CN219560454U - Feed raw material edulcoration equipment - Google Patents

Abstract

A feed material impurity removal apparatus comprising: support frame, screening subassembly. The frame body is arranged in the support frame, a vibrating frame which shakes up and down is arranged in the frame body, and the top surface of the vibrating frame is higher than the top surface of the support frame; the screen subassembly includes two sieve plates of arranging from top to bottom and one end downward sloping, the opposite direction of two sieve slopes, the sieve detachably who is located the top installs in the vibrations frame, the sieve that is located the below is installed in the frame, still be equipped with the baffle between two sieve plates, the baffle is installed in the vibrations frame, baffle incline direction is the same with the incline direction who is located the sieve of top, and incline the end and apart from vibrations frame inner wall predetermined distance, still be equipped with the separation frame in the vibrations frame, the inner wall at vibrations frame width direction both ends is equipped with the spacing groove, separation frame both ends cooperate in the spacing groove. The feed raw materials can be separated for multiple times at the same time, so that the screening efficiency is improved, the production efficiency is improved, and the use cost of equipment is reduced.

Description

Feed raw material edulcoration equipment

Technical Field

The utility model relates to the technical field of feed production, in particular to feed raw material impurity removal equipment.

Background

The feed raw material refers to the feed which takes animals, plants, microorganisms or minerals as sources in the feed processing, generally comprises the steps of crushing, mixing, stirring, drying, forming and the like in the feed production process, and before the feed raw material is crushed, the impurities such as stones and iron blocks in the feed are required to be separated, otherwise, in the subsequent production, the equipment is possibly damaged, the quality of the final product is affected if the impurities appear in the final product, and the conventional screening equipment can only screen the feed raw material for a plurality of times to screen the impurities completely, and a plurality of equipment is required to be used, so that excessive equipment cost is consumed, and the rapid production is not facilitated.

Disclosure of Invention

Aiming at the defects of the related prior art, the utility model provides the feed raw material impurity removing equipment which can separate feed raw materials for multiple times at the same time, so that the screening efficiency is improved, the production efficiency is improved, and the use cost of the equipment is reduced.

In order to achieve the above object, the present utility model adopts the following technique:

a feed material impurity removal apparatus comprising: support frame, screening subassembly.

The frame body is arranged in the support frame, a vibrating frame which shakes up and down is arranged in the frame body, and the top surface of the vibrating frame is higher than the top surface of the support frame; the screen subassembly includes two upper and lower arrangement and one end downward sloping's sieve, and the direction of two sieve slopes is opposite, and the sieve detachably who is located the top installs in vibrations frame, and the sieve that is located the below is installed in the frame, still is equipped with the baffle between two sieves, and the baffle is installed in vibrations frame, and baffle incline direction is the same with the incline direction that is located the sieve of top, and the incline end is apart from vibrations frame inner wall preset distance.

Further, support frame top surface four corners all is equipped with the bracing piece, and vibrations frame four corners is equipped with the extension board, and the extension board cover is located on the bracing piece, still overlaps on the bracing piece and is equipped with two springs, and the spring is located the extension board respectively both sides about, and the bracing piece top still is equipped with the retaining ring, wherein the spring both ends that are located the below butt extension board and support frame respectively, wherein the spring both ends that are located the top butt extension board and retaining ring respectively, and the spring is in compression state all the time.

Further, the inner wall of the vibration frame is also provided with a clamping groove, two ends of the screen plate above are provided with convex plates, the convex plates are matched in the clamping groove, and the outer side of the vibration frame is also provided with screws in a penetrating way for connecting the vibration frame and the convex plates.

Further, still be equipped with the separation frame in the vibrations frame, the inner wall at vibrations frame width direction both ends is equipped with the spacing groove, and separation frame both ends cooperate in the spacing groove, and the one end surface that is located the downward sloping of screen plate of top is equipped with the recess, and separation frame bottom cooperation in the recess, and one side opening setting of separation frame, the top surface of its inside flushes with the top surface of screen plate.

Further, the inside backup pad that still is equipped with along its width direction of framework, the sieve slope end that is located the below has predetermined distance apart from framework one end inner wall to the backup pad is supported to the framework other end and is equipped with the logical groove that runs through, and the sieve other end wears to locate in the logical groove, and the sieve other end still is equipped with the baffle for the outer wall of support to the framework.

Further, the screen plate below that is located the below still is equipped with the slope setting and the oblique direction is opposite with it accepts the board, accept board both ends and connect framework and backup pad respectively, accept board top and be equipped with the pivot, the pivot axis is on a parallel with the width direction who accepts the board, the cover is equipped with the cylinder in the pivot, the equipartition has the brush hair on the cylinder, the movable block is worn to locate at the pivot both ends, the movable block is connected in the movable end of linear mechanism, linear mechanism installs in the framework lateral wall to arrange along its length direction, pivot one end is connected and is rotated the motor, it installs on the movable block to rotate the motor.

Further, one end of the frame body is provided with a strip hole, and the bottom of the strip hole is not higher than the top surface of the bearing plate and is used for passing through impurities swept down by the roller.

The utility model has the beneficial effects that: through arranging two sieve plates with opposite inclination directions in the vertical direction, the feed is screened twice, so that the screening efficiency is improved, and the production efficiency is further improved; and the screening is completed twice on one piece of equipment, so that the equipment cost can be reduced; each part is arranged to be detachably connected, so that the parts are convenient to replace, the maintenance is convenient, and the cost is further reduced.

Drawings

The drawings described herein are for illustration of selected embodiments only and not all possible implementations, and are not intended to limit the scope of the utility model.

Fig. 1 is a schematic perspective view of an overall structure according to an embodiment of the present utility model.

Fig. 2 is a cross-sectional view of the overall structure of an embodiment of the present utility model.

Fig. 3 is a schematic diagram illustrating the installation of a separation frame according to an embodiment of the present utility model.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the following detailed description of the embodiments of the present utility model will be given with reference to the accompanying drawings, but the described embodiments of the present utility model are some, but not all embodiments of the present utility model.

As shown in fig. 1 to 3, this example provides a feed raw material impurity removing apparatus, including: support frame 100, screen assemblies 200.

The frame body 101 is arranged in the support frame 100, the vibrating frame 102 which shakes up and down is arranged in the frame body 101, the top surface of the vibrating frame 102 is higher than the top surface of the support frame 100, the vibrating frame 102 can be connected with a pneumatic vibration source to shake the vibrating frame 102, or a cam structure can be adopted to enable the vibrating frame to move back and forth in the vertical direction to shake; the screening assembly 200 comprises two screening plates 201 which are arranged up and down and one end of which is inclined downwards, screening holes are uniformly distributed on the screening plates 202, the diameter of the screening holes of the upper screening plate 201 is larger than that of the screening holes of the lower Fang Shaiban screening plate 201, the inclination directions of the two screening plates 201 are opposite, the upper screening plate 201 is detachably arranged in the vibrating frame 102, the lower screening plate 201 is arranged in the frame body 101, a partition plate 202 is further arranged between the two screening plates 201, the partition plate 202 is arranged in the vibrating frame 102, the inclination direction of the partition plate 202 is the same as that of the upper screening plate 201, the inclination end is a preset distance away from the inner wall of the vibrating frame 102, and feed raw materials screened by the upper screening plate 201 fall on the partition plate 202, continue to move downwards and fall on the higher end of the lower screening plate 201.

Specifically, support frame 100 top surface four corners all is equipped with bracing piece 103, vibrations frame 102 four corners is equipped with extension board 104, extension board 104 cover is located on the bracing piece 103, still the cover is equipped with two springs 105 on the bracing piece 103, spring 105 is located the extension board 104 upper and lower both sides respectively, and bracing piece 103 top still is equipped with retaining ring 106, wherein the spring 105 both ends that are located the below butt extension board 104 and support frame 100 respectively, wherein the spring 105 both ends that are located the top butt extension board 104 and retaining ring 106 respectively, spring 105 is in compression state all the time, when vibrations frame 102 shakes, provide cushioning effect to vibrations frame 102 through spring 105, increase its life.

Specifically, vibrations frame 102 inner wall still is equipped with draw-in groove 107, and the sieve 201 both ends that are located the top are equipped with flange 203, and flange 203 cooperates in draw-in groove 107, provides spacing effect to sieve 201 to vibrations frame 102 outside still wears to be equipped with the screw for connect vibrations frame 102 and flange 203, avoid sieve 201 to shake the in-process and shake off, also conveniently dismantle simultaneously, in order to change the sieve 201 of different sieve mesh diameters, adapt to the fodder of equidimension.

Specifically, still be equipped with separating frame 108 in the vibrations frame 102, also be equipped with the sieve mesh on the separating frame 108, and overlap with the sieve mesh of sieve 201, avoid influencing the normal clear of screening, the inner wall at vibrations frame 102 width direction both ends is equipped with spacing groove 109, separating frame 108 both ends cooperate in spacing groove 109, the one end surface that is located the downward sloping of sieve 201 of top is equipped with recess 204, separating frame 108 bottom cooperates in recess 204, and separating frame 108's one side opening sets up, its inside top surface flushes with the top surface of sieve 201, leave the impurity that ground volume is great after the screening just to be collected separating frame 108 in, take off separating frame 108 after the screening.

Specifically, the frame 101 is further provided with a supporting plate 110 along the width direction thereof, the inclined end of the lower sieve plate 201 is at a predetermined distance from the inner wall of one end of the frame 101 and is abutted to the supporting plate 110, at this time, impurities with smaller volume can be directly screened out from the sieve holes of the sieve plate 201, and the feed raw material after screening again falls down from the gap between the supporting plate 110 and the frame 101, meanwhile, the lower sieve plate 201 is also convenient to detach, a through groove 111 is formed at the other end of the frame 101, the other end of the sieve plate 201 is arranged in the through groove 111 in a penetrating manner, and a baffle 205 is further arranged at the other end of the sieve plate 201 and is used for being abutted to the outer wall of the frame 101.

Specifically, the lower part of the lower sieve plate 201 is further provided with a supporting plate 206 which is obliquely arranged and opposite to the lower part, two ends of the supporting plate 206 are respectively connected with the frame 101 and the supporting plate 110, small-volume impurities separated by the sieve are prevented from being mixed with feed raw materials, a rotating shaft 207 is arranged above the supporting plate 206, the axis of the rotating shaft 207 is parallel to the width direction of the supporting plate 206, a roller 208 is sleeved on the rotating shaft 207, bristles are uniformly distributed on the roller 208, two ends of the rotating shaft 207 penetrate through a moving block 209, the moving block 209 is connected with the moving end of a linear mechanism, the linear mechanism is mounted on the side wall of the frame 101 and is arranged along the length direction of the side wall, one end of the rotating shaft 207 is connected with a rotating motor 210, the rotating motor 210 is mounted on the moving block 209, one end of the frame 101 is provided with a long-strip hole 112, the bottom of the long-strip hole 112 is not higher than the top surface of the supporting plate 206, and is used for penetrating through impurities scanned by the roller 208, the rotating shaft 207 moves along the length direction of the frame 101 and rotates around the axis of the rotating shaft 207, so that impurities on the supporting plate 206 are scanned from the long-strip hole 112.

The above is only a preferred embodiment of the present utility model and is not intended to limit the present utility model, and it is obvious that those skilled in the art can make various modifications and variations to the present utility model without departing from the spirit and scope of the present utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (7)

1. Feed raw material edulcoration equipment, characterized by, include:

the vibration device comprises a support frame (100), wherein a frame body (101) is arranged in the support frame, a vibration frame (102) which shakes up and down is arranged in the frame body (101), and the top surface of the vibration frame (102) is higher than the top surface of the support frame (100);

screening subassembly (200), including two upper and lower arrangement and one end downward sloping's sieve (201), two the direction of sieve (201) slope is opposite, is located the top sieve (201) detachably install in vibrations frame (102), be located the below sieve (201) install in framework (101) in, two still be equipped with baffle (202) between sieve (201), baffle (202) install in vibrations frame (102), baffle (202) incline direction the same with the incline direction of sieve (201) that is located the top, and incline the end distance vibrations frame (102) inner wall predetermined distance.

2. The feed raw material impurity removing device according to claim 1, wherein supporting rods (103) are arranged at four corners of the top surface of the supporting frame (100), supporting plates (104) are arranged at four corners of the vibrating frame (102), the supporting plates (104) are sleeved on the supporting rods (103), two springs (105) are sleeved on the supporting rods (103), the springs (105) are respectively located on the upper side and the lower side of the supporting plates (104), retaining rings (106) are further arranged at the tops of the supporting rods (103), two ends of each spring (105) located below are respectively abutted against the supporting plates (104) and the supporting frame (100), two ends of each spring (105) located above are respectively abutted against the supporting plates (104) and the retaining rings (106), and the springs (105) are always in a compressed state.

3. The feed raw material impurity removing device according to claim 1, wherein a clamping groove (107) is further formed in the inner wall of the vibration frame (102), convex plates (203) are arranged at two ends of the screen plate (201) above, the convex plates (203) are matched in the clamping groove (107), and screws are further arranged on the outer side of the vibration frame (102) in a penetrating mode and used for connecting the vibration frame (102) with the convex plates (203).

4. The feed raw material impurity removing device according to claim 1, wherein a separation frame (108) is further arranged in the vibration frame (102), limiting grooves (109) are formed in inner walls of two ends of the vibration frame (102) in the width direction, two ends of the separation frame (108) are matched in the limiting grooves (109), a groove (204) is formed in one end surface of the upper sieve plate (201) which is inclined downwards, the bottom of the separation frame (108) is matched in the groove (204), one side of the separation frame (108) is provided with an opening, and the top surface of the inside of the separation frame is flush with the top surface of the sieve plate (201).

5. The feed raw material impurity removing apparatus according to claim 1, wherein a supporting plate (110) is further provided inside the frame (101) along a width direction thereof, an inclined end of the screen plate (201) located below is a predetermined distance from an inner wall of one end of the frame (101) and abuts against the supporting plate (110), a through groove (111) penetrating through the other end of the frame (101) is provided, the other end of the screen plate (201) is penetrated into the through groove (111), and a baffle (205) is further provided at the other end of the screen plate (201) for abutting against an outer wall of the frame (101).

6. The feed raw material impurity removing device according to claim 5, wherein a receiving plate (206) which is obliquely arranged and is opposite to the oblique direction is further arranged below the screen plate (201) and positioned below the screen plate, two ends of the receiving plate (206) are respectively connected with the frame body (101) and the supporting plate (110), a rotating shaft (207) is arranged above the receiving plate (206), the axis of the rotating shaft (207) is parallel to the width direction of the receiving plate (206), a roller (208) is sleeved on the rotating shaft (207), bristles are uniformly distributed on the roller (208), two ends of the rotating shaft (207) are penetrated on a moving block (209), the moving block (209) is connected to the moving end of a linear mechanism, the linear mechanism is mounted on the side wall of the frame body (101) and is arranged along the length direction of the side wall, one end of the rotating shaft (207) is connected with a rotating motor (210), and the rotating motor (210) is mounted on the moving block (209).

7. The feed raw material impurity removing apparatus according to claim 6, wherein one end of the frame (101) is provided with a long hole (112), and the bottom of the long hole (112) is not higher than the top surface of the receiving plate (206) for passing through impurities swept down by the drum (208).