CN113142559A - A boil system son spare for donkey-hide gelatin is stewed to glue - Google Patents

Abstract

The invention provides a decocting sub-piece for donkey-hide gelatin decoction, which comprises an installation frame (100), a feeding device (200) and a decocting device (300), wherein the feeding device (200) is used for conveying donkey-hide gelatin raw materials to the decocting device (300), and the decocting device (300) is used for heating and decocting the donkey-hide gelatin raw materials; the donkey-hide gelatin decocting device can effectively control the temperature in the donkey-hide gelatin decocting process, so that donkey-hide gelatin is uniformly heated in the decocting process.

Description

A boil system son spare for donkey-hide gelatin is stewed to glue

Technical Field

The invention relates to the field of donkey-hide gelatin decoction, in particular to a decoction sub-piece for donkey-hide gelatin decoction.

Background

Donkey-hide gelatin is a tonic prepared by decocting donkey hide as a main raw material, starts from Qinhan, has been used for more than 2000 years to date, and is a traditional tonic and blood-enriching superior product. The Gudong county (the ancient city of the Yang Gu county) of the Shandong province, which is originally produced by the donkey-hide gelatin, is amber, transparent and odorless, and is widely popular with people due to the effects of enriching the blood, stopping bleeding, nourishing yin and moistening dryness.

People usually adopt a manual stirring mode when decocting donkey-hide gelatin, so that time and labor are wasted, the working efficiency is low, and more people use a donkey-hide gelatin decocting machine to replace the manual stirring mode; however, the existing donkey-hide gelatin decocting equipment is generally only provided with one decocting chamber, required raw materials are fed into the decocting chamber through a feeding hole, the decocting efficiency is low, the uniformity of the decocted donkey-hide gelatin liquid cannot be guaranteed, and the decocting temperature of donkey-hide gelatin cannot be well controlled. Therefore, in order to solve the above problems, the present invention provides a decocting sub-part for decocting donkey-hide gelatin.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide a decocting sub-piece for decocting donkey-hide gelatin, improve the decocting production efficiency of donkey-hide gelatin, ensure the uniformity of the decocted donkey-hide gelatin liquid and improve the production quality of the donkey-hide gelatin liquid.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.

A decocting sub-piece for donkey-hide gelatin decoction comprises a mounting frame (100), a feeding device (200) and a decocting device (300), wherein the feeding device (200) is used for conveying donkey-hide gelatin raw materials to the decocting device (300), and the decocting device (300) is used for heating and decocting the donkey-hide gelatin raw materials;

the feeding device (200) comprises a feeding frame body (210), a feeding power component (220) and a feeding barrel body (230), wherein the feeding frame body (210) is used for installing the feeding power component (220) and the feeding barrel body (230), the feeding power component (220) is used for pushing the feeding barrel body (230) to convey into the decocting device (300), and the feeding barrel body (230) is used for loading donkey-hide gelatin raw materials;

the feeding frame body (210) comprises a fastening bracket (211) and a feeding shell (212);

the fastening support (211) is vertically and fixedly arranged at one end of the mounting frame (100) along the length direction of the fastening support, and the fastening support (211) is used for mounting a feeding power component (220);

the feeding shell (212) is of a rectangular shell structure with an open upper end and a closed lower end, the feeding shell (212) is fixedly mounted on the mounting frame (100), a power input hole is formed in the side, facing the fastening support (211), of the feeding shell (212), a feeding output hole which is coaxial with the power input hole is formed in the side, facing away from the fastening support (211), of the feeding shell (212), and the power input hole and the feeding output hole are close to the lower closed end of the feeding shell (212).

The technical scheme is further improved and optimized.

The feeding power component (220) comprises a power component and a pushing component, the pushing component is used for pushing the feeding barrel body (230) to be conveyed into the boiling device (300), and the power component is used for providing power for the pushing component to operate;

the power component include propelling movement motor (221), lead screw (224) with set up the coaxial arrangement in the power input hole on pay-off shell (212), lead screw (224) movable mounting is on fastening support (211), and the output of lead screw (224) is located the power input hole, the input of lead screw (224) is located one side that fastening support (211) deviates from pay-off shell (212), the power input hole locate to match towards the drill way of fastening support (211) and install apron (223) and apron (223) on offer the hole of dodging that is used for dodging lead screw (224).

The technical scheme is further improved and optimized.

A guide pipe (226) is arranged on the side part of the fastening bracket (211) departing from the feeding shell (212), the guide pipe (226) is of a circular pipe structure with one open end and one closed end, the guide pipe (226) and the screw rod (224) are coaxially arranged, and the input end of the screw rod (224) is positioned in the guide pipe (226);

the guide piece is arranged between the screw rod (224) and the guide pipe (226), the guide direction of the guide piece is parallel to the axial direction of the screw rod (224) in a sliding guide fit mode through the guide piece, the guide piece comprises a sliding groove arranged on the screw rod (224) and a sliding protrusion arranged on the guide pipe (226), the guide direction of the sliding groove is parallel to the axial direction of the screw rod (224), the sliding protrusion is located in the sliding groove, and the sliding protrusion and the guide pipe (226) form a sliding guide fit mode.

The technical scheme is further improved and optimized.

The axial direction of an output shaft of the pushing motor (221) is parallel to the axial direction of the screw rod (224), and the pushing motor (221) is installed on the fastening bracket (211);

a first transmission component (222) is arranged between the output end of the pushing motor (221) and the screw rod (224), and the first transmission component (222) is used for receiving the power of the pushing motor (221) and driving the screw rod (224) to displace along the axial direction of the first transmission component;

the first transmission component (222) comprises a driving belt wheel coaxially mounted at the output end of the pushing motor (221), a driven belt wheel coaxially mounted outside the screw rod (224) in a threaded manner, and a transmission belt arranged between the driving belt wheel and the driven belt wheel, wherein one end face of the driven belt wheel is in contact with the cover plate (223), and the other end face of the driven belt wheel is in contact with the fastening support (211).

The technical scheme is further improved and optimized.

The pushing assembly comprises a pushing plug (225), the pushing plug (225) is coaxially located in the power input hole, and the pushing plug (225) is fixedly connected with the output end of the screw rod (224).

The technical scheme is further improved and optimized.

The feeding cylinder body (230) is of a circular shell structure with one open end and one closed end, water inlet holes which are arranged in an array mode are formed in the outer circular surface of the feeding cylinder body (230), an external spline I is arranged at the closed end of the feeding cylinder body (230) along the circumferential direction, an internal spline I is arranged at the open end of the feeding cylinder body (230) along the circumferential direction, and the external spline I at the closed end of the feeding cylinder body (230) is matched with the internal spline I at the open end of the feeding cylinder body (230);

the axial direction of the feeding cylinder (230) is parallel to the axial direction of the screw rod (224), the feeding cylinder (230) is positioned in the feeding shell (212), and the open end of the feeding cylinder (230) faces the power input hole;

the feeding cylinder bodies (230) are vertically provided with a plurality of feeding cylinder bodies (230) which are positioned at the lowest part and are coaxially arranged with the power input hole.

The technical scheme is further improved and optimized.

The boiling device (300) is positioned on one side of the feeding shell (212) departing from the fastening bracket (211);

the decocting device (300) comprises a decocting cylinder body (310) and a heating member (330), wherein the decocting cylinder body (310) is used for providing a carrier for heating and decocting the donkey-hide gelatin raw material, and the heating member (330) is used for heating the inside of the decocting cylinder body (310).

The technical scheme is further improved and optimized.

The decocting cylinder body (310) comprises a limiting rod (312) and a top cover (320);

the decocting cylinder body (310) is of a rectangular shell structure with openings at the upper end and the lower end, and the decocting cylinder body (310) is fixedly arranged on the mounting frame (100);

the boiling cylinder (310) is divided into two parts along the vertical direction and is respectively a cylindrical section and a table-shaped section, the cylindrical section is of a rectangular cylinder structure, the table-shaped section is of a rectangular table structure, the bottom end of the cylindrical section is connected with the large end of the table-shaped section, the small end of the table-shaped section is a water outlet of the boiling cylinder (310), and the water outlet of the boiling cylinder (310) is provided with a drain valve (313) for opening or closing the water outlet of the boiling cylinder (310);

the side of the boiling cylinder body (310) facing the feeding shell (212) is provided with a feeding hole, the side of the boiling cylinder body (310) facing away from the feeding shell (212) is provided with a discharging hole, and the feeding hole, the discharging hole and the power input hole are coaxially arranged.

The technical scheme is further improved and optimized.

The extending direction of limiting rod (312) be on a parallel with the length direction of mounting bracket (100) and limiting rod (312) fixed mounting in system barrel (310), limiting rod (312) are provided with a plurality of and a plurality of limiting rod (312) along the circumferencial direction array of feed port and encircle to the pore wall outside of feed port, the region between a plurality of limiting rod (312) is for stewing the carriage area of barrel (310), and the carriage area is used for bearing pay-off barrel (230).

The technical scheme is further improved and optimized.

The top cover (320) is arranged at the upper opening end of the decocting cylinder body (310), and the top cover (320) is provided with a water inlet hole for conveying water into the decocting cylinder body (310). The upper orifice of the water inlet hole is provided with a water inlet valve (311) for opening or closing the water inlet hole;

two water inlet holes are formed in the top cover (320), and two groups of water inlet valves (311) are correspondingly arranged.

The technical scheme is further improved and optimized.

The boiling cylinder bodies (310) are three and sequentially a first-stage boiling cylinder body, a second-stage boiling cylinder body and a third-stage boiling cylinder body, the two adjacent boiling cylinder bodies (310) are communicated with the discharge hole through the feed hole, and the feed hole of the first-stage boiling cylinder body is communicated with the feed output hole of the feed shell (212);

heating member (330) be the back taper structure, heating member (330) are installed in system barrel (310) lower extreme, and heating member (330) be provided with three groups and with three system barrel (310) one-to-one of group, three group heating member (330) be one-level heating member, second grade heating member, tertiary heating member respectively.

Compared with the prior art, the invention has the beneficial effects that: the flowing grading type glue boiling equipment can improve the production efficiency of donkey-hide gelatin boiling, is provided with the automatic feeding device and the automatic discharging device, can reduce manual participation, improves the running efficiency of the equipment, adopts the multistage flowing glue boiling device, can effectively improve the quality of donkey-hide gelatin liquid boiled by donkey-hide gelatin, and can obtain donkey-hide gelatin liquid with different concentrations.

Drawings

The description includes the following figures, the contents shown are respectively:

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

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic structural diagram of the discharging process of the invention.

Fig. 4 is a schematic structural diagram of the discharging process of the invention.

Fig. 5 is a schematic structural diagram of the mounting bracket of the present invention.

Fig. 6 is a schematic structural view of the feeding device of the present invention.

Fig. 7 is a schematic structural view of the feeding device of the present invention.

Fig. 8 is a schematic structural view of the feeder body according to the present invention.

Fig. 9 is a schematic cross-sectional structure of the feeding housing of the present invention.

Fig. 10 is a schematic structural view of a feeding housing of the present invention.

Fig. 11 is a schematic structural view of a feeding power member of the present invention.

Fig. 12 is a schematic cross-sectional structure view of a feeding power member of the present invention.

Fig. 13 is a schematic structural view of the feeding cylinder of the present invention.

Fig. 14 is a schematic structural view of a feeding cylinder body of the invention.

Fig. 15 is a schematic structural view of the decocting device of the present invention.

Fig. 16 is a schematic structural view of the decocting device of the present invention.

Fig. 17 is a schematic sectional structure view of the decocting apparatus of the present invention.

Fig. 18 is a schematic sectional structure view of the decocting cylinder of the present invention.

Fig. 19 is a schematic view of the heating member structure of the present invention.

Fig. 20 is a schematic view of the combination of the heating member and the decocting barrel of the present invention.

Fig. 21 is a schematic view showing a structure of a drain valve according to the present invention.

FIG. 22 is a schematic view of the structure of the inlet valve of the present invention.

Fig. 23 is a schematic structural view of the discharging device of the invention.

Figure 24 is a schematic view of the support frame of the present invention.

Fig. 25 is a schematic structural view of a discharge power member of the present invention.

FIG. 26 is a schematic view of a slider configuration of the present invention.

Fig. 27 is a schematic structural view of a discharge control mechanism of the present invention.

Fig. 28 is a schematic structural view of the discharge control mechanism of the present invention.

Fig. 29 is a schematic structural view of the discharge control mechanism of the present invention.

Fig. 30 is a schematic view of the structure of the flip case of the present invention.

Fig. 31 is a schematic cross-sectional view of the flip case of the present invention.

Fig. 32 is a schematic structural view of the discharge control mechanism of the present invention.

FIG. 33 is a schematic view of the structure of the collecting device of the present invention.

Labeled as:

100. a mounting frame;

200. a feeding device; 210. a feeding frame body; 211. fastening a bracket; 212. a feeding housing; 220. a feeding power member; 221. a pushing motor; 222. a first transmission component; 223. a cover plate; 224. a screw rod; 225. pushing the plug; 226. a conduit; 230. a feeding cylinder;

300. a boiling device; 310. boiling the cylinder; 311. a water inlet valve; 312. a limiting rod; 313. a drain valve; 320. a top cover; 330. a heating member;

400. a discharge device; 410. a supporting bracket; 411. a chute; 412. a slider; 420. a discharge power member; 421. a slide motor; 422. a second transmission component; 423. a first transmission shaft; 430. a discharge control mechanism; 431. fixing a bracket; 432. a fluted disc; 433. a magnetic chuck; 434. a discharging motor; 435. turning over a motor; 436. turning over the shell; 437. a second transmission shaft; 438. a third transmission shaft;

500. and (4) a collecting device.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for a purpose of helping those skilled in the art to more fully, accurately and deeply understand the concept and technical solution of the present invention and to facilitate its implementation.

The utility model provides a glue equipment is endured to hierarchical formula that flows, includes mounting bracket 100, material feeding unit 200, system device 300, discharge apparatus 400, collection device 500 of enduring, material feeding unit 200 be used for transporting the donkey-hide gelatin raw materials to system device 300 of enduring, system device 300 of enduring be used for heating system to the donkey-hide gelatin raw materials, discharge apparatus 400 be used for upset system device 300 in the donkey-hide gelatin raw materials and carry the donkey-hide gelatin raw materials to collection device 500, collection device 500 be used for collecting the donkey-hide gelatin raw materials of enduring in the device 300.

The feeding device 200 comprises a feeding frame body 210, a feeding power component 220 and a feeding cylinder body 230, wherein the feeding frame body 210 is used for installing the feeding power component 220 and the feeding cylinder body 230, the feeding power component 220 is used for pushing the feeding cylinder body 230 to convey into the decocting device 300, and the feeding cylinder body 230 is used for loading donkey-hide gelatin raw materials.

The feeding frame body 210 comprises a fastening bracket 211 and a feeding shell 212.

The fastening bracket 211 is vertically and fixedly installed at one end of the installation frame 100 along the length direction thereof, and the fastening bracket 211 is used for installing the feeding power member 220.

The feeding shell 212 is a rectangular shell structure with an open upper end and a closed lower end, the feeding shell 212 is fixedly mounted on the mounting frame 100, a power input hole is formed in the side, facing the fastening support 211, of the feeding shell 212, a feeding output hole which is coaxially arranged with the power input hole is formed in the side, facing away from the fastening support 211, of the feeding shell 212, and the power input hole and the feeding output hole are both close to the closed lower end of the feeding shell 212.

The feeding power member 220 comprises a power component and a pushing component, the pushing component is used for pushing the feeding barrel 230 to be conveyed into the decocting device 300, and the power component is used for providing power for the pushing component to operate.

The power component include propelling movement motor 221, lead screw 224 with set up the coaxial arrangement in the power input hole on pay-off shell 212, lead screw 224 movable mounting is on fastening bracket 211, and the output of lead screw 224 is located the power input hole, the input of lead screw 224 is located one side that fastening bracket 211 deviates from pay-off shell 212, the power input hole locate to match towards fastening bracket 211's drill way and install apron 223 and apron 223 on offer the hole of dodging that is used for dodging lead screw 224.

The side part of the fastening bracket 211 facing away from the feeding housing 212 is provided with a guide pipe 226, the guide pipe 226 is a circular pipe structure with one open end and one closed end, the guide pipe 226 is arranged coaxially with the screw rod 224, and the input end of the screw rod 224 is located in the guide pipe 226.

The guide member is arranged between the screw rod 224 and the guide pipe 226, and the guide member and the guide pipe form sliding guide fit with a guide direction parallel to the axial direction of the screw rod 224.

The axial direction of the output shaft of the pushing motor 221 is parallel to the axial direction of the screw rod 224, and the pushing motor 221 is installed on the fastening bracket 211.

A first transmission member 222 is arranged between the output end of the pushing motor 221 and the screw rod 224, and the first transmission member 222 is used for receiving the power of the pushing motor 221 and driving the screw rod 224 to displace along the axial direction thereof.

Specifically, the first transmission member 222 includes a driving pulley coaxially mounted at the output end of the pushing motor 221, a driven pulley coaxially and threadedly mounted outside the screw rod 224, and a transmission belt disposed between the driving pulley and the driven pulley, wherein one end surface of the driven pulley is in contact with the cover plate 223, and the other end surface of the driven pulley is in contact with the fastening bracket 211.

The pushing assembly comprises a pushing plug 225, the pushing plug 225 is coaxially located in the power input hole, and the pushing plug 225 is fixedly connected with the output end of the screw rod 224.

The pushing motor 221 operates to output power and drives the driving belt wheel of the first transmission member 222 to rotate around the axial direction of the driving belt wheel, the driving belt wheel rotates to drive the driven belt wheel of the first transmission member 222 to rotate around the axial direction of the driven belt wheel through the conveyor belt, because the driven belt wheel is in threaded connection with the screw rod 224, the driven belt wheel is limited to move along the self axial direction, and the screw rod 224 can only move along the self axial direction, the driven belt wheel rotates to drive the screw rod 224 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the screw rod 224 moves to drive the pushing plug 225 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, when the pushing plug 225 moves to the feeding output hole of the feeding shell 212, the pushing motor 221 runs in the reverse direction, the pushing motor 221 outputs power and drives the screw rod 224 to move close to the fastening bracket 211 along the axial direction of the screw rod 224 through the first transmission member 222, and the screw rod 224 moves to drive the pushing plug 225 to move close to the fastening bracket 211 along the horizontal direction of the screw rod 224.

The feeding cylinder 230 is a circular shell structure with an open end and a closed end, water inlet holes arranged in an array are formed in the outer circular surface of the feeding cylinder 230, a first external spline is arranged at the closed end of the feeding cylinder 230 along the circumferential direction, a first internal spline is arranged at the open end of the feeding cylinder 230 along the circumferential direction, and the first external spline at the closed end of the feeding cylinder 230 is matched with the first internal spline at the open end of the feeding cylinder 230.

The axial direction of the feeding cylinder 230 is parallel to the axial direction of the screw 224, the feeding cylinder 230 is positioned in the feeding shell 212, and the open end of the feeding cylinder 230 faces the power input hole.

The feeding cylinder 230 is provided with a plurality of feeding cylinders 230 along the vertical direction, and the feeding cylinder 230 located at the lowest part is arranged coaxially with the power input hole.

The pushing motor 221 operates, the pushing motor 221 operates to output power and drives the screw rod 224 to axially move along the screw rod 224 through the first transmission member 222, the screw rod 224 drives the pushing plug 225 to push the feeding cylinder 230 to axially move along the screw rod 224 away from the power output hole of the feeding shell 212, when the open end of the feeding cylinder 230 moves into the decocting device 300, the pushing motor 221 operates in the reverse direction, the pushing plug 225 axially moves along the screw rod 224 to the power output hole of the feeding shell 212, the feeding cylinder 230 drops to be coaxially arranged with the power output hole arranged on the side surface of the feeding shell 212, and the pushing motor 221 operates to drive the pushing plug 225 to push the feeding cylinder to axially move along the screw rod 224 away from the power output hole of the feeding shell 212, so that the operation is repeated.

The decocting device 300 is positioned on one side of the feeding shell 212, which is far away from the fastening bracket 211.

The decocting device 300 comprises a decocting cylinder body 310 and a heating member 330, wherein the decocting cylinder body 310 is used for providing a carrier for heating and decocting the donkey-hide gelatin raw material, and the heating member 330 is used for heating the inside of the decocting cylinder body 310.

The decocting cylinder 310 comprises a water inlet valve 311, a limiting rod 312, a water discharge valve 313 and a top cover 320.

The decocting cylinder 310 is a rectangular shell structure with openings at the upper and lower ends, and the decocting cylinder 310 is fixedly installed on the installation frame 100.

The boiling cylinder 310 is divided into two parts along the vertical direction and is respectively a cylindrical section and a table-shaped section, the cylindrical section is of a rectangular cylinder structure, the table-shaped section is of a rectangular table structure, the bottom end of the cylindrical section is connected with the large end of the table-shaped section, the small end of the table-shaped section is a water outlet of the boiling cylinder 310, and the water outlet of the boiling cylinder 310 is provided with a drain valve 313 for opening or closing the water outlet of the boiling cylinder 310; the drain valve 313 is a conventional control valve structure and will not be described in detail herein.

The side of the decocting cylinder 310 facing the feeding shell 212 is provided with a feeding hole, the side of the decocting cylinder 310 facing away from the feeding shell 212 is provided with a discharging hole, and the feeding hole, the discharging hole and the power input hole are coaxially arranged.

The extending direction of the limiting rods 312 is parallel to the length direction of the mounting rack 100, the limiting rods 312 are fixedly mounted in the decocting cylinder body 310, the limiting rods 312 are arranged in an array along the circumferential direction of the feeding hole and surround the hole wall of the feeding hole, a plurality of limiting rods 312 surround the hole wall of the feeding hole, a bearing area between the limiting rods 312 is the bearing area of the decocting cylinder body 310, and the bearing area is used for bearing the feeding cylinder body 230.

The top cover 320 is arranged at the upper opening end of the decocting cylinder body 310, and the top cover 320 is provided with a water inlet hole for conveying water into the decocting cylinder body 310. The upper orifice of the water inlet hole is provided with a water inlet valve 311 for opening or closing the water inlet hole; the inlet valve 311 is a conventional control valve structure, and will not be described in detail herein.

In order to improve the efficiency of delivering water into the decocting cylinder 310, two water inlet holes are formed in the top cover 320, and two sets of water inlet valves 311 are correspondingly arranged.

In order to improve the work efficiency of flowing hierarchical formula equipment of enduring glue and improve the quality of system donkey-hide gelatin raw materials of enduring, system barrel 310 be provided with threely and boil barrel, second grade system barrel, tertiary system barrel for the one-level in proper order, and boil through feed port and discharge opening switch-on between two adjacent system barrels 310 to the feed port of barrel is endured to the one-level and the pay-off delivery outlet switch-on of pay-off shell 212. The number of the decocting cylinder bodies 310 in the present invention can be several, three in the present embodiment, according to actual requirements.

The heating member 330 be the back taper structure, heating member 330 is installed in system barrel 310 lower extreme, and heating member 330 is provided with three groups and stews the barrel 310 one-to-one with three groups, three groups of heating member 330 be first order heating member, second grade heating member, tertiary heating member respectively.

When a first feeding barrel enters a bearing area of a first-stage decocting barrel, a water inlet valve 311 is opened, water is injected into the first-stage decocting barrel, a first-stage heating component starts to work at the moment, water in the first-stage decocting barrel is heated to boil donkey-hide gelatin raw materials in the first-stage feeding barrel, after the first-stage decocting barrel finishes boiling the donkey-hide gelatin raw materials in the first feeding barrel for the first time, the first-stage heating component stops heating, a water discharge valve 313 of the first-stage decocting barrel is opened, and donkey-hide gelatin liquid in the first-stage decocting barrel is discharged from a water discharge port.

The second feeding cylinder body falls to be arranged coaxially with a power output hole arranged on the side surface of the feeding shell 212, the pushing motor 221 operates to output power to drive a driving belt wheel of the transmission member I222 to rotate around the axial direction of the driving belt wheel, the driving belt wheel rotates to drive a driven belt wheel of the transmission member I222 to rotate around the axis of the driven belt wheel, the driven belt wheel rotates to drive a screw rod 224 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the screw rod 224 moves to drive a pushing plug 225 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the pushing plug 225 pushes the second feeding cylinder body to move from the feeding shell 212 into the first-stage decocting cylinder body, the second feeding cylinder body pushes the first feeding cylinder body in the first-stage decocting cylinder body to move towards the second-stage decocting cylinder body, water inlet valves of the first-stage decocting cylinder body and the second-stage decocting cylinder body are opened, and water injection into the first-stage decocting cylinder body and the second-stage decocting cylinder body is started, the first-stage heating component and the second-stage heating component start to work, when the first-stage boiling barrel finishes boiling donkey-hide gelatin raw materials in the second feeding barrel for the first time, and the second-stage boiling barrel finishes boiling donkey-hide gelatin raw materials in the first feeding barrel for the second time, the drain valves 313 of the first-stage boiling barrel and the second-stage boiling barrel are opened, donkey-hide gelatin liquid in the first-stage boiling barrel and the second-stage boiling barrel is discharged from the drain outlet, and the first-stage heating component and the second-stage heating component stop heating.

The third feeding cylinder body falls to be arranged coaxially with a power output hole arranged on the side surface of the feeding shell 212, the pushing motor 221 operates to output power to drive a driving belt wheel of the first transmission member 222 to rotate around the self axial direction, the driving belt wheel rotates to drive a driven belt wheel of the first transmission member 222 to rotate around the self axial line through a transmission belt, the driven belt wheel rotates to drive a screw rod 224 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the screw rod 224 moves to drive a pushing plug 225 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the pushing plug 225 pushes the third feeding cylinder body to move from the feeding shell 212 to the first-stage decocting cylinder body, the third feeding cylinder body pushes the second feeding cylinder body to move towards the second-stage decocting cylinder body, the second feeding cylinder body pushes the first feeding cylinder body to move towards the third-stage decocting cylinder body, and a water inlet valve 311 of the first-stage decocting cylinder body, the second-stage decocting cylinder body and the third-stage decocting cylinder body is opened, the utility model discloses a system of decocting donkey-hide gelatin, including a first stage boiling barrel, a second stage boiling barrel, water injection in the tertiary boiling barrel, one-level heating member, second stage heating member, third stage heating member work, boil the first time system of decocting the donkey-hide gelatin raw materials in the feed barrel when one-level boiling barrel accomplishes, the second stage is boiled the donkey-hide gelatin raw materials second time system of decocting in the feed barrel, when the third time system of decocting the donkey-hide gelatin raw materials in the feed barrel is accomplished to tertiary boiling barrel, open one-level boiling barrel, the second stage is boiled the barrel, the drain valve 313 of tertiary system barrel, the barrel is boiled to the one-level, the barrel is boiled to the second stage, donkey-hide gelatin liquid in the secondary boiling barrel is discharged by the outlet, one-level heating member, second stage heating member, third stage heating member stops the heating, first feed barrel in the tertiary system barrel is carried out by discharge apparatus 400 and is unloaded the donkey-hide gelatin raw materials in the first feed barrel.

The discharging device 400 comprises a supporting bracket 410, a discharging power member 420 and a discharging control mechanism 430, wherein the supporting bracket 410 is used for installing the discharging power member 420, the discharging power member 420 is used for outputting power and driving the discharging control mechanism 430 to move in the horizontal direction, and the discharging control mechanism 430 is used for overturning and discharging the feeding cylinder 230.

The bearing support 410 include slider 412, bearing support 410 install in top cap 320 upper end along top cap 320 length direction, and bearing support 410 is located the one end of tertiary system barrel, bearing support 410 seted up spout 411 along self length direction.

The sliding block 412 is disposed in the sliding slot 411, and a sliding guiding fit is formed between the sliding block and the sliding slot, wherein the guiding direction of the sliding block is parallel to the length direction of the supporting bracket 410, and a rack is disposed on the top of the sliding block 412 along the length direction of the sliding block 412.

The discharging power member 420 comprises a sliding motor 421, a second transmission member 422 and a first transmission shaft 423.

The sliding motor 421 is horizontally installed on the supporting bracket 410, and the power output shaft of the sliding motor 421 is axially perpendicular to the length direction of the supporting bracket 410.

The first transmission shaft 423 is installed on the bearing support 410, the first transmission shaft 423 is axially parallel to the axial direction of an output shaft of the sliding motor 421, the first transmission shaft 423 is axially divided into two ends along the first transmission shaft 423 and is respectively an output section and an input section, the output section is located in the sliding groove 411 of the bearing support 410, a gear meshed with the rack on the sliding block 412 is coaxially installed outside the output section, and the input section is located on the same side of the sliding motor 421.

The second driving member 422 is installed between the output end of the sliding motor 421 and the input section of the first driving shaft 423, and specifically, the second driving member 422 is belt driven.

When the sliding motor 421 starts to operate, the sliding motor 421 outputs power and drives the first transmission shaft 423 to rotate around its own axis through the transmission of the second transmission member 422, and the first transmission shaft 423 rotates to drive the sliding block 412 to move in the sliding slot 411 along the extending direction of the sliding slot.

The discharging control mechanism 430 is positioned at one side of the three-stage decocting cylinder body deviating from the one-stage decocting cylinder body.

The discharging control mechanism 430 comprises a discharging mechanism and a turnover mechanism.

The turnover mechanism comprises a fixed support 431, a fluted disc 432, a magnetic suction cup 433, a turnover motor 435 and a turnover shell 436.

The fixing bracket 431 is installed at one end of the slider 412 in a vertical direction.

The utility model discloses a three-stage decocting barrel, including upset casing 436, bearing support 431, perforated hole and pay-off delivery outlet, upset casing 436 articulated with fixed bolster 431 and the articulated shaft that forms of upset casing 436 and fixed bolster 431 be on a parallel with ground and perpendicular to bearing support 410's length direction, upset casing 436 be the rectangular shell, upset casing 436 has seted up the perforation and has set up the coaxial arrangement of pay-off delivery outlet on third grade system barrel along bearing support 410 length direction's side, the spacing groove has been seted up to the two sides that are parallel to each other of upset casing 436 and bearing support 410 length direction, the spacing inslot is provided with external splines two, external splines four.

The turnover motor 435 is mounted on the turnover shell 436, the output end of the turnover motor 435 coaxially penetrates through the through hole and is positioned on one side of the turnover shell 436 facing the three-stage decocting barrel, and the output end of the turnover motor 435 is provided with a connecting bracket.

The magnetic suction cup 433 is installed on the connecting support, and the magnetic suction cup 433 is coaxially arranged with the turnover motor 435.

The fluted disc 432 is a circular disc body, a mounting hole is coaxially formed in the end face of the fluted disc 432, the fluted disc 432 is movably sleeved outside the magnetic suction disc 433 through the mounting hole, the fluted disc 432 is further fixed with the connecting support, and the fluted disc 432 is provided with a third inner spline matched with the closed end of the feeding cylinder 230 in the circumferential direction.

When the closed end of the feeding barrel 230 in the three-stage decocting barrel is contacted with the magnetic sucker 433, the third internal spline on the fluted disc 432 is meshed with the first external spline at the closed end of the feeding barrel 230, the overturning motor 435 is turned on, the magnetic sucker 433 generates magnetic force after being electrified, the feeding barrel 230 is connected with the magnetic sucker 433 through magnetic force, the overturning motor 435 outputs power and drives the fluted disc 432 to rotate around the self axial direction through output shaft transmission, the fluted disc 432 rotates to drive the feeding barrel 230 to rotate through the internal and external splines, overturning of the feeding barrel 230 in the decocting process is realized, and the quality of decocting donkey-hide gelatin raw materials is improved.

The discharging mechanism comprises a discharging motor 434, a second transmission shaft 437 and a third transmission shaft 438.

The discharging motor 434 is horizontally arranged on the fixed bracket 431, and the axial direction of the output shaft of the discharging motor 434 is perpendicular to the axial direction of the output shaft of the overturning motor 435.

The vertical movable mounting of transmission shaft two 437 on fixed bolster 431 and around self axial rotation, the upper end of transmission shaft two 437 is the input, the lower extreme is the output, be provided with the power transmission piece one that is used for realizing power transmission between the input of transmission shaft two 437 and the output of motor 434 of unloading between the two, specifically, power transmission piece one be oblique gear structure.

The third transmission shaft 438 is arranged on the fixed support 431, the axial direction of the third transmission shaft 438 is parallel to the axial direction of an output shaft of the discharging motor 434, the third transmission shaft 438 is divided into two sections which are respectively a power section and a support section, and a second power transmission part for realizing power transmission between the two sections is arranged between one end of the power section and the output end of the second transmission shaft 437.

The other end of the power section of the third transmission shaft 438 is provided with a second internal spline, the other end of the power section is arranged in a limiting groove of the turnover shell 436 and is connected with the first internal spline and the second internal spline, one end of the supporting section is arranged on the fixed support 431, the other end of the supporting section is provided with a fourth internal spline, and the other end of the power section is arranged in a groove of the turnover shell 436 and is connected with the first internal spline and the second internal spline.

When the discharging motor 434 starts to operate, the discharging motor 434 outputs power and drives the transmission shaft II 437 to rotate around the self axial direction through the gear transmission I transmission power, the transmission shaft II 437 rotates and drives the transmission shaft III 438 to rotate through the gear transmission II transmission power, the transmission shaft III 438 rotates and drives the turnover shell 436 to rotate around the transmission shaft III 438 axially through the internal and external spline transmission, and the donkey-hide gelatin raw material in the feeding cylinder 230 is discharged into the collecting device 500.

The collection device 500 includes a container located directly below the mounting bracket 431.

In actual work, the pushing motor 221 operates to output power to drive the driving belt wheel of the first transmission member 222 to rotate around the axial direction of the driving belt wheel, the driving belt wheel rotates to drive the driven belt wheel of the first transmission member 222 to rotate around the axial line of the driving belt wheel through the conveyor belt, the driven belt wheel rotates to drive the screw rod 224 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the screw rod 224 moves to drive the pushing plug 225 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the pushing plug 225 pushes the first feeding cylinder body to move away from the power output hole of the feeding shell 212 along the axial direction of the screw rod 224, when the first feeding cylinder body enters the first boiling cylinder body, the water inlet valve 311 is opened to start injecting water into the first boiling cylinder body, at the moment, the first heating member starts to work to heat water in the first boiling cylinder body to boil donkey-hide gelatin raw materials in the first feeding cylinder body, when the first boiling cylinder body finishes boiling to boil donkey-hide gelatin raw materials in the first feeding cylinder body for the first time, the first-stage heating component stops heating, a drain valve 313 of the first-stage decocting barrel is opened, and water in the first-stage decocting barrel is drained from a drain outlet.

The pushing motor 221 runs in the reverse direction, the pushing plug 225 moves to the power output hole of the feeding shell 212 along the axial direction of the screw rod 224, the second feeding cylinder body falls to be arranged coaxially with the power output hole arranged on the side surface of the feeding shell 212, the pushing motor 221 runs to output power to drive the driving belt wheel of the transmission member I222 to rotate around the axial direction of the driving belt wheel, the driving belt wheel rotates to drive the driven belt wheel of the transmission member I222 to rotate around the axial line of the driving belt wheel through the conveyor belt, the driven belt wheel rotates to drive the screw rod 224 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the screw rod 224 moves to drive the pushing plug 225 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the pushing plug 225 pushes the second feeding cylinder body to move from the feeding shell 212 to the first-stage decocting cylinder body, and the second feeding cylinder body pushes the first feeding cylinder body in the first-stage decocting cylinder body to move towards the second-stage decocting cylinder body, and the water inlet valves of the first-stage decocting cylinder body and the second-stage decocting cylinder body are opened, the water injection in the first-stage boiling barrel and the second-stage boiling barrel is started, the first-stage heating component and the second-stage heating component start to work, when the first-stage boiling barrel finishes boiling donkey-hide gelatin raw materials in the second feeding barrel for the first time, and the second-stage boiling barrel finishes boiling donkey-hide gelatin raw materials in the first feeding barrel for the second time, the drain valve 313 of the first-stage boiling barrel and the second-stage boiling barrel is opened, water in the first-stage boiling barrel and the second-stage boiling barrel is discharged from the water outlet, and the first-stage heating component and the second-stage heating component stop heating.

The pushing motor 221 runs in the reverse direction, the pushing plug 225 moves to the power output hole of the feeding shell 212 along the axial direction of the screw rod 224, the third feeding cylinder body falls to be arranged coaxially with the power output hole arranged on the side surface of the feeding shell 212, the pushing motor 221 runs to output power to drive the driving belt wheel of the transmission member I222 to rotate around the axial direction of the driving belt wheel, the driving belt wheel rotates to drive the driven belt wheel of the transmission member I222 to rotate around the axial line of the driving belt wheel through the conveying belt, the driven belt wheel rotates to drive the screw rod 224 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the screw rod 224 moves to drive the pushing plug 225 to move away from the fastening bracket 211 along the axial direction of the screw rod 224, the pushing plug 225 pushes the third feeding cylinder body to move from the feeding shell 212 to the first-stage decocting cylinder body, the third feeding cylinder body pushes the second feeding cylinder body to move towards the third-stage decocting cylinder body, and the first feeding cylinder body pushes the first feeding cylinder body to move towards the decocting cylinder body, the water inlet valve 311 of the first-stage decocting barrel, the second-stage decocting barrel and the third-stage decocting barrel is opened, water is injected into the first-stage decocting barrel, the second-stage decocting barrel and the third-stage decocting barrel, the first-stage heating component, the second-stage heating component and the third-stage heating component work, the closed end of a first feeding barrel in the third-stage decocting barrel is contacted with the magnetic sucker 433, the third internal spline on the fluted disc 432 is meshed with the first external spline at the closed end of the feeding barrel 230, the open end of the adjacent feeding barrel 230 is meshed and connected with the closed end of the feeding barrel 230 through the internal and external splines, the overturning motor 435 is opened, the magnetic sucker 433 generates magnetic force after being electrified, the first feeding barrel is connected with the magnetic sucker 433 through the magnetic force, the overturning motor 435 outputs power and drives the fluted disc 432 to rotate around the self axial direction through the output shaft, the fluted disc 432 rotates to drive the first feeding barrel to rotate around the self axial direction through the internal and external splines, the first feeding cylinder rotates to drive the second feeding cylinder to rotate around the self axial direction through the internal and external splines, and the second feeding cylinder rotates to drive the third feeding cylinder to rotate around the self axial direction through the internal and external splines.

When the first-stage boiling barrel finishes boiling donkey-hide gelatin raw materials in the feeding barrel for the first time, the second-stage boiling barrel finishes boiling the donkey-hide gelatin raw materials in the feeding barrel for the second time, and when the third-stage boiling barrel finishes boiling the donkey-hide gelatin raw materials in the feeding barrel for the third time, the drain valve 313 of the first-stage boiling barrel, the second-stage boiling barrel and the third-stage boiling barrel is opened, water in the first-stage boiling barrel, the second-stage boiling barrel and the second-stage boiling barrel is discharged from the water outlet, and the first-stage heating member, the second-stage heating member and the third-stage heating member stop heating.

The sliding motor 421 starts to operate, the sliding motor 421 outputs power and drives the transmission shaft 423 to rotate around the self axial direction through the transmission of the transmission member two 422, the transmission shaft one 423 rotates to drive the sliding block 412 to move away from the three-stage decocting cylinder body in the sliding groove 411 along the length direction of the supporting bracket 410, the sliding block 412 moves to drive the fixing bracket 431 to move away from the three-stage decocting cylinder body, the magnetic suction cup 433 drives the first feeding cylinder body to move away from the three-stage decocting cylinder body, when the first feeding cylinder body moves to a position right above the collecting device 500, the sliding motor 421 stops operating, the discharging motor 434 starts to operate, the discharging motor 434 outputs power and drives the transmission shaft two 437 to rotate around the self axial direction through the transmission of the gear transmission two power, the transmission shaft two 437 rotates to drive the transmission shaft three 438 to rotate through the gear transmission two transmission power, the transmission shaft three 438 rotates to drive the overturning shell 436 to rotate around the transmission shaft three 438 through the transmission of the internal and external splines, the donkey-hide gelatin raw material in the feeding cylinder 230 is discharged into the collecting device 500.

When the first feeding barrel is completely unloaded, the overturning motor 435 stops running, the first feeding barrel is disconnected from the magnetic suction cup 433, the first feeding barrel is taken down, the sliding motor 421 reversely runs, and the sliding block 412 drives the fixed support 431 to move close to the three-stage decocting barrel and overturns and unloads the second feeding barrel.

Repeating the steps, continuously decocting the donkey-hide gelatin raw material for three times to obtain the donkey-hide gelatin liquid with three different concentrations.

The invention is described above with reference to the accompanying drawings. It is to be understood that the specific implementations of the invention are not limited in this respect. Various insubstantial improvements are made by adopting the method conception and the technical scheme of the invention; the present invention is not limited to the above embodiments, and can be modified in various ways.

Claims (10)

1. The decocting sub-piece for donkey-hide gelatin decoction is characterized by comprising an installation frame (100), a feeding device (200) and a decocting device (300), wherein the feeding device (200) is used for conveying donkey-hide gelatin raw materials to the decocting device (300), and the decocting device (300) is used for heating and decocting the donkey-hide gelatin raw materials;

the feeding device (200) comprises a feeding frame body (210), a feeding power component (220) and a feeding barrel body (230), wherein the feeding frame body (210) is used for installing the feeding power component (220) and the feeding barrel body (230), the feeding power component (220) is used for pushing the feeding barrel body (230) to convey into the decocting device (300), and the feeding barrel body (230) is used for loading donkey-hide gelatin raw materials;

the feeding frame body (210) comprises a fastening bracket (211) and a feeding shell (212);

the fastening support (211) is vertically and fixedly arranged at one end of the mounting frame (100) along the length direction of the fastening support, and the fastening support (211) is used for mounting a feeding power component (220);

the feeding shell (212) is of a rectangular shell structure with an open upper end and a closed lower end, the feeding shell (212) is fixedly mounted on the mounting frame (100), a power input hole is formed in the side, facing the fastening support (211), of the feeding shell (212), a feeding output hole which is coaxial with the power input hole is formed in the side, facing away from the fastening support (211), of the feeding shell (212), and the power input hole and the feeding output hole are close to the lower closed end of the feeding shell (212).

2. The decocting sub-assembly for colla corii asini decoction according to claim 1, wherein the feeding power member (220) comprises a power assembly and a pushing assembly, the pushing assembly is used for pushing the feeding barrel (230) to convey into the decocting device (300), and the power assembly is used for providing power for the operation of the pushing assembly;

the power component include propelling movement motor (221), lead screw (224) with set up the coaxial arrangement in the power input hole on pay-off shell (212), lead screw (224) movable mounting is on fastening support (211), and the output of lead screw (224) is located the power input hole, the input of lead screw (224) is located one side that fastening support (211) deviates from pay-off shell (212), the power input hole locate to match towards the drill way of fastening support (211) and install apron (223) and apron (223) on offer the hole of dodging that is used for dodging lead screw (224).

3. The decocting sub-assembly for colla corii asini decocting the gelatin according to claim 2, characterized in that the side of the fastening bracket (211) away from the feeding shell (212) is provided with a conduit (226), the conduit (226) is a circular tube structure with one open end and one closed end, the conduit (226) and the screw rod (224) are coaxially arranged, and the input end of the screw rod (224) is positioned in the conduit (226);

the guide piece is arranged between the screw rod (224) and the guide pipe (226), the guide direction of the guide piece is parallel to the axial direction of the screw rod (224) in a sliding guide fit mode through the guide piece, the guide piece comprises a sliding groove arranged on the screw rod (224) and a sliding protrusion arranged on the guide pipe (226), the guide direction of the sliding groove is parallel to the axial direction of the screw rod (224), the sliding protrusion is located in the sliding groove, and the sliding protrusion and the guide pipe (226) form a sliding guide fit mode.

4. The decocting sub-piece for colla corii asini decocting the gelatin according to claim 3, characterized in that the output shaft of the pushing motor (221) is axially parallel to the axial direction of the screw rod (224) and the pushing motor (221) is installed on the fastening bracket (211);

a first transmission component (222) is arranged between the output end of the pushing motor (221) and the screw rod (224), and the first transmission component (222) is used for receiving the power of the pushing motor (221) and driving the screw rod (224) to displace along the axial direction of the first transmission component;

the first transmission component (222) comprises a driving belt wheel coaxially mounted at the output end of the pushing motor (221), a driven belt wheel coaxially mounted outside the screw rod (224) in a threaded manner, and a transmission belt arranged between the driving belt wheel and the driven belt wheel, wherein one end face of the driven belt wheel is in contact with the cover plate (223), and the other end face of the driven belt wheel is in contact with the fastening support (211).

5. The decocting sub-assembly for colla corii asini decoction according to claim 4, wherein the pushing assembly comprises a pushing plug (225), the pushing plug (225) is coaxially located in the power input hole, and the pushing plug (225) is fixedly connected with the output end of the screw rod (224).

6. The boiled component for donkey-hide gelatin soup as claimed in claim 5, wherein the feeding cylinder (230) is a circular shell structure with one open end and one closed end, the outer circular surface of the feeding cylinder (230) is provided with water inlet holes arranged in an array, the closed end of the feeding cylinder (230) is provided with a first external spline along the circumferential direction, the open end of the feeding cylinder (230) is provided with a first internal spline along the circumferential direction, and the first external spline at the closed end of the feeding cylinder (230) is matched with the first internal spline at the open end of the feeding cylinder (230);

the axial direction of the feeding cylinder (230) is parallel to the axial direction of the screw rod (224), the feeding cylinder (230) is positioned in the feeding shell (212), and the open end of the feeding cylinder (230) faces the power input hole;

the feeding cylinder bodies (230) are vertically provided with a plurality of feeding cylinder bodies (230) which are positioned at the lowest part and are coaxially arranged with the power input hole.

7. The decocting sub-assembly for colla corii asini decoction according to claim 6, wherein the decocting device (300) is positioned at one side of the feeding shell (212) which is far away from the fastening bracket (211);

the decocting device (300) comprises a decocting cylinder body (310) and a heating member (330), wherein the decocting cylinder body (310) is used for providing a carrier for heating and decocting the donkey-hide gelatin raw material, and the heating member (330) is used for heating the inside of the decocting cylinder body (310).

8. The decocting sub-piece for colla corii asini decoction according to claim 7, wherein the decocting cylinder (310) comprises a limiting rod (312) and a top cover (320);

the decocting cylinder body (310) is of a rectangular shell structure with openings at the upper end and the lower end, and the decocting cylinder body (310) is fixedly arranged on the mounting frame (100);

the boiling cylinder (310) is divided into two parts along the vertical direction and is respectively a cylindrical section and a table-shaped section, the cylindrical section is of a rectangular cylinder structure, the table-shaped section is of a rectangular table structure, the bottom end of the cylindrical section is connected with the large end of the table-shaped section, the small end of the table-shaped section is a water outlet of the boiling cylinder (310), and the water outlet of the boiling cylinder (310) is provided with a drain valve (313) for opening or closing the water outlet of the boiling cylinder (310);

the side of the boiling cylinder body (310) facing the feeding shell (212) is provided with a feeding hole, the side of the boiling cylinder body (310) facing away from the feeding shell (212) is provided with a discharging hole, and the feeding hole, the discharging hole and the power input hole are coaxially arranged.

9. The decocting sub-assembly for colla corii asini decocting the gelatin according to claim 8, wherein the extending direction of the limiting rods (312) is parallel to the length direction of the mounting frame (100) and the limiting rods (312) are fixedly installed in the decocting barrel body (310), the limiting rods (312) are provided with a plurality of limiting rods (312) along the circumferential direction array of the feeding hole and surround the outside of the hole wall of the feeding hole, the area between the plurality of limiting rods (312) is a bearing area of the decocting barrel body (310), and the bearing area is used for bearing the feeding barrel body (230).

10. The decocting sub-assembly for colla corii asini decoction according to claim 9, wherein the top cover (320) is installed at the upper opening end of the decocting cylinder (310), and the top cover (320) is provided with a water inlet hole for conveying water into the decocting cylinder (310);

the upper orifice of the water inlet hole is provided with a water inlet valve (311) for opening or closing the water inlet hole;

two water inlet holes are formed in the top cover (320), and two groups of water inlet valves (311) are correspondingly arranged;

the boiling cylinder bodies (310) are three and sequentially a first-stage boiling cylinder body, a second-stage boiling cylinder body and a third-stage boiling cylinder body, the two adjacent boiling cylinder bodies (310) are communicated with the discharge hole through the feed hole, and the feed hole of the first-stage boiling cylinder body is communicated with the feed output hole of the feed shell (212);

heating member (330) be the back taper structure, heating member (330) are installed in system barrel (310) lower extreme, and heating member (330) be provided with three groups and with three system barrel (310) one-to-one of group, three group heating member (330) be one-level heating member, second grade heating member, tertiary heating member respectively.

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