CN201384030Y - Dry type three-section ripening rice noodle machine set - Google Patents

Abstract

The utility model discloses a dry type three-section rice noodle set with a mature method, which relates to food processing equipment and comprises a rice washing and retrogradation dehydration device 27, an air drying device 36, a crushing and conveying device 13, a dry type clinker retrogradation device 49, a burdening and blending device 51, a conveying device 52, a flour extruding device 5, an aging and retrogradation device 1 and the like which are connected in sequence; the method has the characteristics of short soaking time, capability of processing late long-shaped rice or high-quality rice with higher amylopectin content and the like, is suitable for various regions with different climatic conditions, and can be used for processing fresh rice noodles and dry rice noodles.

Description

A kind of dry-type three-segment mature-method rice powder unit

Affiliated technical field

The utility model relates to food processing field, particularly a kind of dry-type three-segment mature-method rice powder unit that is used to process ground rice.

Background technology

Ground rice claims rice noodles again, be a kind of common, by the instant food that the higher early rice of amylose content processes, all there is production all parts of the country.Its processing method has dry method and wet method two classes, and its dry production is rice to be made powder add the water spice again and be squeezed into the ground rice post curing and form, and wet method then is rice to be soaked the back wear into Rice ﹠ peanut milk with water, and cooking becomes a meter sheet again, then the rice sheet is squeezed into ground rice.The process equipment of this dual mode mostly adopts the mode that once cooks, and steams the sheet operation though some equipment has added secondary, also just in order to allow its aging bringing back to life.Therefore, though this class production equipment comparative maturity technically, it is longer yet to exist soak time, makes grain of rice jaundice, souring easily, and can not utilize the defective of the higher late long-grained nonglutinous rice of amylopectin content or superior rice or its joint rice.

Summary of the invention

At the deficiencies in the prior art, technical problem to be solved in the utility model provides a kind of soak time weak point, can utilize amylopectin content higher late long-grained nonglutinous rice or superior rice to process, and is used to process the equipment of ground rice.

Technical solution adopted in the utility model is a kind of dry-type three-segment mature-method rice powder unit that is used to process ground rice of design, comprise and pulverize conveying device 13, batching profit and install 51 and crowded powder device 5, also include and wash Mi Huisheng dewater unit 27, air-dry apparatus 36, dry clinker bring back to life device 49 and conveying device 52 and the aging device 1 of bringing back to life, and successively according to washing Mi Huisheng dewater unit 27, air-dry apparatus 36, pulverize conveying device 13, the dry clinker device 49 of bringing back to life, batching is moistened and is installed 51, conveying device 52, squeeze powder device 5, being linked in sequence of the aging device 1 of bringing back to life.

Washing Mi Huisheng dewater unit 27 comprises jet pump 20, return flume 19, elementary steeping tank 28, secondary steeping tank 29, three grades of steeping tanks 30, steam pipeline 26, jet water pipe 25, rice washing water pump 21, rice washing water pipes 24, washes Mi Huisheng dehydration cylinder frame 22, washes Mi Huisheng dehydration cylinder 32 and support roller group 23;

A, jet pump 20 are communicated with return flume 19 by jet water pipe 25; The end that goes out of jet water pipe 25 is divided into three the tunnel: the first via is communicated with the milled rice end of elementary steeping tank 28 and the rice inlet end of secondary steeping tank 29 respectively by behind the jet nozzle, the second the tunnel by being communicated with the milled rice end of secondary steeping tank 29 and the rice inlet end of three grades of steeping tanks 30 respectively behind the jet nozzle, and Third Road is communicated with the milled rice end of three grades of steeping tanks 30 after by jet nozzle and puts in to be washed Mi Huisheng and dewater in the cylinder 32; The overflow pipe of three grades of steeping tanks 30 connects secondary steeping tank 29, and the overflow pipe of secondary steeping tank 29 connects elementary steeping tank 28;

B, steam pipeline 26 also are divided into three: first by being communicated with after by jet nozzle with the first via of jet water pipe 25 behind the steam jet, second by behind the steam jet with jet water pipe 25 the second the tunnel by being communicated with behind the jet nozzle, the 3rd by being communicated with after by jet nozzle with the Third Road of jet water pipe 25 behind the steam jet;

C, wash Mi Huisheng dehydration cylinder 32 and be installed on the two groups of support roller groups 23 in front and back of washing on the Mi Huisheng dehydration cylinder frame 22, be inlaid with spiral raised line 33 on its roller tube inwall; Before and after its roller tube is divided into two sections, leading portion is for washing the Mi Huisheng section, the serve as reasons dewatering period of dehydration screen drum 35 formations of back segment; The front end of its roller tube is equipped with power input device 31, have the hole in the middle of the end face, the end of the Third Road of jet water pipe 25 hole thus penetrates the front end of washing in the Mi Huisheng dehydration cylinder 32, and the rice washing water pipe 24 that is communicated with tanks 19 by rice washing water pump 21 hole thus penetrates and washes washing the Mi Huisheng section and having several spray orifices 34 in this section in the Mi Huisheng dehydration cylinder 32.

Air-dry apparatus 36 comprises air-dry apparatus frame 14, air blast 17, air-dry case 38, heat exchanger 16, vibrating device 15, vibration absorber 40; On two groups of vibration absorbers 40, its right-hand member bottom is for doing a rice discharging opening about on the air-dry apparatus frame 14 for air-dry case 38 device of cuboid, and right-hand member top has the steam gas outlet, and left end top is a wet rice charging aperture; High right lowland, slotted plate 39 left sides is tilting in air-dry case 38, and vibrating device 15 devices are in the bottom surface of air-dry case 38; The air outlet of air blast 17 connects heat exchanger 16, and the hot air outlet of heat exchanger 16 is communicated with the lower lumen of air-dry case 38 by behind the flexible glue adapter sleeve.

At the position, left end middle and upper part of the air-dry case 38 of air-dry apparatus 36, the bottom returning apparatus of wet rice charging aperture water receiving bucket 18 is arranged.

Returning apparatus has an end to be connected heat exchanger 16 in air-dry apparatus 36 hot air-out position, the other end are lived by the connection airduct and are gluedd joint the wet meter auxiliary heat airduct 37 that the charging aperture inner chamber is communicated with in the back and the left end top of air-dry case 38.

Pulverize conveying device 13 and be made of pulverizer 42, air exhauster 41 and powder gathering-device 43, air exhauster 41 connects the air-out port of powder gathering-device 43, and the air intake port of powder gathering-device 43 connects the ground rice powder discharging opening of pulverizer 42.

The dry clinker device 49 of bringing back to life comprises bring back to life cylinder 8 and cool back pond 50, cooling water pump 6 and two groups of support rollers 9 of blanking device 45, pay-off 12, power and deceleration device 11, frame 10, slaking steam pipeline 44, grog chamber 47, grog;

A, grog are brought back to life cylinder 8 devices on two groups of support rollers 9 on the frame 10, are inlaid with spiral raised line 7 on its inwall; Power transmission 11 is connected with it at the bring back to life left end of cylinder 8 of grog; Blanking device 45 device is on the bring back to life top of pay-off 12 of cylinder 8 left end sides of grog; The preheating chamber 46 of the discharge end device of pay-off 12 puts in grog and brings back to life in the charging aperture of cylinder 8 left ends, and its underpart device has grog chamber 47;

B, slaking steam pipeline led to preheating chamber 46 in 44 minutes two the tunnel, the one tunnel, led to grog chamber 47 by preheating chamber 46 again; Another road leads to the discharge end top of pay-off 12;

C, cool back pond 50 device in the bring back to life bottom of cylinder 8 of grog, the cooling water pipe 48 of the cooling water pump 6 that connects with it causes the bring back to life top of cylinder 8 of grog, and has a plurality of hole for water sprayings in this section.

Slaking steam pipeline 44 is also told one road middle and lower part cavity towards grog chamber 47.

The aging device 1 of bringing back to life includes the chamber 2 of bringing back to life, the aging conveyer 3 of bringing back to life, final stage steams powder chamber 4 and final stage is steamed the aging steam pipe 53 of powder; Final stage is steamed powder chamber 4 and is formed by a cavity isolation with the chamber 2 of bringing back to life, and connects before the aging conveyer 3 of bringing back to life and squeezes powder device 5, runs through final stage thereafter and steams the powder chamber 4 and the chamber 2 of bringing back to life; Final stage is steamed the aging steam pipe 53 of powder and is passed in the final stage steaming powder chamber 4.

Dry-type three-segment mature-method rice powder unit of the present utility model, belong to ground rice processing dry type production method, the mode that adopts high temperature to soak, can allow in the short period of time slaking of grain of rice surface and inner deliquescing, fluff, the washing cooling of carrying out is immediately brought back to life promptly aging, and adds that high temperature subsequently is air-dry, is convenient to follow-up pulverizing, also avoided influencing product quality because of jaundice, souring that long soaking time causes; Thereafter high temp. dry type slaking, can allow the slaking of ground rice end in the short period of time, add that the second time cooling of carrying out is subsequently brought back to life (promptly aging) and slaking is for the third time thereafter squeezed thread and brought back to life, greatly reduce the viscosity of cooked rice flour noodles end and ground rice, so can utilize higher late long-grained nonglutinous rice of amylopectin content or fine quality rice or its joint rice to process, even also can add part glutinous rice and process.Therefore, the utility model has compared with prior art reduced soak time, has shortened the production cycle, has improved production efficiency; Simultaneously, also can utilize the grain quality rice joint rice that range of application is very narrow, value is also very low to process.

Description of drawings

Fig. 1 is a principle schematic of the present utility model;

Fig. 2 is the principle signal enlarged drawing of the Mi Huisheng of washing dewater unit of the present utility model;

Fig. 3 is the principle signal enlarged drawing of air-dry apparatus of the present utility model;

Fig. 4 is the principle signal enlarged drawing of pulverizing conveying device of the present utility model;

Fig. 5 is the bring back to life principle signal enlarged drawing of device of dry clinker of the present utility model;

Fig. 6 is the principle signal enlarged drawing of the aging device of bringing back to life of the present utility model.

Among the figure: the 1st, the aging device of bringing back to life, the 2nd, the chamber of bringing back to life, the 3rd, the aging conveyer of bringing back to life, the 4th, final stage is steamed the powder chamber, and the 5th, squeeze the powder device, the 6th, cooling water pump, the 7th, spiral raised line, the 8th, the grog cylinder of bringing back to life, the 9th, support roller, the 10th, the bring back to life frame of device of dry clinker, the 11st, power transmission, the 12nd, pay-off, the 13rd, pulverize conveying device, the 14th, air-dry apparatus frame, the 15th, vibrating device, the 16th, heat exchanger, the 17th, air blast, the 18th, water receiving bucket, the 19th, tank, the 20th, jet pump, the 21st, the rice washing water pump, the 22nd, wash Mi Huisheng dewater unit frame, the 23rd, the support roller group, the 24th, the rice washing water pipe, the 25th, the jet water pipe, the 26th, steam pipeline, the 27th, wash the Mi Huisheng dewater unit, the 28th, elementary steeping tank, the 29th, secondary steeping tank, 30 is three grades of steeping tanks, the 31st, power input device, the 32nd, wash Mi Huisheng dehydration cylinder, the 33rd, wash Mi Huisheng dehydration cylinder spiral prominence bar, the 34th, spray orifice, the 35th, dehydration screen drum, the 36th, air-dry apparatus, the 37th, auxiliary heat airduct, the 38th, air-dry case, the 39th, slotted plate, the 40th, vibration absorber, the 41st, air exhauster, the 42nd, pulverizer, the 43rd, powder gathering-device, the 44th, the slaking steam pipeline, the 45th, blanking device, the 46th, preheating chamber, the 47th, grog chamber, the 48th, cooling water pipe, the 49th, the dry clinker device of bringing back to life, the 50th, cool back the pond, the 51st, batching profit and device, the 52nd, conveying device, the 53rd, final stage is steamed the aging steam pipe of powder.

The specific embodiment

Below in conjunction with embodiment, the utility model is further described.

Present embodiment comprise wash Mi Huisheng dewater unit 27, air-dry apparatus 36, pulverize conveying device 13, dry clinker is brought back to life device 49, batching profit and install 51, conveying device 52, squeeze powder device 5 and the aging device 1 etc. of bringing back to life.

Wash Mi Huisheng dewater unit 27 by jet pump 20, return flume 19, elementary steeping tank 28, secondary steeping tank 29, three grades of steeping tanks 30, steam pipeline 26, jet water pipe 25, rice washing water pump 21, rice washing water pipes 24, wash Mi Huisheng dehydration cylinder frame 22, wash Mi Huisheng dehydration cylinder 32 and support roller group 23, power input device 31 and dehydration screen drum 35 constitute.

Wash Mi Huisheng dehydration cylinder 32 and be cylinder, be installed in (this support roller group comprises preceding support roller and two groups of back support rollers) on the support roller group 23 of washing on the Mi Huisheng dehydration cylinder frame 22, have the hole in the middle of its front end face, (available large conical gear device is at this end face, perforate in the middle of it for power input device 31; Also can adopt the external gear coil apparatus on the front end cylindrical of roller tube) install at its front end; Wash Mi Huisheng dehydration cylinder 32 be divided into before and after two sections, leading portion is for washing the Mi Huisheng section, the back segment dewatering period that dehydration screen drum 35 constitutes of serving as reasons is inlaid with on this roller tube inwall and washes the Mi Huisheng cylinder spiral prominence bar 33 that dewaters; The barrel of dehydration screen drum 35 is a screen cloth, and its rear end is wet rice discharging opening.Rice washing water pump 21 is communicated with return flumes 19 by rice washing water pipe 24, and extends into to wash in the Mi Huisheng dehydration cylinder 32 and penetrated by the interstitial hole of washing Mi Huisheng dehydration cylinder 32 front end faces; Rice washing water pipe 24 this section in washing Mi Huisheng dehydration cylinder 32 has several spray orifices 34.

Return flume 19 devices are used to accept the water that dehydration screen drum 35 leaches below dehydration screen drum 35.Elementary steeping tank 28, secondary steeping tank 29 and three grades of steeping tank 30 devices are in the place ahead of washing Mi Huisheng dehydration cylinder 32, and its installation site raises step by step, constitutes three grades of immersions.Process route according to three grades of immersions, the output jet water pipe 25 that is communicated with the jet pump 20 of return flume 19 is divided into three the tunnel: the first via is communicated with the milled rice end of elementary steeping tank 28 and the rice inlet end of secondary steeping tank 29 respectively by behind the jet nozzle, the second the tunnel by being communicated with the milled rice end of secondary steeping tank 29 and the rice inlet end of three grades of steeping tanks 30 respectively behind the jet nozzle, and Third Road is communicated with the milled rice end of three grades of steeping tanks 30 after by jet nozzle and puts in to be washed Mi Huisheng and dewater in the cylinder 32; The overflow pipe of three grades of steeping tanks 30 connects secondary steeping tank 29, and the overflow pipe of secondary steeping tank 29 connects elementary steeping tank 28, is used to draw back the overflow water of carries at different levels.

The steam pipeline 26 that is transported by steam boiler also is divided into three: first by being communicated with after by jet nozzle with the first via of jet water pipe 25 behind the steam jet, second by behind the steam jet with jet water pipe 25 the second the tunnel by being communicated with behind the jet nozzle, the 3rd by being communicated with after by jet nozzle with the Third Road of jet water pipe 25 behind the steam jet.

Air-dry apparatus 36 is made of air-dry apparatus frame 14, heat exchanger 16, vibration absorber 40, vibrating device 15, slotted plate 39, air-dry case 38, air blast 17 and auxiliary heat airduct 37.

Air-dry case 38 is a rectangular box, device is on air-dry apparatus frame 14, and device has vibration absorber 40 (divide two groups of left and right sides, these two groups of vibration absorbers can adopt shock-absorbing spring between air-dry case 38 and air-dry apparatus frame 14, also can adopt the vibration damping mat, also can adopt other vibration absorber).Vibrating device 15 (also divide two groups of left and right sides, present embodiment adopts vibrating motor, also can adopt other vibrating device) device is in the bottom surface of air-dry case 38 (branch left and right sides device).The right side lower openings of air-dry case 38 connects and does the rice discharging opening, and its top, right side then has the steam gas outlet; Top, left side also has mouth, connects wet rice charging aperture; The bottom of air-dry case 38 also has the hole, is used for being communicated with the hot air outlet of heat exchanger 16.Slotted plate 39 is right low left highland device in air-dry case 38, and the inner chamber of air-dry case 38 is divided into the inlet chamber of bottom and the air-dry chamber on top.The left end of slotted plate 39 puts in the wet rice feed hopper, and the lower isolation of wet rice feed hopper is gone out a drainage chamber, and this drainage chamber forms water receiving bucket 18.

Heat exchanger 16 installs below air-dry case 38 or side, and the air inlet of heat exchanger 16 is communicated with the air outlet of air blast 17, and the hot air outlet of heat exchanger 16 is by being communicated with the lower lumen of air-dry case 38 behind the flexible glue adapter sleeve.One end of auxiliary heat airduct 37 is communicated with the hot air-out position of heat exchanger 16, and the other end is lived by airduct and gluedd joint the top inner chamber that the back connects feed hopper.

Pulverize conveying device 13 and be made of pulverizer 42, air exhauster 41 and powder gathering-device 43, air exhauster 41 connects the air-out port of powder gathering-device 43, and the air intake port of powder gathering-device 43 connects the ground rice powder discharging opening of pulverizer 42.Returning apparatus has blanking device 45 in the lower end of powder gathering-device 43, and blanking device 45 bars up wind on the one hand, exports the ground rice powder of its collection on the other hand downwards.

Dry clinker bring back to life device 49 by blanking device 45, pay-off 12, power and deceleration device 11 and dry clinker bring back to life frame 10, slaking steam pipeline 44, grog chamber 47, preheating chamber 46, the grog of device bring back to life cylinder 8, cool back pond 50, cooling water pump 6 and two groups of support rollers 9 and constitute.

Grog is brought back to life cylinder 8 for cylinder-shaped, perforate in the middle of its left side, and the right side does not have the end, is used for discharging, and its inwall is inlaid with spiral raised line 7.Grog bring back to life cylinder 8 device on dry clinker is brought back to life the frame 10 of device about on two groups of support rollers 9, the power input device that its left end edge device matches with power transmission 11.Pay-off 12 (present embodiment is the helical feed auger, also can be plate chain type conveying device or other conveying device) device is at the bring back to life left end side of cylinder 8 of grog, and blanking device 45 devices at an upper portion thereof.One of device circle closed cavity becomes preheating chamber 46 around the discharge end of pay-off 12, this preheating chamber 46 is put in it by the grog cylinder 8 left side interstitial holes (being the charging position) of bringing back to life, and cavity-like, bottom are punctured into grog chamber 47 devices of osculum in its underpart.

The slaking steam pipeline was the main steam pipe of slaking powder through the middle cavities of preheating chamber 46 towards grog chamber 47 in 44 minutes three the tunnel, the one tunnel; The short stream of another route steam pipe leads to the top inner chamber of the discharge end of pay-off 12, is used for short stream; A route air vent pipework leads to the middle cavities of grog chamber 47 again, is used for promoting when temperature hangs down the temperature of grog chamber 47 inner chambers.

The cooling water pipe 48 of cooling water pump 6 causes the bring back to life top of cylinder 8 of grog, and have hole for water spraying in this section, device cools back pond 50 what grog was brought back to life cylinder 8 bottoms, be used to accept cooling water pipe 48 and be sprayed on bring back to life cooling water on cylinder 8 outer tube walls of grog, cooling water pump 6 connects and cools back pond 50.

Batching profit and install 51 and be one and have and stir and the container of conveying device, device be in the bring back to life right part of cylinder 8 of grog, is used to accept the bring back to life ground rice end of the intimate maturation that cylinder 8 exports of grog.

Connecing batching profit before the conveying device 52 and installing 51, the back is to squeezing powder device 5, be used for the batching profit with after the crowded powder operation of ground rice end under being delivered to squeeze powder.

Aging 1 in the device of bringing back to life be by final stage steam powder chamber 4, the chamber 2 of bringing back to life, aging bring back to life conveyer 3 and final stage are steamed the aging steam pipe 53 of powder and are constituted.

It is a big cavity with the chamber 2 of bringing back to life that final stage is steamed powder chamber 4, and its middle part is isolated into final stage by a dividing plate and steams powder chamber 4 and bring back to life 2 two cavitys in chamber; The front end of the aging conveyer 3 of bringing back to life stretches out final stage steaming powder chamber 4 to be accepted with the lower end of crowded powder device 5, and its middle part is run through final stage and steamed the powder chamber 4 and the chamber 2 of bringing back to life, and the rear end then passes the chamber 2 of bringing back to life; Final stage is steamed the aging steam pipe 53 of powder and is passed in the final stage steaming powder chamber 4.

During use, power input device 31 drives washes Mi Huisheng dehydration cylinder together with 35 rotations of dehydration screen drum.Start rice washing water pump 21 and jet pump 20, the recirculation water of washing meter usefulness is delivered to through rice washing water pipe 24 and is washed in the Mi Huisheng dehydration cylinder 32, and by 34 ejections of the spray orifice on it.Jet pump 20 flows to jet water pipe 25 with recirculation water, is divided into three tunnel transmission of soaking rice by jet water pipe 25.

With rice (available early rice or the late long-grained nonglutinous rice for preparing, also available superior rice or its joint rice) join gradually in the elementary steeping tank 28, during beginning, need to add hot water, allow the rice in the elementary steeping tank 28 fully soak, open elementary jet nozzle and elementary steam jet, under the effect of water jets, rice through elementary immersion in the elementary steeping tank 28 flows to elementary carrier pipe by elementary rice-conveying tube, at this moment, rice in the elementary carrier pipe is admitted in the secondary steeping tank 29 and carries out secondary immersion under the acting in conjunction of the steam that water jets and elementary steam jet are sent here.When the water level in the secondary steeping tank 29 surpassed designated water level, its overflow water was caused in the elementary steeping tank 28 by secondary overflow returning pipe and uses for its elementary immersion.Secondary jet nozzle and secondary steam jet are also opened in succession, under the effect of water jets, rice through secondary immersion in the secondary steeping tank 29 flows to secondary carrier pipe by secondary rice-conveying tube, at this moment, rice in the secondary carrier pipe is admitted to and carries out three grades of immersions in three grades of steeping tanks 30 under the acting in conjunction of the steam that water jets and secondary steam jet are sent here.When the water level in three grades of steeping tanks 30 surpassed designated water level, its overflow water was caused in the secondary steeping tank 29 by three grades of overflow returning pipes and uses for its secondary immersion.Three grades of jet nozzles and three grades of steam jets are also opened in succession, under the effect of water jets, three grades of steeping tank 30 interior rice through three grades of immersions flow to discharge nozzle by three grades of rice-conveying tubes, at this moment, rice in the discharge nozzle is admitted to and washes in the Mi Huisheng dehydration cylinder 32 under the acting in conjunction of the steam that water jets and three grades of steam jets are sent here.Along with the rotation of washing Mi Huisheng dehydration cylinder 32, rice in it is promoting rearward (be shown in Figure 1 right-hand) motion by the Mi Huisheng dehydration cylinder spiral prominence bar of inlaying on the roller tube inwall 33 of washing, in this process, rice washing water pipe 24 is at the spray orifice 34 ejection recirculation waters of this section, the grain of rice that soaks through three times is washed the rice cooling, and the high temperature grain of rice obtains cooling in this process.Owing to soak for three times all is to adopt high temperature to soak (temperature is 80-90 ℃), though the time of soaking is shorter, but the top layer of the grain of rice is cooked mostly, thereby, this the rice cooling of washing is to cool off once that to bring back to life be ageing process in fact, the grain of rice top layer that is cooked, through after this process, its viscosity is minimized.Subsequently, dewater through washing the cooled grain of rice of rice, enter into the dehydration screen drum 35 of washing Mi Huisheng dehydration cylinder 32 rear ends.Because it is lower to wash the rotating speed of Mi Huisheng dehydration cylinder 32, thereby has time enough to wear out by the grain of rice.Through the grain of rice after the dehydration,, send into down air-dry operation together by the output of dehydration screen drum 35 tail ends.

Before the wet rice by the output of dehydration screen drum 35 tail ends enters the air-dry case 38 of air-dry apparatus 36, the thermal source that starts air blast 17 and vibrating device 15 and heat exchanger 16 (is a steam valve, also can adopt electric heating device or other thermal source), the room temperature wind that air blast 17 bloats becomes dry high temperature wind behind over-heat-exchanger 16, the bottom inlet chamber that leads to air-dry case 38 on the one hand by hot air outlet, and by the air-dry chamber of the sieve aperture drum on the slotted plate 39 to its top; By auxiliary heat airduct 37 hot blast is guided into the top inner chamber of the wet rice charging aperture on air-dry case 38 left end tops on the other hand.At this moment, the immersion rice that is transferred by the upper track dehydration procedure progresses into, and falls on the slotted plate 39 of its underpart, because slotted plate 39 is left high right low, under the vibration effect of vibrating device 15, soak rice and will slowly move to the lower right gradually along slotted plate 39 surfaces.When immersion rice is on the drainage chamber of wet rice charging aperture bottom, soak the moisture of rice surface adhesion, under the advertising of the hot blast that auxiliary heat airduct 37 attracts, can filter by the sieve aperture on the slotted plate 39, enter the drainage chamber, thereby draw by the water receiving bucket 18 of its underpart.In this process, the hot blast that is attracted by auxiliary heat airduct 37 will soak preliminary air-dry of Mi Jinhang.Thereafter, enter into the air-dry chamber on air-dry case 38 tops through preliminary air-dry immersion rice, stand the hot blast that attracts by hot air outlet, wear out and air-dry processing, along with soaking the slowly mobile of rice, the immersion rice of the former slaking in top layer, to wear out gradually in its top layer, and forming one deck duricrust, moistening inside also can obtain drying and become soft originally, is convenient to follow-up pulverizing.When immersion rice moves to the right-hand member of slotted plate 39, promptly discharge from doing the rice discharging opening, enter down pulverizing process one.Behind after a while air-dry, the hot blast in the air-dry chamber on air-dry case 38 tops owing to evaporated the moisture that soaks in the rice, can contain more water vapour, and at this moment, these hot blasts that contain water vapour can be discharged by the steam gas outlet on air-dry case 38 right-hand member tops.

Because air-dry case 38 is that device is on vibration absorber 40, and the hot air outlet of heat exchanger 16 is communicated with air-dry case 38 after by the flexible glue adapter sleeve, auxiliary heat airduct 37 also is connected with a wet rice charging aperture by the airduct back of glueing joint alive, thereby, in fact, air-dry case 38 is to be in a kind of suspended state, so the complete machine operation is more stably.

Enter through the grain of rice after air-dry that to be ground into ground rice in the pulverizer 42 last, and pump it to by air exhauster 41 and to carry out the gas powder in the powder gathering-device 43 and separate.Device bars up wind on the one hand at the blanking device 45 of powder gathering-device 43 lower ends, exports the ground rice powder of its collection on the other hand downwards.

Meanwhile, power transmission 11 and pay-off 12 start, and start cooling water pump 6, are communicated with slaking steam pipeline 44.Power transmission 11 drives the grogs cylinder 8 of bringing back to life and rotates.The ground rice powder that is transmitted by last one pulverizing process is transferred to pay-off 12 through blanking device 45, by pay-off 12 it is carried to right-hand member, and the ground rice powder of this moment has passed through preheating chamber 46, and obtains preheating in this section.When the ground rice powder is transported to its discharging port, device is carried scraping blade wheel (tri-lobed at the powder of pay-off 12 ends, also two leaves or four lobate etc.) scraping blade is scraped the ground rice powder in the grog chamber 47 below it, at this moment, the moist steam that the transversely arranged slaking steam pipe of being introduced by preheating chamber 46 sprays, the ground rice end is dispelled, and cause grog chamber 47 upper cavity by slaking steam pipeline 44, the moist steam of the short stream steam pipe ejection of vertically installing downwards, then the ground rice powder that will be dispelled blows downwards, this two-way moist steam, fully contact with the ground rice powder, make the ground rice powder promptly be cooked (amount of cure of ground rice powder reaches about eighty per cant in fact at this moment) in moment.When winter, temperature was low, can open the transversely arranged air vent pipework that causes 47 middle parts, grog chamber by slaking steam pipeline 44, increase quantity of steam, promote the temperature in the grog chamber 47.Thereafter, being shrunk to funnelform outlet by the ground rice powder that cooked via 47 bottoms, grog chamber unloads to the bring back to life inwall of cylinder 8 of grog, along with the bring back to life rotation of cylinder 8 of grog, spiral raised line 7 can be with slaking the ground rice powder push the bring back to life discharging opening place of cylinder 8 right-hand members of grog to, enter next process after the discharge.In this pushing course, cooling water pipe 48 sprays to bring back to life cooling water on cylinder 8 outer tube walls of grog, cylinder wall can be cooled off, thereby, slaking the ground rice powder also obtained cooling.Because this process is more slowly, thereby, slaking the ground rice powder in the process of cooling, carried out bringing back to life (promptly aging), also just reduced slaking naturally the viscosity of ground rice powder.

By the grog ground rice powder that cylinder 8 discharges of bringing back to life, enter into the batching profit immediately and install 51, have in the container of stirring and conveying device at this, substantially slaking the ground rice powder both carried out leaving standstill profit and (that is: the ground rice powder is brought back to life aging the time on the surface of slaking, continue to soak into the inside of ground rice powder, make its infiltration, softening), also can add the material of Different Nutrition and stir, so that form different products at this.

By the profit and after the ground rice powder, (present embodiment adopts the bitubular efficiently from the cooked rice flour noodles machine to be delivered to crowded powder device 5 by conveying device 52, also can adopt the crowded powder device of other form) in carry out high warm extrusion silk, in the bitubular efficiently from the high temperature of cooked rice flour noodles machine fast in the tube, grog rapid aging (i.e. slaking for the third time), so far, the grog full maturity, then, full maturity grog enter into the bitubular efficiently from the cooked rice flour noodles machine at a slow speed the tube carry out extrusion modling, grog is squeezed into the ground rice silk.

Thereafter, the ground rice that is extruded is transmitted by the aging conveyer 3 of bringing back to life, enter and carry out aging for the third time bringing back to life in the aging device 1 of bringing back to life, at first, the ground rice that is extruded enters into final stage and steams 4 li of powder chambers, at this, the ground rice that is extruded is standing final stage and is steaming the hot and humid steaming powder process that the aging steam pipe 53 of powder brings; Then, ground rice is brought to 2 li of the chambers of bringing back to life, the processing procedure of bringing back to life of carrying out the nature cooling by the aging conveyer 3 of bringing back to life.Ground rice through this after aging for the third time can carry out operations such as follow-up washing or pickling.

Dry-type three-segment mature-method rice powder unit of the present utility model, use each region that is fit to different weather conditions, both can be used for the processing fresh edible rice flour, also can be used for processing dry rice flour.

Claims (9)

1, a kind of dry-type three-segment mature-method rice powder unit, comprise and pulverize conveying device (13), batching profit and device (51) and crowded powder device (5), it is characterized in that: also include and wash Mi Huisheng dewater unit (27), air-dry apparatus (36), dry clinker bring back to life device (49) and conveying device (52) and the aging device (1) of bringing back to life, and successively according to washing Mi Huisheng dewater unit (27), air-dry apparatus (36), pulverize conveying device (13), the dry clinker device (49) of bringing back to life, batching profit and device (51), conveying device (52), squeeze powder device (5), being linked in sequence of aging bring back to life device (1).

2, dry-type three-segment mature-method rice powder unit according to claim 1 is characterized in that: wash Mi Huisheng dewater unit (27) and comprise jet pump (20), return flume (19), elementary steeping tank (28), secondary steeping tank (29), three grades of steeping tanks (30), steam pipeline (26), jet water pipe (25), rice washing water pump (21), rice washing water pipe (24), wash Mi Huisheng dehydration cylinder frame (22), wash Mi Huisheng dehydration cylinder (32) and support roller group (23);

A, jet pump (20) are communicated with return flume (19) by jet water pipe (25); The end that goes out of jet water pipe (25) is divided into three the tunnel: the first via is communicated with the milled rice end of elementary steeping tank (28) and the rice inlet end of secondary steeping tank (29) respectively by behind the jet nozzle, the second the tunnel by being communicated with the milled rice end of secondary steeping tank (29) and the rice inlet end of three grades of steeping tanks (30) respectively behind the jet nozzle, and Third Road is communicated with the milled rice end of three grades of steeping tanks (30) after by jet nozzle and puts in to be washed Mi Huisheng and dewater in the cylinder (32); The overflow pipe of three grades of steeping tanks (30) connects secondary steeping tank (29), and the overflow pipe of secondary steeping tank (29) connects elementary steeping tank (28);

B, steam pipeline (26) also are divided into three: first by being communicated with after by jet nozzle with the first via of jet water pipe (25) behind the steam jet, second by behind the steam jet with jet water pipe (25) the second the tunnel by being communicated with behind the jet nozzle, the 3rd by being communicated with after by jet nozzle with the Third Road of jet water pipe (25) behind the steam jet;

C, wash Mi Huisheng dehydration cylinder (32) and be installed on the two groups of support roller groups in front and back (23) of washing on the Mi Huisheng dehydration cylinder frame (22), be inlaid with on its roller tube inwall and wash Mi Huisheng dehydration cylinder spiral prominence bar (33); Before and after its roller tube is divided into two sections, leading portion is for washing the Mi Huisheng section, the serve as reasons dewatering period of dehydration screen drum (35) formation of back segment; The front end of its roller tube is equipped with power input device (31), have the hole in the middle of the end face, the end of the Third Road of jet water pipe (25) hole thus penetrates the front end of washing in the Mi Huisheng dehydration cylinder (32), and the rice washing water pipe (24) that is communicated with tank (19) by rice washing water pump (21) hole thus penetrates and washes washing the Mi Huisheng section and having several spray orifices (34) in this section in the Mi Huisheng dehydration cylinder (32).

3, dry-type three-segment mature-method rice powder unit according to claim 1 is characterized in that: air-dry apparatus (36) comprises air-dry apparatus frame (14), air blast (17), air-dry case (38), heat exchanger (16), vibrating device (15), vibration absorber (40); On two groups of vibration absorbers (40), its right-hand member bottom is for doing a rice discharging opening about on the air-dry apparatus frame (14) for the air-dry case (38) of cuboid device, and right-hand member top has the steam gas outlet, and left end top is a wet rice charging aperture; High right lowland, slotted plate (a 39) left side is tilting in air-dry case (38), and vibrating device (15) device is in the bottom surface of air-dry case (38); The air outlet of air blast (17) connects heat exchanger (16), and the hot air outlet of heat exchanger (16) is communicated with the lower lumen of air-dry case (38) by behind the flexible glue adapter sleeve.

4, dry-type three-segment mature-method rice powder unit according to claim 3 is characterized in that: at the position, left end middle and upper part of the air-dry case (38) of air-dry apparatus (36), the bottom returning apparatus of wet rice charging aperture water receiving bucket (18) is arranged.

5, according to claim 3 or 4 described dry-type three-segment mature-method rice powder units, it is characterized in that: returning apparatus has an end to be connected heat exchanger (16) in air-dry apparatus (36) hot air-out position, the other end are lived by the connection airduct and are gluedd joint the wet meter auxiliary heat airduct (37) that the charging aperture inner chamber is communicated with in the back and the left end top of air-dry case (38).

6, dry-type three-segment mature-method rice powder unit according to claim 1, it is characterized in that: pulverize conveying device (13) and constitute by pulverizer (42), air exhauster (41) and powder gathering-device (43), air exhauster (41) connects the air-out port of powder gathering-device (43), and the air intake port of powder gathering-device (43) connects the ground rice powder discharging opening of pulverizer (42).

7, dry-type three-segment mature-method rice powder unit according to claim 1 is characterized in that: the dry clinker device (49) of bringing back to life comprises bring back to life cylinder (8) and cool back pond (50), cooling water pump (6) and two groups of support rollers (9) of blanking device (45), pay-off (12), power and deceleration device (11), frame (10), slaking steam pipeline (44), grog chamber (47), grog;

A, grog are brought back to life cylinder (8) device on the two groups of support rollers (9) on the frame (10), are inlaid with spiral raised line (7) on its inwall; Power transmission (11) is connected with it at the bring back to life left end of cylinder (8) of grog; Blanking device (45) device is on the bring back to life top of pay-off (12) of cylinder (8) left end side of grog; The preheating chamber (46) of the discharge end device of pay-off (12) puts in grog and brings back to life in the charging aperture of cylinder (8) left end, and its underpart device has grog chamber (47);

B, slaking steam pipeline (44) Fen Erlu, the one tunnel leads to preheating chamber (46), leads to grog chamber (47) by preheating chamber (46) again; Another road leads to the discharge end top of pay-off (12);

C, cool back pond (50) device in the bring back to life bottom of cylinder (8) of grog, the cooling water pipe (48) of the cooling water pump that connects with it (6) causes the bring back to life top of cylinder (8) of grog, and has a plurality of hole for water sprayings in this section.

8, dry-type three-segment mature-method rice powder unit according to claim 7 is characterized in that: slaking steam pipeline (44) is also told one road middle and lower part cavity towards grog chamber (47).

9, dry-type three-segment mature-method rice powder unit according to claim 1 is characterized in that: the aging device (1) of bringing back to life includes the chamber of bringing back to life (2), the aging conveyer (3) of bringing back to life, final stage steams powder chamber (4) and final stage is steamed the aging steam pipe (53) of powder; Final stage is steamed powder chamber (4) and is formed by a cavity isolation with the chamber (2) of bringing back to life, and preceding the connecing of the aging conveyer (3) of bringing back to life squeezed powder device (5), runs through final stage thereafter and steams powder chamber (4) and the chamber of bringing back to life (2); Final stage is steamed the aging steam pipe (53) of powder and is passed in the final stage steaming powder chamber (4).

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