CN108739919A - A kind of dough conveyer - Google Patents

Abstract

The invention discloses a kind of dough conveyers, including rack, conveying device and power plant.Conveying device includes the feeding chamber being configured above rack, is rotatably matched with the feeding spiro rod of feeding intracavitary；Feeding spiro rod includes rotation axis and helical blade；Rotation axis first end is located at feeding intracavitary, second end is pierced by from feeding intracavitary, helical blade is configured at rotation axis and is located at feeding intracavitary, feeding chamber offers a feed inlet and discharge port, and feed inlet is located at the both ends of feeding chamber with discharge port, helical blade is suitable for from feed inlet sending dough to discharge port, and discharge port is configured with the discharge nozzle being connect with discharge port, and discharging pipe diameter is less than the screw pitch of helical blade；Power plant, power plant configurations are rotated in rack, and suitable for driving feeding spiro rod in feeding intracavitary.Dough rest, dough after curing can be entered back into next processing step after being conveyed by this dough conveyer so that the flour-made food taste being eventually fabricated is favourable.

Description

A kind of dough conveyer

Technical field

The present invention relates to food processing field more particularly to a kind of dough conveyers.

Background technology

Knead dough is to manufacture the important step of noodles, and former people often rely on manual knead dough, and not now with society Disconnected development, dough mixing machine come out therewith.A large amount of labour can be saved by dough mixing machine knead dough, usually completes it in knead dough Afterwards, it is also necessary to the making of subsequent technique, such as by noodle press pressure surface, noodles cutting machine bevel etc., dough could be made to us often The flour-made foods such as the noodles seen.Current most of producers can directly carry out the processing of subsequent processing after flour becomes dough, this Sample dough is possible to also have little time to cure to be put into next processing step, not so as to cause the flour-made food taste being eventually fabricated It is good.

Invention content

For overcome the deficiencies in the prior art, the purpose of the present invention is to provide a kind of dough conveyers, dough is defeated During sending to next technique, by dough rest.

The purpose of the present invention adopts the following technical scheme that realization：

A kind of dough conveyer, including：

Rack；

Conveying device, the conveying device include the feeding chamber being configured above the rack, are rotatably matched with described The feeding spiro rod of feeding intracavitary；The feeding spiro rod includes rotation axis and helical blade；The rotation axis first end is located at institute Feeding intracavitary is stated, second end is pierced by from the feeding intracavitary, and the helical blade is configured at the rotation axis and is sent positioned at described Expect intracavitary, the feeding chamber offers a feed inlet and discharge port, and the feed inlet is located at described send with the discharge port Expect chamber both ends, the helical blade be suitable for dough is sent from feed inlet to discharge port, the discharge port be configured with it is described go out The discharge nozzle of material mouth connection, the discharging pipe diameter are less than the screw pitch of the helical blade；

Power plant, the power plant configurations are suitable for driving the feeding spiro rod in the feeding in the rack Intracavitary rotates.

Further, the feeding cavity outer wall is arranged with cooling cover, a cooling cover at least inlet and One liquid outlet.

Further, the rotation axis first end is arranged with self-lubricating bearing, the rotation axis first end by it is described from Lubrication bearing is rotatably assorted with the feeding chamber.

Further, the hand of spiral away from the nearest helical blade of the self-lubricating bearing and the separate self-lubricating bearing Helical blade the hand of spiral it is opposite.

Further, the rotation axis second end, which is pierced by the feeding chamber, is configured with sealing ring.

Further, the power plant includes being configured at the motor of the rack and connecting with the electric-motor drive The speed reducer connect；The speed reducer is connect by chain with the rotation axis second end chain drive.

Further, the dough conveyer further includes the first agitating device for being configured at the rack；Described first stirs Mix device include the first stir chamber, the first agitating shaft for being rotationally connected with inside first stir chamber, be suitable for described in driving The decelerating motor of first agitating shaft rotation；First stir chamber has one first stirring feed inlet and the first stirring discharging Mouthful, the dough that first agitating shaft is suitable for enter first stir chamber is exported from the first stirring discharge port, described First stirring discharge port is connected to the feed inlet.

Further, the dough conveyer further includes the second agitating device for being configured at the rack；Described second stirs Mix device include the second stir chamber, the second agitating shaft for being rotationally connected with inside second stir chamber；The decelerating motor Suitable for driving the second agitating shaft rotation, second stir chamber that there is one second stirring feed inlet and the second stirring discharging Mouthful, the rotation direction of second agitating shaft and first agitating shaft on the contrary, and second agitating shaft be suitable for that institute will be entered The dough of the second stir chamber is stated from the second stirring discharge port export, the second stirring discharge port with described first stir into Material mouth is connected to.

Further, the dough conveyer further includes the water tank for being configured at the rack, the connection water tank and described The hose of second stir chamber and suitable for driving the water in the water tank to enter the vacuum pump in second stir chamber.

Further, the dough conveyer further includes the transport mechanism for being configured at the rack；The transport mechanism packet Several rollers for including parallel arranged, the drive rotated with the conveyer belt of several roller cooperations and several rollers of driving Dynamic roller motor, material transmission to second stirring that the conveyer belt is suitable for will be far from the second stirring feed inlet are fed Mouthful.

Compared with prior art, the beneficial effects of the present invention are：By configuring feeding spiro rod, and feeding spiral shell in feeding intracavitary Bar includes rotation axis and helical blade, can will be sent to discharge port, gone out positioned at the dough of feeding intracavitary by helical blade Material mouth is configured with the discharge nozzle being connect with discharge port, and the diameter of the discharge nozzle is less than the screw pitch of helical blade, then in dough When being delivered to the discharge nozzle, dough will be squeezed, and according to law of conservation of energy, dough will generate heat, this heat is just It can promote the curing of dough, i.e., dough rest, dough after curing can be entered back into down after being conveyed by this dough conveyer One processing step so that the flour-made food taste being eventually fabricated is favourable.

Description of the drawings

Fig. 1 is dough conveyer front view of the present invention；

Fig. 2 is that dough of the present invention conveys side view；

Fig. 3 is dough transfer, storage and delivery system front view of the present invention；

Fig. 4 is dough transfer, storage and delivery system side view of the present invention；

Fig. 5 is that dough of the present invention conveys machine stirring device schematic diagram；

Fig. 6 is dough conveyer transport mechanism vertical view of the present invention.

In figure：1, rack；2, conveying device；21, feeding chamber；22, rotation axis；23, helical blade；24, discharge port；25, Feed inlet；26, discharge nozzle；27, self-lubricating bearing；3, power plant；31, motor；32, speed reducer；33, chain；4, sleeve； 41, inlet；42, liquid outlet；5, the first agitating device；51, the first stir chamber；52, the first agitating shaft；53, decelerating motor； 54, the first stirring feed inlet；55, the first stirring discharge port；6, the second agitating device；61, the second stirring discharge port；7, conveyer Structure；71, roller；72, conveyer belt；73, roller motor is driven.

Specific implementation mode

In the following, in conjunction with attached drawing and specific implementation mode, the present invention is described further, it should be noted that not Under the premise of conflicting, new implementation can be formed between various embodiments described below or between each technical characteristic in any combination Example.

As shown in Figs 1-4, it shows dough conveyer provided in an embodiment of the present invention, includes at least rack 1, conveying device 2 and power plant 3.Conveying device 2 includes being configured at the feeding chamber 21 of 1 top of rack, is rotatably matched in feeding chamber 21 Feeding spiro rod；Feeding spiro rod includes rotation axis 22 and helical blade 23；22 first end of rotation axis is located in feeding chamber 21, the Two ends are pierced by out of feeding chamber 21, and helical blade 23 is configured at rotation axis 22 and in feeding chamber 21, and feeding chamber 21 offers One feed inlet 25 and discharge port 24, and feed inlet 25 is located at the both ends of feeding chamber 21 with discharge port 24, helical blade 23 is suitable for Dough is sent from feed inlet 25 to discharge port 24, discharge port 24 is configured with the discharge nozzle 26 being connect with discharge port 24, discharge nozzle 26 Diameter is less than the screw pitch of helical blade 23.Power plant 3 is configured at rack 1, and suitable for driving feeding spiro rod in feeding chamber 21 Rotation.

When actually using this dough conveyer 2, the dough mixed is first put into feed inlet 25, into feeding chamber 21, Then in feeding chamber 21 under the rotation of feeding spiro rod and helical blade 23, dough is delivered to discharge port 24, wherein feeding spiral shell The rotational power of bar and helical blade 23 comes from and power plant 3.After dough transport column discharge port 24 can along with discharging The discharge nozzles 26 of 24 connection of mouth move, and the diameter of discharge nozzle 26 is less than the screw pitch of helical blade 23, so at this moment from discharge port 24 dough out can be squeezed in discharge nozzle 26, and according to law of conservation of energy, the energy of extruding will be converted into curing The heat of dough, the dough so come out from feeding chamber 21 will cure, i.e., can be incited somebody to action after being conveyed by this dough conveyer Dough rest, dough after curing enter back into next processing step so that the flour-made food taste being eventually fabricated is favourable.

Embodiment preferably, 21 outer wall of feeding chamber are arranged with cooling cover 4, cooling cover 4 at least one into Liquid mouth 41 and a liquid outlet 42, because it is mainly to be incited somebody to action by helical blade 23 that dough is delivered to discharge port 24 from feed inlet 25 Dough extruding pushes to discharge port 24, so also will produce the heat of a part in feeding chamber 21, and is produced in feeding chamber 21 Heat amount can generate the conveying of dough deleterious effect, such as or cohere and influence normal conveying process in the feeding chamber 21, So by being arranged cooling cover 4 in 21 outer wall of feeding chamber, cooling medium then is poured into from 4 inlet 41 of cooling cover, is allowed cold But medium takes away the heat of the generation of feeding chamber 21.

Preferably, 22 first end of rotation axis is arranged with self-lubricating bearing 27, and 22 first end of rotation axis passes through self-lubricating bearing 27 are rotatably assorted with feeding chamber 21.Self-lubricating bearing 27 has wear-resisting property good, and friction coefficient is small, advantage with long service life. And self-lubricating bearing 27 has suitable elastoplasticity, can improve the bearing capacity of bearing by stress distribution on wider contact surface, And its quiet coefficient of kinetic friction is close, can eliminate creeping under low speed, to ensure the operating accuracy of machinery, while machinery can be made to subtract Few vibration reduces noise, prevents from polluting, and improves working conditions.

Preferably, the hand of spiral away from the nearest helical blade 23 of self-lubricating bearing 27 and the spiral shell far from self-lubricating bearing 27 The hand of spiral of vane piece 23 is opposite.It is glutinous in acting on for helical blade 23 that setting in this way can further avoid dough Knot on self-lubricating bearing 27, i.e., push open, carries by the helical blade 23 that setting can be all reversed close to the dough of self-lubricating bearing 27 The high reliability of this dough conveyer.

Preferably, 22 second end of rotation axis, which is pierced by feeding chamber 21, is configured with sealing ring, can be with by the effect of sealing ring Reduce the loss of moisture in feeding chamber 21, the toughness of collateral security dough.

Preferably, power plant 3 includes the deceleration for being configured at the motor 31 of rack 1 and being sequentially connected with motor 31 Machine 32；Speed reducer 32 is connect by chain 33 with 22 second end chain drive of rotation axis.It is rotation axis 22 and spiral shell by motor 31 Vane piece 23 conveys power, and the high rotating speed of motor 31 can be exported my the required slow-speed of revolution by speed reducer 32, and be provided Big torque, and chain drive enough ensures accurate transmission ratio, transmits that power is larger, and act on the upper power of rotation axis 22 compared with It is small, transmission efficiency.

Preferably, as seen in figs. 5-6, dough conveyer further includes the first agitating device 5 for being configured at rack 1；First stirs It includes the first stir chamber 51, the first agitating shaft 52 for being rotationally connected with the first stir chamber 51 inside to mix device 5, is suitable for driving the The decelerating motor 53 of one agitating shaft 52 rotation；First stir chamber 51 has the one first stirring stirring discharging of feed inlet 54 and first Mouth 55, the dough that the first agitating shaft 52 is suitable for enter the first stir chamber 51 be exported from the first stirring discharge port 55, the first stirring Discharge port 55 is connected to feed inlet 25.Before dough enters feeding chamber 21, dough can be stirred so that dough has more Toughness is also avoided that dough is condensed into blocks.

Preferably, dough conveyer further includes the second agitating device 6 for being configured at rack 1；Second agitating device 6 includes the Two stir chambers, the second agitating shaft being rotationally connected with inside the second stir chamber；Decelerating motor 53 is suitable for the second agitating shaft of driving Rotation, the second stir chamber have one second stirring feed inlet and the second stirring discharge port 61, the second agitating shaft and the first stirring The rotation direction of axis 52 on the contrary, and the second agitating shaft be suitable for enter the dough of the second stir chamber and led from the second stirring discharge port 61 Go out, the second stirring discharge port 61 is connected to the first stirring feed inlet 54.By the first agitating shaft 52 with the second agitating shaft positive and negative Stirring in both direction can make dough have more toughness, further be convenient for the processing of subsequent technique.

Preferably, dough conveyer further include the water tank for being configured at rack 1, the hose of joining water box and the second stir chamber, And enter the vacuum pump in the second stir chamber suitable for the water in driving water tank, moisture may be lost during stirring, In order to avoid the water deficient of dough, so increasing supply equipment, dough is moistened into shape using vacuum pump, water tank and hose It is wet.

Preferably, dough conveyer further includes the transport mechanism 7 for being configured at rack 1；Transport mechanism 7 includes parallel arranged The driving roller motor 73 that several rollers 71, the conveyer belt 72 coordinated with several rollers 71 and several rollers 71 of driving rotate, passes Band 72 is sent to be suitable for will be far from the material transmission of the second stirring feed inlet to the second stirring feed inlet.Transport mechanism 7 is so that this dough Conveyer it is more adaptable, especially in the case of inadequate in face of processing site, this dough conveyer can be separately placed in Dough transmission is set this dough conveyer by one place using transport mechanism.

The above embodiment is only the preferred embodiment of the present invention, and the scope of protection of the present invention is not limited thereto, The variation and replacement for any unsubstantiality that those skilled in the art is done on the basis of the present invention belong to institute of the present invention Claimed range.

Claims (10)

1. a kind of dough conveyer, which is characterized in that including：

Rack；

Conveying device, the conveying device include the feeding chamber being configured above the rack, are rotatably matched with the feeding The feeding spiro rod of intracavitary；The feeding spiro rod includes rotation axis and helical blade；The rotation axis first end is located at described send Expect that intracavitary, second end are pierced by from the feeding intracavitary, the helical blade is configured at the rotation axis and is located at the feeding chamber Interior, the feeding chamber offers a feed inlet and discharge port, and the feed inlet is located at the feeding chamber with the discharge port Both ends, the helical blade be suitable for dough is sent from feed inlet to discharge port, the discharge port be configured with and the discharge port The discharge nozzle of connection, the discharging pipe diameter are less than the screw pitch of the helical blade；

Power plant, the power plant configurations are suitable for driving the feeding spiro rod in the feeding intracavitary in the rack Rotation.

2. dough conveyer as described in claim 1, which is characterized in that the feeding cavity outer wall is arranged with cooling cover, institute State a cooling cover at least inlet and a liquid outlet.

3. dough conveyer as described in claim 1, which is characterized in that the rotation axis first end is arranged with self-lubricating axis It holds, the rotation axis first end is rotatably assorted by the self-lubricating bearing and the feeding chamber.

4. dough conveyer as claimed in claim 3, which is characterized in that away from the nearest helical blade of the self-lubricating bearing The hand of spiral is opposite with far from the hand of spiral of helical blade of the self-lubricating bearing.

5. dough conveyer as described in claim 1, which is characterized in that the rotation axis second end is pierced by the feeding chamber Configured with sealing ring.

6. dough conveyer as described in claim 1, which is characterized in that the power plant includes being configured at the rack Motor and the speed reducer being connect with the electric-motor drive；The speed reducer passes through chain and the rotation axis second end chain It is sequentially connected.

7. dough conveyer as described in claim 1, which is characterized in that the dough conveyer further includes being configured at the machine First agitating device of frame；First agitating device includes the first stir chamber, is rotationally connected in first stir chamber First agitating shaft in portion is suitable for driving the decelerating motor of the first agitating shaft rotation；First stir chamber has one first Feed inlet and the first stirring discharge port are stirred, first agitating shaft is suitable for the dough will enter first stir chamber from institute The export of the first stirring discharge port is stated, the first stirring discharge port is connected to the feed inlet.

8. dough conveyer as claimed in claim 7, which is characterized in that the dough conveyer further includes being configured at the machine Second agitating device of frame；Second agitating device includes the second stir chamber, is rotationally connected in second stir chamber Second agitating shaft in portion；The decelerating motor is suitable for driving second agitating shaft rotation, and second stir chamber has one the Two stirring feed inlets and the second stirring discharge port, the rotation direction of second agitating shaft and first agitating shaft on the contrary, And second agitating shaft is suitable for enter the dough of second stir chamber from the second stirring discharge port export, described the Two stirring discharge ports are connected to the first stirring feed inlet.

9. dough conveyer as claimed in claim 8, which is characterized in that the dough conveyer further includes being configured at the machine The water tank of frame, the hose for being connected to the water tank and second stir chamber and suitable for driving the water in the water tank to enter institute State the vacuum pump in the second stir chamber.

10. dough conveyer as claimed in claim 8, which is characterized in that the dough conveyer further include be configured at it is described The transport mechanism of rack；The transport mechanism include parallel arranged several rollers, with the conveyer belt of several rollers cooperations, And the driving roller motor of several roller rotations of driving, the conveyer belt are suitable for will be far from the second stirring feed inlet Material transmission to it is described second stirring feed inlet.