CN213486439U - Full-automatic royal jelly cuts wax and digs thick liquid all-in-one - Google Patents

Abstract

The utility model discloses a full-automatic royal jelly cuts wax and digs thick liquid integrated device. A wax cutting mechanism is installed on the side surface of the three-station roller conveying mechanism, a larva removing mechanism is installed in a rack below the three-station roller conveying mechanism, and a slurry digging mechanism is installed on a rack on the side of the three-station roller conveying mechanism; the double-row royal jelly platform base strip enters the three-station roller conveying mechanism from the wax cutting mechanism, then the three-station roller conveying mechanism drives the double-row royal jelly platform base strip to rotate, the larva is removed by the larva removing mechanism, and then the royal jelly digging mechanism carries out the royal jelly digging operation. The utility model discloses the full automated production of royal jelly can be realized to the device, couples together the three mutually independent process of royal jelly production through cylinder transport mechanism, has avoided device function simplification and manual operation production complicacy, and the inefficiency scheduling problem has improved the production efficiency of royal jelly.

Description

Full-automatic royal jelly cuts wax and digs thick liquid all-in-one

Technical Field

The utility model belongs to the technical field of bee industry production machinery design's royal jelly treatment machine, concretely relates to full-automatic royal jelly cuts wax and digs thick liquid integrated device.

Background

As a large producing and selling country, the annual output of royal jelly in China is close to 3000 tons, accounts for about 90 percent of the total annual output in the world, and the total amount of import and export trades in China is more than 2000 ten thousand dollars each year. Even so, the royal jelly is still in short supply and demand in domestic and foreign markets, and the price is high. Meanwhile, the labor cost of China is increased year by year, the problem of aging of bee keepers also occurs, and the bee breeding scale of most bee farms is limited to 100 to 150 groups. Therefore, the mechanized production of royal jelly is urgently needed to solve the problems in China.

The production of the royal jelly is roughly divided into four steps: transferring insects, cutting wax, removing insects and scraping pulp. Nowadays, royal jelly is still produced by hands basically, and the mechanized popularization rate is not high; the artificial cutting table, the artificial insect clamping and the artificial royal jelly taking are still main factors influencing the production efficiency of the royal jelly. Therefore, a mechanical wax cutting and slurry digging device is needed to improve the production efficiency of the royal jelly.

At present, the mechanical production of royal jelly has been researched and manufactured by partial devices such as a royal jelly cutting machine, a royal jelly taking machine and the like. Although the production requirements of all the processes can be met, the devices work independently, and the devices need to be manually moved to the next process after each process is finished, so that the full-automatic standard is not met. Therefore, devices of all processes need to be integrated on one device, the device structure is guaranteed to be compact as much as possible, the production efficiency is guaranteed, and the yield of the royal jelly is improved on the basis of full automation.

SUMMERY OF THE UTILITY MODEL

In order to overcome the current wax that cuts and dig the problem that thick liquid device function singleness and mechanization degree are not high, the utility model provides a full-automatic royal jelly cuts wax and digs thick liquid integrated device, through the full-automatic wax that cuts, the deinsectization and the thick liquid process of scraping of accomplishing the royal jelly of the design of three station cylinders, this three process is a production flow who has precedence, nevertheless is independent each other basically in function and operation. The three process modules are respectively arranged on the trisection points of the roller to realize the sequential connection of the three processes, so that the full automation of the production process of the royal jelly is realized, and the working efficiency on the production line is improved.

The utility model adopts the technical scheme as follows:

the device comprises a rack, and a wax cutting mechanism, a three-station roller conveying mechanism, a larva removing mechanism and a pulp digging mechanism which are arranged on the rack; a wax cutting mechanism is installed on the side surface of the three-station roller conveying mechanism, a larva removing mechanism is installed in a rack below the three-station roller conveying mechanism, and a slurry digging mechanism is installed on a rack on the side of the three-station roller conveying mechanism; the double-row royal jelly platform base strip enters the three-station roller conveying mechanism from the wax cutting mechanism, then the three-station roller conveying mechanism drives the double-row royal jelly platform base strip to rotate, the larva is removed by the larva removing mechanism, and then the royal jelly digging mechanism carries out the royal jelly digging operation.

The three-station roller conveyor comprises notched knife side plates fixedly mounted on two sides of a rack, a square rigid shaft, rotary driving disks, a middle roller, a radial connecting rod, a one-way movement ratchet disk and a one-way movement pawl, wherein the square rigid shaft is supported and mounted between the notched knife side plates on the two sides, two ends of the square rigid shaft are hinged to the notched knife side plates, the rotary driving disks are coaxially sleeved at two ends and the middle of the middle part of the square rigid shaft, separating plates are uniformly distributed at intervals in the circumferential direction on the circumference of the rotary driving disks, the circumferential distance between every two adjacent separating plates is the width of a double-row royal jelly platform base strip, the middle roller is coaxially connected between every two adjacent rotary driving disks, and the rotary driving disks and the middle roller form a wax cutting and; one end of the square rigid shaft penetrates through the incision knife side plate and then is coaxially and fixedly connected with one end of the radial connecting rod and the center of the one-way movement ratchet wheel disc, the one-way movement pawl is installed on the incision knife side plate on the side of the one-way movement ratchet wheel disc, the end part of the one-way movement pawl is connected to the one-way movement ratchet wheel disc to form a ratchet wheel structure, the other end of the radial connecting rod is hinged to the end part of a cylinder rod of the mini cylinder, and a cylinder body of the mini.

The wax cutting mechanism comprises a feeding chute, a pushing cylinder, a pushing slide block, a pushing slide rail, a pulp bar hook, a magnetic coupling rodless cylinder and a feeding pushing assembly; the side surface of the incision knife side plate beside the feeding groove is provided with a pushing cylinder and a pushing slide rail, the output end of the pushing cylinder is fixedly connected with a pushing slide block, the pushing slide block is slidably embedded on the pushing slide rail, and the pushing slide rail is perpendicular to the length placement direction of the double rows of royal jelly platform base strips on the feeding groove; a magnetic coupling rodless cylinder is arranged between the side plates of the incision knife at two sides, a sliding block of the magnetic coupling rodless cylinder is fixedly provided with a starch strip hook piece through a starch strip drag hook fixed block, and the starch strip hook piece is used for hooking the end parts of the double-row royal jelly platform base strips after extending out of the incision through groove; a feeding pushing assembly is arranged on the notching knife side plate on the other side of the notch through groove and comprises a stepping motor, synchronous belt wheels, a feeding slide rail, a feeding rocker, a pulp strip feeding push rod and a pulp strip cross push rod, wherein the feeding rocker mainly comprises a rotating shaft at one end, a rocker shaft at the other end and a crank connected between the rotating shaft and the rocker shaft; the cross push rod of the thick liquid strip is positioned at the side of the horizontal position of the thick liquid strip hook piece, and the push rod part extending out of the peripheral surface of the cross push rod of the thick liquid strip pushes the double rows of royal jelly platform base strips hooked on the thick liquid strip hook piece to be separated from the thick liquid strip hook piece and enter the space between the separation sheets of the rotary driving disc to be clamped.

The larva removing mechanism comprises a pen-shaped pull rod cylinder, an old larva removing rocker shaft, a vertical linear sliding block, a vertical linear guide rail, a transverse pushing cylinder and an old larva removing chuck; a pen-shaped pull rod cylinder is fixedly arranged in the middle of the bottom surface of the rack, vertical plates are fixedly arranged on the bottom surfaces of the rack on two sides of the pen-shaped pull rod cylinder, a cylinder rod of the pen-shaped pull rod cylinder faces downwards and is hinged with one end of a rocker shaft connecting rod, the other end of the rocker shaft connecting rod is fixedly connected with the middle of an old insect removing rocker shaft, one end part of each vertical plate, hinged on two sides, of each old insect removing rocker shaft, is fixedly connected with one end of a lower connecting rod, the other end of each lower connecting rod is hinged with the lower end of an old insect removing chuck push rod, the upper end of the old insect removing chuck push rod is hinged with the lower part of a vertical linear slider, the vertical linear slider is slidably embedded on the vertical linear guide rail, the vertical linear guide rail is fixed on the vertical plate; the old insect removing chuck is positioned right below the central axis of the wax cutting and slurry digging rotary cylinder, and a slurry digging and slurry receiving hopper is arranged right below the old insect removing chuck.

The slurry digging mechanism comprises a slurry digging and receiving hopper, a double-shaft pushing cylinder, a horizontal linear guide rail, a thin cylinder, a slurry digging cylinder rocker, a slurry digging rotating finger, a slurry digging angle rocker, a slurry scraping sheet cylinder and a royal jelly collecting tank; the double-shaft pushing cylinder and the horizontal linear guide rail are fixed on the rack, a cylinder rod of the double-shaft pushing cylinder is fixedly connected with the advancing push plate, the advancing push plate is slidably embedded on the horizontal linear guide rail through a sliding block at the bottom, and one end of a slurry digging rotating finger is fixed on each of two sides of the advancing push plate; a thin cylinder is mounted on the advancing push plate, a cylinder rod of the thin cylinder penetrates through the advancing push plate downwards and then is hinged with the lower end part of a slurry digging cylinder connecting piece, the upper end part of the slurry digging cylinder connecting piece is obliquely and upwards arranged towards one side of the wax cutting slurry digging rotary cylinder body, a slurry digging cylinder rocker penetrates through the upper end part of the slurry digging cylinder connecting piece and is hinged with the upper end part of the slurry digging cylinder connecting piece, two ends of the slurry digging cylinder rocker are respectively hinged with the other ends of slurry digging rotary fingers on two sides of the advancing push plate through respective slurry digging angle rockers, and slurry scraping sheet cylinders are hinged between the middles of the slurry digging angle; a horizontal positioning beam is fixedly connected between the side plates of the notching knives on two sides close to the side of the double-shaft pushing cylinder, a pulp scraping sheet cylinder is positioned below the side of the positioning beam, the bottom end of the pulp scraping sheet cylinder is provided with a row of pulp scraping sheets arranged along the axial direction, and the pulp scraping sheets extend to a double-row royal jelly platform base strip pulp cup at the position of the equator on one side of the wax cutting pulp digging rotary cylinder close to the double-shaft pushing cylinder after bypassing the positioning beam from the lower part; a royal jelly collecting tank is arranged right below the royal jelly scraping sheet cylinder and the positioning beam.

The middle part of the square rigid shaft is of a direction shaft structure, the central hole of the rotary driving disc is a square hole, and the square rigid shaft and the rotary driving disc are coaxially connected and matched through the sleeving and matching of the direction shaft and the square hole.

One side surface of the end part of the thick liquid strip hook piece close to the wax cutting and thick liquid digging rotary cylinder body is hooked with the end part of the double-row royal jelly platform base strip through a clamping sleeve structure of a bulge and a groove.

The wax cutting knife edge piece is provided with a wax cutting knife at one side corresponding to the mouth of the double-row royal jelly platform base strip pulp cup.

The old insect removing chuck comprises a transverse plate and two groups of chuck groups arranged at the upper and lower rows of the transverse plate, wherein each group of chuck group mainly comprises a plurality of chucks which are horizontally and linearly arranged at intervals.

The utility model discloses a cylinder station action each time can both let cut wax, and the worm is removed, digs the three independent process simultaneous operation of thick liquid to the production efficiency of royal jelly has been improved greatly.

The utility model discloses a dig thick liquid mechanism digs thick liquid cylinder rocker through cylinder control and has realized digging thick liquid rotation, has left out and has dug thick liquid simulation of modelling and this step of orbit optimization, and the structure is more simple.

The utility model discloses a cut the wax process and drive synchronous pulley rotation control cross push rod back-and-forth movement through step motor, realized cutting the transition of wax to the cylinder station, response time is faster, controls more accurately.

The utility model discloses realize the full automated production of royal jelly, successfully solved the problem that the royal jelly apparatus for producing that exists on the current market simplification and mechanization degree are not high, avoided artificial intervention's factor, improved the production efficiency of royal jelly.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses the device has effectively solved the current wax that cuts and has dug the problem that thick liquid device function singleness and degree of mechanization are not high, can full-automatic completion royal jelly production, has simplified and has dug the thick liquid process, has saved a large amount of labours, has improved the production efficiency of royal jelly greatly to drum-type thick liquid strip operation mechanism has been utilized, further compressed the device size, novel in design, structure science, suitability are strong.

Drawings

Fig. 1 is one of the overall three-dimensional structural diagrams of the device of the present invention;

fig. 2 is a second schematic perspective view of the device of the present invention;

FIG. 3 is an outer structure view of the three-position roller conveying mechanism of the device of the present invention;

FIG. 4 is an internal structure view of the three-position roller conveying mechanism of the device of the present invention;

FIG. 5 is a schematic view of the structure of the outer side of the wax cutting mechanism of the device of the present invention;

FIG. 6 is an enlarged view of a portion of the wax cutting blade of the device of the present invention;

FIG. 7 is a schematic view of the internal structure of the wax cutting mechanism of the device of the present invention;

FIG. 8 is a process diagram of the motion state of the wax cutting mechanism of the device of the present invention;

FIG. 9 is a block diagram of the larva removal mechanism of the apparatus of the present invention;

FIG. 10 is a perspective semi-sectional view of the slurry digging mechanism of the apparatus of the present invention;

FIG. 11 is a different state diagram of the motion of the slurry digging mechanism of the apparatus of the present invention;

FIG. 12 is a flow chart of the device control and the royal jelly platform strip transfer according to the embodiment of the present invention.

In the figure: 1. double-row royal jelly platform base strip, 2, a feeding groove, 3, a wax cutting knife edge piece, 4, a pushing cylinder, 5, a pushing sliding block, 6, a jelly strip drag hook fixing block, 7, a jelly strip hook piece, 8, a magnetic coupling rodless cylinder, 9, a stepping motor, 10, a synchronous belt pulley, 11, a feeding slide rail, 12, a feeding rocker, 13, a jelly strip feeding push rod, 14, a jelly strip cross push rod, 15, a middle roller, 16, a mini cylinder, 17, a unidirectional motion ratchet disc, 18, a unidirectional motion pawl, 19, an old worm removing chuck, 20, a pen-shaped pull rod cylinder, 21, an old worm removing rocker shaft, 22, an old worm removing chuck push rod, 23, a vertical linear guide rail, 24, a transverse pushing cylinder, 25, a jelly digging receiving hopper, 26, a double-shaft pushing cylinder, 27, a horizontal linear guide rail, 28, a thin cylinder, 29, a jelly digging cylinder connecting piece, 30, a jelly digging cylinder rocker, 31, a rotating finger-digging rotary cylinder, and a hand, 32. Digging a pulp angle rocker 33, scraping a pulp sheet cylinder 34, a royal jelly collecting tank 35, a frame 36 and a side plate of a cutting knife; 37. pushing the slide rail; 38. a vertical plate; 39. a rotary drive disk; 40. a radial connecting rod; 41. a square rigid shaft; 42. a rocker shaft connecting rod; 43. a lower connecting rod; 44. a vertical linear slider; 45. a forward push plate; 46. positioning the cross beam; 47. and (4) scraping the pulp sheet.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings in order to clearly understand the present invention. It is to be noted that only the main contents of the present invention are pointed out here, and some known functions and detailed descriptions will be omitted here.

As shown in fig. 1 and 2, the device comprises a frame 35 and a wax cutting mechanism, a three-station roller conveying mechanism, a larva removing mechanism and a pulp digging mechanism which are arranged on the frame 35; a wax cutting mechanism is installed on the side surface of the three-station roller conveying mechanism, a larva removing mechanism is installed in the rack 35 below the three-station roller conveying mechanism, and a slurry digging mechanism is installed on the rack 35 on the side of the three-station roller conveying mechanism; the double-row royal jelly platform base strip 1 enters the three-station roller conveying mechanism from the wax cutting mechanism, then the three-station roller conveying mechanism drives the double-row royal jelly platform base strip 1 to rotate, the larvae are removed by the larva removing mechanism, and then the royal jelly digging mechanism carries out the royal jelly digging operation.

The three-station roller conveying mechanism has the function of realizing the sequential and cyclic switching of three working procedures required by royal jelly production, and the unidirectional motion ratchet wheel disc 17 is matched with the ratchet wheel disc and the pawl to move along a fixed route, so that the temporarily stored royal jelly platform base strip can work according to the working procedures of royal jelly production.

The three-station roller conveying mechanism has the function of realizing the cyclic conveying of the royal jelly production process, is positioned in the center of the whole device, and is provided with three process modules which are respectively positioned at the three equal parts of the circumference, and each process is completed by one process.

As shown in fig. 3 and 4, the three-station roller conveyor comprises a side plate 36 of the slitting knife, a square rigid shaft 41 and a rotary driving disk 39 which are fixedly arranged at two sides of a frame 35, the device comprises a middle roller 15, a radial connecting rod 40, a unidirectional motion ratchet disc 17 and a unidirectional motion pawl 18, wherein a square rigid shaft 41 is supported and installed between notched knife side plates 36 on two sides, two ends of the square rigid shaft 41 are hinged to the notched knife side plates 36, rotary driving discs 39 are coaxially sleeved at two ends and the middle of the middle part of the square rigid shaft 41, separating discs are uniformly distributed at intervals along the circumferential direction on the circumference of each rotary driving disc 39, the circumferential distance between every two adjacent separating discs is the width of a double-row royal jelly platform base strip 1, the middle roller 15 is coaxially connected between every two adjacent rotary driving discs 39, two ends of each middle roller 15 are fixed to the rotary driving discs 39, and the rotary driving discs 39 and the middle rollers 15 form a wax cutting and pulp digging rotary; the royal jelly production device is provided with three rotary driving disks 39, the number of the separating sheets on the three rotary driving disks 39 is the same, the separating sheets on the circumference are aligned and consistent along the axial direction, a double-row royal jelly platform base strip 1 is placed and fixed between two rows of the axially aligned separating sheets of the three rotary driving disks 39, and the double-row royal jelly platform base strip 1 is arranged in parallel to a square rigid shaft 41. One end of a square rigid shaft 41 penetrates through the incision knife side plate 36 and then is coaxially and fixedly connected with one end of a radial connecting rod 40 and the center of a one-way movement ratchet wheel disc 17, a one-way movement pawl 18 is installed on the incision knife side plate 36 on the side of the one-way movement ratchet wheel disc 17, the end part of the one-way movement pawl 18 is connected to the one-way movement ratchet wheel disc 17 to form a ratchet wheel structure, the one-way movement pawl 18 is connected to an auxiliary support part of the incision knife side plate 36 through a spring, the other end of the radial connecting rod 40 is hinged to the end part of a cylinder rod of a mini cylinder 16, and the;

the mini cylinder 16 operates to drive the cylinder rod to stretch and retract, and further drives the radial connecting rod 40 to rotate around the square rigid shaft 41 below the ratchet structure unidirectional fiber, and further drives the middle roller 15 and the double-row royal jelly platform base strip 1 placed on the middle roller 15 to rotate.

The two-blade middle station of the royal jelly strip rotary driving disk is used for temporarily storing royal jelly platform base strips in the conveying process, after the royal jelly platform base strip wax cutting operation is completed, the double-row royal jelly platform base strips 1 are pushed into the middle of the two blades of the three-station roller by a royal jelly strip cross push rod on a wax cutting mechanism platen, the space size of the blades is slightly larger than that of the royal jelly platform base strips, rotary guide rail members are arranged on two sides of the blade space station, and after the royal jelly platform base strips are pushed into the middle of the blades, the royal jelly platform base strips cannot fall off in the conveying process due to the fact that two sides move on the track of the rotary guide rail members. The rotation of the three-station roller is realized by driving the unidirectional motion ratchet wheel disc to rotate by the air cylinder.

The middle roller 15 moves clockwise under the action of the one-way movement ratchet wheel disc 17, so that three royal jelly production processes of wax cutting, insect removal and pulp digging can be synchronously and independently operated, and the mutual interference factors of the processes are avoided, thereby greatly improving the production efficiency of the royal jelly.

The cross push rod 14 of the royal jelly strip pushes the double-row royal jelly platform base strip 1 into the middle of the middle roller 15 through the drive of the stepping motor 9 and the synchronous belt pulley 1, the space size of the blades on the roller is slightly larger than that of the royal jelly platform base strip 1, the two sides of the blade space station are provided with the rotary guide rail parts, and after the royal jelly platform base strip 1 is pushed into the middle of the blades, the royal jelly platform base strip can not fall off in the conveying process and can be controlled more accurately because the two sides move on the track of the rotary guide rail parts.

The middle part of the square rigid shaft 41 is of a directional shaft structure, the central hole of the rotary driving disk 39 is a square hole, and the square rigid shaft 41 and the rotary driving disk 39 are coaxially connected and matched through the sleeving and matching of the directional shaft and the square hole.

As shown in figures 3 and 4, the radial connecting rod 40 is fixedly connected with the unidirectional movement ratchet wheel disc 17 and the square steel shaft 41, when the mini cylinder 16 starts to act, the radial connecting rod 40 and the unidirectional movement ratchet wheel disc 17 are driven to start to do clockwise movement, the square steel shaft 41 is fixedly connected with the rotary driving disc 39 in the roller to drive the middle roller 15 to do clockwise movement, and the function of the roller for transmitting the double-row royal jelly platform base strip 1 is realized.

As shown in fig. 4, the wax cutting mechanism comprises a feeding chute 2, a pushing cylinder 4, a pushing slide block 5, a pushing slide rail 37, a pulp strip hook 7, a magnetic coupling rodless cylinder 8 and a feeding pushing assembly; a notch through groove is formed in a notch knife side plate 36 on one side of the three-station roller conveyor, as shown in fig. 5, a wax cutting knife edge part 3 is installed at the notch through groove, a feeding groove 2 is fixed on the side surface of the notch knife side plate 36 on the outer side of the wax cutting knife edge part 3, double rows of royal jelly platform base strips 1 are placed on the feeding groove 2, a pushing cylinder 4 and a pushing slide rail 37 are installed on the side surface of the notch knife side plate 36 beside the feeding groove 2, the pushing slide rail 37 is arranged in a penetrating manner in the feeding groove 2, the output end of the pushing cylinder 4 is fixedly connected with a pushing slide block 5, the pushing slide block 5 is slidably embedded on the pushing slide rail 37, and the pushing slide rail 37 is perpendicular to the length placing direction of the double rows of; as shown in fig. 6, a magnetic coupling rodless cylinder 8 is installed between the incision knife side plates 36 on both sides, the magnetic coupling rodless cylinder 8 is located on one side of the wax cutting and slurry digging rotary cylinder, both ends of a guide rail shaft of the magnetic coupling rodless cylinder 8 are supported and connected between the incision knife side plates 36 on both sides, the guide rail shaft is parallel to the square rigid shaft 41, a slide block of the magnetic coupling rodless cylinder 8 moves on the guide rail shaft, a slurry strip hook member 7 is fixedly installed on the slide block of the magnetic coupling rodless cylinder 8 through a slurry strip hook fixing block 6, and the slurry strip hook member 7 is used for hooking the end parts of the double-row royal jelly platform base strip 1 after extending out of the;

as shown in fig. 8, a feeding pushing assembly is provided at the side plate 36 of the notch knife at the other side opposite to the notch through slot, a feeding pushing assembly may also be provided at the side plate 36 of the notch at one side provided with the notch through slot, the feeding pushing assembly includes a stepping motor 9, a synchronous pulley 10, a feeding slide rail 11, a feeding rocker 12, a pulp strip feeding push rod 13, a pulp strip cross push rod 14, the stepping motor 9 is fixed at the inner side of the notch knife side plate 36, the feeding rocker 12 is mainly composed of a rotating shaft at one end, a rocker shaft at the other end, and a crank connected between the rotating shaft and the rocker shaft, the rotating shaft of the feeding rocker 12 is coaxially sleeved with the respective synchronous pulley 10 after passing through the notch knife side plate 36 and an output shaft of the stepping motor 9, the two synchronous pulleys 10 are connected by a synchronous belt transmission, the rocker shaft of the feeding rocker 12 is hinged with one end of the, the slurry strip cross push rod 14 is embedded in the feeding slide rail 11 in a sliding manner to form a crank sliding pair, and the feeding slide rail 11 is horizontally fixed on the side plate 36 of the slotting cutter; the thick liquid strip cross push rod 14 is positioned at the outer side of the horizontal position of the thick liquid strip hook member 7, the push rod part extending out of the peripheral surface of the thick liquid strip cross push rod 14 pushes the double rows of royal jelly platform base strips 1 hooked on the thick liquid strip hook member 7 to be separated from the thick liquid strip hook member 7 and enter the separation sheets of the rotary driving disc 39 to be clamped;

one side surface of the end part of the thick liquid strip hook member 7 close to the wax cutting and thick liquid digging rotary cylinder body is hooked with the end part of the double-row royal jelly platform base strip 1 through a clamping sleeve structure of a bulge and a groove, and the clamping sleeve structure of the bulge and the groove is separated from and hooked towards the wax cutting and thick liquid digging rotary cylinder body along the horizontal direction.

The side of the wax cutting knife edge piece 3 corresponding to the pulp cup opening of the double-row royal jelly platform base strip 1 is provided with a wax cutting knife which is used for cutting off royal jelly overflowing from the pulp cup opening of the double-row royal jelly platform base strip 1.

The magnetic coupling rodless cylinder 8 drives the thick liquid strip hook member 7 to horizontally move to a side notch knife side plate 36 on one side provided with a knife edge through groove and extend out from the position of the knife edge through groove, the pushing cylinder 4 pushes one end of the double-row royal jelly platform base strip 1 on the feeding groove 2, close to the notch knife side plate 36, to move to the wax cutting knife edge member 3 of the knife edge through groove, as shown in figure 5, and the end part of the double-row royal jelly platform base strip 1 is hooked with the thick liquid strip hook member 7;

then, the magnetic coupling rodless cylinder 8 drives the pulp strip hook 7 to horizontally move towards the incision knife side plates 36 which are not provided with the incision through grooves, so that the double-row royal jelly platform base strip 1 is integrally positioned between the incision knife side plates 36 at the two sides and at the right side of the wax cutting and pulp digging rotary cylinder;

then, the stepping motor 9 of the feeding pushing component rotates, the crank sliding pair drives the thick liquid strip cross push rod 14 to be close to the thick liquid strip hook 7 to push the double rows of royal jelly platform base strips 1 hooked on the thick liquid strip hook 7 to be separated from the thick liquid strip hook 7, and then the royal jelly platform base strips enter the separation sheets of the rotary driving disk 39 to be clamped.

As shown on the left side of fig. 7, when the pulp string hook member 7 is moved to the leftmost end, the hook head of the pulp string hook member 7 protrudes out of the knife-edge through groove. Two rows of cylindrical pulp cups are arranged above the standard double-row royal jelly platform base strip 1, 32 pulp cups in each row are arranged at intervals and are mutually symmetrical, and two round holes are respectively formed at two ends of the platform base strip, so that the hooking of the hook heads of the royal jelly strip hook pieces 7 is facilitated.

As shown in the right side of fig. 7, when the stuff hook 7 moves to the rightmost end, the stepping motor 9 drives the synchronous pulley 10 and the stuff feeding push rod rotating shaft 11 to rotate, so as to drive the feeding rocker 12 and the stuff feeding push rod 13 to push forwards, and the stuff cross push rod 14 completes one back and forth movement by the rotation of the feeding rocker 12, so that the transition of the stuff from the wax cutting mechanism to the middle roller 15 is realized.

When the cylinder moves, the thick liquid strip hook piece drives the platform base strip to slide back and forth left and right, so that the wax cutting action of the royal jelly is completed. After the thick liquid strip hook member from left to right action is accomplished, step motor begins the action, drives the band pulley and begins to rotate, and synchronous pulley drives thick liquid strip feeding push rod rotation axis rotatory, and the feeding rocker also begins to rotate simultaneously, drives linear guide and moves forward, installs thick liquid strip cross push rod under the linear guide, and the push rod follows linear guide and moves forward until will accomplish the thick liquid strip that once cuts the wax action and push into the cylinder, get into next process. The pulp bar hook piece returns to the left to wait for the hooking and pulling matching of the next royal jelly platform base bar.

As shown in fig. 5, fig. 6 and fig. 7, after the double-row royal jelly platform base strip 1 enters the wax cutting station from the feeding chute 2, because two round holes are respectively formed at two ends of the double-row royal jelly platform base strip 1 and just correspond to the jelly strip hook piece 7, the two round holes at two ends of the double-row royal jelly platform base strip 1 are pushed into the hooking position of the jelly strip hook piece 7 through the pushing slide block 5, and the jelly strip hook piece 7 pulls the double-row royal jelly strip 1 to pass through the wax cutting knife opening piece 3 under the driving of the magnetic coupling rodless cylinder 8, so that the wax cutting action is completed.

The larva removing mechanism is arranged right below the wax cutting and pulp digging rotary cylinder and has the function of removing the larvae in the royal jelly platform base strips.

As shown in fig. 9, the larva removing mechanism comprises a pen-shaped pull rod cylinder 20, an old larva removing rocker shaft 21, a vertical linear slide block 44, a vertical linear guide rail 23, a transverse pushing cylinder 24 and an old larva removing chuck 19; a pen-shaped pull rod cylinder 20 is fixedly arranged in the middle of the bottom surface of the rack 35, vertical plates 38 are fixedly arranged on the bottom surfaces of the rack 35 on two sides of the pen-shaped pull rod cylinder 20, an air cylinder rod of the pen-shaped pull rod cylinder 20 faces downwards and is hinged with one end of a rocker shaft connecting rod 42, the other end of the rocker shaft connecting rod 42 is fixedly connected with the middle of an old insect removing rocker shaft 21, one end part of the vertical plate 38 on two sides, which is hinged with two ends of the old insect removing rocker shaft 21, is fixedly connected with one end of a lower connecting rod 43, the other end of the lower connecting rod 43 is hinged with the lower end of an old insect removing chuck push rod 22, the upper end of the old insect removing chuck push rod 22 is hinged with the lower part of the vertical linear slide block 44, the vertical linear slide block 44 is embedded on the vertical linear guide rail 23 in a sliding manner, the vertical linear guide rail 23 is; the old insect removing chuck 19 is positioned right below the central axis of the wax cutting slurry digging rotary cylinder, a slurry digging and receiving hopper 25 is arranged right below the old insect removing chuck 19, the slurry digging and receiving hopper 25 is fixed on the frame 35, and the slurry digging and receiving hopper 25 is used for receiving the old insects clamped out from the slurry cup by the old insect removing chuck 19;

the pen-shaped pull rod cylinder 20 runs to drive the old insect removal rocker shaft 21 to rotate through the rocker shaft connecting rod 42, then the old insect removal chuck push rod 22 and the vertical linear slider 44 are driven by the lower connecting rod 43 to move up and down along the vertical linear guide rail 23, the vertical linear slider 44 moves up and down to drive the transverse pushing cylinder 24 and the old insect removal chuck 19 to integrally move up and down, and then old insect clamping treatment is carried out on the two rows of royal jelly platform base strip 1 pulp cups at the lowest part of the wax cutting and pulp digging rotary cylinder.

The old insect removing chuck 19 comprises a transverse plate and two groups of chuck groups arranged at the upper row and the lower row of the transverse plate, each group of chuck group mainly comprises a plurality of chuck horizontal straight lines which are arranged at intervals, the chucks of each group of chuck group are connected through a scissor mechanism, one hinge shaft of the scissor mechanism is fixed on the transverse plate, and the hinge shaft is fixedly connected with a cylinder rod of the transverse pushing cylinder 24. The transverse pushing cylinder 24 operates to drive the hinge shaft connected with the transverse pushing cylinder to move away from or close to the hinge shaft fixed on the transverse plate, so that the whole scissor mechanism is driven to move, each chuck of each group of chuck groups is driven to move away from or close to each other, the scissor mechanisms of the two groups of chuck groups are different in size, and clamping or releasing between the chucks of the two groups of chuck groups is achieved.

Under the drive of the pen-shaped cylinder 20, the old worm rocker shaft 21 and the old worm chuck push rod 22 move up and down again, so that the two rows of old worm removal chucks 19 move from the initial position to the royal jelly slurry cup, and the two rows of old worm removal chucks with different lengths are separated to a certain extent under the drive of the transverse pushing cylinder 24, so that most of royal jelly larvae can be smoothly clamped out, the clamped larvae fall into the slurry digging and receiving hopper 25 under the action of gravity, and the collection of the larvae is realized.

After wax is cut, the double-row royal jelly platform base strip 1 enters an insect removing station, the double-row royal jelly platform base strip 1 is vertically downward, the old insect removing chuck is arranged on the old insect removing fixing seat, and the upper row and the lower row of the royal jelly cups correspond to the double-row royal jelly platform base strip. When the picking up work starts, the cylinder setting drives the old worm rocker shaft to rotate, the linear guide rail drives the old worm removing strips to move upwards, so that after the old worm removing clamp head is inserted into the 1 pulp cup of the double-row royal jelly platform base strip, most of queen bee larvae drop downwards under the action of gravity, and the pulp digging and receiving hopper 25 realizes the collection of falling larvae.

The pulp digging mechanism is arranged right above the base fixing plate and has the functions of carrying out subsequent pulp digging work on the pulp strips which are subjected to wax cutting and insect removal work and collecting the treated royal jelly in the royal jelly collecting tank.

As shown in fig. 10, the slurry digging mechanism comprises a slurry digging and receiving hopper 25, a double-shaft pushing cylinder 26, a horizontal linear guide rail 27, a thin cylinder 28, a slurry digging cylinder rocker 30, a slurry digging rotating finger 31, a slurry digging angle rocker 32, a slurry scraping sheet cylinder 33 and a royal jelly collecting tank 34; the double-shaft pushing cylinder 26 and the horizontal linear guide rail 27 are fixed on the frame 35, the horizontal linear guide rail 27 is positioned on two sides of the double-shaft pushing cylinder 26, a cylinder rod of the double-shaft pushing cylinder 26 is fixedly connected with a forward push plate 45, the cylinder rod of the double-shaft pushing cylinder 26 is arranged perpendicular to the square rigid shaft 41, the forward push plate 45 is slidably embedded on the horizontal linear guide rail 27 through a sliding block at the bottom, and one end of a slurry digging rotating finger 31 is fixed on each of two sides of the forward push plate 45; the advancing push plate 45 is provided with a thin cylinder 28, a cylinder rod of the thin cylinder 28 downwards penetrates through the advancing push plate 45 and then is hinged with the lower end part of the slurry digging cylinder connecting piece 29, the upper end part of the slurry digging cylinder connecting piece 29 is obliquely and upwards arranged towards one side of the wax cutting slurry digging rotary cylinder body, a slurry digging cylinder rocker 30 penetrates through the upper end part of the slurry digging cylinder connecting piece 29 and is hinged, two ends of the slurry digging cylinder rocker 30 are respectively hinged with the other ends of the slurry digging rotary fingers 31 at two sides of the advancing push plate 45 through respective slurry digging angle rockers 32, and slurry scraping sheet cylinders 33 are hinged between the middles of the slurry digging angle rockers 32 at two ends of the slurry digging cylinder rocker 30; the slurry digging cylinder rocker 30, the slurry scraping sheet cylinder 33 and the positioning beam 46 are all arranged in parallel;

a horizontal positioning beam 46 is fixedly connected between the two side slotting cutter side plates 36 close to the side of the double-shaft pushing cylinder 26, the pulp scraping sheet cylinder 33 is positioned below the side of the positioning beam 46, the bottom end of the pulp scraping sheet cylinder 33 is provided with a row of pulp scraping sheets arranged along the axial direction, and the pulp scraping sheets extend to the double-row royal jelly platform base strip 1 pulp cup at the position of the equator of the wax cutting and pulp digging rotary cylinder close to the side of the double-shaft pushing cylinder 26 after bypassing the positioning beam 46 from the lower part; a royal jelly collecting groove 34 is arranged right below the scraping blade cylinder 33 and the positioning beam 46, and the royal jelly collecting groove 34 is fixed on the frame 35.

From this biax propelling movement cylinder 26 is last still to have set up the push pedal that advances of digging thick liquid, the push pedal that advances of digging thick liquid is connected with linear guide 27 again, the synchronous motion of biax propelling movement cylinder 26 with linear guide 27 has been realized, dig thick liquid again and advance the push pedal top and be equipped with slim cylinder 28, the below links to each other with digging thick liquid cylinder connecting piece 29 again, it digs thick liquid cylinder rocker 30 to dig thick liquid cylinder connecting piece 29 other end, the cooperation is dug thick liquid rotatory finger 31 and is dug thick liquid angle rocker 32 and realized scraping the rotation of thick liquid piece cylinder 33, the manual action of digging of imitation, royal jelly collecting vat 34 is used for collecting the royal jelly that is.

The left end and the right end of the pulp scraping sheet cylinder are provided with pulp digging rotating fingers and pulp digging angle rocking bars, when a pulp strip reaches a pulp digging station, the double-shaft cylinder moves forwards to drive the linear slide rail and the pulp scraping forward push plate to move forwards, when the double-shaft cylinder reaches the peak, the other thin cylinder drives the pulp digging cylinder rocking bar to rotate, and the pulp digging angle rocking bar is connected with the cylinder rocking bar to drive the pulp scraping sheet to rotate in the pulp cup, as shown in figure 11, so that royal jelly is taken out from the pulp cup, and most of royal jelly vertically falls into the royal jelly collecting tank below.

The pulp scraping action of the pulp scraping sheet on the pulp scraping sheet cylinder 33 to the double-row royal jelly platform base strip 1 is realized through the matching work of the double-shaft pushing cylinder 26 and the thin cylinder 28.

The double-shaft pushing cylinder 26 operates to drive the advancing push plate 45, the slurry digging rotating finger 31 and the thin cylinder 28 on the slurry digging rotating finger to move close to or far away from the wax cutting and slurry digging rotary cylinder body along the horizontal linear guide rail 27, and simultaneously the thin cylinder 28 operates to drive the slurry digging cylinder rocker 30 to swing so as to drive the slurry scraping sheet cylinder 33 to swing slightly around the slurry digging rotating finger 31. And further realizes that the royal jelly scraping sheet on the royal jelly scraping sheet cylinder 33 swings when approaching to the royal jelly cutting and digging rotary cylinder body 1 royal jelly cup, the royal jelly in the royal jelly cup is scraped, and the royal jelly falls into the royal jelly collecting tank 34 by gravity after being scraped.

In the specific implementation, the four parts of wax cutting, insect removal, slurry digging, roller movement and the like are controlled by a PLC (programmable logic controller), and input and output are distributed for each process according to an executive device and a sensor of the action required to be finished.

The device control and royal jelly platform base strip transmission flow of the embodiment of the utility model is shown in figure 12:

in the concrete implementation, each driving device and each sensor are electrified pneumatically, the magnetic coupling rodless cylinder 8 is controlled to retract through the PLC, the pushing cylinder 4 extends out, the royal jelly strip hook 7 is located at the leftmost end, the royal jelly platform base strip 1 with beeswax is placed in the forward direction, the pushing cylinder 4 is made to push the circular hole at one end of the royal jelly platform base strip 1 to be matched with the hook head of the royal jelly strip hook 7, the royal jelly platform base strip 1 is pulled through the knife edge by the royal jelly strip hook 7, the beeswax on the surface is cut off until the royal jelly strip hook 7 reaches the rearmost end of the magnetic coupling rodless cylinder 8, the stepping motor 9 starts to act, and the royal jelly strip cross push rod 14 pushes the royal jelly platform base strip 1 to enter the three-station conveying mechanism under the effect of the synchronous belt wheel 10.

Further, the royal jelly platform base strip 1 downwards reaches a pest removing station under the action of the unidirectional motion ratchet wheel disc 17, the control system judges whether the royal jelly platform base strip 1 is in place or not through signals detected by the infrared sensor, if the royal jelly platform base strip is in place, the pen-shaped air cylinder 20 and the transverse pushing air cylinder 24 extend out, the old pest removing chuck push rod 22 upwards acts to drive the old pest removing chuck 19 to extend into a jelly cup, two chucks at a certain distance clamp most of larvae in the jelly cup and fall into a jelly digging and receiving hopper 25, and the royal jelly platform base strip 1 at a roller station starts to continuously enter the next procedure along a track.

Further, after the detection reaches the pulp digging station, the double-shaft pushing cylinder 26 extends out, the matching linear guide rail 27 drives the pulp digging forward push plate to move forwards, until the double-shaft pushing cylinder 26 reaches the tail end, the thin cylinder 28 starts to act, the matching pulp digging cylinder connecting piece 29 drives the pulp digging cylinder rocker 30 to rotate, the pulp digging angle rocker 32 connected with the pulp digging cylinder rocker 30 also starts to drive the pulp scraping piece in the pulp scraping piece cylinder 33 to realize digging action at a certain angle, and finally the dug royal jelly drops into the royal jelly collecting tank 34, so that a set of complete full-automatic production flow of royal jelly is realized.

Therefore, the utility model discloses a full automated production of royal jelly can be realized to the device, couples together the three mutually independent process of royal jelly production through cylinder transport mechanism, has avoided device function simplification and manual operation production complicacy, and the inefficiency scheduling problem has improved the production efficiency of royal jelly.

Claims (6)

1. The utility model provides a full-automatic royal jelly cuts wax and digs thick liquid all-in-one which characterized in that:

the full-automatic royal jelly wax cutting and slurry digging all-in-one machine comprises a rack (35), a wax cutting mechanism, a three-station roller conveying mechanism, a larva removing mechanism and a slurry digging mechanism, wherein the wax cutting mechanism, the three-station roller conveying mechanism, the larva removing mechanism and the slurry digging mechanism are arranged on the rack (35); a wax cutting mechanism is arranged on the side surface of the three-station roller conveying mechanism, a larva removing mechanism is arranged in a rack (35) below the three-station roller conveying mechanism, and a slurry digging mechanism is arranged on the rack (35) on the side of the three-station roller conveying mechanism; the double-row royal jelly platform base strip (1) enters the three-station roller conveying mechanism from the wax cutting mechanism, then the three-station roller conveying mechanism drives the double-row royal jelly platform base strip (1) to rotate, the larvae are removed by the larva removing mechanism, and then the royal jelly digging mechanism carries out royal jelly digging operation.

2. The full-automatic royal jelly cutting and digging all-in-one machine as claimed in claim 1, characterized in that: the three-station roller conveyor comprises a slotting cutter side plate (36) fixedly arranged at two sides of a frame (35), a square rigid shaft (41), a rotary driving disk (39), a middle roller (15), a radial connecting rod (40), a unidirectional movement ratchet wheel disk (17) and a unidirectional movement pawl (18), a square rigid shaft (41) is supported and installed between the notched knife side plates (36) on the two sides, the two ends of the square rigid shaft (41) are hinged to the notched knife side plates (36), rotary driving disks (39) are coaxially sleeved at the two ends and the middle of the middle part of the square rigid shaft (41), separating plates uniformly distributed at intervals along the circumferential direction are arranged on the circumference of each rotary driving disk (39), the circumferential distance between every two adjacent separating plates is the width of one double-row royal jelly platform base strip (1), a middle roller (15) is coaxially connected between every two adjacent rotary driving disks (39), and the rotary driving disks (39) and the middle roller (15) form a wax cutting and pulp digging rotary cylinder body; one end of a square rigid shaft (41) penetrates through an incision knife side plate (36) and then is coaxially and fixedly connected with one end of a radial connecting rod (40) and the center of a one-way movement ratchet wheel disc (17), a one-way movement pawl (18) is installed on the incision knife side plate (36) on the side of the one-way movement ratchet wheel disc (17), the end part of the one-way movement pawl (18) is connected to the one-way movement ratchet wheel disc (17) to form a ratchet wheel structure, the other end of the radial connecting rod (40) is hinged to the end part of a cylinder rod of a mini cylinder (16), and the cylinder body of the mini cylinder (16) is hinged to a rack (35;

the wax cutting mechanism comprises a feeding chute (2), a pushing cylinder (4), a pushing sliding block (5), a pushing sliding rail (37), a pulp strip hook (7), a magnetic coupling rodless cylinder (8) and a feeding pushing assembly; a notch through groove is formed in a notch knife side plate (36) on one side of a three-station roller conveyor, a wax cutting knife edge piece (3) is installed at the notch through groove, a feeding groove (2) is fixed on the side surface of the notch knife side plate (36) on the outer side of the wax cutting knife edge piece (3), double rows of royal jelly platform base strips (1) are placed on the feeding groove (2), a pushing cylinder (4) and a pushing slide rail (37) are installed on the side surface of the notch knife side plate (36) beside the feeding groove (2), the output end of the pushing cylinder (4) is fixedly connected with a pushing slide block (5), the pushing slide block (5) is slidably embedded on the pushing slide rail (37), and the pushing slide rail (37) is perpendicular to the length placing direction of the double rows of royal jelly platform base strips (1) on the feeding groove (; a magnetic coupling rodless cylinder (8) is arranged between the side plates (36) of the incision knife at two sides, a sliding block of the magnetic coupling rodless cylinder (8) is fixedly provided with a starch strip hook member (7) through a starch strip drag hook fixing block (6), and the starch strip hook member (7) is used for hooking the end parts of the double-row royal jelly platform base strips (1) after extending out of the incision through groove; a feeding pushing component is arranged at a position of a notch cutter side plate (36) opposite to the other side of the notch through groove and comprises a stepping motor (9), synchronous belt wheels (10), a feeding slide rail (11), a feeding rocker (12), a pulp strip feeding push rod (13) and a pulp strip cross push rod (14), the feeding rocker (12) mainly comprises a rotating shaft at one end, a rocker shaft at the other end and a crank connected between the rotating shaft and the rocker shaft, the respective synchronous belt wheels (10) are coaxially sleeved on the rotating shaft of the feeding rocker (12) after the rotating shaft penetrates through the notch cutter side plate (36) and an output shaft of the stepping motor (9), the two synchronous belt wheels (10) are connected through synchronous belt transmission, the rocker shaft of the feeding rocker (12) is hinged with one end of the pulp strip feeding push rod (13), the other end of the pulp strip feeding push rod (13) is hinged with the pulp strip cross push rod (14), the pulp strip cross push, a crank sliding pair is formed, and the feeding slide rail (11) is horizontally fixed on the side plate (36) of the incision knife; the cross push rod (14) of the thick liquid strip is positioned at the side of the horizontal position of the thick liquid strip hook member (7), the push rod part extending out of the peripheral surface of the cross push rod (14) of the thick liquid strip pushes the double rows of queen bee milk platform basic strips (1) hooked on the thick liquid strip hook member (7) to separate from the thick liquid strip hook member (7) and enter the separation sheets of the rotary driving disc (39) to be clamped;

the larva removing mechanism comprises a pen-shaped pull rod cylinder (20), an old larva removing rocker shaft (21), a vertical linear sliding block (44), a vertical linear guide rail (23), a transverse pushing cylinder (24) and an old larva removing chuck (19); a pen-shaped pull rod cylinder (20) is fixedly arranged in the middle of the bottom surface of the rack (35), vertical plates (38) are fixedly arranged on the bottom surfaces of the rack (35) on two sides of the pen-shaped pull rod cylinder (20), a cylinder rod of the pen-shaped pull rod cylinder (20) faces downwards and is hinged with one end of a rocker shaft connecting rod (42), the other end of the rocker shaft connecting rod (42) is fixedly connected with the middle of a degummed worm rocker shaft (21), one end of the vertical plate (38) on two sides of the degummed worm rocker shaft (21) is fixedly connected with one end of a lower connecting rod (43), the other end of the lower connecting rod (43) is hinged with the lower end of a degummed worm chuck push rod (22), the upper end of the degummed worm chuck push rod (22) is hinged with the lower part of a vertical linear slide block (44), the vertical linear slide block (44) is slidably embedded on the vertical linear guide rail (23), the vertical linear guide rail (23) is fixed on the vertical plates (, a cylinder rod of the transverse pushing cylinder (24) is connected with the old insect removing chuck (19); the old insect removing chuck (19) is positioned right below the central axis of the wax cutting slurry digging rotary cylinder, and a slurry digging and receiving hopper (25) is arranged right below the old insect removing chuck (19);

the slurry digging mechanism comprises a slurry digging and receiving hopper (25), a double-shaft pushing cylinder (26), a horizontal linear guide rail (27), a thin cylinder (28), a slurry digging cylinder rocker (30), a slurry digging rotating finger (31), a slurry digging angle rocker (32), a slurry scraping sheet cylinder (33) and a royal jelly collecting tank (34); the double-shaft pushing cylinder (26) and the horizontal linear guide rail (27) are fixed on the rack (35), a cylinder rod of the double-shaft pushing cylinder (26) is fixedly connected with a forward pushing plate (45), the forward pushing plate (45) is slidably embedded on the horizontal linear guide rail (27) through a sliding block at the bottom, and one end of a slurry digging rotating finger (31) is fixed on each of two sides of the forward pushing plate (45); a thin cylinder (28) is mounted on the advancing push plate (45), a cylinder rod of the thin cylinder (28) downwards penetrates through the advancing push plate (45) and then is hinged with the lower end part of the slurry digging cylinder connecting piece (29), the upper end part of the slurry digging cylinder connecting piece (29) is obliquely and upwards arranged towards one side of the wax cutting slurry digging rotary cylinder body, a slurry digging cylinder rocker (30) penetrates through the upper end part of the slurry digging cylinder connecting piece (29) and is hinged, two ends of the slurry digging cylinder rocker (30) are respectively hinged with the other ends of slurry digging rotary fingers (31) on two sides of the advancing push plate (45) through respective slurry digging angle rockers (32), and a slurry scraping sheet cylinder (33) is hinged between the middles of the slurry digging angle rockers (32) on two ends of the slurry digging cylinder rocker (30); a horizontal positioning beam (46) is fixedly connected between the side plates (36) of the notching knives on two sides close to the side of the double-shaft pushing cylinder (26), a pulp scraping sheet cylinder (33) is positioned below the side of the positioning beam (46), a row of pulp scraping sheets arranged along the axial direction are arranged at the bottom end of the pulp scraping sheet cylinder (33), and the pulp scraping sheets extend to pulp cups of the double-row royal jelly platform base strip (1) at the position of the equator on one side close to the double-shaft pushing cylinder (26) of the wax cutting and pulp digging rotary cylinder after bypassing the positioning beam (46) from the lower part; a royal jelly collecting groove (34) is arranged right below the pulp scraping sheet cylinder (33) and the positioning beam (46).

3. The full-automatic royal jelly cutting and digging all-in-one machine as claimed in claim 2, characterized in that: the middle part of the square rigid shaft (41) is of a direction shaft structure, the central hole of the rotary driving disc (39) is a square hole, and the square rigid shaft (41) and the rotary driving disc (39) are coaxially connected and matched through the sleeving and matching of the direction shaft and the square hole.

4. The full-automatic royal jelly cutting and digging all-in-one machine as claimed in claim 2, characterized in that: one side surface of the end part of the thick liquid strip hook member (7) close to the wax cutting and thick liquid digging rotary cylinder body is hooked with the end part of the double-row royal jelly platform base strip (1) through a clamping sleeve structure of a bulge and a groove.

5. The full-automatic royal jelly cutting and digging all-in-one machine as claimed in claim 2, characterized in that: the wax cutting knife edge piece (3) is provided with a wax cutting knife at one side corresponding to the pulp cup opening of the double-row royal jelly platform base strip (1).

6. The full-automatic royal jelly cutting and digging all-in-one machine as claimed in claim 2, characterized in that: the old insect removing chuck (19) comprises a transverse plate and two groups of chuck groups arranged at the upper and lower rows of the transverse plate, and each group of chuck group mainly comprises a plurality of chucks which are horizontally and linearly arranged at intervals.

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