CN210580703U - Integrated dough kneading device - Google Patents

Abstract

The utility model relates to the technical field of food processing equipment, in particular to an integrated dough kneading device, which at least comprises two dough kneading areas, a transmission channel is communicated with each dough kneading area, a screw is arranged in the transmission channel, and the screw is connected with a first driving device; the stirring and stirring assembly is arranged in at least one dough kneading area and can push the dough in the dough kneading area to a communication part of the conveying channel and the dough kneading area so that the dough contacts the screw rod; the first driving device can drive the screw to rotate forwards or backwards to bring the dough into the conveying channel from the dough kneading zone and knead the dough in the conveying channel to convey the dough to other dough kneading zones along the conveying channel. The problem of dough mixing area and kneading device need additionally set up conveyor and shift dough, and area is big is solved.

Description

Integrated dough kneading device

Technical Field

The utility model relates to a food processing equipment technical field, concretely relates to integration kneading dough device that kneads dough.

Background

The wheaten food is one of the favorite foods of the masses, and dough mixing and kneading are very important links in the production process of the wheaten food. At present, a wheaten food making machine used in the food machinery industry is generally combined by a plurality of independent devices such as a dough kneading device, a dough kneading device and a forming device, and a conveying device is required to be arranged to transfer the dough kneading device and good dough to the dough kneading device in the dough kneading and dough kneading process, so that the occupied area of the whole machine is increased, the automation degree is low, and the transfer fault is easy to occur in the transfer process.

In addition, when the wheaten food is made, in order to improve the toughness of the dough, the kneaded dough needs to be repeatedly kneaded, but most kneading machines can only knead the dough once automatically at present, and if the dough needs to be repeatedly rolled, the pressed dough needs to be manually put into a hopper of the kneading machine, so that the operation is complex, the labor intensity is high, and operators are easily injured; for example, the technology disclosed in chinese patent application No. CN93107960.8, the device for repeatedly rolling dough sheets in the apparatus has at least three sets of transfer mechanisms and two sets of rolling wheel sets, so that not only is the structure complicated and the occupied area large, but also the probability of idle running of the rolling wheel sets is high, the production cost is increased, and the apparatus is not beneficial to energy conservation and is time-consuming.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an integration kneading dough device for among the solution prior art kneading dough district and kneading dough device need additionally set up conveyor and shift the dough, and area is big problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an integrated dough kneading device at least comprises two dough kneading areas, wherein a transmission channel is communicated with each dough kneading area, a screw is arranged in the transmission channel, and the screw is connected with a first driving device; the stirring and stirring assembly is arranged in at least one dough kneading area and can push the dough in the dough kneading area to a communication part of the conveying channel and the dough kneading area so that the dough contacts the screw rod; the first driving device can drive the screw to rotate forwards or backwards to bring the dough into the conveying channel from the dough kneading zone and knead the dough in the conveying channel to convey the dough to other dough kneading zones along the conveying channel.

Further, the automatic door can work at the communication positions of all the dough mixing areas and the conveying channel, so that at least one communication position is blocked.

Furthermore, a rack is arranged at the top end of the automatic door, the rack is meshed with a first gear, the first gear is connected with a first motor, and the first motor drives the automatic door to slide along the junctions of all the dough kneading areas and the transmission channel when rotating.

The device further comprises a bottom plate and an arc-surface-shaped upper cover, wherein an internal channel formed by splicing the upper cover and the bottom plate is a transmission channel; the upper cover is formed by splicing at least two sections of cambered cover plates, the cover plate corresponding to the communication position is a dough extrusion guide cover, and the length of the dough extrusion guide cover is not less than that of the communication position; the dough extrusion guide cover is connected with a second driving device, and the second driving device can drive the dough extrusion guide cover to move up and down.

Furthermore, one side of the outermost end of the dough extrusion guide cover, which is close to the dough mixing area, is provided with a dough extrusion hole.

Further, the stirring and stirring assembly comprises a stirring rod, and stirring sheets are arranged on the stirring rod.

Furthermore, all the stirring and stirring mechanisms are connected with the same worm and gear mechanism, so that the worm and gear mechanism drives all the stirring and stirring mechanisms to synchronously rotate.

Further, the first driving device drives the stirring and stirring assembly and the screw rod to synchronously rotate.

Furthermore, the screw rod is connected with the first driving device through a connector, a connecting column and a clamping column are arranged at one end of the first driving device, which is connected with the connector, and the screw rod is connected with the connector, the clamping column is vertical to the connecting column, and the clamping column of the first driving device is vertical to the clamping column of the screw rod; the both ends of connector are provided with first drive arrangement installation draw-in groove and screw rod installation draw-in groove respectively, first drive arrangement, screw rod decibel and connector joint, the inside sunken spring mounting portion that forms in middle part of first drive arrangement installation draw-in groove, be provided with the spring in the spring mounting portion, the one end of spring with first drive arrangement's tip butt.

Further, at least one of the dough kneading areas is provided with an opening and closing door.

Compared with the prior art, the beneficial effects of the utility model are that: the device at least comprises two dough kneading areas, a transmission channel is communicated with each dough kneading area, a screw is arranged in the transmission channel, and the screw is connected with a first driving device; the stirring and stirring assembly is arranged in at least one dough kneading area and can push the dough in the dough kneading area to the communication part of the conveying channel and the dough kneading area so that the dough contacts the screw rod; the first driving device can drive the screw to rotate forwards or reversely to bring the dough into the conveying channel from the dough kneading zone, and the dough is kneaded in the conveying channel so as to convey the dough to other dough kneading zones along the conveying channel. Compared with the prior art, in order to make the dough have certain stiffness, the length of the screw rod must be long enough, so that the device has large floor area and is not suitable for families; and the screw rod not only has the function of extruding the dough, but also has the function of conveying the dough, and a conveying device is not required to be additionally arranged in the dough kneading area and the dough kneading mechanism to transfer the dough, so that the volume of the whole device is further reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the integrated dough kneading device of the present invention;

fig. 2 is a schematic view of the internal structure of the integrated dough kneading device of the present invention;

fig. 3 is a schematic view of the internal structure of the integrated dough kneading device of the present invention;

FIG. 4 is a schematic view showing an installation structure of a dough extruding guide cover;

FIG. 5 is a schematic view showing the internal structure of the integrated dough kneading device with an automatic door;

FIG. 6 is a schematic view of the transmission structure of the automatic door;

FIG. 7 is a schematic view of the connecting column and the clamping column;

FIG. 8 is a schematic structural diagram of a connecting head;

fig. 9 is a schematic structural diagram of the connecting head.

Detailed Description

The present invention will be further explained with reference to the following embodiments and drawings.

Referring to fig. 1 and 2, the integrated dough kneading device at least comprises two dough kneading areas 1, a transmission channel is communicated with each dough kneading area 1, a screw 201 is arranged in the transmission channel, and the screw 201 is connected with a first driving device.

Wherein can mix flour and water at kneading dough district 1 and stir into the dough of edge rolling, also can edge rolling the dough of out-of-round, make things convenient for follow-up forming device to dough shaping. At least one mixing surface area 1 is provided with a stirring and stirring component, the stirring and stirring component comprises a stirring rod 101, and a stirring sheet 102 is arranged on the stirring rod 101. When the stirring rod 101 rotates, the stirring sheet 102 is driven to rotate, the flour and the water are fully mixed and stirred by the stirring rod 101 and the stirring sheet 102, and the flour and the water are gradually changed into dough under the effect of the full mixing and stirring. The periphery of the dough mixing area is provided with a dough mixing area outer wall 103, each dough mixing area 1 can be communicated or not, preferably, the dough mixing area outer wall 103 is a circular arc-shaped outer wall, and when the stirring and stirring assembly stirs the dough, the dough is contacted with the dough mixing area outer wall 103 to be rounded. The stirring and stirring assembly can also push the dough in the dough kneading area 1 to the communication between the conveying channel and the dough kneading area 1, so that the dough contacts the screw 201. The first driving means can drive the screw 201 to rotate forward or backward to bring the dough from the dough kneading section 1 into the conveying passage, and knead the dough in the conveying passage to convey the dough to other dough kneading sections 1 along the conveying passage.

Preferably, referring to fig. 2 and 3, the device further comprises an arc-shaped upper cover, a bottom plate and a kneading housing 202, wherein an internal channel formed by combining the upper cover and the bottom plate is a transmission channel, when the screw 201 rotates, the upper cover and the bottom plate have a certain extrusion and guiding effect on dough, and the kneading housing 202 is arranged outside the upper cover and the bottom plate and forms a seal for two ends of the transmission channel; in order to facilitate the dough to enter and exit from the communicating part of the dough kneading area 1 and the transmission channel, the upper cover is formed by splicing at least two sections of cambered cover plates, the cover plate corresponding to the communicating part is a dough extrusion guide cover 203, the dough extrusion guide cover 203 can move up and down, other cover plates are fixedly connected with the bottom plate, and the length of the dough extrusion guide cover 203 is not less than that of the communicating part. The outermost end of the dough extruding guide cover 203 is provided with a dough extruding hole 216 on the side close to the dough mixing area 1.

The dough extruding guide cover 203 is connected to a second driving means, and the second driving means can drive the dough extruding guide cover 203 to move up and down. Referring to fig. 4, the second driving device includes a fourth motor 204, the fourth motor 204 is a through motor, the fourth motor 204 is installed on a through motor base 205, a motor screw 217 sequentially passes through the fourth motor 204, the through motor base 205 and a mounting plate of the dough extruding guide cover 203, the mounting plate of the dough extruding guide cover 203 is connected to the through motor base 205, the through motor base 205 is fixed on a sliding block 206, the sliding block 206 is slidably connected to a sliding rail 207 vertically disposed on the dough kneading housing 202, when the fourth motor 204 operates, the sliding block 206 is driven to slide along the sliding rail 207, the sliding block 206 drives the mounting plate of the through motor base 205 and the mounting plate of the dough extruding guide cover 203 to move up and down, thereby realizing the up and down movement of the dough extruding guide cover 203. When the screw 201 rotates to extrude the dough, the dough extruding guide cover 203 is located at the lowest position, and the dough is conveyed to the end part communication position, due to the blocking of the dough kneading outer shell 202 and the existence of the dough extruding guide cover 203, the dough can only enter the dough kneading area 1 from the dough extruding hole 216, on one hand, the dough extruding hole 216 has further extruding effect on the dough, on the other hand, the dough extruding hole 216 limits the position of the dough entering the dough kneading area 1 and the rough shape of the dough, and the situation that the dough directly enters the dough kneading area 1 from the communication position to cause the dough to be too dispersed, which is not beneficial for the dough kneading area 1 to round the dough into a dough. When dough needs to enter the transmission channel after being rounded in the dough kneading area 1, the position of the dough extrusion guide cover 203 is raised, and the whole communication position is not shielded by the dough extrusion guide cover 203 any more, so that the dough can smoothly enter the transmission channel and contact with the screw 201. At this moment, the rotation direction of the screw 201 is changed, so that the screw 201 generates a transmission force on dough, the dough completely enters the transmission channel under the stirring and extruding actions of the stirring and stirring assembly and the force action of the screw 201, and is conveyed to the communication position at the other end under the action of the screw 201. By repeating the processes, the repeated extrusion of the dough is realized, and the strength of the dough is improved.

Referring to fig. 5 and 6, the apparatus further comprises an automatic door 3, and the automatic door 3 is operable at all of the communication points between the dough mixing section 1 and the transfer passage so that at least one of the communication points is blocked. When the screw 201 kneads dough, the automatic gate 3 is used to close the communication position nearest to the dough, and prevent the dough just entering the conveying channel from returning to the dough mixing area 1 from the dough extruding hole 216. Specifically, a rack 301 is disposed at the top end of the automatic door 3, the rack 301 is engaged with a first gear 302, the first gear 302 is connected with a first motor 303, and the first motor 303 drives the automatic door 3 to slide along the junction of the dough mixing area 1 and the transmission channel when rotating.

Referring to the attached figure 1, the outer wall of at least one dough kneading area 1 in the dough kneading area 1 is provided with an opening and closing door 104, initially, flour and water are added into the dough kneading area 1 through the opening and closing door 104, then the flour and the water are repeatedly extruded by a screw 201 to reach proper strength, the flour and the water enter the dough kneading area 1 provided with the opening and closing door 104, the flour and the water enter other functional components from the opening and closing door 104 under the stirring and extruding actions of a stirring and stirring component after the flour kneading area 1 is rounded, generally, the opening and closing door 104 is provided with a forming mechanism, dough rounded by the dough kneading area 1 directly falls into the forming mechanism from the opening and closing door 104, the forming of the dough is facilitated, and the conveying steps of the dough are also reduced. Specifically, one side of the opening and closing door 104 is connected with the side wall of the dough mixing area 1 through a torsion spring and a hinge 105; the opening/closing door 104 is connected to one end of a link 106, and the other end of the link 106 is connected to an output shaft of a third motor 107. When dough is discharged, the third motor 107 drives the connecting rod 106 to rotate anticlockwise, and the opening and closing door 104 can be automatically opened due to the elasticity of the torsion spring; when the opening and closing door 104 needs to be closed, the connecting rod 106 rotates clockwise to close the opening and closing door 104.

In order to reduce the volume of the whole device, the first driving device drives the stirring toggle assembly and the screw 201 to synchronously rotate. Specifically, the first driving device includes a second motor 208, an output shaft of the second motor 208 is connected to one end of a gear fixing shaft 210 through a coupling 209, and the other end of the gear fixing shaft 210 is connected to the screw 201 through a connector 211. The gear fixing shaft 210 is sleeved with a third gear 212, the third gear 212 and the second gear 108; the bottom end of each stirring rod 101 is provided with a worm gear 109, the stirring rods 101 are synchronously driven by a worm 110, and the second gear 108 is connected to one end of the worm 110. Referring to fig. 7 to 9, in the embodiment, one end of the first driving device connected to the connector 211 is one end of the gear fixing shaft 210, the gear fixing shaft 210 and one end of the screw 201 for connecting the connector 211 both include a connecting column 213 and a clamping column 214, the clamping column 214 is vertically disposed on the connecting column 213, and the clamping column 214 on the gear fixing shaft 210 and the clamping column 214 on the screw 201 are perpendicular to each other; the both ends of connector 211 are provided with first drive arrangement installation draw-in groove and screw rod installation draw-in groove respectively, and first drive arrangement, 201 decibels of screw rod and connector 211 joint, the inside sunken spring mounting portion that forms in middle part of first drive arrangement installation draw-in groove is provided with spring 215 in the spring mounting portion, the one end of spring 215 and first drive arrangement's tip butt. The spring 215 is embedded in the quick-change connector, the extrusion screw 201 can be clamped tightly, and the quick-change connector can also stretch out and draw back, so that the effect of quick replacement is achieved. When the gear fixing shaft 210 and the screw 201 are installed with the quick connector 211, the end parts of the gear fixing shaft 210 and the screw 201 are directly inserted into the gear fixing shaft installation clamping groove and the screw installation clamping groove, the installation is very convenient, and the existence of the spring 215 enables the screw 201 to be telescopic in the axial direction, so that the probability of faults caused by axial stress in the surface pressing process of the screw 201 is reduced.

The above is only the preferred embodiment of the present invention, the present invention is not limited to the above embodiment, there may be local minor structural modification in the implementation process, if it is right that various modifications or variations of the present invention do not depart from the spirit and scope of the present invention, and belong to the claims and the equivalent technical scope of the present invention, then the present invention is also intended to include these modifications and variations.

Claims (10)

1. An integrated dough kneading device is characterized by at least comprising two dough kneading areas, wherein a transmission channel is communicated with each dough kneading area, a screw is arranged in the transmission channel, and the screw is connected with a first driving device; the stirring and stirring assembly is arranged in at least one dough kneading area and can push the dough in the dough kneading area to a communication part of the conveying channel and the dough kneading area so that the dough contacts the screw rod; the first driving device can drive the screw to rotate forwards or backwards to bring the dough into the conveying channel from the dough kneading zone and knead the dough in the conveying channel to convey the dough to other dough kneading zones along the conveying channel.

2. The integrated dough kneading apparatus according to claim 1, further comprising an automatic gate operable at the communication between all dough kneading zones and the transfer passage to block at least one communication.

3. The integrated dough kneading device according to claim 2, wherein a rack is provided at the top end of the automatic door, the rack is engaged with a first gear, the first gear is connected with a first motor, and the first motor drives the automatic door to slide along the junctions of all dough kneading areas and the conveying channel when rotating.

4. The integrated dough kneading device according to claim 1, further comprising a bottom plate and an arc-shaped upper cover, wherein the inner channel formed by splicing the upper cover and the bottom plate is a transmission channel; the upper cover is formed by splicing at least two sections of cambered cover plates, the cover plate corresponding to the communication position is a dough extrusion guide cover, and the length of the dough extrusion guide cover is not less than that of the communication position; the dough extrusion guide cover is connected with a second driving device, and the second driving device can drive the dough extrusion guide cover to move up and down.

5. The integrated dough kneading apparatus of claim 4, wherein the outermost end of the dough extruding guide cap is provided with a dough extruding hole at a side thereof adjacent to the dough kneading zone.

6. The integrated dough kneading apparatus of claim 1, wherein the stirring toggle assembly comprises a stirring rod, and stirring blades are disposed on the stirring rod.

7. The integrated dough kneading apparatus of claim 6, wherein all the stirring and stirring mechanisms are connected to the same worm gear mechanism, so that the worm gear mechanism drives all the stirring and stirring mechanisms to rotate synchronously.

8. The integrated dough kneading apparatus of claim 7, wherein the first driving means drives the stirring dial assembly and the screw to rotate synchronously.

9. The integrated dough kneading device according to claim 1, wherein the screw is connected with the first driving device through a connector, one end of the first driving device, one end of the screw connected with the connector are provided with a connecting column and a clamping column, the clamping column is perpendicular to the connecting column, and the clamping column of the first driving device is perpendicular to the clamping column of the screw; the both ends of connector are provided with first drive arrangement installation draw-in groove and screw rod installation draw-in groove respectively, first drive arrangement, screw rod decibel and connector joint, the inside sunken spring mounting portion that forms in middle part of first drive arrangement installation draw-in groove, be provided with the spring in the spring mounting portion, the one end of spring with first drive arrangement's tip butt.

10. The integrated dough kneading apparatus of claim 1, wherein at least one of the dough kneading blocks is provided with an opening/closing door.

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