CN108770756B

CN108770756B - Pneumatic automatic fry marking machine

Info

Publication number: CN108770756B
Application number: CN201810480975.7A
Authority: CN
Inventors: 胡思玲; 朱爱意; 徐开达
Original assignee: Zhejiang Ocean University ZJOU
Current assignee: Zhejiang Ocean University ZJOU
Priority date: 2018-05-18
Filing date: 2018-05-18
Publication date: 2020-12-08
Anticipated expiration: 2038-05-18
Also published as: CN108770756A

Abstract

The invention provides a pneumatic automatic fry marking machine, which belongs to the technical field of biological marking and comprises a box body, wherein a fry basin to be marked and a fry basin to be marked are respectively arranged above the box body; the marking device comprises a supporting plate, wherein the side wall of the supporting plate is respectively provided with a feeding mechanism for conveying the line marking wires, a cutting mechanism for cutting the line marking wires and an injection mechanism for injecting the line marking by organisms; the marking machine is high in marking accuracy and efficiency, long in marking retention time, wide in applicable marking organisms, small in damage to the biomarkers and fast in marking wound healing.

Description

Pneumatic automatic fry marking machine

Technical Field

The invention belongs to the technical field of biomarkers, and particularly relates to a pneumatic automatic fry marking machine.

Background

The marking machine is a generalized concept and mainly comprises three types of pneumatics, lasers and electroerosion, wherein the pneumatics are controlled by a computer, and a printing needle performs high-frequency impact motion under the action of compressed air, so that a mark with a certain depth is printed on a workpiece, and the marking is characterized in that: has larger depth; the laser marking machine is used for marking permanent marks on the surfaces of various different substances by using laser beams, the marking effect is that deep substances are exposed through the evaporation of surface substances, so that exquisite patterns, trademarks and characters are carved, the fixed trademarks are mainly printed by electric corrosion, the same as stamping is carried out, but the printing content is inconvenient to change, but the marking machines on the market are not suitable for marking fish marks.

The prior art, such as the published documents of the Chinese invention, the application numbers are as follows: CN201610729087.5, the invention relates to a device for marking on a fish body, which comprises two independent parts, namely a laser carving machine and a fish containing box, wherein the fish containing box can move to the vicinity of a laser head of the laser carving machine to realize laser carving of the fish body; the fish holding box is internally provided with a fish fixing groove which is similar to the shape of the fish body and is used for fixing the fish body. The laser beam emitted by the laser head ablates and carves figures, characters or bar codes on the fish in the fish box, thereby realizing the purpose of marking the fish body. The advantages are that: the mark is fast, and the mark is not the external annex, is difficult for dropping, has the permanence, and the most crucial can prevent to change the mark and steal and trade, ensures to sell and the discernment on the dining table, but will mark the mark and can make the mark warp or damage along with the growth of fish on the health of fish, the identification of later stage of being not convenient for.

Disclosure of Invention

The invention aims to provide the pneumatic automatic fry marking machine which is simple and convenient to operate, high in marking accuracy and efficiency, clear and accurate in marking, long in marking retention time, small in damage to biological marks and fast in marking wound healing.

The technical scheme adopted by the invention for realizing the purpose is as follows: the pneumatic automatic fry marking machine comprises a box body, a control panel and a marking device, wherein a fry pot to be marked and a fry pot to be marked are respectively arranged above the box body;

the marking device comprises a supporting plate, wherein the side wall of the supporting plate is respectively provided with a feeding mechanism for conveying the line marking wires, a cutting mechanism for cutting the line marking wires and an injection mechanism for injecting the line marking by organisms;

the injection mechanism comprises a mark feeding cylinder used for pushing the mark, a conveying pipeline used for conveying the mark and a needle used for injecting the mark with the organism, a connecting sleeve is arranged at the joint of the conveying pipeline and the needle, and a spacing layer is arranged in the middle of the wall of the needle. The automatic marking operation of the organisms is realized by controlling all parts in the box body by using the control panel, an operator only needs to mark the organisms to be marked by the marking device, the organisms subjected to marking are placed in the fry marking basin, the marking time of a single organism is within 2.5 seconds, the marking efficiency and the marking accuracy are high, the injection mechanism injects the line marks into the organisms to be marked in the marking process, such as the skin of the surface layer of fish, the line marks can stay in the organisms for a long time, the marks on the organisms are kept, the line marks can not be deformed or damaged due to external factors when staying in the organisms, the organisms are marked for a long time, and the definition of the line marks is kept for a long time. The mode that adopts the syringe needle injection is beaten the mark to the organism and can be reduced the injury to the organism of beating the mark in-process, reach the accurate purpose of beating the mark position, it is equipped with the push rod that is used for promoting the line mark to reach the syringe needle export to advance mark cylinder tip, it makes the syringe needle form bilayer structure can play the effect that reduces vibrations to the line mark that removes in the syringe needle thereby further improve the mobility stability of line mark in the syringe needle to set up at syringe needle pipe wall middle part, avoid the line mark to remove the condition that the in-process appears crooked in the syringe needle simultaneously, the line mark can get into the organism fast under the promotion of mark cylinder and reduce the injury to the organism and effectively improve and beat mark accurate nature and efficiency.

Preferably, the feeding mechanism comprises a pair of feeding wheels for conveying the marking thread, the feeding wheels are controlled by a feeding motor arranged on the back of the supporting plate, the marking thread is conveyed through the pair of feeding wheels, and the feeding motor is controlled by a control panel to realize the accurate control of the length of the marking thread entering the cutting chamber, namely the control of the cutting length of the marking thread.

Preferably, the cutting mechanism comprises a cutting box arranged on the side wall of the supporting plate, one side of the cutting box is provided with a guide pipe and a label feeding cylinder which are used for butting the label wire, the other side of the cutting box is connected with a conveying pipeline corresponding to the position of the label feeding cylinder, a cutting chamber is arranged in the cutting box, a cutting block used for cutting the label wire is connected in the cutting chamber in a matching way, the end part of the cutting block is movably connected with a swinging rod capable of swinging, the other end of the swinging rod is connected with a stop block, the stop block is arranged in a matching way with the outlet end of the conveying pipeline, the bottom of the cutting box is connected with a cutting cylinder used for controlling the swinging of the swinging rod, the feeding mechanism feeds the label wire into the cutting chamber according to the cutting length, the cutting cylinder controls the swinging rod to swing, the swinging rod drives the cutting block to press down to cut the label wire by adopting the lever principle and press down to the working position corresponding to, the line mark that forms after cutting is promoted by advancing mark cylinder, promotes the line mark and removes to conveying pipeline, and the swinging arms drives the dog and rises cancellation to blockking of line mark simultaneously, thereby makes the line mark get into in the syringe needle and injects into the organism, accomplishes the mark operation to the organism, and whole process is realized by control panel and PLC, still can beat the time delay time of each part of regulation of the condition of mark organism according to the reality, improves the efficiency of beating mark work.

Preferably, the side surface of the cutting block is provided with grinding lines and a chip groove which is obliquely arranged, the end part of the linear marking wire which enters the cutting chamber in the marking process is pressed down and cut by the cutting block to cause uneven cut of the end part of the linear marking which is cut and formed, the cut of the marking organism can be enlarged, the grinding lines and the cutting block can be arranged to grind the head part of the linear marking wire which is cut next time in the process of cutting the linear marking wire up and down, so that the diameter of the end opening of the linear marking wire which is cut next time is reduced, the resistance of the linear marking wire which is shot into the organism can be reduced, the shot stability and the position accuracy of the linear marking wire are improved, the linear marking wire with the shape has small damage to the tissues in the organism and is beneficial to the recombination among the tissues, the wound healing is promoted, the shot size of the marking wound of the organism is reduced, and the cutting block can ensure the precise cutting of the linear marking wire after the cut is smooth cut, namely the cutting error, the numerical errors on the cut linear markers are avoided, the rejection rate of the linear markers is reduced, and the marking accuracy is improved.

Preferably, the surface of the linear marking wire can be provided with separating blocks for numbers and separating numbers of biological marks, the numbers are marked on the linear marking wire so as to conveniently carry out operations such as identification and parameter recording on organisms of each mark, the marking numbers are selected from 6 bits or 8 bits and the like, the selecting is specifically selected according to actual conditions, the identifying accuracy of the marks can be ensured by arranging the separating blocks between the marking numbers, the messy codes of the marking numbers are avoided, the marking numbers can be obtained only by reading the numbers between two separating blocks, the separating blocks can also improve the accuracy of the linear marking wire in the cutting process, and the cutting error is reduced.

As the preferred, silence air compressor machine and outside correspondence are placed to the lower part in the box and are equipped with the chamber door, and bottom half side is connected with the footboard, provides required power for beating the mark process through the silence air compressor machine, beats the mark operation to single organism through the footboard control at beating the mark in-process, make full use of operating personnel's trick, improve the convenient operation nature of device, also have obvious promotion to beating mark efficiency.

As the preferred, be equipped with PLC and solenoid valve on the box lateral wall respectively, the box bottom surface is connected with the gyro wheel, and PLC and solenoid valve cooperation control panel can control each part on the device, improve the work efficiency and the degree of automation of device.

Preferably, the outside of the needle head is sleeved with a silica gel sleeve, the shape of the silica gel sleeve is selected according to the actual marking organism condition, for example, the head of a fish is marked, and the silica gel sleeve corresponding to the shape of the head of the fish is selected to play a limiting role in the marking process so as to improve the marking efficiency.

Compared with the prior art, the invention has the beneficial effects that:

1) the marking time of a single organism is within 2.5 seconds, and the marking efficiency and accuracy are high;

2) the line mark can stay in the organism for a long time to keep the mark of the organism, the line mark can stay in the organism and can not be deformed or damaged by external factors, the organism is marked for a long time, and the definition of the line mark is kept for a long time;

3) the damage to the biological marking is small, the size of the wound of the marking organism is effectively reduced, and the wound healing can be promoted;

4) the prepared linear marker has small length error, low linear marker rejection rate and high marking identification accuracy, and avoids marking digital messy codes.

The pneumatic automatic fish marking machine provided by the technical scheme overcomes the defects of the prior art, and is reasonable in design and convenient to operate.

Drawings

FIG. 1 is a schematic view of a pneumatic automatic fry marking machine;

fig. 2 is a schematic position diagram of a mute air compressor in the pneumatic automatic fry marking machine;

FIG. 3 is a side view of the pneumatic automatic fry marker;

FIG. 4 is a schematic view of a marking apparatus;

FIG. 5 is a side view of the marking device;

FIG. 6 is a schematic view showing a state of cutting the marking wire by the marking device;

FIG. 7 is a schematic view of the marking device marking a shot state on a cut wire;

FIG. 8 is a line drawing illustration;

FIG. 9 is a cross-sectional view of the needle;

fig. 10 is a partial cross-sectional view of a cutout.

Description of reference numerals: 1. a box body; 101. a box door; 102, a PLC; 103. an electromagnetic valve; 2. a fry pot to be marked; 3. a marking device; 301. a support plate; 302. a feed wheel; 303. marking the silk with a line; 303a. a spacer block; 304. a label feeding cylinder; 305. a material cutting cylinder; 306. a delivery conduit; 307. a needle head; 307a, a spacer layer; 308. connecting sleeves; 309. a stopper; 310. a swing lever; 311. cutting off the block; a chip groove 311 a; 311b, grinding lines; 312. a feeding motor; 313. a cutting chamber; 314. cutting the box; 315. a guide tube; 4. marking a fry pot; 5. a control panel; 6. a pedal; 7. the air compressor machine of silence.

Detailed Description

The invention is described in further detail below with reference to examples and figures:

example 1:

as shown in fig. 1-7 and 10, the pneumatic automatic fry marking machine comprises a box body 1, a fry basin 2 to be marked and a fry basin 4 to be marked are respectively arranged above the box body 1, a control panel 5 is arranged on the side surface of the box body 1, and a marking device 3 for marking organisms is arranged below the fry basin 2 to be marked; the marking device 3 comprises a supporting plate 301, wherein a feeding mechanism for conveying the thread marker 303, a cutting mechanism for cutting the thread marker 303 and an injection mechanism for injecting the thread marker into a living body are respectively arranged on the side wall of the supporting plate 301; the injection mechanism comprises a mark inlet cylinder 304 for pushing a mark, a conveying pipeline 306 for conveying the mark and a needle 307 for injecting the mark into an organism, a connecting sleeve 308 is arranged at the joint of the conveying pipeline 306 and the needle 307, and a spacing layer 307a is arranged in the middle of the pipe wall of the needle 307, the invention utilizes a control panel 5 to control each component in a box body 1 to realize automatic marking operation on the organism, an operator only needs to mark the organism to be marked through a marking device 3, the organism after marking is placed in a marking fry pot 4, when a single organism is marked, the marking time is within 2.5 seconds, the marking efficiency and the marking accuracy are high, the injection mechanism injects the mark into the organism to be marked in the marking process, for example, the skin of the surface layer of fish, the mark can be seen by naked eyes, the mark can stay in the organism for a long time, the mark on the organism is kept, and the mark can not be deformed or damaged by external factors when staying in the organism, the organism is marked for a long time, the definition of the line mark is kept for a long time, and the marking mode is suitable for marking fishes of different sizes. Advance mark cylinder 304 tip and be equipped with the push rod that is used for propelling line mark to reach the syringe needle export, the mode of adopting the syringe needle injection marks the organism and can reduce the injury of marking the in-process to the organism, be favorable to marking the quick healing of wound, set up in syringe needle 307 pipe wall middle part and separate empty layer 307a and make syringe needle 307 form bilayer structure can play the effect that reduces vibrations to the line mark of high-speed removal in syringe needle 307 thereby further improve the mobility stability of line mark in syringe needle 307, avoid the line mark to appear crooked condition in the course of moving in syringe needle 307 simultaneously, the line mark can get into the organism fast under the promotion of advancing mark cylinder and reduce the injury to the organism and effectively improve and mark accuracy and efficiency.

The feeding mechanism comprises a pair of feeding wheels 302 used for conveying the linear marking wires 303, the feeding wheels 302 are controlled by a feeding motor 312 arranged on the back surface of the supporting plate 301, the conveying of the linear marking wires 303 is realized through the pair of feeding wheels 302, the control of the feeding motor 312 by using the control panel 5 is realized to realize the control of the length of the linear marking wires 303 entering the cutting chamber 313, namely the control of the cutting length of the linear marking wires 303.

The cutting mechanism comprises a cutting box 314 arranged on the side wall of the supporting plate 301, one side of the cutting box 314 is provided with a guide pipe 315 and a label inlet cylinder 304 which are used for butt joint of the label wire 303 from top to bottom, the other side of the cutting box is connected with a conveying pipeline 306 corresponding to the position of the label inlet cylinder 304, a cutting chamber 313 is arranged in the cutting box 314, a cutting block 311 used for cutting the label wire 303 is connected in the cutting chamber 313 in a matching manner, the end part of the cutting block 311 is movably connected with a swinging rod 310 which can swing, the other end of the swinging rod 310 is connected with a stop 309, the stop 309 is arranged in a matching manner with the outlet end of the conveying pipeline 306, the bottom of the cutting box 314 is connected with a cutting cylinder 305 used for controlling the swinging of the swinging rod 310, a feeding mechanism sends the label wire 303 into the cutting chamber 313 according to the cutting length, the cutting cylinder 305 controls the swinging rod 310 to swing, the swinging rod 310 drives the cutting block, the mark feeding cylinder 304 pushes the cut line mark to move to the conveying pipeline 306, the swing rod 310 drives the stop block 309 to ascend to cancel the blocking of the line mark, so that the line mark enters the needle head 307 to be injected into the organism, the marking operation of the organism is completed, the whole process is realized by the control panel 5 and the PLC102, the delay time of each part can be adjusted according to the actual condition of marking the organism, and the marking efficiency is improved.

Silence air compressor machine 7 and outside correspondence have been placed to the lower part in the box 1 and have been equipped with

chamber door

101, and 1 bottom side of box is connected with footboard 6, for marking the process and providing required power through silence air compressor machine 7, marks the mark operation of beating of single organism through footboard 6 control in the mark process, make full use of operating personnel's trick, improve the convenient operation nature of device, also have obvious promotion to marking efficiency.

Be equipped with PLC102 and solenoid valve 103 on the 1 lateral wall of box respectively, 1 bottom surface of box is connected with the gyro wheel, and PLC102 and solenoid valve 103 cooperation control panel 5 can control each part on the device, improve the work efficiency and the degree of automation of device.

Example 2:

the further optimization scheme of the embodiment based on the embodiment 1 is as follows: as shown in fig. 8 and 9, the surface of the linear marking wire 303 may have a separation block 303a for marking numbers and separating numbers of biological marks, the marking numbers are engraved on the linear marking wire 303 to facilitate operations such as identification and parameter recording of each marked biological body, the separation block 303a is arranged between the marking numbers to ensure identification accuracy of the marks and avoid messy codes of the marking numbers, the marking numbers can be obtained by only reading the numbers between the two separation blocks 303a, and the separation block 303a may also improve accuracy of the linear marking wire 303 in a cutting process and reduce cutting errors. The side surface of the cutting block 311 is provided with a grinding line 311b and an inclined chip storage groove 311a, the end part of the linear marking wire 303 entering the cutting chamber 313 is pressed down by the cutting block 311 to be cut in the marking process, the cut of the end part of the linear marking wire 303 which is cut and formed is uneven, the cut of a marking organism can be enlarged, the grinding line 311b and the cutting block 311 can grind the head part of the linear marking wire 303 which is cut next time in the process that the cutting block 311 cuts the linear marking wire 303 up and down, so that the diameter of the port of the linear marking wire 303 which is cut next time is reduced, the resistance of the linear marking which is shot into the organism can be reduced, the shot stability and the position accuracy of the linear marking are improved, the linear marking which is shot into the organism has small destructiveness to the tissues in the organism and is beneficial to the recombination among the tissues, the wound healing is promoted, the shot size of the marking organism is reduced, and the cutting block 311 ensures that the linear marking wire 303 is cut to be, the cutting error that cuts process is very big dwindles promptly, avoids the digit mistake on the linear mark of cutting, reduces the disability rate of linear mark, promotes the mark precision. The grinding lines 311B are formed by bonding a composite material on the side surface of the cutting block 311, the grinding lines are made of a material prepared by respectively crushing 18 parts by weight of aluminum oxide, 4 parts by weight of zirconium oxide, 0.6 part by weight of D-fluorescein potassium salt, 0.4 part by weight of D-phenylglycine methyl ester hydrochloride, 54 parts by weight of kaolin and 36 parts by weight of potassium feldspar, mixing, adding distilled water and stirring, wherein the solid-to-liquid ratio is 1:1, a mixture A is obtained, the mixture is placed into a vacuum pug mill and mixed, the mixing pressure is-0.09 to-0.1 MPa, a material B is obtained, the material B is extruded into a sphere to obtain a material C, the material C is sintered at high temperature of 1200-1500 ℃ for 45min to obtain the material used for the grinding lines 311B, the D-fluorescein potassium salt and the D-phenylglycine methyl ester hydrochloride are added into the raw materials to induce Stocks flow in a reaction solution in the sintering process, and a layered solution is formed, so that the problems of abnormal growth of ceramic grains and deterioration of ceramic strength in a high-temperature sintering process are solved, the material for the abrasive grains 311b with high compactness and high homogeneity is obtained, and the polishing effect and efficiency of the abrasive grains on the standard wire 303 are effectively ensured. The outside of syringe needle 307 has cup jointed the silica gel cover, selects the silica gel cover shape according to the organism condition of mark is beaten in the reality, for example beat mark to fish head, then select the silica gel cover corresponding with fish head shape to play spacing effect in beating the mark process and beat mark efficiency in order to improve.

Example 3:

when the pneumatic automatic fry marking machine is in actual use, the pneumatic automatic fry marking machine comprises the following components: the parameters of the marking organism are set through the control panel 5, for example, when the head of the large yellow croaker is marked, the parameters of 0.2mm-0.25mm of line marking thread is selected, the length of the line marking thread is 0.25mm, and the silica gel sleeve corresponding to the shape of the head of the large yellow croaker is selected and sleeved on the needle head 307, the head of the large yellow croaker is butted with the needle head 307 from the fry pot 2 to be marked by an operator, and the pedal 6 is stepped down to perform the marking operation: the feeding motor 312 controls the feeding wheel 302 to feed the linear marking wire 303 into the cutting chamber 313 according to the cutting length, the material cutting cylinder 305 controls the swing rod 310 to swing, the swing rod 310 drives the cutting block 311 to press downwards to cut the linear marking wire 303 by adopting the lever principle, and is pressed down to the working position corresponding to the mark entering cylinder 304, the mark entering cylinder 304 pushes the cut line mark to move to the transmission pipeline 306, meanwhile, the swinging rod 310 drives the stop block 309 to ascend to cancel blocking of the line marker, the line marker is pushed into the needle head 307 to be injected into the head of the large yellow croaker, marking operation of the large yellow croaker is completed, the marked large yellow croaker is placed in the marking fry basin 4 by an operator, marking operation of a single large yellow croaker is completed, the whole operation process is within 2.5 seconds, the whole marking process is not affected by the size of the large yellow croaker, and marking operation can be simultaneously performed on large or small fishes.

Before marking at every time, the marking accuracy is further improved by manually adjusting the operation of the marking wire 303 and other mechanisms through the control panel 5.

The prior art or conventional techniques in the above embodiments are known to those skilled in the art, such as the operation principle of the targeting cylinder 304, the lever principle, etc., and therefore will not be described in detail herein.

The above embodiments are merely illustrative, and not restrictive, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the invention. Therefore, all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims

1. The pneumatic automatic fry marking machine comprises a box body (1) with a fry pot (2) to be marked and a fry pot (4) to be marked arranged above the box body, wherein a control panel (5) is arranged on the side surface of the box body (1), and a marking device (3) for marking organisms is arranged below the fry pot (2) to be marked;

the marking device (3) comprises a supporting plate (301), wherein the side wall of the supporting plate (301) is respectively provided with a feeding mechanism for conveying the line marking wire (303), a cutting mechanism for cutting the line marking wire (303) and an injection mechanism for injecting the line marking by organisms;

the method is characterized in that: the injection mechanism comprises a mark feeding cylinder (304) used for pushing the mark, a conveying pipeline (306) used for conveying the mark and a needle head (307) used for injecting the mark into the organism, a connecting sleeve (308) is arranged at the joint of the conveying pipeline (306) and the needle head (307), and a spacing layer (307 a) is arranged in the middle of the pipe wall of the needle head (307);

the cutting-off mechanism comprises a cutting box (314) arranged on the side wall of the supporting plate (301), one side of the cutting box (314) is provided with a guide pipe (315) and a label feeding cylinder (304) which are used for butt joint of the label wire (303) from top to bottom, the other side of the cutting box is connected with a conveying pipeline (306) corresponding to the position of the label feeding cylinder (304), a cutting-off chamber (313) is arranged in the cutting box (314), a cutting block (311) used for cutting the linear marking wire (303) is matched and connected in the cutting chamber (313), the end part of the cutting block (311) is movably connected with a swinging rod (310), the other end of the swing rod (310) is connected with a stop block (309), the stop block (309) is matched with the outlet end of the conveying pipeline (306), the bottom of the cutting box (314) is connected with a material cutting cylinder (305) used for controlling the swinging of the swinging rod (310), the side surface of the cutting block (311) is provided with grinding grains (311 b) and obliquely arranged chip grooves (311 a).

2. The pneumatic automatic fry marking machine of claim 1, wherein: the feeding mechanism comprises a pair of feeding wheels (302) used for conveying the line marking wires (303), and the feeding wheels (302) are controlled by a feeding motor (312) arranged on the back of the supporting plate (301).

3. The pneumatic automatic fry marking machine of claim 1, wherein: the surface of the line marking wire (303) is provided with numbers for biological marking and a separation block (303 a) for separating the numbers.

4. The pneumatic automatic fry marking machine of claim 1, wherein: silence air compressor machine (7) and outside correspondence are placed to lower part in box (1) and are equipped with chamber door (101), and box (1) bottom side is connected with footboard (6).

5. The pneumatic automatic fry marking machine of claim 1, wherein: the side wall of the box body (1) is respectively provided with a PLC (102) and an electromagnetic valve (103), and the bottom surface of the box body (1) is connected with rollers.

6. The pneumatic automatic fry marking machine of claim 1, wherein: and a silica gel sleeve is sleeved outside the needle head (307).