CN216983340U - Rotary rolling bionic extrusion type dough mixing machine - Google Patents

Abstract

The utility model relates to a rotary rolling bionic extrusion type dough kneading machine, which comprises a rack and a dough kneading machine pot body arranged on the rack, wherein a sliding partition door is arranged on the dough kneading machine pot body, the partition door divides the interior of the dough kneading machine pot body into an upper dough mixing cavity and a lower discharging cavity, and the partition door is driven by an opening and closing mechanism; the two sides of the dough kneading pot body are respectively provided with a stirrer, and the stirrers are driven by a dough kneading driving mechanism; the dough kneading machine pot body located at the discharging cavity is internally provided with a rolling pin arranged along the horizontal direction, and the rolling pin is driven by a discharging mechanism. The utility model has the advantages that: the function that irregular big dough after having accomplished the dough passes through the mechanism and becomes controllable rectangular at the uniform velocity and send out has solved big dough and has handled and waste time and energy, and the not good problem of final form. Has the advantages of safety, reliability, high production efficiency, good production quality and simplified production flow.

Description

Rotary rolling bionic extrusion type dough mixing machine

Technical Field

The utility model relates to a rotary-rolling bionic extrusion type dough mixer, and relates to the field of food processing machinery.

Background

The existing wheaten food and flour equipment industry generally adopts to make dough and accomplish the back and wholly empty to this takes out the dough, and a monoblock dough is too big moreover, needs the manual work to cut, then puts on the conveyer line, and the dough is too thick increases calendering equipment, under the many-sided factor, leads to former equipment to increase cost of labor cost equipment cost time cost.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a rotary rolling bionic extrusion dough mixer, which adopts the technical scheme that:

a rotary rolling bionic extrusion type dough kneading machine comprises a rack and a dough kneading machine pot body arranged on the rack, wherein a sliding partition door is arranged on the dough kneading machine pot body, the partition door divides the interior of the dough kneading machine pot body into an upper dough kneading cavity and a lower discharging cavity, and the partition door is driven by an opening and closing mechanism; the two sides of the dough kneading pot body are respectively provided with a stirrer, and the stirrers are driven by a dough kneading driving mechanism; be located install along the rolling of horizontal direction setting in the flour-mixing machine pot body of play material chamber department, the rolling drive through discharge mechanism, the mechanism that opens and shuts and the actuating mechanism that kneads dough all install the frame on, this discharge mechanism, the mechanism that opens and shuts and the actuating mechanism access control box that kneads dough.

The dough kneading driving mechanism comprises a first bevel gear reducer and a transmission shaft, wherein the outer end of a rotating shaft of one stirrer extends to the outside of the dough kneading machine pot body and then is in transmission connection with a first driving unit, and the outer end of a rotating shaft of the other stirrer extends to the outside of the dough kneading machine pot body and then is in transmission connection with a second driving unit; the transmission shaft is rotatably arranged on the rack through a vertical bearing with a seat, one end of the transmission shaft is provided with a driven gear, the other end of the transmission shaft is provided with a transmission chain wheel, the first driving unit is driven through a first bevel gear reducer, and the second driving unit is driven through the transmission chain wheel; and a driving gear is sequentially arranged on an output shaft of the first bevel gear reducer and is meshed with the driven gear.

The first driving unit comprises a first driving chain wheel and a first driving chain, the first driving chain wheel is arranged on an output shaft of the bevel gear reducer, a transmission chain wheel is arranged on a rotating shaft of the stirrer close to the first driving unit, and the first driving chain wheel and the transmission chain wheel are in transmission connection through the first driving chain; the second driving unit comprises a second driven chain wheel and a driven chain, the second driven chain wheel is installed on a rotating shaft of the stirrer close to the second driving unit, and the second driven chain wheel is in transmission connection with the transmission chain wheel through the driven chain.

The opening and closing mechanism comprises an air cylinder, a sliding support piece and a rocker arm, the air cylinder is installed on the rack through a bolt, a lead screw is installed on a push rod of the air cylinder, and the lead screw is hinged with the partition door through a joint bearing; both sides of the upper part of the partition door are rotatably arranged on the dough kneading machine pot body through a rocker arm 7, and both sides of the lower part of the partition door are in sliding fit with a sliding support piece arranged on the dough kneading machine pot body.

The outside of the dough kneading machine pot body is provided with a partition door supporting bar, and when the partition door is opened, the partition door supporting bar supports the partition door.

A partition door scraper is arranged in the dough kneading machine pot body and is close to the partition door, and when the partition door enters the dough kneading machine pot body, the partition door scrapes the dough.

The discharging mechanism comprises a second bevel gear reducer, a third driving chain wheel, a second driving chain and a third driven chain wheel, the second bevel gear reducer is installed at the bottom of the rack, the third driving chain wheel is installed on an output shaft of the bevel gear reducer, the third driven chain wheel is installed at one end of a rotary roller, and the rotary roller is installed on the dough kneading machine pot body through a bearing seat assembly; and the third driving chain wheel is in transmission connection with the third driven chain wheel through a second driving chain, and a blanking port is formed at one side of the pan body of the dough kneading machine.

The stirrer is arranged on a supporting side plate through a bearing seat assembly, and the supporting side plate is arranged outside the dough kneading machine pot body.

The two stirrers are symmetrically arranged on the dough kneading machine pot body, and the stirring parts of the stirrers are positioned inside the dough kneading machine pot body.

The utility model has the advantages that: the function that irregular big dough after having accomplished the dough passes through the mechanism and becomes controllable rectangular at the uniform velocity and send out has solved big dough and has handled and waste time and energy, and the not good problem of final form. The dough kneading machine has the advantages of safety, reliability, high production efficiency, good production quality and simplified production flow, simultaneously dough after the dough kneading process is finished is sent out at a constant speed, the size of the dough is uniform, and a large amount of labor cost and time cost are reduced.

Drawings

Fig. 1 is a schematic view of the main structure of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a schematic structural view of the discharging mechanism in fig. 1.

Fig. 4 is another schematic structure of the present invention.

Fig. 5 is a side view of fig. 1.

Detailed Description

The utility model is further described below in conjunction with specific embodiments, and the advantages and features of the utility model will become more apparent as the description proceeds. These examples are illustrative only and do not limit the scope of the present invention in any way. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model, and that such changes and modifications may be made without departing from the spirit and scope of the utility model.

Referring to fig. 1 to 5, the utility model relates to a rolling bionic extrusion type dough mixer, which comprises a frame 1 and a dough mixer pot body 9 mounted on the frame 1, wherein a sliding partition door 15 is arranged on the dough mixer pot body 9, the partition door 15 divides the interior of the dough mixer pot body 9 into an upper dough mixing cavity and a lower material outlet cavity, and the partition door 15 is driven by an opening and closing mechanism; the two sides of the dough kneading pot body 9 are respectively provided with a stirrer 23, and the stirrers 23 are driven by a dough kneading driving mechanism; be located install in the dough mixer pot body 9 of play material chamber department and roll 22 along the whirl that the horizontal direction set up, whirl roll 22 through the discharge mechanism drive, discharge mechanism, the mechanism that opens and shuts and the actuating mechanism that kneads dough all install the frame on, this discharge mechanism, the mechanism that opens and shuts and the actuating mechanism access control box that kneads dough.

The dough kneading driving mechanism comprises a first bevel gear reducer 2 and a transmission shaft 8, wherein the outer end of a rotating shaft of one stirrer 23 extends to the outside of the dough kneading machine pot body 9 and then is in transmission connection with a first driving unit, and the outer end of a rotating shaft of the other stirrer extends to the outside of the dough kneading machine pot body 9 and then is in transmission connection with a second driving unit; the transmission shaft 8 is rotatably arranged on the frame 1 through a vertical type belt bearing 12, one end of the transmission shaft 8 is provided with a driven gear, the other end of the transmission shaft 8 is provided with a transmission chain wheel 6, the first driving unit is driven through a first bevel gear reducer 2, and the second driving unit is driven through the transmission chain wheel 6; a driving gear 3 is sequentially mounted on an output shaft of the first bevel gear reducer 2, and the driving gear 3 is engaged with the driven gear.

The first driving unit comprises a first driving chain wheel 4 and a first driving chain 5, the first driving chain wheel 4 is arranged on an output shaft of the bevel gear reducer 2, a transmission chain wheel 6 is arranged on a rotating shaft of the stirrer close to the first driving unit, and the first driving chain wheel 4 and the transmission chain wheel 6 are in transmission connection through the first driving chain 5; the second driving unit comprises a second driven chain wheel and a driven chain 10, the second driven chain wheel is installed on a rotating shaft of the stirrer close to the second driving unit, and the second driven chain wheel is in transmission connection with the driving chain wheel 6 through the driven chain 10.

The opening and closing mechanism comprises an air cylinder 16, a sliding support piece 14 and a rocker arm 7, wherein the air cylinder 16 is installed on the rack 1 through a bolt, a lead screw is installed on a push rod of the air cylinder 16, and the lead screw is hinged with the partition door 15 through a joint bearing; both sides of the upper part of the partition door 15 are rotatably arranged on the dough kneading machine pot body 9 through the rocker arm 7, and both sides of the lower part of the partition door 15 are in sliding fit with the sliding support piece 14 arranged on the dough kneading machine pot body 9.

The outside of the dough kneading machine pot body 9 is provided with a door support bar 25, when the door 15 is opened, the door support bar 25 supports the door 15.

A partition scraper 24 is arranged in the dough kneading machine pot body 9, the partition scraper 24 is close to the partition 15, and when the partition 15 enters the dough kneading machine pot body 9, the partition 15 scrapes.

The discharging mechanism comprises a second bevel gear speed reducer 20, a third driving chain wheel 19, a second driving chain 18 and a third driven chain wheel 17, the second bevel gear speed reducer 20 is installed at the bottom of the rack 1, the third driving chain wheel 19 is installed on an output shaft of the bevel gear speed reducer 20, the third driven chain wheel 17 is installed at one end of a rolling pin 22, and the rolling pin 22 is installed on the dough kneading machine pot body 9 through a bearing seat assembly 21; the third driving chain wheel 19 and the third driven chain wheel 17 are in transmission connection through a second driving chain 18, and a blanking port is formed at one side of the dough kneading machine pot 9.

The stirrer 23 is mounted on a supporting side plate 11 through a bearing seat assembly 13, and the supporting side plate is arranged outside the dough mixer pot 9.

The two stirrers 23 are symmetrically arranged on the dough mixer pot 9, and the stirring part of the stirrers 23 is positioned inside the dough mixer pot 9.

The working principle of the utility model is as follows: after the compartment door 15 is closed (dough kneading machine pot internal portion forms with a chamber and a discharge chamber), pour raw and other materials into dough kneading machine pot 9, first bevel gear speed reducer 2 operation, drive sprocket 4 through output shaft connection drives drive chain 5 drive sprocket 6, the rotatory agitator 23 that drives first drive unit of drive sprocket 6 moves, driving gear 3 is still being connected to 2 output shafts of first bevel gear speed reducer, driving gear 3 drives transmission shaft 8 through driven gear and rotates, when transmission shaft 8 rotates, drive transmission sprocket 6 and rotate, when transmission sprocket 6 moves, drive second driven sprocket through driven chain 10, and then the operation of another agitator has been driven. The two side mixers 23 rotate synchronously because the sprocket sets on the two sides are the same and the two sides rotate synchronously through the transmission shafts.

After the dough kneading process is completed, a push rod of the air cylinder 16 extends out, the baffle door 15 is pulled out from the dough kneading machine pot body 9 through the sliding support piece 14, the flour stained on the baffle door 15 is removed through the baffle door scraper 24, the dough falls into a discharging cavity of the dough kneading machine pot body 9 after the baffle door 15 completes the action, the second bevel gear reducer 20 starts to operate, a third driving sprocket 19 is installed on an output shaft of the second bevel gear reducer 20, the third driving sprocket 19 drives the second driving chain 18, the third driven sprocket 17 drives the rolling piece 22 to rotate at the bottom of the dough kneading machine pot body 9 under the support of the bearing seat component 21, and large dough is refined and sent out at a constant speed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the utility model concepts of the present invention in the scope of the present invention.

Claims (9)

1. A rotary rolling bionic extrusion type dough kneading machine is characterized by comprising a rack and a dough kneading machine pot body arranged on the rack, wherein a sliding partition door is arranged on the dough kneading machine pot body, the partition door divides the interior of the dough kneading machine pot body into an upper dough kneading cavity and a lower discharging cavity, and the partition door is driven by an opening and closing mechanism; two sides of the pan body of the dough kneading machine are respectively provided with a stirrer, and the stirrers are driven by a dough kneading driving mechanism; be located the dough mixing machine pot internal installation of play material chamber department is rolled soon along the horizontal direction setting, roll soon through the discharge mechanism drive, discharge mechanism, the mechanism of opening and shutting and the actuating mechanism that kneads dough all install the frame on, this discharge mechanism, the mechanism of opening and shutting and the actuating mechanism access control case that kneads dough.

2. The rotary-rolling bionic extrusion dough mixer of claim 1, wherein the dough mixing driving mechanism comprises a first bevel gear reducer and a transmission shaft, wherein the outer end of the rotating shaft of one stirrer extends to the outside of the dough mixer pot and then is in transmission connection with the first driving unit, and the outer end of the rotating shaft of the other stirrer extends to the outside of the dough mixer pot and then is in transmission connection with the second driving unit; the transmission shaft is rotatably arranged on the rack through a vertical type bearing with a seat, one end of the transmission shaft is provided with a driven gear, the other end of the transmission shaft is provided with a transmission chain wheel, the first driving unit is driven by a first bevel gear reducer, and the second driving unit is driven by the transmission chain wheel; and a driving gear is sequentially arranged on an output shaft of the first bevel gear reducer and is meshed with the driven gear.

3. The rolling bionic extrusion dough mixer according to claim 2, wherein the first driving unit comprises a first driving sprocket and a first driving chain, the first driving sprocket is mounted on an output shaft of the bevel gear reducer, a transmission sprocket is mounted on a rotating shaft of the stirrer close to the first driving unit, and the first driving sprocket and the transmission sprocket are in transmission connection through the first driving chain; the second driving unit comprises a second driven chain wheel and a driven chain, the second driven chain wheel is installed on a rotating shaft of the stirrer close to the second driving unit, and the second driven chain wheel is in transmission connection with the transmission chain wheel through the driven chain.

4. The rolling bionic extrusion flour-mixing machine according to claim 2 or 3, wherein the opening and closing mechanism comprises a cylinder, a sliding support and a rocker arm, the cylinder is mounted on the frame through a bolt, a push rod of the cylinder is provided with a lead screw, and the lead screw is hinged with the partition door through a joint bearing; both sides of the upper part of the partition door are rotatably arranged on the dough kneading machine pot body through a rocker arm 7, and both sides of the lower part of the partition door are in sliding fit with a sliding support piece arranged on the dough kneading machine pot body.

5. The rotary-rolling bionic extrusion type dough mixer as claimed in claim 4, wherein a partition door supporting bar is arranged outside the pot body of the dough mixer, and when the partition door is opened, the partition door supporting bar supports the partition door.

6. The rotary-rolling bionic extrusion type dough kneading machine according to claim 5, wherein a partition door scraper is arranged inside the dough kneading machine pot body, is close to the partition door, and scrapes on the partition door when entering the dough kneading machine pot body.

7. The rolling bionic extrusion dough mixer of claim 1, wherein the discharging mechanism comprises a second bevel gear reducer, a third driving sprocket, a second driving chain and a third driven sprocket, the second bevel gear reducer is mounted at the bottom of the frame, the third driving sprocket is mounted on an output shaft of the bevel gear reducer, the third driven sprocket is mounted at one end of the rolling pin, and the rolling pin is mounted on a pan body of the dough mixer through a bearing block assembly; and the third driving chain wheel is in transmission connection with the third driven chain wheel through a second driving chain, and a blanking port is formed in one side of the pot body of the dough kneading machine.

8. The rolling bionic extrusion type dough mixer according to claim 1, wherein the stirrer is mounted on a supporting side plate through a bearing seat assembly, and the supporting side plate is arranged outside a pot body of the dough mixer.

9. The rolling bionic extrusion type dough mixer according to claim 8, wherein two stirrers are symmetrically arranged on the dough mixer pot body, and the stirring part of each stirrer is positioned inside the dough mixer pot body.

Images