阅读说明：本技术 一种水产品筛选设备 (Aquatic product screening equipment ) 是由 张晓艳 于 2020-06-15 设计创作，主要内容包括：本发明公开了一种水产品筛选设备,其结构包括翻盖、进料口、控制箱、电机、机架、弹簧架、出料口、处理器,机架与电机机械连接,机架的上方安装了弹簧架,处理器与机架通过活动轴活动连接,处理器与翻盖卡合连接,出料口设在处理器前方,处理器与进料口为一体化结构,控制箱与处理器机械连接,本发明的接料轴结构都为弧形面弧形边,没有尖角边,不会对水产品造成伤害,且其转动叶片的前端凹槽可以接住滑落的水产品,在转动时将水产品全部导出,而接料轴的转动叶片内侧凹凸结构可以接住滑落到前端的水产品,且不会出现夹合现象,不会出现水产品遗落卡在设备内,无法导出。(The invention discloses aquatic product screening equipment, which structurally comprises a flip cover, a feed inlet, a control box, a motor, a rack, a spring frame, a discharge outlet and a processor, wherein the rack is mechanically connected with the motor, the spring frame is arranged above the rack, the processor is movably connected with the rack through a movable shaft, the processor is clamped and connected with the flip cover, the discharge outlet is arranged in front of the processor, the processor and the feed inlet are of an integrated structure, the control box is mechanically connected with the processor, the material receiving shaft structure of the aquatic product screening equipment is an arc-shaped side without a sharp corner edge, the aquatic product screening equipment cannot be damaged, a groove at the front end of a rotating blade of the material receiving shaft can receive a sliding aquatic product, the aquatic product is completely led out during rotation, a concave-convex structure at the inner side of the rotating blade of the material receiving shaft can receive the aquatic product sliding to the front end, the clamping phenomenon cannot occur, the aquatic product cannot be left and clamped, cannot be exported.)

1. An aquatic products screening installation which characterized in that: the structure of the device comprises a flip cover (1), a feed inlet (2), a control box (3), a motor (4), a rack (5), a spring frame (6), a discharge port (7) and a processor (8), wherein the rack (5) is mechanically connected with the motor (4), the spring frame (6) is installed above the rack (5), the processor (8) is movably connected with the rack (5) through a movable shaft, the processor (8) is clamped and connected with the flip cover (1), the discharge port (7) is arranged in front of the processor (8), the processor (8) and the feed inlet (2) are of an integrated structure, and the control box (3) is mechanically connected with the processor (8);

treater (8) comprise treatment chamber (80), filter (81), smooth chamber (82), the top of treatment chamber (80) is equipped with filter (81), smooth chamber (82) have been installed to the below of filter (81), the place ahead and discharge gate (7) of smooth chamber (82) are through connecting axle swing joint.

2. The aquatic product screening apparatus of claim 1, wherein: the filter (81) is provided with a filter body (81-1), a slide way (81-2), a turning block (81-3), a rotating block (81-4), a sliding block (81-5), a moving block (81-6) and a material pouring cavity (81-7), the slide way (81-2) is arranged on the filter body (81-1), the slide way (81-2) is mechanically connected with the sliding block (81-5), the rotating block (81-4) is installed on the sliding block (81-5), the turning block (81-3) is arranged in the middle of the sliding block (81-5), the sliding block (81-5) is movably connected with the moving block (81-6) through a connecting shaft, and the material pouring cavity (81-7) is installed below the filter body (81-1).

3. The seed aquatic product screening apparatus according to claim 2, characterized in that: the sliding block (81-5) is provided with an assembling block (81-5a) and a clamping block (81-5b), the assembling block (81-5a) is fixedly connected with the clamping block (81-5b), a T-shaped hollow part is arranged below the clamping block (81-5b), the assembling block (81-5a) is a T-shaped protruding block and is arranged right above the hollow part of the clamping block (81-5b), and threaded holes are formed in two sides of the assembling block (81-5 a).

4. The aquatic product screening apparatus of claim 2, wherein: the novel rotary table is characterized in that the rotary block (81-4) is provided with a rotary ball (81-4a), a hook block (81-4b), a support (81-4c), a bolt (81-4d), a mounting rack (81-4e) and a rotary shaft (81-4f), the hook block (81-4b) is arranged on the rotary ball (81-4a), the rotary shaft (81-4f) is movably connected with the rotary ball (81-4a) through a movable shaft, the rotary ball (81-4a) is mounted on the support (81-4c), the mounting rack (81-4e) is arranged below the support (81-4c), and two sides of the mounting rack (81-4e) are movably connected with the bolt (81-4d) through threads.

5. The aquatic product screening apparatus of claim 4, wherein: the turning ball (81-4a) is provided with an arc-shaped groove, the top points of the two sides of the groove are arc-shaped edges, the hook blocks (81-4b) are arranged at the upper ends of the two sides of the arc-shaped groove, and the hook blocks (81-4b) are arc-shaped blocks which are bent inwards and the bent arc surfaces of the hook blocks are outward.

6. The aquatic product screening apparatus of claim 2, wherein: the turnover block (81-3) is provided with a connecting block (81-3a), a receiving block (81-3b), a fixing body (81-3c), a supporting block (81-3d) and a closing block (81-3e), the connecting block (81-3a) is in sliding connection with the supporting block (81-3d), the supporting block (81-3d) is fixedly connected with the fixing body (81-3c), the closing block (81-3e) is installed on the fixing body (81-3c), the receiving block (81-3b) is arranged on the connecting block (81-3a), the front end of the receiving block (81-3b) is an arc-shaped panel, and the periphery of the receiving block (81-3b) is an arc-shaped edge.

7. The aquatic product screening apparatus of claim 6, wherein: the inner side of the connecting block (81-3a) is provided with a groove, the outer side of the connecting block is provided with a section of sliding groove, the connecting block (81-3a) and the fixing body (81-3c) are movably connected with a connecting column through two semicircular arc blocks, the front end of one side arc block of the connecting block (81-3a) is provided with a convex block, two sides of the convex block are provided with spherical blocks, and a spring is arranged below the spherical blocks.

8. The aquatic product screening apparatus of claim 1, wherein: the sliding cavity (82) is provided with a connecting shaft (82-1), a cylindrical rotating body (82-2), a rotating ball (82-3), a material receiving shaft (82-4) and a cavity (82-5), the connecting shaft (82-1) is fixedly connected with the cavity (82-5), the cylindrical rotating body (82-2) is movably connected with the connecting shaft (82-1) through a movable shaft, the rotating ball (82-3) is installed beside the cylindrical rotating body (82-2), the cavity (82-5) is mechanically connected with the material receiving shaft (82-4), the top edge of the cylindrical rotating body (82-2) is an arc edge, and soft leather layers are arranged on the surfaces of the cylindrical rotating body (82-2) and the rotating ball (82-3).

9. The aquatic product screening apparatus of claim 8, wherein: the inner side of the front end of the rotating blade of the material receiving shaft (82-4) is provided with an arc-shaped groove with a large radian, an undulating concave-convex surface with a small radian is arranged below the groove, and the vertex of the joint of the concave-convex surface below the groove at the foremost end of the rotating blade of the material receiving shaft (82-4) is an arc-shaped edge.

Technical Field

The invention relates to the field of aquatic products, in particular to aquatic product screening equipment.

Background

Aquatic products such as fish, shrimp and the like are high in nutritive value and delicious, the delicious food on a dining table is not enough, people have great demand on the aquatic products, so that the aquatic products are caught in large batch when caught, some small fish and young fish and the like are often mixed in the caught aquatic products, the aquatic products are put back to be continuously raised, the quality of the aquatic products in the market is also required, the caught aquatic products need to be screened, in order to be more convenient and rapid, aquatic product screening equipment is introduced, the screening equipment is used for filtering and sliding the aquatic products through vibration by only one filter screen, common filter screens are clear in edges and corners formed by splicing steel wires, the aquatic products are easy to cut during screening, damaged aquatic products are considered to be not fresh in the market and cannot be sold, and the survival rate of the screened aquatic products is reduced, can not be cultivated.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: an aquatic product screening device structurally comprises a flip cover, a feed inlet, a control box, a motor, a rack, a spring frame, a discharge port and a processor, wherein the rack is mechanically connected with the motor, the spring frame is installed above the rack, the processor is movably connected with the rack through a movable shaft, the processor is connected with the flip cover in a clamping manner, the discharge port is arranged in front of the processor, the processor and the feed inlet are of an integrated structure, and the control box is mechanically connected with the processor;

the treater comprises treatment chamber, filter, smooth chamber, the top of treatment chamber is equipped with the filter, smooth chamber has been installed to the below of filter, the place ahead and the discharge gate of smooth chamber pass through connecting axle swing joint.

As a further optimization of the technical scheme, the filter is provided with a filter body, a slide way, a turning block, a rotating block, a slide block, a moving block and a material pouring cavity, the slide way is arranged on the filter body and is mechanically connected with the slide block, the rotating block is arranged on the slide block, the turning block is arranged in the middle of the slide block, the slide block is movably connected with the moving block through a connecting shaft, the material pouring cavity is arranged below the filter body, and concave-convex blocks which are connected in sequence are arranged on the inclined walls on two sides of the material pouring cavity and on two sides of the moving block.

According to the technical scheme, the slider is provided with an assembling block and a clamping block, the assembling block and the clamping block are fixedly connected, a character-shaped hollow part is arranged below the clamping block, the assembling block is a character-shaped protruding block and is arranged right above the hollow part of the clamping block, threaded holes are formed in two sides of the assembling block, and square openings are formed in two sides of the upper part of the clamping block.

As a further optimization of this technical scheme, the turning block is equipped with the turning ball, colludes piece, support, bolt, mounting bracket, pivot, be equipped with on the turning ball and collude the piece, the pivot is passed through loose axle and turning ball swing joint, the turning ball is installed on the support, the below of support is equipped with the mounting bracket, the both sides of mounting bracket pass through screw thread swing joint with the bolt, the mounting bracket lower extreme is equipped with the type fretwork, and this fretwork size is identical with the structure of equipment piece, the mounting bracket both sides are equipped with the screw hole, and its top is equipped with the screw thread with the leg joint department.

As a further optimization of the technical scheme, an arc-shaped groove is formed in the rotating ball, the vertexes of the two sides of the groove are arc-shaped edges, the hook block is arranged at the upper ends of the two sides of the arc-shaped groove and is an arc-shaped block bent inwards, the bent arc surface of the hook block faces outwards, threads are arranged at the lower end of the hook block and are movably connected with the rotating ball through the threads, and the hook front end of the hook block is an arc-shaped edge.

As a further optimization of the technical scheme, the overturning block is provided with a connecting block, a bearing block, a fixing body, a supporting block and a closing block, the connecting block is connected with the supporting block in a sliding manner, the supporting block is fixedly connected with the fixing body, the closing block is installed on the fixing body, the bearing block is arranged on the connecting block, the front end of the bearing block is an arc-shaped panel, the periphery of the bearing block is an arc-shaped edge, the bearing block is installed in a sliding groove of the connecting block, the lower end of the bearing block is provided with a spring, the supporting block is a cylinder, and the diameter of the supporting block is consistent with the opening of a groove in.

As the further optimization of the technical scheme, the inner side of the connecting block is provided with a groove, the outer side of the connecting block is provided with one section of sliding groove, the connecting block and the fixing body are both movably connected with one connecting column through two semicircular arc blocks, the front end of one side of the arc block of the connecting block is provided with the convex block, the two sides of the convex block are provided with the ball blocks, the springs are arranged below the ball blocks, the middle of the fixing body is provided with the square convex block, the convex block is attached to the square groove on the clamping block, and the front end of the fixing body is connected together through the convex block and fixed through screws.

As a further optimization of this technical scheme, smooth chamber is equipped with connecting axle, cylinder and turns, changes the ball, connects material axle, cavity, connecting axle and cavity fixed connection, the cylinder turns and passes through loose axle swing joint with the connecting axle, change the ball and install on the cylinder next door of turning, the cavity with connect material axle mechanical connection, the topside that the cylinder turned all is the circular arc limit, the cylinder turns and all is equipped with soft cortex with the surface of changeing the ball, the cylinder turns and changes the ball and connect on the connecting axle in succession, and three combination is as an organic whole together, and the equidistance is installed at the cavity, and the cylinder of last group of connections turns and changes the ball order and will stagger with next a set of being connected when installing.

As a further optimization of the technical scheme, the inner side of the front end of the rotating blade of the material receiving shaft is an arc-shaped groove with a large radian, an undulating concave-convex surface with a small radian is arranged below the groove, the vertex of the joint of the concave-convex surface below the groove at the foremost end of the rotating blade of the material receiving shaft is an arc-shaped edge, and the outer side of the material receiving shaft is an arc-shaped convex surface.

Advantageous effects

Compared with the prior art, the aquatic product screening equipment provided by the invention has the following advantages:

1. the arc-shaped surface of the hook block faces outwards, the arc-shaped surface has no edges and corners when contacting with aquatic products, damage to the aquatic products can be reduced, a gap is formed between the bending radian of the hook block and the groove of the rotating ball, and impurities contained in the aquatic products can be clamped and hooked when the aquatic products slide onto the groove.

2. The sliding block and the moving block are connected through the connecting shaft, when the sliding block slides, the moving block can slide along with the sliding block, so that gaps are reserved between the moving block and between the moving block and the wall of the material pouring cavity, and the concave-convex surfaces of the moving block and the material pouring cavity play a role in buffering, so that the sliding speed of aquatic products is reduced, and the injury is reduced.

3. The turnover block can be arranged on the sliding block, so that aquatic products to be filtered are influenced by gravity when contacting the receiving block and are pressed downwards, the aquatic products slide down along the receiving block, the front end of the receiving block is an arc-shaped surface and cannot be damaged, and the aquatic products slide down along the receiving block and are subjected to a certain buffering force, so that the damage to the screened aquatic products is reduced.

4. The receiving shaft structure is arc-shaped, and has no sharp corner edge, so that aquatic products cannot be damaged, the front end groove of the rotating blade can receive and guide all the aquatic products out during rotation, the concave-convex structure on the inner side of the rotating blade of the receiving shaft can receive and guide the aquatic products sliding to the front end, the clamping phenomenon cannot occur, and the aquatic products cannot be lost, clamped and clamped in the equipment and cannot be guided out.

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 view of the overall structure of an aquatic product screening apparatus according to the present invention.

Fig. 2 is a schematic structural diagram of a treater and a discharge port according to the present invention.

Fig. 3 is a schematic view of the filter structure of the present invention.

Fig. 4 is a schematic view of the slider structure of the present invention.

Fig. 5 is a schematic view of a rotating block structure of the present invention.

Fig. 6 is a schematic diagram of the turning block structure of the present invention.

FIG. 7 is a schematic diagram of a sliding chamber structure according to the present invention.

In the figure: the device comprises a turnover cover 1, a feeding hole 2, a control box 3, a motor 4, a rack 5, a spring frame 6, a discharging hole 7, a processor 8, a processing cavity 80, a filter 81, a sliding cavity 82, a device body 81-1, a slide way 81-2, a turnover block 81-3, a rotation block 81-4, a slide block 81-5, a movement block 81-6, a material pouring cavity 81-7, an assembly block 81-5a, a clamping block 81-5b, a rotation ball 81-4a, a hook block 81-4b, a support 81-4c, a bolt 81-4d, a mounting frame 81-4e, a rotation shaft 81-4f, a connection block 81-3a, a bearing block 81-3b, a fixing body 81-3c, a support block 81-3d, a closing block 81-3e, a connection shaft 82-1, a cylindrical rotation body 82-2, a rotation ball 82-3, A material receiving shaft 82-4 and a cavity 82-5.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.