CN108043310A - Starch gelatinization heats bucket - Google Patents

Abstract

The invention discloses a kind of starch gelatinizations to heat bucket,Its key points of the technical solution are that including staving and steam pipe,It is provided with to be put into the opening of starch at the top of staving,Staving bottom is provided with to discharge the discharge pipe of gelatinized starch,The valve that discharge pipe is controlled to be turned on or off is provided on discharge pipe,Steam pipe one end is located at outside staving and is steam entry port,The steam pipe other end extend into inside staving and is steam outlet,The annular gas pipe being connected with steam outlet is additionally provided with inside staving,Several air outlet pipes are evenly distributed on annular gas pipe,End of the air outlet pipe away from annular gas pipe extends towards opening one side,And the angle a between air outlet pipe and annular gas pipe is acute angle,During hot steam is used to heat the starch inside staving,Being used as power using hot steam drives the starch inside staving to be rotated,So there is no need to expend additional motor and flabellum,It is more energy saving,Environmental protection.

Description

Starch gelatinization heats bucket

Technical field

The present invention relates to starch processing device technical field, more particularly to a kind of starch gelatinization heating bucket.

Background technology

Starch is not soluble in water at normal temperatures, but when water temperature is to 53 degrees Celsius or more, the physical property of starch occurs substantially Variation, starch are swollen, divide the characteristic for forming homogeneous paste solution at high temperature, are known as the gelatinization of starch.

At present, notification number is that the Chinese patent of CN102757506B discloses a kind of starch size mixing equipment, it includes sizing mixing Bucket and steam pipe, blender is provided on the mixing cirtern, and the blender includes motor and is arranged on motor output shaft On flabellum, the motor is arranged on mixing cirtern top surface, and motor output shaft is extend into inside agitator, motor output shaft axis Heart line coincides with agitator axial line.Flabellum is co-axially located on motor output shaft and for forming sediment to the gelatinization inside agitator Powder is stirred.Steam pipe one end with the container with steam for being connected, and the other end is extend into inside mixing cirtern, on steam pipe It is provided with the first steam valve that steam pipe is controlled to be turned on or off.

During the size mixing equipment is used, starch is added to inside mixing cirtern first, afterwards by the first steam valve Door is opened so that hot steam is entered by steam pipe inside mixing cirtern, and the starch inside mixing cirtern is heated so that Starch is gradually gelatinized.At the same time, motor is controlled to open so that motor output shaft drives flabellum to be rotated and in mixing cirtern The starch in portion is stirred so that the heating starch inside mixing cirtern is more uniform, and gelatinization is more abundant.But in this process In, it is necessary to motor be opened always, to ensure that blender can always be stirred the starch inside mixing cirtern.That is The electric energy for needing extra consumption certain during steam is used to carry out Heat Gelatinization to starch, energy consumption are higher.

The content of the invention

In view of the deficiencies of the prior art, the present invention intends to provide a kind of starch gelatinization heating bucket, have Electric energy, more energy-saving and environment-friendly advantage need not be additionally consumed during steam is used to carry out Heat Gelatinization to starch.

The present invention above-mentioned technical purpose technical scheme is that：A kind of starch gelatinization heats bucket, Including staving and steam pipe, it is provided with to be put into the opening of starch on the staving top, the staving bottom is provided with For discharging the discharge pipe of gelatinized starch, the valve that discharge pipe is controlled to be turned on or off is provided on the discharge pipe, Described steam pipe one end is located at outside staving and is steam entry port, and the steam pipe other end extend into inside staving and to steam Vapour outlet, is additionally provided with the annular gas pipe being connected with steam outlet inside the staving, on the annular gas pipe uniformly Several air outlet pipes are distributed with, end of the air outlet pipe away from annular gas pipe extends towards opening one side, and air outlet pipe and annular Angle a between tracheae is acute angle.

Through the above technical solutions, during the heating bucket is used, starch to be gelatinized is poured into staving first Inside, then will control steam pipe open so that hot steam is entered from steam entry port inside steam pipe, then hot steam from Steam outlet is escaped and enter inside annular gas pipe, and the hot steam inside annular gas pipe is entered inside air outlet pipe simultaneously afterwards It is expelled to from end of the air outlet pipe away from annular gas pipe inside staving.Hot steam heats the starch inside staving afterwards, So that starch is swollen, divides and the solution of paste is mixed to form with the moisture in hot steam at this temperature.At the same time, due to End of the air outlet pipe away from annular gas pipe extends towards opening one side, and the angle between air outlet pipe and annular gas pipe is acute angle, So the hot steam discharged from air outlet pipe can drive starch to be turned inside staving after being contacted with the starch inside staving It is dynamic.It is realized with this and starch inside staving is stirred so that the gelatinization process of starch is more uniformly, fully.And this In the process, being used as power using hot steam drives the starch inside staving to be rotated, so there is no need to expend additional electric energy, More energy-saving and environmental protection.

Preferably, be provided with air jet pipe on end of the air outlet pipe away from annular gas pipe, and the internal diameter of air jet pipe towards It is gradually increased away from annular gas pipe one side.

Through the above technical solutions, being equipped with the air jet pipe that internal diameter is gradually reduced in air outlet pipe, so flowed through in hot steam During air jet pipe, the flow velocity of hot steam increases so that the hot steam sprayed from air jet pipe can will be driven inside staving Starch is rotated at faster speed.

Preferably, connecting tube is additionally provided with inside the staving, described connecting tube one end is connected with steam outlet, another End is extended at annular gas pipe center, and is provided on end of the connecting tube away from steam pipe and several to be connected with annular gas pipe Air supply pipe.

Through the above technical solutions, the hot steam inside steam pipe is entered from steam outlet inside connecting tube, afterwards Hot steam is entered from air supply pipe inside annular gas pipe, and is finally discharged at air outlet pipe.Since connecting tube is away from steam pipe End is located at annular tracheae center, and such hot steam is via connecting tube, air supply pipe and moves to each outlet on annular gas pipe The time spent required for pipe is almost identical, and the steam flow at each air outlet pipe is almost identical, to ensure that starch can be More uniform rotate is carried out inside staving so that the gelatinization of starch is more uniformly, fully.

Preferably, annular groove is provided on the inner wall of barrel, and the axial line of annular groove and the axial line of staving coincide, institute It states annular groove inner rotation and is connected with swivel becket, several scraper plates are provided on the swivel becket, the scraper plate is protruded from the inside of staving Wall simultaneously offsets with staving madial wall.

Through the above technical solutions, during the heating bucket is used, the starch of rotation contacts with scraper plate and to scraper plate Apply thrust so that scraper flight turn rotating ring is rotated around swivel becket axial line.During scraper plate is rotated, scraper plate It offsets with staving madial wall and scrapes the starch being attached on inner wall of barrel so that starch is less prone to because being attached to staving Situation about can not be fully gelatinized on inner wall improves gelatinization effect of the heating bucket to starch to a certain extent.

Preferably, the scraper plate is fluted towards setting on the end face of air jet pipe, and the groove width of groove is away from jet Pipe one side is gradually reduced.

Through the above technical solutions, during starch is rotated inside staving, starch enters inside grooves simultaneously Scraper plate is promoted to be rotated.And during this, the quantity for the starch that can be contacted with scraper plate and scraper plate is promoted to be rotated It is more so that scraper plate can at faster speed be rotated inside staving, and the starch being gelatinized is not easy to be attached in staving On wall.

Preferably, cricoid material retaining hood is provided at the top of the staving, and the internal diameter of material retaining hood is away from staving one side It is gradually reduced.

Through the above technical solutions, during starch is rotated inside staving, paste starch is in centrifugation masterpiece It is moved under towards staving side wall one side.When paste starch is touched with staving side wall, paste starch is acted in centrifugal force Under, it is moved along staving side wall towards opening one side so that the liquid level of staving one side paste starch is higher.In the process, if paste Shape starch is moved on material retaining hood, and paste starch is easily back in self gravitation effect whereabouts inside staving so that inside staving Paste starch is not easy the opening disengaging from staving.

Preferably, be provided with mounting hole on the staving, and mounting hole one end is through staving top surface, the other end through Staving madial wall, the steam pipe are threaded through inside mounting hole.

Through the above technical solutions, steam pipe is arranged on inside mounting hole, such hot steam in steam pipe internal flow, Hot steam can heat the side wall of staving.During so starch is rotated inside staving, starch is not easy out The situation that temperature is now caused to reduce due to the staving with room temperature contacts so that the gelatinization of starch is more quick, efficient.

Preferably, the mounting hole is arranged on staving in the shape of a spiral.

Through the above technical solutions, mounting hole is arranged on staving in the shape of a spiral, so in hot steam inside steam pipe During being flowed, hot steam can heat entire staving so that starch during staving inner rotation, It is less prone to the situation that temperature is caused to reduce due to the inner wall of barrel with room temperature contacts so that the gelatinization of starch is more abundant.

In conclusion having the beneficial effect that in contrast to the prior art of the invention：

1st, during hot steam is used to heat the starch inside staving, it is used as power using hot steam in driving staving The starch in portion is rotated, and so there is no need to expend additional motor and flabellum, more energy-saving and environmental protection；

2nd, during starch is rotated inside staving, starch contacts with scraper plate and scraper plate is promoted to be carried out around staving axial line It rotates, during scraper plate rotates, scraper plate offsets with inner wall of barrel and scrapes the starch adhered on inner wall of barrel, to protect Starch inside card staving can obtain more sufficiently being gelatinized.

Description of the drawings

Fig. 1 is the structure diagram of embodiment one, is mainly used for showing the contour structures of embodiment one；

Fig. 2 is the schematic cross-sectional view of embodiment one, is mainly used for showing the connection of one each several part of embodiment；

Fig. 3 is the schematic cross-sectional view of embodiment two, is mainly used for showing the connection of two each several part of embodiment.

Reference numeral：1st, staving；2nd, steam pipe；3rd, it is open；4th, discharge pipe；5th, valve；21st, steam entry port；22nd, steam Outlet；6th, annular gas pipe；7th, air outlet pipe；8th, air jet pipe；9th, connecting tube；10th, air supply pipe；11st, annular groove；12nd, swivel becket；13、 Scraper plate；14th, groove；15th, material retaining hood；16th, mounting hole.

Specific embodiment

The present invention is described in further detail below in conjunction with attached drawing.

Embodiment one：

A kind of starch gelatinization heats bucket, as shown in Figure 1 and Figure 2, including staving 1 and steam pipe 2.Staving offers out on 1 top Starch during needing using the heating bucket, can be put at opening 3 inside staving 1 by mouth 3.Be open setting at 3 There is a material retaining hood 15, the cross-sectional shape of material retaining hood 15 is the cross-sectional area of circular ring shape and material retaining hood 15 away from opening 3 one Side is gradually reduced.1 bottom of staving is provided with discharge pipe 4 and discharge pipe 4 inside staving 1 with being connected.Valve is provided in connecting tube 9 Door 5, valve 5 are used to control being turned on or off for connecting tube 9.When starch gelatinization inside staving 1 is completed, by connecting tube 9 On valve 5 open, the starch inside staving 1 flows into the inside of connecting tube 9 under self gravitation effect and finally from company afterwards End outflow of the take over 9 away from staving 1.2 both ends of steam pipe are respectively steam entry port 21 and steam outlet 22, steam into Entrance 21 is located at 1 outside of staving, and steam outlet 22 is extended to inside staving 1.It is needing to paste the starch inside staving 1 During change, hot steam is passed through to steam entry port 21 so that hot steam is flowed into 2 inside of steam pipe and finally from steam outlet 22 Be discharged to inside staving 1, afterwards the starch inside staving 1 be swollen, divide under the action of hot steam and with the water in hot steam Divide and be mixed to form paste starch solution.

Steam outlet 22 is extended at 1 center of staving, and connecting tube 9 is fixedly connected at steam outlet 22, and is connected The direction of axis line of pipe 9 coincides with 1 center line of staving.Connecting tube 9 is fixedly connected on the end away from steam outlet 22 Several air supply pipes 10, several air supply pipes 10 are distributed along 9 radial direction of connecting tube, and several air supply pipes 10 are with 9 axial line of connecting tube Centered on circumferentially array distribution.

Annular gas pipe 6 is coaxially arranged with inside staving 1, and 6 outer ring side wall of annular gas pipe offsets with 1 inner barrel wall of staving, ring The inner ring side wall of shape tracheae 6 is connected simultaneously with several air supply pipes 10.Annular gas pipe is fixedly connected with several air outlet pipes on 6 top 7, and several air outlet pipes 7 are uniformly distributed centered on the axial line of annular gas pipe 6 in circumferential.Air outlet pipe 7 is away from annular gas pipe 6 End extends towards 3 one side of opening, and the direction of axis line of the length direction and annular gas pipe 6 of air outlet pipe 7 is staggered, and air outlet pipe 7 The angle a between 6 top surface of annular gas pipe be acute angle.Air outlet pipe 7 has been fixedly and coaxially connected on the end away from annular gas pipe 6 Air jet pipe 8, and the inner tube footpath of air jet pipe 8 is gradually reduced away from 7 one side of air outlet pipe.

When needing to be gelatinized starch using the heating bucket, starch is put at opening 3 in staving 1 first Portion, backward steam entry port 21 persistently inject hot steam so that hot steam flows through steam pipe 2 and enters from steam outlet 22 To inside connecting tube 9.The hot steam inside connecting tube 9 is entered via air supply pipe 10 inside annular gas pipe 6 afterwards, last annular Hot steam inside tracheae 6 is emitted into from air jet pipe 8 inside staving 1.Due between 6 top surface of air outlet pipe 7 and annular gas pipe It sets, so the directional velocity of the hot steam entered inside staving 1 is staggered with 1 radial direction of staving, and arranges at an angle Hot steam inside to staving 1 can drive the starch inside staving 1 to be rotated around 1 axial line of staving.And in hot steam During flowing through air jet pipe 8, since the inner tube footpath of air jet pipe 8 is gradually reduced away from 6 one side of annular gas pipe, so heat is steamed The flow velocity of vapour gradually increases so that hot steam can drive starch to be rotated with faster speed.

Staving 1 is internally provided with annular groove 11, and the axial line of annular groove 11 coincides with 1 axial line of staving, and annular groove 11 is with opening The spacing being smaller than between annular gas pipe 6 and opening 3 between mouth 3.11 inner rotation of annular groove is connected with swivel becket 12, and turns The lateral wall of rotating ring 12 offsets with 11 internal groove side wall of annular groove, and 12 inner ring side wall of swivel becket is flush with 1 inner barrel wall of staving.Swivel becket 12 Several scraper plates 13 are evenly distributed on inner ring side wall, and the length direction of scraper plate 13 is parallel with 12 axial line of swivel becket.Scraper plate 13 cross-sectional shape fits for fan-shaped and scraper plate 13 arcwall face with 1 inner barrel wall of staving, and the length of scraper plate 13, which is less than, to be rotated Spacing between ring 12 and annular gas pipe 6.Scraper plate 13 is towards setting fluted 14, and the slot of groove 14 on the end face of air jet pipe 8 Wide to be gradually increased towards 13 outside of scraper plate, the both ends of groove 14 extend through top surface and bottom surface in scraper plate 13.

When starch is rotated inside staving 1, starch enter the inside of groove 14 and with the internal groove side wall phase of groove 14 It supports, starch applies thrust to 14 internal groove side wall of groove at this time so that scraper plate 13 is moved along 1 inner wall of staving.It is rotated in scraper plate 13 During, lateral wall and 1 inner barrel wall of staving of scraper plate 13 offset and scrape the starch being attached on 1 inner wall of staving, afterwards The starch scraped is dropped back into staving 1.

Embodiment two：

Difference lies in be provided with spiral helicine mounting hole 16, and mounting hole 16 to embodiment two with embodiment one on 1 inner wall of staving One end is extended through towards 3 one side of opening in 1 top surface of staving, and 16 other end of mounting hole extends and passes through towards 4 one side of discharge pipe It is through at 1 madial wall of staving.Steam pipe 2 is arranged on the inside of mounting hole 16 and the lateral wall of steam pipe 2 and 16 inner hole wall phase of mounting hole It supports.During hot steam flows through steam pipe 2, the heat that hot steam contains is transferred to by 2 tube wall of steam pipe inside staving 1 On so that the temperature of 1 inner wall of staving gradually rises.So during the heating bucket is used to be gelatinized starch, staving 1 Internal starch is less prone to the situation for contacting and cooling down with the bucket wall under room temperature state, improves the heating bucket to a certain extent To the gelatinization effect of starch.

The above be only the present invention exemplary embodiment, protection domain and is not intended to limit the present invention, this hair Bright protection domain is determined by appended claim.

Claims (8)

1. a kind of starch gelatinization heats bucket, including staving (1) and steam pipe (2), it is provided with and is used on staving (1) top The opening (3) of starch is put into, staving (1) bottom is provided with to discharge the discharge pipe (4) of gelatinized starch, the discharge pipe (4) valve (5) that discharge pipe (4) is controlled to be turned on or off is provided on, described steam pipe (2) one end is located at staving (1) outside and it is steam entry port (21), steam pipe (2) other end extend into staving (1) inside and is steam outlet (22), it is characterized in that：The annular gas pipe (6) being connected with steam outlet (22) is additionally provided with inside the staving (1), it is described It is evenly distributed with several air outlet pipes (7) on annular gas pipe (6), end of the air outlet pipe (7) away from annular gas pipe (6) is towards opening The extension of mouth (3) one side, and the angle a between air outlet pipe (7) and annular gas pipe (6) is acute angle.

2. starch gelatinization according to claim 1 heats bucket, it is characterized in that：The air outlet pipe (7) is away from annular gas pipe (6) End on be provided with air jet pipe (8), and the internal diameter of air jet pipe (8) is gradually increased away from annular gas pipe (6) one side.

3. starch gelatinization according to claim 1 heats bucket, it is characterized in that：Connection is additionally provided with inside the staving (1) It manages (9), described connecting tube (9) one end is connected with steam outlet (22), and the other end is extended at annular gas pipe (6) center, and Connecting tube (9) is provided with several air supply pipes (10) being connected with annular gas pipe (6) on the end away from steam pipe (2).

4. starch gelatinization according to claim 1 heats bucket, it is characterized in that：Annular groove is provided on staving (1) inner wall (11), and the axial line of annular groove (11) and the axial line of staving (1) coincide, and annular groove (11) inner rotation is connected with rotation Ring (12), is provided with several scraper plates (13) on the swivel becket (12), the scraper plate (13) protrude from staving (1) madial wall and with Staving (1) madial wall offsets.

5. starch gelatinization according to claim 4 heats bucket, it is characterized in that：The scraper plate (13) is towards air jet pipe (8) It is set on end face fluted (14), and the groove width of groove (14) is gradually reduced away from air jet pipe (8) one side.

6. starch gelatinization according to claim 1 heats bucket, it is characterized in that：It is provided at the top of the staving (1) cricoid Material retaining hood (15), and the internal diameter of material retaining hood (15) is gradually reduced away from staving (1) one side.

7. starch gelatinization according to claim 1 heats bucket, it is characterized in that：Mounting hole is provided on the staving (1) (16), and mounting hole (16) one end is through staving (1) top surface, and the other end is through staving (1) madial wall, the steam pipe (2) it is internal to be threaded through mounting hole (16).

8. starch gelatinization according to claim 7 heats bucket, it is characterized in that：The mounting hole (16) is arranged in the shape of a spiral On staving (1).