trough frame 2A, the swirling plate lifting frame 2A1 connects the feed bearing trough 2A3 in the valve nozzle tube trough 2A2 to form a double-channel guide and guide operation effect, so that the collecting plate 2A11 is inserted into the membrane wheel ring 2A12 swirl output deflector 2A13 to feed the valve nozzle tube groove 2A2 to feed the rabbit, and then through the deflection vibration isolation wheel 2B vibration isolation ellipsoid capsule 2B1 in the support plate 2B2 and the deflection wheel 2B3, The damping pad 2B11 presses the ellipsoid pocket groove 2B12 and the top support rib ring frame 2B13 to improve the overall vibration isolation and collision avoidance efficiency, ensuring the firmness of equipment hoisting and the fine-tuning and conducting effect of the continuity of feeding and feeding.