CN108620156A - Cereal phloeoterma device - Google Patents

Abstract

The present patent application belongs to food processing equipment technical field, specifically disclose a kind of cereal phloeoterma device, including phloeoterma case and at least a set of dust collection mechanism, phloeoterma bottom portion is equipped with motor, the top of the output shaft is equipped with abrasive disc, the dust collection mechanism includes vertical tube, first check valve, second check valve, push rod and briquetting, the vertical tube is fixedly connected vertically with the side of phloeoterma case, it is connected with spring between the upper surface and riser upper portions of the push rod, aspirating air pipe is offered in the push rod, the top of the vertical tube is equipped with the first check valve, the push rod lower part is equipped with suction hole, the lower part of the aspirating air pipe is equipped with the second check valve；The phloeoterma case is equipped with inlet port and outlet port, and the minimum lowest point in abrasive disc inclined-plane of the inlet port and outlet port flushes.Present invention is mainly used for paddy phloeoterma, solve phloeoterma operation carried out to paddy after milling for the first time when due to bad to dust and rice skin treatment effect, to influence the edible problem of rice.

Description

Cereal phloeoterma device

Technical field

The invention belongs to food processing equipment technical fields, specifically disclose a kind of cereal phloeoterma device.

Background technology

It is not only measured more (about 70-80%) containing carbohydrate in cereal, and most of is starch.The starch of cereal is by its point Minor structure is divided into two kinds of amylose and amylopectin, due to the solubility of the two, the difference of viscosity, degree easy to digest, and Shared different proportion, just directly affects their processing characteristic and edible flavor in different cereals.Cereal carbohydrate Utilization rate is higher, is the main source of human body thermal energy usually 90% or more.

The cereal of mankind's often feeding is paddy, and paddy is manufactured after the processes such as cleaning, husking, husk rice, finished product arrangement Finished product needs to carry out phloeoterma operation to paddy in paddy processing procedure, when carrying out phloeoterma operation to paddy, the prior art Processing paddy usually will appear problems with：(1) the rice skin and dust that contain in paddy are blown off rice with wind turbine, wind turbine wind-force It is excessive, the paddy in processing can be blown away, since general device carries electrostatic so that part dust, which is adsorbed, stays in processing unit It is interior, cause phloeoterma effect bad, it is more containing dust in finally obtained rice, it influences rice and eats and sell；(2) to first It is secondary mill after paddy peeling when, existing equipment handle paddy when treating capacity it is big, have part paddy also without peeling processing just into In the roads Ru Xia treatment process, the subsequent processing of paddy is had an impact, to cause paddy decortication effect bad.

Invention content

The purpose of the present invention is to provide a kind of cereal phloeoterma devices, to solve to carry out phloeoterma behaviour to paddy after milling for the first time Due to bad to dust and rice skin treatment effect when making, to influence the edible problem of rice.

In order to achieve the above object, base case of the invention is：Cereal phloeoterma device, including phloeoterma case and at least a set of Dust collection mechanism, phloeoterma bottom portion are equipped with the upward motor of output shaft, and the output shaft is connect with the lower rotation of phloeoterma case, The top of the output shaft is equipped with the abrasive disc for being secured to connection, and the upper surface of the abrasive disc is arranged for inclined-plane, the mill Charging tray is connect with phloeoterma case rotary seal, and the dust collection mechanism includes vertical tube, the first check valve, the second check valve, push rod and pressure Block, the vertical tube are fixedly connected vertically with the side of phloeoterma case, and the push rod is slidingly and sealingly connect with vertical tube, the push rod Spring, the lower hinge of the briquetting and push rod are connected between upper surface and riser upper portions；Air-breathing is offered in the push rod Pipeline, first check valve are located at the top of vertical tube and the one-way conduction to outside vertical tube, and the push rod lower part is circumferentially arranged with more The lower part of a suction hole being connected to aspirating air pipe, the aspirating air pipe is unidirectional equipped with second of the one-way conduction into aspirating air pipe Valve；The side of the phloeoterma case is equipped with feed inlet, and the other side of the phloeoterma case is equipped with discharge port, the inlet port and outlet port Lowest point flushed with the lowest point on abrasive disc inclined-plane.

The operation principle of this base case is：Before the present apparatus, the paddy after milling for the first time is first deposited into charging At mouthful, starting motor, the output shaft rotation of motor drives abrasive disc rotation, since the upper surface of abrasive disc is inclined-plane, when When briquetting moves from high to low relative to the inclined-plane of abrasive disc, push rod moves down under the action of the spring, and push rod is in vertical tube It inside moves down, the first check valve is closed, in the process so that vertical tube is located at push rod upper surface top position and is in Negative pressure state, as push rod continues to move down in vertical tube, the first check valve is gradually opened, due to aspirating air pipe, suction hole It is connected to the top of vertical tube, therefore, at aspirating air pipe and suction hole is in negative pressure state, paddy skin and dust in phloeoterma case exist The top of vertical tube is entered under suction function by suction hole, aspirating air pipe.When briquetting relative to abrasive disc by the lower on inclined-plane When hoisting mobile, abrasive disc pushes briquetting and push rod to be moved up in vertical tube, during push rod moves up, on vertical tube The pressure in portion gradually increases, the second closed check valve, and the first check valve is opened, when briquetting is located at the highest point on inclined-plane, vertical tube The dust and paddy skin on top are discharged by the first check valve outside vertical tube.

When the lowest point on abrasive disc inclined-plane is flushed with the lowest point of feed inlet, paddy enters phloeoterma case by feed inlet Interior, when the highest point of abrasive disc is opposite with feed inlet, the higher side in abrasive disc position blocks feed inlet, at this time abrasive disc Lowest point and the lowest point of discharge port be flush, the rice after decladding is slipped under ramp effect outside discharge port.

The advantageous effect of this base case is：

(1) when utilizing the present apparatus to paddy phloeoterma, push rod is driven to move up and down by the rotation of abrasive disc, by push rod It moves down kinetic energy and forms negative pressure on the top of vertical tube, paddy skin and dust can be drawn into the top of vertical tube by suction function, passed through The continuous rotation of abrasive disc can be such that briquetting and push rod persistently moves, and by the dedusting in time of suction hole energy and peeling, effectively prevent Dust and paddy skin enter it is lower together with manufacturing procedure；

(2) present apparatus can realize intermittent charging using the low feature of abrasive disc side height and side, when intermittence is fed Inlet amount is few, fully peeling dedusting is carried out to paddy convenient for briquetting and abrasive disc, to the good dedusting effect of paddy；

(3) by the inclined-plane on abrasive disc, automatic feed and discharging, processing efficiency can be carried out to the rice on abrasive disc It is high.

Compared with prior art, the present apparatus realizes dedusting and peeling during to paddy peeling, while can realize automatic Charging and discharging, good dedusting effect are high in machining efficiency.

Further, the top of the output shaft is equipped with coaxial first gear, the middle part of the push rod be equipped with it is coaxial and with Its second gear being rotatablely connected, the vertical tube are located at the lower face of second gear equipped with coaxial impeller, the impeller and the Two gears are fixedly connected, and the first gear is engaged with second gear, and first gear can be driven by the output shaft rotation of motor Rotation, first gear rotation drive second gear rotation, and impeller rotates when second gear rotates, and wheel rotation can be to abrasive material Dust and paddy skin on disk are blown, and so that dust and paddy skin is suspended in phloeoterma case, have to paddy skin and dust convenient for suction hole Preferable inhalant effect.

Further, the lower face of the briquetting is cambered surface, and setting in this way can form gap between briquetting and abrasive disc, when When briquetting is rotated relative to abrasive disc, paddy is facilitated access for by gap between the cambered surface of pressing plate and the inclined-plane of abrasive disc, is had Help briquetting fully to mill to the paddy that do not remove the peel.

Further, the upper end of the vertical tube is connected with the ash can for collecting impurity, the ash collected by riser upper portions Dirt and paddy skin can enter in ash can, avoid to be discharged into air and damaged to health, while also protect ring Border.

Further, discharging box is equipped at the feed inlet, the bottom of the discharging box is in inclined-plane, the inclined-plane of the discharging box Lowest point is flushed with the lowest point of feed inlet, after piling paddy in discharging box, the paddy after milling for the first time under ramp effect It can be entered in phloeoterma case by feed inlet, reduce the operation artificially fed.

Description of the drawings

Fig. 1 is the schematic diagram of cereal phloeoterma device embodiment of the present invention.

Specific implementation mode

It is further described below by specific implementation mode：

Reference numeral in Figure of description includes：Motor 1, abrasive disc 2, phloeoterma case 3, feed inlet 4, discharging box 5, discharging Mouth 6, briquetting 7, push rod 8, vertical tube 9, aspirating air pipe 10, suction hole 11, spring 12, ash can 13, first gear 14, second gear 15, impeller 16, the first check valve 17, the second check valve 18, rack 19, limited block 20.

As shown in Figure 1, a kind of cereal phloeoterma device, including rack 19, phloeoterma case 3 and at least a set of dust collection mechanism, this reality Apply in example is preferably two sets of dust collection mechanisms；Output shaft upward motor 1 is installed, rack 19 is located at 1 top of motor in rack 19 Position on phloeoterma case 3 is equipped with by bolt, the bottom of phloeoterma case 3 offers axis hole, bearing, motor 1 is equipped in axis hole Output shaft extend into phloeoterma case 3 across bearing, be welded with abrasive disc 2, abrasive material on the position that output shaft is located in phloeoterma case 3 The upper surface of disk 2 is inclined-plane.

Left and right side in phloeoterma case 3 is respectively equipped with a set of dust collection mechanism, and dust collection mechanism includes that vertical tube 9, first is unidirectional Valve 17, the second check valve 18, push rod 8 and briquetting 7, the upper end of vertical tube 9 are connected with the ash can 13 for collecting impurity, push rod 8 It is slidingly and sealingly connect with vertical tube 9, the first check valve 17 is mounted on vertical tube 9 and is located on the position of 8 top of push rod, the first check valve 17 into ash can 13 one-way conduction；It is connected with spring 12,8 edge of push rod between the inner wall on 9 top of upper surface and vertical tube of push rod 8 Length direction offers aspirating air pipe 10, and the lower part of push rod 8 circumferentially offers multiple suction holes 11, multiple suction holes 11 with Aspirating air pipe 10 is connected to；Aspirating air pipe 10, which is located on the position of 11 top of suction hole, installs one-way conduction in oriented aspirating air pipe 10 The second check valve 18；The lower face of the lower end ball-joint of briquetting 7 and push rod 8, briquetting 7 is cambered surface.

The top of output shaft is equipped with coaxial first gear 14, and the middle part of push rod 8 is equipped with coaxial second gear 15, Second gear 15 is rotated upwardly and downwardly with push rod 8 and is connect, and first gear 14 is engaged with second gear 15, the lower part processing of first gear 14 There are the limited block 20 for preventing second gear 15 to be detached from, the lower face under second gear 15 to be welded with impeller 16, impeller 16 and second Gear 15 is coaxial.

The left side of phloeoterma case 3 offers feed inlet 4, discharging box 5 is equipped at feed inlet 4, the bottom plate of discharging box 5 is in oblique Face, 5 right side lowest point of discharging box are flushed with the lowest point of feed inlet 4；The lowest point of feed inlet 4 is minimum with 2 inclined-plane of abrasive disc Place flushes；The right side of phloeoterma case 3 offers discharge port 6 with the position of 4 face of feed inlet.

When it is implemented, first the paddy after milling for the first time is put into discharging box 5, start motor 1, the output of motor 1 Shaft rotation is dynamic to drive abrasive disc 2 to rotate, since the upper surface of abrasive disc 2 is inclined-plane, when abrasive disc 2 rotates briquetting 7 relative to Inclined-plane rotates, and when briquetting 7 moves from high to low relative to the inclined-plane of abrasive disc 2, push rod 8 is under 12 impetus of spring It moves down, at this point, the first check valve 17 is closed, push rod 8 moves down under the effect of spring 12 in vertical tube 9, Push rod 8 moves down so that the position that vertical tube 9 is located above 8 upper surface of push rod is in negative pressure state, in the process, with push rod 8 continue to move down in vertical tube 9, and the first check valve 17 is gradually opened, due to aspirating air pipe 10, suction hole 11 with vertical tube 9 Top connection, be in therefore, at aspirating air pipe 10 and suction hole 11 negative pressure state, the paddy skin and dust in phloeoterma case 3 are negative The lower top that vertical tube 9 is entered by suction hole 11, aspirating air pipe 10 of pressure effect.When briquetting 7 relative to abrasive disc 2 by inclined-plane When lower hoists mobile, the slope driving briquetting 7 and push rod 8 of abrasive disc 2 move up in vertical tube 9, in push rod 8 to moving up During dynamic, the pressure on 9 top of vertical tube gradually increases, and the second check valve 18 is closed, and the first check valve 17 is opened, 9 top of vertical tube Dust and paddy skin vertical tube 9 is pushed out by the first check valve 17 and is entered in ash can 13；In the process, the phase of briquetting 7 Abrasive disc 2 is moved, since 7 lower face of briquetting is cambered surface, the cambered surface on briquetting 7 can be to not removing the peel in phloeoterma case 3 Paddy mill；In the process, output shaft rotation drives first gear 14 to rotate, and the rotation of first gear 14 drives second Gear 15, second gear 15 rotate impeller 16 and rotate, and air flowing, the air energy of flow is driven to make to be located at when impeller 16 rotates Dust and paddy skin on abrasive disc 2 are suspended in phloeoterma case 3, logical convenient for dust and paddy skin when 9 top of vertical tube is in negative pressure state Cross suction hole 11, aspirating air pipe 10 enters ash can 13.When push rod 8 moves up and down, second gear 15 is along first gear 14 Tooth socket moves up and down, and limited block 20 can prevent from second gear 15 to be detached from engaging with first gear 14.

When the lowest point on 2 inclined-plane of abrasive disc is flushed with the lower edge of feed inlet 4, paddy is in 5 bottom bevel of discharging box Under the action of enter in phloeoterma case 3, when the highest point of abrasive disc 2 is opposite with feed inlet 4, abrasive disc 2 is by 4 envelope of feed inlet Stifled, the lowest point of abrasive disc 2 and the lowest point of discharge port 6 are flush at this time, and the rice after decladding is slipped under ramp effect Outside discharge port 6.

Above-described is only the embodiment of the present invention, and the common sense such as well known concrete structure and characteristic are not made herein in scheme Excessive description.It, without departing from the structure of the invention, can be with it should be pointed out that for those skilled in the art Several modifications and improvements are made, these should also be considered as protection scope of the present invention, these all do not interfere with what the present invention was implemented Effect and patent practicability.

Claims (5)

1. cereal phloeoterma device, which is characterized in that including phloeoterma case and at least a set of dust collection mechanism, phloeoterma bottom portion is equipped with The upward motor of output shaft, the output shaft are connect with the lower rotation of phloeoterma case, and the top of the output shaft is equipped with to be consolidated with it Surely the upper surface of the abrasive disc connected, the abrasive disc arranges that the abrasive disc is connect with phloeoterma case rotary seal, institute for inclined-plane It includes vertical tube, the first check valve, the second check valve, push rod and briquetting to state dust collection mechanism, and the side of the vertical tube and phloeoterma case is perpendicular It is directly fixedly connected, the push rod is slidingly and sealingly connect with vertical tube, is connected between the upper surface and riser upper portions of the push rod The lower end of spring, the briquetting and push rod is hinged；Aspirating air pipe is offered in the push rod, first check valve is located at vertical tube Top and the one-way conduction to outside vertical tube, the push rod lower part is circumferentially arranged with multiple suction holes being connected to aspirating air pipe, institute The lower part for stating aspirating air pipe is equipped with the second check valve of the one-way conduction into aspirating air pipe；The side of the phloeoterma case is equipped with charging Mouthful, the other side of the phloeoterma case is equipped with discharge port, the lowest points of the inlet port and outlet port with abrasive disc inclined-plane most Lower flushes.

2. cereal phloeoterma device according to claim 1, which is characterized in that the top of the output shaft is equipped with coaxial the The middle part of one gear, the push rod is equipped with second gear that is coaxial and being rotatablely connected with it, and the vertical tube is located at second gear Lower face is equipped with coaxial impeller, and the impeller is fixedly connected with second gear, and the first gear is engaged with second gear.

3. cereal phloeoterma device according to claim 1, which is characterized in that the lower face of the briquetting is cambered surface.

4. cereal phloeoterma device according to claim 3, which is characterized in that the upper end of the vertical tube is connected with for collecting The ash can of impurity.

5. cereal phloeoterma device according to claim 4, which is characterized in that discharging box is equipped at the feed inlet, it is described The bottom of discharging box is in inclined-plane, and the inclined-plane lowest point of the discharging box is flushed with the lowest point of feed inlet.