阅读说明：本技术 一种海胆分离内脏与生殖腺自取设备 (Sea urchin internal organ and gonad self-taking equipment ) 是由 李品 于 2020-07-09 设计创作，主要内容包括：一种海胆分离内脏与生殖腺自取设备,包括工作箱以及设置于所述工作箱中的工作腔,所述工作腔上壁中固定设有加工电机,所述加工电机的电机轴上固定设有加工底座,所述加工底座下端面固定设有切割活动底座,所述切割活动底座下侧转动设有活动杆,将海胆放置在本发明的指定位置后,本发明能够根据海胆的自身直径调节切割角度,根据海胆自身重量调节切割深度,能自动分离内脏和生殖腺,大大节约了时间,提高了效率还节约了人力成本。(The invention relates to a sea urchin viscera and gonad separation self-taking device which comprises a working box and a working cavity arranged in the working box, wherein a processing motor is fixedly arranged in the upper wall of the working cavity, a processing base is fixedly arranged on a motor shaft of the processing motor, a cutting movable base is fixedly arranged on the lower end face of the processing base, a movable rod is rotatably arranged on the lower side of the cutting movable base, and after a sea urchin is placed at the designated position of the device, the device can adjust a cutting angle according to the self diameter of the sea urchin, adjust the cutting depth according to the self weight of the sea urchin, and can automatically separate viscera and gonads, thereby greatly saving time, improving efficiency and saving labor cost.)

1. The utility model provides a sea urchin separation viscera and gonad equipment of getting certainly, includes the work box and sets up in the work chamber in the work box which characterized in that: a processing motor is fixedly arranged in the upper wall of the working cavity, a processing base is fixedly arranged on a motor shaft of the processing motor, a cutting movable base is fixedly arranged on the lower end surface of the processing base, a movable rod is rotatably arranged at the lower side of the cutting movable base, a cutting telescopic rod is fixedly arranged at the lower side of the movable rod, a cutting blade shaft is rotatably arranged in a hydraulic rod of the cutting telescopic rod, a cutting blade is fixedly arranged on the cutting blade shaft, a cutting cavity is arranged in the hydraulic rod of the cutting telescopic rod, a cutting motor is fixedly arranged in the upper wall of the cutting cavity, a cutting driving helical gear is fixedly arranged on the motor shaft of the cutting motor, a cutting driven helical gear is fixedly arranged at the right side of the cutting blade shaft, the cutting driving helical gear is in meshing transmission with the cutting driven helical gear, a processing telescopic rod is fixedly arranged on the lower end surface of the, the processing machine is characterized in that a processing shaft is arranged in the processing cavity in a rotating manner, a processing base shaft is fixedly arranged on the processing shaft, a cleaning rod is arranged at the upper end of the processing base shaft in a rotating manner, a cleaning hair bulb is fixedly arranged at the upper end of the cleaning rod, a cleaning rod gear is fixedly arranged at the bottom of the cleaning rod, a separating rod is arranged at the lower end of the processing base shaft in a rotating manner, a separating gear is fixedly arranged at the upper part of the separating rod, a separating electric slide rail is fixedly arranged at the lower end of the separating rod, a separating sheet is arranged in the separating electric slide rail in a sliding manner, a processing cavity is arranged at the lower part of the processing telescopic rod, a rotating motor is fixedly arranged on the right wall of the processing cavity, a motor shaft of the rotating motor is fixedly arranged at the right end of the processing shaft, a processing motor is fixedly arranged at, The separation gear is in meshing transmission, a stress chute is fixedly arranged on the right wall of the working box, a stress sliding plate is arranged in the stress chute in a sliding manner, a feeding motor base is fixedly arranged on the right side of the stress sliding plate, a pressed rod is fixedly arranged on the lower end face of the feeding motor base, a pressed ball cavity is fixedly arranged on the lower side of the pressed ball cavity, a pressed ball cavity is arranged in the pressed ball cavity, a pressed ball plate is arranged in the pressed ball cavity in a sliding manner, a pressed ball is arranged between the pressed ball plate and the pressed ball cavity, the pressed rod is fixedly arranged on the upper end face of the pressed ball plate, the pressed ball is connected with the cutting telescopic rod through a hose to control the cutting thickness, the cutting depth is increased when the sea urchin is heavier, a feeding motor is fixedly arranged in the feeding motor base, a feeding rod is fixedly arranged on a motor shaft of the feeding motor, and a turnover disc is fixedly arranged, the left end of the turnover disc is symmetrically and rotatably provided with a turnover shaft, the turnover disc is rotatably provided with a fixed ring, the fixed ring is internally and symmetrically provided with a fixed cavity, a fixed plate is arranged in the fixed cavity in a sliding manner, a fixed spring is arranged between the fixed plate and the right wall of the fixed cavity, the left side of the fixed plate is fixedly provided with a fixed block, the left side of the fixed plate is fixedly provided with a lug, the left side of the fixed ring and the left wall of the working cavity are fixedly provided with a linkage box, the upper side of the linkage box is fixedly provided with a linkage port, a linkage cavity is arranged in the linkage box, a linkage plate is arranged in the linkage cavity in a sliding manner, a linkage spring is arranged between the linkage plate and the left wall of the linkage cavity, the right side of the linkage plate is fixedly provided with a linkage block, the linkage block is in contact transmission with the, an angle adjusting rod is arranged in the angle cavity in a sliding mode, the angle adjusting rod is rotatably installed on the right side of the cutting telescopic rod, and the left side of the angle adjusting rod is in contact transmission with the linkage rod.

2. The apparatus of claim 1, wherein the apparatus for separating the internal organs from the gonads comprises: the fixed electronic slide rail of ejection of compact that is equipped with in working chamber bottom, it is equipped with the discharge bar to slide in the electronic slide rail of ejection of compact, the fixed flitch that is equipped with in discharge bar upper end, the symmetry is equipped with gonad case, viscera case around the discharge plate upside, the working chamber bottom the electronic slide rail left side of ejection of compact is fixed and is equipped with ejection of compact motor, be fixed with ejection of compact disc on the motor shaft of ejection of compact motor, the ejection of compact disc outside is rotated and is equipped with ejection of compact connecting rod, ejection of compact connecting rod right-hand member is rotated and.

3. The apparatus of claim 1, wherein the apparatus for separating the internal organs from the gonads comprises: the turnover mechanism is characterized in that a turnover motor is fixedly arranged in the turnover disc, and a motor shaft of the turnover motor is fixedly arranged on the turnover shaft.

4. The apparatus of claim 1, wherein the apparatus for separating the internal organs from the gonads comprises: the front side of the working cavity is provided with a discharge hole.

5. The apparatus of claim 1, wherein the apparatus for separating the internal organs from the gonads comprises: and the rear wall of the working cavity is fixedly provided with a shell remover for pushing the upper cover down after the cutting is finished.

Technical Field

The invention relates to the technical field of sea urchin processing, in particular to a sea urchin viscera and gonad self-taking device.

Background

Sea urchin is fed by its gonad, which is also called sea urchin egg, sea urchin seed, sea urchin yellow, sea urchin paste, orange yellow in color, delicious and fragrant, and accounts for 8% -15% of the total weight of sea urchin. The gonad contains more than 30% of eicosenoic acid in the total fatty acid, can prevent cardiovascular diseases, the existing sea urchin adopts an artificial shell opening mode, not only consumes much time and has low efficiency, but also is easy to stab human, and the general machine still needs to manually separate the gonad from viscera when opening the shell, aiming at the problems, the invention improves the technology.

Disclosure of Invention

The invention aims to solve the technical problem of providing a sea urchin viscera and gonad self-taking device, and overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to a sea urchin viscera and gonad separating self-taking device, which comprises a working box and a working cavity arranged in the working box, wherein a processing motor is fixedly arranged in the upper wall of the working cavity, a processing base is fixedly arranged on a motor shaft of the processing motor, a cutting movable base is fixedly arranged on the lower end surface of the processing base, a movable rod is rotatably arranged at the lower side of the cutting movable base, a cutting telescopic rod is fixedly arranged at the lower side of the movable rod, a cutting sheet shaft is rotatably arranged in a hydraulic rod of the cutting telescopic rod, a cutting sheet is fixedly arranged on the cutting sheet shaft, a cutting cavity is arranged in the hydraulic rod of the cutting telescopic rod, a cutting motor is fixedly arranged in the upper wall of the cutting cavity, a cutting driving bevel gear is fixedly arranged on the motor shaft of the cutting motor, a cutting driven bevel gear is fixedly arranged on the right side of the cutting sheet shaft, and the cutting driving bevel gear, the processing machine is characterized in that a processing telescopic rod is fixedly arranged on the lower end face of a processing base, a processing cavity is arranged at the lower end of the processing telescopic rod, a processing shaft is arranged in the processing cavity in a rotating manner, a processing base shaft is fixedly arranged on the processing shaft, a cleaning rod is arranged at the upper end of the processing base shaft in a rotating manner, a cleaning hair ball is fixedly arranged at the upper end of the cleaning rod, a cleaning rod gear is fixedly arranged at the bottom of the cleaning rod, a separating rod is arranged at the lower end of the processing base shaft in a rotating manner, a separating gear is fixedly arranged at the upper part of the separating rod, a separating electric slide rail is fixedly arranged at the lower end of the separating rod, a separating sheet is arranged in the separating electric slide rail in a sliding manner, a processing cavity is arranged at the lower part of the processing telescopic rod, a rotating motor is fixedly arranged on the right wall of the processing cavity, a, the processing driving gear can be respectively meshed with the cleaning rod gear and the separating gear for transmission, a stress chute is fixedly arranged on the right wall of the working box, a stress sliding plate is arranged in the stress chute in a sliding manner, a feeding motor base is fixedly arranged on the right side of the stress sliding plate, a compression rod is fixedly arranged on the lower end face of the stress sliding plate, a compression ball cavity is fixedly arranged on the lower side of the feeding motor base, a compression ball cavity is arranged in the compression ball cavity, a compression ball plate is arranged in the compression ball cavity in a sliding manner, a compression ball is arranged between the compression ball plate and the compression ball cavity, the compression rod is fixedly arranged on the upper end face of the compression ball plate, the compression ball is connected with the cutting telescopic rod through a hose to control the cutting thickness, the cutting depth is increased when the sea urchin is heavier, a feeding motor is fixedly arranged in the feeding motor base, and a feeding rod is fixedly arranged on a motor shaft of, a turnover disc is fixedly arranged on the left side of the feeding rod, a turnover shaft is symmetrically arranged on the left side of the turnover disc, a fixed ring is rotatably arranged on the turnover disc, fixed cavities are symmetrically arranged in the fixed ring, a fixed plate is slidably arranged in the fixed cavities, a fixed spring is arranged between the fixed plate and the right wall of the fixed cavity, a fixed block is fixedly arranged on the left side of the fixed plate, a convex block is fixedly arranged on the left side of the fixed plate, a linkage box is fixedly arranged on the left wall of the fixed ring and the left wall of the working cavity, a linkage port is fixedly arranged on the upper side of the linkage box, a linkage cavity is arranged in the linkage box, a linkage plate is slidably arranged in the linkage cavity, a linkage spring is arranged between the linkage plate and the left wall of the linkage cavity, a linkage block is fixedly arranged on the right side of the linkage plate, the linkage block is in contact, an angle cavity is formed in the processing base, an angle adjusting rod is arranged in the angle cavity in a sliding mode, the angle adjusting rod is rotatably installed on the right side of the cutting telescopic rod, and the left side of the angle adjusting rod is in contact transmission with the linkage rod.

Further, the fixed electronic slide rail of ejection of compact that is equipped with in working chamber bottom, it is equipped with the discharge bar to slide in the electronic slide rail of ejection of compact, the fixed flitch that is equipped with in discharge bar upper end, the symmetry is equipped with gonad case, viscera case around the discharge plate upside, the working chamber bottom the electronic slide rail left side of ejection of compact is fixed and is equipped with ejection of compact motor, be fixed with ejection of compact disc on the motor shaft of ejection of compact motor, the ejection of compact disc outside is rotated and is equipped with ejection of compact connecting rod, ejection of compact connecting rod right-hand member is rotated and is installed.

Furthermore, a turnover motor is fixedly arranged in the turnover disc, and a motor shaft of the turnover motor is fixedly arranged on the turnover shaft.

Furthermore, a discharge hole is formed in the front side of the working cavity.

Furthermore, a shell remover is fixedly arranged on the rear wall of the working cavity and used for pushing the upper cover down after cutting is completed.

The invention has the beneficial effects that: after the sea urchins are placed at the designated positions, the cutting angle can be adjusted according to the self diameters of the sea urchins, the cutting depth can be adjusted according to the self weights of the sea urchins, the internal organs and the gonads can be automatically separated, the time is greatly saved, the efficiency is improved, and the labor cost is also saved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic left side view of the structure of FIG. 1;

FIG. 3 is a schematic top view of the structure of FIG. 1;

FIG. 4 is a schematic view of the structure at A in FIG. 1;

FIG. 5 is a schematic view of the structure at B in FIG. 1;

fig. 6 is a schematic diagram of the structure at C in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-6, the sea urchin viscera and gonad separating and self-taking device comprises a working box 10 and a working chamber 12 arranged in the working box 10, wherein a processing motor 11 is fixedly arranged in the upper wall of the working chamber 12, a processing base 13 is fixedly arranged on a motor shaft of the processing motor 11, a cutting movable base 16 is fixedly arranged on the lower end surface of the processing base 13, a movable rod 17 is rotatably arranged on the lower side of the cutting movable base 16, a cutting telescopic rod 18 is fixedly arranged on the lower side of the movable rod 17, a cutting blade shaft 64 is rotatably arranged in a hydraulic rod of the cutting telescopic rod 18, a cutting blade 65 is fixedly arranged on the cutting blade shaft 64, a cutting chamber 61 is arranged in the hydraulic rod of the cutting telescopic rod 18, a cutting motor 59 is fixedly arranged in the upper wall of the cutting chamber 61, and a cutting driving bevel gear 62 is fixedly arranged on the motor shaft of the cutting motor 59, the cutting mechanism is characterized in that a cutting driven helical gear 63 is fixedly arranged on the right side of the cutting blade shaft 64, the cutting driving helical gear 62 is in meshing transmission with the cutting driven helical gear 63, a processing telescopic rod 28 is fixedly arranged on the lower end face of the processing base 13, a processing cavity 66 is arranged at the lower end of the processing telescopic rod 28, a processing shaft 83 is rotatably arranged in the processing cavity 66, a processing base shaft 79 is fixedly arranged on the processing shaft 83, a cleaning rod 67 is rotatably arranged at the upper end of the processing base shaft 79, a cleaning hair bulb 68 is fixedly arranged at the upper end of the cleaning rod 67, a cleaning rod gear 69 is fixedly arranged at the bottom of the cleaning rod 67, a separating rod 76 is rotatably arranged at the lower end of the processing base shaft 79, a separating gear 75 is fixedly arranged at the upper part of the separating rod 76, a separating electric slide rail 78 is fixedly arranged at the lower end of the separating rod 76, a separating blade 77 is slidably, the right wall of the processing cavity 71 is fixedly provided with a rotating motor 72, a motor shaft of the rotating motor 72 is fixedly installed at the right end of the processing shaft 83, the bottom of the processing telescopic rod 28 is fixedly provided with a processing motor 73, a motor shaft of the processing motor 73 is fixedly provided with a processing driving gear 74, the processing driving gear 74 can be respectively meshed with the cleaning rod gear 69 and the separating gear 75 for transmission, the right wall of the working box 10 is fixedly provided with a stress chute 39, a stress slide plate 41 is arranged in the stress chute 39 in a sliding manner, the right side of the stress slide plate 41 is fixedly provided with a feeding motor base 38, the lower end surface is fixedly provided with a pressure rod 42, the lower side of the feeding motor base 38 is fixedly provided with a pressure ball cavity 44, a pressure ball cavity 46 is arranged in the pressure ball cavity 44, a pressure ball plate 43 is arranged in the pressure ball cavity 46 in a sliding manner, and a pressure ball 45 is arranged between, the compressed rod 42 is fixedly installed on the upper end face of the compressed ball plate 43, the compressed ball 45 is connected with the cutting telescopic rod 18 through a hose to control the cutting thickness, the cutting depth is increased as sea urchins are heavier, the feeding motor 37 is fixedly arranged in the feeding motor base 38, the feeding rod 58 is fixedly arranged on a motor shaft of the feeding motor 37, the turning disc 57 is fixedly arranged on the left side of the feeding rod 58, the turning shaft 82 is symmetrically arranged at the left end of the turning disc 57, the fixing ring 29 is rotatably arranged on the turning disc 57, the fixing cavities 31 are symmetrically arranged in the fixing ring 29, the fixing plate 32 is slidably arranged in the fixing cavities 31, the fixing spring 33 is arranged between the fixing plate 32 and the right wall of the fixing cavity 31, the fixing block 34 is fixedly arranged on the left side of the fixing plate 32, the bump 35 is fixedly arranged on the left side of the fixing plate 32, and the left side of the, The fixed linkage case 26 that is equipped with of working chamber 12 left side wall, the fixed linkage mouth 22 that is equipped with of upside of linkage case 26, be equipped with linkage chamber 23 in the linkage case 26, it is equipped with linkage plate 21 to slide in the linkage chamber 23, linkage plate 21 with be equipped with linkage spring 24 between the linkage chamber 23 left side wall, the fixed linkage block 25 that is equipped with in linkage plate 21 right side, linkage block 25 with lug 35 contact transmission, 21 upside rotations of linkage plate are equipped with gangbar 19, be equipped with angle chamber 14 in the processing base 13, it is equipped with angle modulation pole 15 to slide in the angle chamber 14, angle modulation pole 15 rotates to be installed the right side of cutting telescopic link 18, angle modulation pole 15 the left side with gangbar 19 contact transmission.

Profitable, the fixed electronic slide rail 48 of ejection of compact that is equipped with in working chamber 12 bottom, it is equipped with ejection of compact 49 to slide in the electronic slide rail 48 of ejection of compact, ejection of compact 49 upper end is fixed and is equipped with ejection of compact board 51, ejection of compact board 51 upside front and back symmetry is equipped with gonad case 52, viscera case 54, working chamber 12 bottom the electronic slide rail 48 left side of ejection of compact is fixed and is equipped with ejection of compact motor 47, be fixed with ejection of compact disc 56 on ejection of compact motor 47's the motor shaft, the rotation in the ejection of compact disc 56 outside is equipped with ejection of compact connecting rod 55, ejection of compact connecting rod 55 right-.

Beneficially, the overturning plate 57 is internally and fixedly provided with an overturning motor 81, and a motor shaft of the overturning motor 81 is fixedly installed on the overturning shaft 82.

Advantageously, the front side of the working chamber 12 is provided with a discharge opening 53.

Advantageously, a crust breaker 88 is fixed to the rear wall of the working chamber 12 for pushing the upper cover down after the cutting is completed.

The working steps are as follows: initial state: the feeding rod 58 and the fixing ring 29 are positioned at the right side of the working box 10, the processing telescopic rod 28 is in a contraction state, the separating rod 76 is positioned at the lower side, and the cleaning rod 67 is positioned in the processing cavity 66; the sea urchin is placed and fixed between the fixed blocks 34, the fixed blocks 34 move towards two sides under the action of force, the fixed blocks 34 push the convex blocks 35 outwards, the feeding motor 37 is started, the feeding motor 37 drives the feeding rod 58 to rotate, the feeding rod 58 drives the fixed ring 29 to rotate into the working cavity 12, the feeding motor 37 stops when being positioned under the processing telescopic rod 28, the feeding motor base 38 is pressed downwards under the action of gravity, the feeding motor base 38 drives the stressed sliding plate 41 to slide in the stressed sliding groove 39, the feeding motor base 38 drives the stressed ball plate 43 to extrude the stressed balls 45 in the stressed ball cavity 46 through the stressed rod 42, the gas in the stressed balls 45 enters the cutting telescopic rod 18 through the hose, the cutting depth is adjusted, the convex blocks 35 are in contact with the linkage blocks 25 during rotation to transmit force to extrude the linkage blocks 25 leftwards, the linkage blocks 25 drive the linkage plates 21 leftwards, the linkage plates 21 drive the lower ends of the linkage rods 19 to move left, the upper end of the linkage rod 19 drives the angle adjusting rod 15 to move rightwards, the angle adjusting rod 15 pulls the lower end of the cutting telescopic rod 18 rightwards to rotate rightwards, the cutting angle is adjusted, the cutting motor 59 is started, the cutting motor 59 drives the cutting driving helical gear 62 to rotate, the cutting driving helical gear 62 drives the cutting sheet shaft 64 to rotate through meshing transmission with the cutting driven helical gear 63, the cutting sheet shaft 64 drives the cutting sheet 65 to rotate, the processing motor 11 is started, the processing motor 11 drives the processing base 13 to rotate, the processing base 13 drives the cutting telescopic rod 18 to rotate, sea urchin oblique side cutting is carried out, after the cutting is completed, the processing motor 11 is stopped, the huller 88 is started, the upper cover after the cutting is completed is pushed down, the rotating motor 72 is started, the rotating motor 72 drives the processing base shaft 79 to rotate one hundred eighty degrees through the processing shaft 83, the cleaning rod 67 is downward, the processing telescopic, the sea urchin cutting device is characterized in that the sea urchin cutting device is extended into a sea urchin to be stopped, a processing motor 73 is started to drive a processing driving gear 74 to rotate, the processing driving gear 74 drives a cleaning rod 67 to rotate through meshing transmission with a cleaning rod gear 69, the cleaning rod 67 drives a cleaning hair ball 68 to rotate, the cleaning hair ball 68 rotates to stir viscera in the sea urchin to separate the viscera from gonads, the processing motor 73 is stopped after the processing is completed, a processing telescopic rod 28 is started to contract to enable the cleaning hair ball 68 to leave the sea urchin, a discharging motor 47 is started to drive a discharging disc 56 to rotate, the discharging disc 56 drives a discharging rod 49 to move leftwards through a discharging connecting rod 55, the discharging rod stops when a gonad box 52 is positioned under a fixed ring 29, a turnover motor 81 is started to drive the fixed ring 29 to rotate through a turnover shaft 82, the fixed ring 29 drives the sea urchin to rotate through a fixed block 34, the viscera is poured into, the rotating motor 72 is started to drive the processing base shaft 79 to rotate, the processing base shaft 79 drives the separating rod 76 to rotate by one hundred eighty degrees, the separating sheet 77 is stretched into the sea urchin, the processing motor 73 is started to drive the processing driving gear 74 to rotate, the processing driving gear 74 drives the separating rod 76 to rotate through meshing transmission with the separating gear 75, the separating rod 76 drives the separating sheet 77 to rotate, the electric sliding rail 78 is separated along with the rotating time to drive the separating sheet 77 to slowly move outwards, the separating sheet 77 peels off the gonad on the inner wall of the sea urchin, the discharging motor 47 is started to drive the discharging disc 56 to rotate, the discharging disc 56 drives the discharging rod 49 to move rightwards through the discharging connecting rod 55, so that the viscera box 54 is positioned under the fixing ring 29, the overturning motor 81 is started to drive the fixing ring 29 to rotate through the overturning shaft 82, the fixing ring 29 drives the sea urchin to rotate through the fixing block 34, and the gona, the feed rod 58 is started to drive the fixing ring 29 to rotate so as to take the sea urchin shells out of the working cavity 12, and the sea urchin shells are replaced by workers.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.