CN214103096U - A recovery unit for konjaku flour processing - Google Patents

Abstract

The utility model belongs to the technical field of food processing, and discloses a recovery device for konjac flour processing, which comprises a lower frame arranged below a konjac flour processing device, wherein the lower frame is connected on a supporting table in a sliding manner; the bottom end of the konjac flour processing device is provided with an opening; the upper end of the lower frame is provided with an opening, and the konjak flour processing device and the lower frame form a closed space when the opening of the lower frame and the opening of the konjak flour processing device can be aligned and superposed; the lower frame comprises a front side plate, a rear side plate, a left side plate, a right side plate and a bottom plate which are vertically arranged, the front side plate, the left side plate, the rear side plate and the right side plate are sequentially connected in pairs, and the bottom ends of the front side plate, the rear side plate, the left side plate and the right side plate are all connected with the bottom plate; and a second partition plate is arranged in the lower frame and divides the lower frame into a first recovery area on the left side and a second recovery area on the right side. The problem of not having special recovery unit of konjaku flour has been solved to this scheme.

Description

A recovery unit for konjaku flour processing

Technical Field

The utility model relates to a food processing technology field, concretely relates to a recovery unit for konjaku flour processing.

Background

Konjak (also known as konnyaku) (j ǔ oa), also known as konjac, is an perennial herb of the genus konjac of the family Araceae, and ancient Chinese is also known as demon. Konjak grows in sparse forests, is beneficial alkaline food, and can achieve balance of acid and alkali of food for people eating too many animal acidic foods by matching with konjak.

The whole konjak is toxic, the tuber is the most important, the konjak cannot be eaten raw, and the konjak needs to be eaten after being processed. The konjak contains glucomannan, is a high molecular compound, has strong water absorption, and can expand 80-100 times in volume after absorbing water, while the konjak powder with the glucomannan content of more than 90 percent can expand even 200 times in volume after absorbing water. The rhizoma Amorphophalli has effects of lowering blood sugar level, reducing blood lipid, lowering blood pressure, removing toxic substance, caring skin, dredging collaterals, reducing weight, relaxing bowels, and promoting appetite. The rhizoma Amorphophalli polysaccharide can adsorb cholesterol and bile acid, and has effects in lowering blood pressure and reducing cardiovascular disease. The konjak also contains soluble dietary fiber which is effective for inhibiting the rise of blood sugar after meal, so that the konjak powder and the product thereof are ideal blood sugar reducing food for diabetics. After application, the burden of pancreatic islet can be reduced.

Although China is one of the original producing areas of the konjak and the konjak is used earlier, the industrial development of the konjak in China starts late, the processing technology of the purified konjak powder has no great breakthrough, and particularly, browning, gelatinization and adhesion are easily generated in the baking and dehydrating process to influence the product quality.

At present, the konjak processing production in China is simple and rough, some simple processing factories are usually established on a konjak planting base, soil pit baking or mechanical drying is adopted, and the intensively harvested fresh konjak which is easy to damage and difficult to store is dried into dried konjak slices which are easy to store and transport, but the problems of blackening, browning and mildewing of the fresh konjak are all faced in the drying process, and the method for solving the blackening and browning of the konjak in the drying process is to fumigate the konjak with sulfur dioxide gas generated by burning sulfur in the drying process. The method for preventing konjac browning causes the product to contain a large amount of sulfur dioxide, and the content of the sulfur dioxide is more than 3 percent generally. Because the produced konjak contains sulfur dioxide, food pollution and hidden danger of food safety are caused, and because the konjak powder contains higher content of sulfur dioxide, starch and other impurities. The konjak powder produced by the existing processing method is difficult to be applied to food additives, health-care food and medicines in order to prevent food pollution and ensure food edible safety, and the produced konjak powder needs to be subjected to subsequent processing or treatment to prepare purified konjak micropowder in order to be safe to use.

At present, the konjak is made into dry konjak pieces, the dry konjak pieces are made into fine konjak powder, and the fine konjak powder is purified and prepared into high-end product konjak micro powder in the konjak powder industry, so that the production process is complex, the production cost is high, the yield is low, and the product price is high. At present, in order to solve the technical and safety problems existing in the purification and use processes of the konjac flour, extensive research is carried out, the current konjac flour production mainly comprises three blocks, and firstly, the konjac dry slices are produced in a small-sized processing workshop, and the process comprises the following steps: fresh konjak → cleaning → peeling → slicing → (fumigating with sulfur) drying → dry sheet; secondly, after purchasing the dry konjak pieces, the dry konjak pieces are processed into refined konjak powder by an enterprise, and the process comprises the following steps: dried konjac pieces → pulverization → air separation → sieving → fine konjac powder; thirdly, the konjak fine powder produced by enterprises by purchase or use is treated by an ethanol method to remove impurities, and is ground and sieved by a 120-mesh sieve to produce purified konjak micro powder, and the process comprises the following steps: konjak powder → alcohol → stirring → grinding → centrifuging → drying → sieving → purifying konjak micropowder. The purified konjac micropowder is produced by multiple complex processes, the number of times of drying materials is large, the energy consumption is high, the equipment investment is large, the production cost is high, a large amount of sulfur dioxide generated by sulfur fumigation has large harm to the environment, and once fresh konjac is dried, hard crystal particles are formed, and the difficulty of subsequent grinding into micropowder is also large; but also has the problems of low yield, high product price and limitation of wide use of the product.

Therefore, the purified konjak micro powder, especially the super-grade purified konjak micro powder, is less sold in the market, and the selling price is very high even if occasionally sold due to high production cost. The quality of the konjak powder used by our own is low although our country produces the konjak powder, and the application of the purified konjak micro powder cannot be popularized; the purified fine konjac powder with excellent quality mostly flows to regions such as europe and the united states of japan.

At present, no equipment capable of carrying out integrated production of the konjac flour exists in China, and no special device is provided for recovering substances such as starch, protein and the like in the konjac flour processing process.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it does not have the problem that can adapt to the special recovery unit of konjaku flour integration processing now to anticipate in the solution.

The recovery device for konjac flour processing in the scheme comprises a lower frame arranged below a konjac flour processing device, wherein the lower frame is connected to a supporting table in a sliding manner; the bottom end of the konjac flour processing device is provided with an opening; the upper end of the lower frame is provided with an opening, and the konjak flour processing device and the lower frame form a closed space when the opening of the lower frame and the opening of the konjak flour processing device can be aligned and superposed; the lower frame comprises a front side plate, a rear side plate, a left side plate, a right side plate and a bottom plate which are vertically arranged, the front side plate, the left side plate, the rear side plate and the right side plate are sequentially connected in pairs, and the bottom ends of the front side plate, the rear side plate, the left side plate and the right side plate are all connected with the bottom plate; a second partition plate is arranged in the lower frame and divides the lower frame into a first recovery area on the left side and a second recovery area on the right side; when the opening of the lower frame is aligned with the opening of the konjac flour processing device, the first recovery area and the second recovery area are respectively aligned with the first processing area and the second processing area in the konjac flour processing device; the height of the second partition board is equal to that of the four side boards; the top of the left side plate of the lower frame is connected with a cover plate extending leftwards, the left end of the cover plate is fixedly connected with the supporting table, and the cover plate is used for sealing an opening at the bottom end of the konjac flour processing device when the lower frame moves rightwards.

The utility model has the advantages that:

the device is used as a part of the konjak powder integrated processing equipment, can directly process konjak into konjak powder, and can collect mucus such as broken konjak dregs, tissue fluid and the like, thereby being beneficial to recovering and extracting protein and starch from the collected substances.

This device passes through the lower frame, can be directly and konjaku flour processingequipment form an airtight space, and the discarded object that produces in the convenient in time collection course of working because the lower frame is sliding connection on a supporting bench, consequently removes the lower frame simultaneously, conveniently retrieves the material of collecting from the lower frame.

First recovery area and second recovery area are separated by the second baffle, and two recovery areas can align with the processing region among the konjaku flour processing apparatus respectively, conveniently correspond the product of collecting each processing region.

In addition, the setting of cover plate, the lower frame that makes can cover in konjaku flour processingequipment open-ended below after removing, cover the crisscross space that produces of lower frame opening and konjaku flour processingequipment opening through the cover plate, can continue to keep the airtight space among the konjaku flour processingequipment, is favorable to accomplishing the processing of konjaku flour in the environment that oxygen is as few as possible, reduces oxidation reaction, accomplishes not to have and adds the processing.

The scheme effectively solves the problem that no special integrated recovery device for processing the konjac flour exists at present.

Furthermore, a sliding rail for sliding the lower frame is arranged on the supporting table, and the joint of the lower frame and the bottom end of the konjac flour processing device and the sliding rail are located at the same height position.

Through the belt, will no longer convey the next station with the lower frame that the upper ledge is connected, conveniently take out the konjaku flour that the processing was accomplished from the lower frame to and the disintegrating slag and the liquid of collection in the recycle lower frame.

Furthermore, the top end of the lower frame is provided with a sealing ring.

The lower frame and the konjac flour processing device are convenient to connect, and the connecting gap is plugged through the sealing ring to form a closed space.

Further, the below of lower frame is equipped with the belt, the bottom surface of lower frame and the top surface contact of belt, the belt drives the lower frame and removes, the direction of motion of belt with the length direction of slide rail is the same.

The lower frame is conveniently driven to move by the belt.

Further, both sides are the flat board with slide rail sliding connection respectively around the cover plate, and the length of cover plate is greater than the length that konjaku flour processingequipment opened mouth is less than the length of belt.

This kind of cover plate simple structure, the preparation is convenient, and the length of cover plate is enough long, no matter where the lower frame is taken by the belt, can both cover konjaku flour processingequipment's opening completely.

Further, the cover plate is a flexible plate, the left end and the right end of the cover plate are connected with connecting strips, two flexible strips are connected between the two connecting strips, the flexible strips are arranged on the front side and the rear side of the cover plate respectively, and a plurality of pulleys connected with a sliding rail are arranged on each flexible strip.

When the cover plate is a flexible plate, the leaked opening of the konjac flour processing device can be gradually covered along with the movement of the lower frame. The pulley on the flexible strip can make the flexible plate move along the direction of the sliding rail all the time.

Furthermore, all be equipped with the screw hole on two connecting strips, two connecting strips are screwed connection respectively on brace table and left side board.

Through connecting strip screw connection, make the left end and the right-hand member of cover plate fixed connection respectively on brace table and lower frame, along with the removal of lower frame, make the cover plate be pulled open and be used for sheltering from konjaku flour processingequipment's bottom opening.

Furthermore, each flexible strip is provided with a sealing brush which extends upwards.

Through the sealing brush that upwards stretches out, even flexible strip is not stretched and is expanded, also can make and connect through the sealing brush between flexible strip and the slide rail, block too much air admission, and the flexible strip and the flexible sheet that are stretched and expand can hug closely konjaku flour processingequipment's bottom opening, cover and shelter from the opening.

Further, the sealing brush is a silica gel brush with viscosity.

Silica gel has certain viscidity, and the moulding of being convenient for again sets the silica gel brush to the sealing brush, and the apron of being convenient for contacts with the slide rail, covers konjaku flour processingequipment's opening.

Furthermore, a limiting hole is formed in the right side plate, a bent nozzle suction pipe is clamped in the limiting hole, a balloon communicated with the bent nozzle suction pipe is located at the top end of the right side plate, and the end portion of the bent nozzle suction pipe extends into a second recovery area of the lower frame.

Through the curved mouth straw of installation on the spacing hole, when konjaku flour processingequipment is connected with the lower frame, the sacculus is oppressed, the curved mouth straw is in and treats the absorption state, after lower frame and konjaku flour processingequipment separately, the sacculus loses the oppression and begins to breathe in, make the curved mouth straw be in the absorption state, the curved mouth straw absorbs the konjaku flour in the second recovery area in the curved mouth straw, be convenient for directly take off the curved mouth straw, take off the konjaku flour that wherein absorbs and carry out follow-up operation.

Drawings

Fig. 1 is a schematic structural diagram of a recovery device for processing konjac flour in an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an integrated production facility in which a recovery device for processing konjac flour is located in the first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a recovery device for konjac flour processing in the fourth embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a support column 1, a mounting frame 2, a table top 3, a feed hopper 4, an upper frame 5, a lower frame 6, a first motor 51, a first rotary cylinder 52, a first rotary knife 53, a vacuum pump 54, a first spray hole 55, a water injection pipe 56, a sieve plate 7, a first clapboard 8, a partition hole 81, a second motor 91, a second rotary cylinder 92, a second rotary knife 93, a second spray hole 94, a suction pipe 10, a connecting pipe 11, a circulating pipe 12, a circulating pump 13, a belt 14, a cover plate 15, a second clapboard 16, a bent nozzle suction pipe 17 and a balloon 18.

Example one

The embodiment is basically as shown in the attached figure 1: the recovery device for processing the konjac flour in the embodiment comprises a lower frame 6 with an opening at the top end, wherein the lower frame 6 comprises a front side plate, a rear side plate, a left side plate, a right side plate and a bottom plate which are vertically arranged, the front side plate, the left side plate, the rear side plate and the right side plate are sequentially connected in pairs, and the bottom ends of the front side plate, the rear side plate, the left side plate and the right side plate are connected with the bottom plate; a second clapboard 16 is arranged in the lower frame 6, and the second clapboard 16 divides the lower frame 6 into a first recovery area on the left and a second recovery area on the right; the height of the second partition plate 16 is equal to the height of the four side plates; the top of the left side plate of the lower frame 6 is connected with a cover plate 15 extending leftwards, the left end of the cover plate 15 is fixedly connected with the support table, and the cover plate 15 is used for sealing the opening at the bottom end of the konjac flour processing device when the lower frame 6 moves rightwards.

As shown in fig. 2, the konjak flour integrated production facility, which is composed of the recovery device for konjak flour processing in the present embodiment and other structures, includes a support table on which the processing device, the recovery device and the auxiliary device in the present embodiment are sequentially mounted;

the supporting table comprises a table top 3, a mounting frame 2 and a supporting column 1 which are mounted from top to bottom, wherein a hollow part is arranged in the middle of the table top 3 and used for mounting a processing device, a plurality of mounting spaces with rectangular cross sections are arranged in the middle of the whole table top 3 and can be used for mounting other structures and the mounting frame 2 exposed below the table top, the table top 3 is connected above the mounting frame 2 through screws, the mounting frame 2 is of a closed rectangular structure, the mounting frame 2 is provided with two long sides, and sliding rails are oppositely mounted on the inner sides of the two long sides; the slide rail in this embodiment includes the horizontal setting and the inward rectangle spout of notch level. The sliding groove is convenient for the sliding connection of the top of the lower frame 6.

The processing device comprises an upper frame 5 arranged on a supporting table, wherein the bottom end of the upper frame 5 is open, the upper frame 5 is provided with a top plate and a front side plate, a rear side plate, a left side plate and a right side plate which are welded with the top plate respectively, the four side plates are all welded with an L-shaped mounting bracket on the outer sides of the four side plates, one end of the bracket, which is far away from the upper frame 5, is provided with a threaded hole, the four side plates are connected with a table board 3 through screws through the mounting bracket, and the lower parts of the four side plates all extend into a mounting space reserved on the table board 3. The bottom of the upper frame 5, namely the positions of the lower parts of the four side plates close to the bottom edges of the four side plates are clamped with a sieve plate 7; the edge integrated into one piece of sieve 7 has the installation arch of outside salient, opens the mounting groove that has the protruding joint of confession installation on four curb plate corresponding positions all around, and the installation arch stretches into in the mounting groove, makes sieve 7 joint in upper ledge 5.

Vertical joint has first baffle 8 on the intermediate position of upper ledge 5, and it is protruding that same integrated into one piece has the installation that outwards stretches out on the circumference position of first baffle 8, all opens on the roof of upper ledge 5, preceding curb plate and the posterior lateral plate to have the mounting groove that supplies the installation arch to stretch into, and it has the mounting groove that supplies the protruding installation of 8 bottoms of first baffle to stretch into to open equally on the intermediate position of sieve 7.

The first partition plate 8 divides the vacuum chamber into a first processing area on the left and a second processing area on the right, and a first stirrer for rough processing is installed in the first processing area and stirs the konjac into konjac pieces.

A second stirrer for fine processing is arranged in the second processing area; the second stirrer is used for stirring the konjak blocks into konjak pieces.

A plurality of separation holes 81 for the konjak blocks to pass through are uniformly formed on the first partition plate 8; the partition holes 81 are single-line holes, and allow only the konjac pieces to be squeezed from the first processing area to the second overhead area, and the hole diameter of the partition holes 81 gradually decreases from the first processing area to the second overhead area.

A plurality of first sieve holes are formed in the position, located in the first processing area, of the sieve plate 7, a plurality of second sieve holes are formed in the position, located in the second processing area, of the sieve plate 7, and the aperture of each first sieve hole is larger than that of each second sieve hole; the position intercommunication that upper ledge 5 is close to left side mesa 3 has feeder hopper 4, the open-top of feeder hopper 4, and the left side wall intercommunication of feeder hopper 4 slope downward and upper ledge 5. A baffle plate for opening and closing the communication part of the feed hopper 4 and the upper frame 5 is hinged between the feed hopper 4 and the left side wall of the upper frame 5; the top of baffle department is articulated through the hinge, makes the baffle can inwards overturn, lets the konjaku in the feeder hopper 4 can push up the baffle under gravity and the effect of the internal suction of upper ledge 5 and enter into in the upper ledge 5. And in the middle of the process that the konjaku enters into upper ledge 5, the konjaku seals up the intercommunication mouth of feeder hopper 4 and left side board, can avoid the air to enter into upper ledge 5 as far as possible, guarantees that whole processingequipment inner wall can accomplish the production and processing of konjaku flour under the condition of the air as little as possible near vacuum.

The bottom of upper ledge 5, on four curb plates all around at upper ledge 5 promptly, lie in the below of sieve 7, the sealing washer that has the inner wall of close subsides upper ledge 5 is bonded to the bottom tip inboard of four curb plates, the sealing washer is in same high position with upper ledge 5 tip, when upper ledge 5 is connected with lower frame 6, can block up the gap that the junction formed through the sealing washer, upper ledge 5 and lower frame 6 can be connected each other and also can separate each other, through the sealing washer, can form vacuum space when guaranteeing that upper ledge 5 and lower frame 6 connect.

The first stirrer is vertically arranged and connected between the top plate of the upper frame 5 and the sieve plate 7, and a first motor 51 for driving the first stirrer to rotate and a vacuum pump 54 for vacuumizing from the upper frame 5 are installed on the top plate of the upper frame 5.

The first stirrer comprises a first rotating cylinder 52 connected with an output shaft of a first motor 51, a plurality of first rotating knives 53 are arranged on the first rotating cylinder 52 from top to bottom along the axial direction of the first rotating cylinder, and each first rotating knife 53 comprises at least three first blades extending outwards in the radial direction; the first rotary cylinder 52 is of a hollow structure, the top end of the first rotary cylinder 52 is communicated with a water injection pipe 56, and the water injection pipe 56 extends out of the upper frame 5 and is communicated with a tap water pipe; a plurality of first nozzle holes 55 are formed in the first rotary cylinder 52 at circumferential positions. The water that water injection pipe 56 let in first rotatory section of thick bamboo 52 can outwards spout through first orifice 55, spray to by the konjaku piece of first rotary cutter 53 rotary-cut, first rotary cutter 53 rotates, not only plays the effect of rotary-cut, the effect of stirring in addition, can peel off the crust of the konjaku of contact with it, can peel off the scum that produces after the rotary-cut, through the water that sprays out, can be under the effect of first rotary cutter 53 stirring, all wash away through the water including the unnecessary thing of crust, scum and tissue fluid in.

The first stirrer rotates the devil's tongue around the first rotating cylinder 52 via the first rotating cutter 53, and sprays water through the first nozzle 55 to wash away both the slag generated by the rotation and the liquid that oxidizes the devil's tongue. The vacuum chamber formed by the upper frame 5 and the lower frame 6 is vacuumized by the vacuum pump 54 to form a vacuum environment, and the first stirrer is driven to rotate by the first motor 51.

In the first stirrer, the sealing rings are mounted at the joints between the first rotary cylinder 52 and the top plate and between the vacuum pump 54 and the top plate, and the mounting is completed on the premise of not influencing the sealing environment of the upper frame 5.

The second stirrer is horizontally arranged, and a second motor 91 for driving the second stirrer to rotate is arranged on the table top 3 of the supporting table on the right side of the upper frame 5. The second stirrer comprises a second rotating cylinder 92 connected with an output shaft of the second motor 91, the second rotating cylinder 92 is of a hollow structure, a heating resistance wire is installed in the second rotating cylinder 92, and a plurality of second spray holes 94 are formed in the second rotating cylinder 92.

An output shaft of the second motor 91 extends into the right side plate of the upper frame 5, and is connected to the second rotary cylinder 92 of the second agitator. As with the first mixer, a plurality of second rotary knives 93 are mounted on the second rotary cylinder 92 of the second mixer, and the second rotary knives 93 are arranged along the axial direction of the second rotary cylinder 92. Each of the second rotary knives 93 includes at least three second blades extending radially outward, and the second blades rotate the rotary-cut konjac pieces in accordance with the rotation of the second rotary cylinder 92.

Through the second spray hole 94, the konjac blocks are heated by the second stirrer while being finely processed, water is evaporated, and the formed konjac pieces can be dried, so that the subsequent konjac powder can be conveniently formed. The second stirrer and the first stirrer are arranged in different directions, and the rotary cutting direction is different, so that the chopped konjak blocks can be cut into thinner pieces, and the fine processing is completed on the basis of the rough processing of the konjak, and the konjak pieces are formed.

The axial spacing distance of the second rotary knife 93 on the second rotary cylinder 92 is smaller than the axial spacing distance of the first rotary knife 53 on the first rotary cylinder 52. The second rotary cutter 93 is more dense than the first rotary cutter 53, so that the rotary cut konjak pieces of the second rotary cutter 93 are finer than the konjak pieces, the konjak can be conveniently finely processed, and meanwhile, the konjak pieces are conveniently crushed and smashed into konjak powder by extrusion and rotary cutting of the second rotary cutter 93 after the konjak pieces are dried.

The recycling device comprises a lower frame 6 positioned below an upper frame 5, wherein the top end of the lower frame 6 is opened, and the upper frame 5 and the lower frame 6 form a vacuum chamber together; a second clapboard 16 is arranged in the lower frame 6, and the second clapboard 16 divides the lower frame 6 into a first recovery area and a second recovery area which can respectively correspond to the first processing area and the second processing area of the upper frame 5; the joint of the upper frame 5 and the lower frame 6 is at the same height position with the slide rail; one end of the lower frame 6 close to the feed hopper 4 is connected with a cover plate 15 for covering the bottom opening of the upper frame 5, and the lower frame 6 is connected on a sliding rail in a sliding way.

The cover plate 15 is the folded sheet, and the one end of cover plate 15 is fixed on the position that mesa 3 is close to feeder hopper 4, and cover plate 15 installs in the bottom of mesa 3, and the other end screw connection of cover plate 15 is served near feeder hopper 4 at lower frame 6, and cover plate 15 all wraps up the rubber membrane with the junction of lower frame 6 and mesa 3 outward, is used for preventing that the gap from producing. The cover plate 15 covers the lower part of the upper frame 5 after the lower frame 6 moves, and the space generated by the upper frame 5 and the lower frame 6 in a staggered mode is covered by the cover plate 15. Through the cover plate 15, when can making the lower frame 6 remove next station, still seal the space of upper frame 5 through the cover plate 15, make the space of upper frame 5 can form a space of approximate vacuum, when not only being favorable to reusing real empty room next time and processing like this, can reach vacuum state again fast, can also make the upper frame 5 lower for ambient pressure, when the feeder hopper 4 of being convenient for is in the material loading, open the baffle automatically, inhale the konjaku in the feeder hopper 4 and process in the upper frame 5.

The belt 14 is installed to recovery unit's below, and lower frame 6 is connected on belt 14, and belt 14 drives lower frame 6 and removes, and the direction of motion of belt 14 is the same with the direction of motion of slide rail. The lower frame 6, which is no longer connected to the upper frame 5, is transferred to the next station by the belt 14, so that the processed konjac flour can be conveniently taken out of the lower frame 6, and the crushed slag and liquid collected in the lower frame 6 can be recycled.

Auxiliary means comprising a suction pipe 10 mounted in a mosaic manner in a second region of the lower frame 6. The lower frame 6 includes front, rear, left, and right side plates corresponding to the upper frame 5, and a bottom plate connected between the four side plates. The straw 10 passes through a side plate, and the place where the straw 10 passes through is sealed by a sealing ring, and the straw 10 is in a tubular structure with an open end. A dryer for drying the crushed konjak into konjak powder is sleeved around the suction pipe 10, and the suction pipe 10 is used for sucking the konjak powder so as to extract ceramide; one end of the suction pipe 10 extending out of the lower frame 6 is bonded with a connecting pipe 11 with a telescopic length, and then is communicated with a circulating pipe 12 through the connecting pipe 11, and the circulating pipe 12 is connected with a circulating pump 13. The circulation pump 13 is mounted on the table top 3 at the front or rear side of the slide.

In this embodiment, there are two first agitators, and there are two first motors 51 mounted on the top plate of the upper frame 5. For convenience of installation, a limiting groove is formed in the top plate, a limiting block with a T-shaped longitudinal section is installed on the limiting groove, and the two first motors 51, the vacuum tube connected with the vacuum pump 54 and the water injection tube 56 connected with the first rotary cylinder 52 are all installed on the limiting block. The stopper includes the columnar structure in the middle of to and the structure is strong to the dish that the top outwards stretched out, and the vacuum tube is located the axis position of stopper, and the vacuum tube runs through and stretches into in the upper ledge 5 behind the stopper. In order to prevent the broken slag from being adsorbed when the vacuum tube is vacuumized, a filter screen is arranged at the end part of the vacuum tube.

The output shafts of the two first motors 51 respectively extend into the limiting block from the vertical line, the limiting block is provided with a vertical channel for connecting the output shaft of the first motor 51 with the first rotating cylinder 52, the side surface of the channel is provided with an inclined channel for extending the water injection pipe 56, so that the output shaft of the first motor 51 is connected with the first rotating cylinder 52, and the communication between the first rotating cylinder 52 and the water injection pipe 56 can be completed in the limiting block.

This embodiment is direct through an equipment, just can accomplish the konjaku from washing, a series of processes such as section to smashing and crocus, makes whole operation more simple and convenient, and more importantly, the direct production of konjaku flour has saved the middle process such as storage and vulcanization to the konjaku piece, has not only saved a large amount of intermediate steps, still makes the konjaku flour precision of generation higher, has effectively reduced the processing cost of high-quality konjaku flour.

In addition, the processing process of the konjak powder is completed in a vacuum chamber, so that a series of reactions after the konjak is oxidized are avoided. According to the scheme, the automation of processing the konjac flour is realized, the intermediate process is effectively avoided, and the cost is saved.

Example two

In this embodiment, the covering plate 15 is a flat plate whose front and rear sides are respectively connected to the slide rails in a sliding manner, and the length of the covering plate 15 is greater than the length of the opening of the konjac flour processing apparatus and is smaller than the length of the belt 14. This kind of cover plate 15 simple structure, the preparation is convenient, and cover plate 15's length is enough long, no matter lower frame 6 is taken to where by belt 14, can both cover konjaku flour processingequipment's opening completely.

EXAMPLE III

In this embodiment, the cover plate 15 is the flexible board, and the left end and the right-hand member of cover plate 15 are connected with the rigid connection strip of rectangular shape, are connected with two flexible strips between two connecting strips, and the connecting strip can adopt the billet, and the flexible strip can adopt the rubber strip that bonds between the billet, and the flexible strip bonds respectively on the both sides around cover plate 15, all is provided with a plurality of pulleys that are used for with sliding rail connection on every flexible strip. When the covering plate 15 is a flexible plate, the leaked opening of the konjac flour processing device can be gradually covered with the movement of the lower frame 6. The pulley on the flexible strip can make the flexible plate move along the direction of the sliding rail all the time.

Three threaded holes are formed in the two connecting strips, and the two connecting strips are connected to the supporting table and the left side plate through screws respectively. Through connecting strip screw connection, make the left end and the right-hand member of cover plate 15 fixed connection respectively on brace table and lower frame 6, along with the removal of lower frame 6, make cover plate 15 be pulled open and be used for sheltering from konjaku flour processingequipment's bottom opening.

Each flexible strip is integrally connected with a sealing brush which extends upwards. Through the sealing brush that upwards stretches out, even flexible strip is not stretched and is expanded, also can make and connect through the sealing brush between flexible strip and the slide rail, block too much air admission, and the flexible strip and the flexible sheet that are stretched and expand can hug closely konjaku flour processingequipment's bottom opening, cover and shelter from the opening.

The sealing brush is a silica gel brush with viscosity. Silica gel has certain viscidity, and the moulding of being convenient for again sets the silica gel brush to sealed brush, is convenient for cover plate 15 and slide rail contact, covers konjaku flour processingequipment's opening.

Example four

As shown in fig. 3, in this embodiment, a limiting hole arranged obliquely downward is formed in one side of the right side plate close to the second recovery area, the limiting hole is a through hole, the upper end diameter of the limiting hole is larger than the diameter of the small end, a bent-mouth suction pipe 17 is clamped in the limiting hole, the bent-mouth portion of the bent-mouth suction pipe 17 extends out from the lower end of the limiting hole and extends into the second recovery area of the lower frame 6, the bent-mouth suction pipe 17 is similar to an "L" shape, the balloon 18 is communicated with the upper end of the bent-mouth suction pipe 17, the balloon 18 is located at the large end position of the limiting hole, the joint of the balloon 18 and the bent-mouth suction pipe 17 is close to the top end face of the right side plate, the balloon 18 is located at the top end of the right side plate, when the upper frame 5 and the lower frame 6 are connected, the balloon 18 is extruded into the limiting hole, and the gas in the balloon 18 is completely extruded out. Through the bent mouth straw 17 of installation on the spacing hole, when konjaku flour processingequipment's upper ledge 5 is connected with lower frame 6, sacculus 18 is oppressed, bent mouth straw 17 is in and treats the absorption state, after lower frame 6 separates with konjaku flour processingequipment, sacculus 18 loses the oppression and begins to breathe in, make bent mouth straw 17 be in the absorption state, bent mouth straw 17 absorbs the konjaku flour in the second recovery area in bent mouth straw 17, be convenient for directly take off bent mouth straw 17, take off the konjaku flour that absorbs wherein and carry out follow-up operation.

The above description is only for the embodiments of the present invention, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein too much, and those skilled in the art will know all the common technical knowledge in the technical field of the present invention before the application date or the priority date, can know all the prior art in this field, and have the ability to apply the conventional experimental means before this date, and those skilled in the art can combine their own ability to perfect and implement the schemes, and some typical known structures or known methods should not become obstacles for those skilled in the art to implement the present application. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. The recovery device for konjac flour processing is characterized by comprising a lower frame arranged below the konjac flour processing device, wherein the lower frame is connected to a supporting table in a sliding manner; the bottom end of the konjac flour processing device is provided with an opening; the upper end of the lower frame is provided with an opening, and the konjak flour processing device and the lower frame form a closed space when the opening of the lower frame and the opening of the konjak flour processing device can be aligned and superposed; the lower frame comprises a front side plate, a rear side plate, a left side plate, a right side plate and a bottom plate which are vertically arranged, the front side plate, the left side plate, the rear side plate and the right side plate are sequentially connected in pairs, and the bottom ends of the front side plate, the rear side plate, the left side plate and the right side plate are all connected with the bottom plate; a second partition plate is arranged in the lower frame and divides the lower frame into a first recovery area on the left side and a second recovery area on the right side; when the opening of the lower frame is aligned with the opening of the konjac flour processing device, the first recovery area and the second recovery area are respectively aligned with the first processing area and the second processing area in the konjac flour processing device; the height of the second partition board is equal to that of the four side boards; the top of the left side plate of the lower frame is connected with a cover plate extending leftwards, the left end of the cover plate is fixedly connected with the supporting table, and the cover plate is used for sealing an opening at the bottom end of the konjac flour processing device when the lower frame moves rightwards.

2. The recovery apparatus for konjac flour processing as claimed in claim 1, wherein the support table is provided with a slide rail for sliding the lower frame, and the joint between the lower frame and the bottom end of the konjac flour processing apparatus is at the same height as the slide rail.

3. The recycling apparatus for konjac flour processing as claimed in claim 1, wherein the top end of the lower frame is provided with a sealing ring.

4. The recycling device for konjac flour processing as claimed in claim 2, wherein a belt is provided below the lower frame, a bottom surface of the lower frame contacts with a top surface of the belt, the belt drives the lower frame to move, and a moving direction of the belt is the same as a length direction of the slide rail.

5. The recycling apparatus for konjac flour processing as claimed in claim 4, wherein the covering plate is a flat plate having front and rear sides slidably connected to the slide rails, respectively, and the length of the covering plate is longer than the length of the opening of the konjac flour processing apparatus and shorter than the length of the belt.

6. The recycling device for konjac flour processing as claimed in claim 4, wherein the covering plate is a flexible plate, the left and right ends of the covering plate are connected with connecting strips, two flexible strips are connected between the two connecting strips, the flexible strips are respectively disposed on the front and rear sides of the covering plate, and each flexible strip is provided with a plurality of pulleys for connecting with the sliding rails.

7. The recycling apparatus for konjak flour processing according to claim 6, wherein two connecting bars are provided with screw holes, and the two connecting bars are screwed to the support platform and the left side plate, respectively.

8. The recycling apparatus for konjac flour processing as claimed in claim 6, wherein each of the flexible strips is provided with a sealing brush protruding upward.

9. The recycling apparatus for konjac flour processing as claimed in claim 8, wherein the sealing brush is a silica gel brush having viscosity.

10. The recycling device for konjac flour processing as claimed in claim 1, wherein the right side plate is provided with a limiting hole, a bent nozzle suction pipe is clamped in the limiting hole, the balloon communicated with the bent nozzle suction pipe is located at the top end of the right side plate, and the end of the bent nozzle suction pipe extends into the second recycling area of the lower frame.

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