CN112772688B - Automatic make cake device - Google Patents

Abstract

The invention relates to the field of food, in particular to an automatic cake making device, which can change the position of a stirring blade in a basin to fully stir the dough; the dough cutting device comprises a stirring device, a cutting device, a compressing device and a belt, wherein a rotary knob is rotated to drive a small cylinder to rotate and a gear to rotate, so that a first straight tooth and a second straight tooth are stretched or closed, the first stirring column and the second stirring column are stretched or closed, the positions of two stirring blades in a basin body are adjusted, and the stirring effect can be changed according to the amount of flour; when the position of the second motor in the sliding groove is changed, the rotating speed of the half gear is changed, the reciprocating speed of the straight teeth three is changed, the vertical reciprocating speed of the base is changed, and the length of a cutting surface section is changed.

Description

Automatic make cake device

Technical Field

The invention relates to the field of food, in particular to an automatic cake making device.

Background

The device for making the cakes is a common food processing machine, but the general cake making is operated manually, the efficiency is low, and the function is single.

Disclosure of Invention

The invention aims to provide an automatic dough cake making device, which can change the position of a stirring blade in a basin to fully stir dough; the motor position can be varied to vary the speed of the cutter's descent and thus cut a desired length of dough.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an automatic make cake device, includes agitating unit, cutting device, compressor arrangement, belt, agitating unit is connected with cutting device, and cutting device is connected with compressor arrangement, and cutting device is connected with the belt, and compressor arrangement is connected with the belt.

As a further optimization of the technical scheme, the invention relates to an automatic dough cake making device which comprises a motor I, a support I, a connecting column, a gear I, a gear II, a connecting column II, a connecting rod I, a connecting column III, a stirring shell, a connecting rod II, a connecting rod III, a scraping panel, a basin body, a stirring column I, a straight tooth I, a spring, a stirring column II, a straight tooth II, a gear III, a gear shell, a small cylinder, a rotary knob, a connecting column IV, a small cylinder II, a conical tooth, a connecting column V, a support II, a stirring blade and a door panel, wherein the motor I is fixedly connected with the support I, the motor I is fixedly connected with the connecting column I, the connecting column I is fixedly connected with the gear I, the gear I is in meshing transmission with the gear II, the gear II is fixedly connected with the connecting column II, the connecting column II is fixedly connected with the connecting rod I, the support I is fixedly connected with the connecting rod I, and the connecting column III are fixedly connected with the gear II, two connecting columns III are fixedly connected with the stirring shell, two connecting rods II are fixedly connected with the stirring shell, the connecting rods II are hinged with the connecting rods III, the connecting rods III are fixedly connected with the scraping panel, the two scraping panels are slidably connected with the basin body, the stirring column I is matched and connected with the straight tooth I, the two springs are fixedly connected with the straight tooth I, the stirring column II is matched and connected with the straight tooth II, the other two springs are matched and connected with the straight tooth II, the straight tooth I and the straight tooth II are meshed and connected with the gear III, the four springs are fixedly connected with the gear shell, the gear shell is rotatably connected with the small circular column, the small circular column is fixedly connected with the rotary knob, the straight tooth I and the straight tooth II are slidably connected with the gear shell, the connecting column IV is fixedly connected with the gear shell, the stirring shell is fixedly connected with the connecting column IV, the stirring column I and the stirring column II are matched and connected with the stirring shell, the middle-end bevel gear of the stirring column I and the middle-end bevel gear of the stirring column II are matched and connected with the bevel gear, the small cylinder II is fixedly connected with the bevel gear, the connecting column IV is rotatably connected with the small cylinder II, the bevel gear is fixedly connected with the connecting column V, the connecting column V is fixedly connected with the pot body, the support II is fixedly connected with the pot body, the two stirring blades are respectively hinged with the stirring column I and the stirring column II, and the door plate is matched and connected with the pot body.

As a further optimization of the technical scheme, the invention relates to an automatic pancake making device, which comprises a motor II, a rotating wheel I, a sliding groove, a half gear, a small cylinder III, a support IV, a straight tooth III, a fixed groove, a hinged column, a small notch, a function rod I, a small notch II, a function rod III, a function rod IV, a function rod V, a function rod VI, a frame, a round roller, a fixed column II, a transmission plate, a plastic block, a belt II, a fixed column III, a rotating wheel II, a rotating wheel III, a connecting column VI, a pushing column, a box body, a connecting rod VI, a base, a cutter and a feed opening, wherein the motor II is fixedly connected with the rotating wheel I, the rotating wheel II is connected with the sliding groove in a sliding manner, the half gear is fixedly connected with the small cylinder III, the small cylinder III is rotatably connected with the support IV, the straight tooth III is connected with the fixed groove in a sliding manner, and the straight tooth III is meshed with the half gear, the small groove opening is arranged on the fixed groove, the hinge column is connected with the small groove opening in a sliding manner, the hinge column is fixedly connected with a straight tooth III, the small groove opening II is arranged on the function rod I, the hinge column is connected with the small groove opening II in a sliding manner, the function rod I is connected with the function rod II in a hinged manner, the function rod III is connected with the function rod IV in a hinged manner, the function rod V is connected with the function rod VI in a hinged manner, the function rod I, the function rod III and the function rod V are all connected with the frame in a hinged manner, the function rod II, the function rod IV and the function rod VI are all connected with the cutter in a hinged manner, the round rollers are rotatably connected with the fixed column II, the three fixed columns II are all fixedly connected with the frame, the three round rollers are all cooperatively connected with the transmission plate, the shaping block is fixedly connected with the frame, the sliding groove is fixedly connected with the frame, the fixed groove is fixedly connected with the frame, the three round rollers are all cooperatively connected with the belt II, the fixed column III is rotatably connected with the rotating wheel II, and the fixed column is fixedly connected with the frame, the second rotating wheel is connected with the second belt in a matched mode, the third rotating wheel is connected with the sixth connecting column in a rotating mode, the sixth connecting column is fixedly connected with the frame, the third rotating wheel is connected with the second rotating wheel in a matched mode, the six pushing columns are all fixedly connected with the transmission plate, the box body is fixedly connected with the six connecting rods, the base is in sliding connection with the box body, the base is fixedly connected with the frame, the discharging opening is formed in the lower end of the base, the third fixing column is fixedly connected with the second support, and the third rotating wheel is connected with the belt in a matched mode.

As a further optimization of the technical scheme, the invention relates to an automatic dough cake making device, which comprises a motor III, a support bracket VII, a rotating wheel VII, a power rod, a sector gear I, a long groove, a connecting column VII, a back plate, a connecting column VIII, a sector gear II, a long arm I, a hinged column III, a long arm II, a connecting column IX, an upper pressure plate, a sliding plate and a lower pressure plate, wherein the motor III is fixedly connected with the support bracket VII, the motor III is fixedly connected with the rotating wheel VII, the rotating wheel VII is fixedly connected with the power rod, the long groove is arranged on the sector gear I, the two long grooves are both in sliding connection with the power rod, the two long grooves are both fixedly connected with the connecting column VII, the two back plates are both in rotating connection with the connecting column VII, the two back plates are both fixedly connected with the connecting column VIII, the hinged column III is fixedly connected with the back plate, the long arm I is rotatably connected with the hinged column III, the long arm I is hinged with the long arm II, the first fan-shaped teeth are hinged with the second long arms, the two second long arms are fixedly connected with the connecting column nine, the connecting column nine is fixedly connected with the upper pressing plate, the second long arms are fixedly connected with the upper pressing plate, the sliding plate is fixedly connected with the lower pressing plate, the sliding plate is fixedly connected with the base, and the seventh rotating wheel is connected with the belt in a matched mode.

The automatic device for making the flour cakes has the advantages that:

according to the automatic cake making device, the rotary knob is rotated to drive the small circular column to rotate, the gear three is driven to rotate, the straight tooth I and the straight tooth II are stretched or closed, the stirring column I and the stirring column II are stretched or closed, the positions of the two stirring blades in the basin body are adjusted, and the stirring effect can be changed according to the amount of flour; when the position of the second motor in the sliding groove is changed, the rotating speed of the half gear is changed, the reciprocating speed of the straight teeth three is changed, the vertical reciprocating speed of the base is changed, and the length of a cutting surface section is changed.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a first schematic structural diagram of a stirring apparatus according to the present invention;

FIG. 3 is a schematic structural view of a stirring device according to the present invention;

FIG. 4 is a schematic structural view III of a stirring device of the present invention;

FIG. 5 is a first schematic structural diagram of a cutting device according to the present invention;

FIG. 6 is a schematic structural diagram of a second cutting device according to the present invention;

FIG. 7 is a third schematic structural view of the cutting device of the present invention;

fig. 8 is a schematic view of the structure of the compressing device of the present invention.

In the figure: a stirring device 1; 1-1 of a motor I; 1-2 of a bracket I; 1-3 of connecting columns; 1-4 of a first gear; 1-5 parts of a second gear; connecting a second column 1-6; 1-7 of a first connecting rod; connecting column III 1-8; 1-9 parts of a stirring shell; 1-10 of a second connecting rod; connecting rods III 1-11; 1-12 of a shaving panel; 1-13 parts of a pot body; 1-14 parts of a stirring column I; 1-15 parts of straight teeth I; springs 1-16; 1-17 parts of a second stirring column; 1-18 parts of straight teeth II; gears three 1-19; 1-20 parts of gear shell; 1-21 parts of small cylinder; 1-22 of a knob; connecting column four 1-23; 1-24 parts of a small cylinder II; 1-25 of bevel gear; connecting a column five 1-26; 1-27 parts of a second bracket; 1-28 parts of stirring blades; door panels 1-29; a cutting device 2; a second motor 2-1; 2-2 parts of a first rotating wheel; 2-3 of a chute; 2-4 parts of a half gear; 2-5 parts of small cylinder; 2-6 parts of a bracket; 2-7 parts of straight teeth III; 2-8 parts of a fixed groove; hinge columns 2-9; 2-10 parts of small notch; 2-11 of a function rod I; 2-12 parts of a small notch II; 2-13 of a functional rod II; functional rods three 2-14; 2-15 functional rods; a function rod five 2-16; six functional rods 2-17; frames 2-18; 2-19 of round roller; 2-20 parts of a second fixing column; 2-21 parts of a transmission plate; 2-22 of a plastic block; 2-23 parts of a second belt; fixing columns III 2-24; 2-25 parts of a second rotating wheel; 2-26 parts of a rotating wheel III; connecting column six 2-27; 2-28 of the pushing column; 2-29 parts of a box body; 2-30 parts of a connecting rod; 2-31 of a base; 2-32 parts of a cutter; 2-33 parts of a feed opening; a compression device 3; 3-1 of a motor III; 3-2 parts of a bracket seven; 3-3 parts of a rotating wheel seven; 3-4 of a power rod; 3-5 of a first sector gear; long grooves 3-6; seven connecting columns 3-7; 3-8 of a back plate; connecting eight columns by 3-9; 3-10 parts of a second fan-shaped tooth; 3-11 of the long arm I; 3-12 parts of a hinge column III; 3-13 parts of a long arm II; nine connecting columns 3-14; 3-15 parts of an upper pressing plate; 3-16 of a sliding plate; 3-17 parts of a lower pressing plate; a belt 4.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-8, and an automatic cake making device comprises a stirring device 1, a cutting device 2, a compressing device 3 and a belt 4, wherein the stirring device 1 is connected with the cutting device 2, the cutting device 2 is connected with the compressing device 3, the cutting device 2 is connected with the belt 4, and the compressing device 3 is connected with the belt 4.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-8, and the stirring device 1 includes a first motor 1-1, a first bracket 1-2, a first connecting column 1-3, a first gear 1-4, a second gear 1-5, a second connecting column 1-6, a first connecting rod 1-7, a third connecting column 1-8, a stirring shell 1-9, a second connecting rod 1-10, a third connecting rod 1-11, a scraping plate 1-12, a pot body 1-13, a first stirring column 1-14, a first straight tooth 1-15, a spring 1-16, a second stirring column 1-17, a second straight tooth 1-18, a third gear 1-19, a gear shell 1-20, a small cylinder 1-21, a turning knob 1-22, a fourth connecting column 1-23, 1-24 parts of a small cylinder II, 1-25 parts of bevel gear, 1-26 parts of a connecting column V, 1-27 parts of a bracket II, 1-28 parts of a stirring blade and 1-29 parts of a door panel, wherein a motor I1-1 is fixedly connected with a bracket I1-2, a motor I1-1 is fixedly connected with a connecting column I1-3, a connecting column I1-3 is fixedly connected with a gear I1-4, a gear I1-4 is in meshing transmission with a gear II 1-5, a gear II 1-5 is fixedly connected with a connecting column II 1-6, a connecting column II 1-6 is fixedly connected with a connecting rod I1-7, a bracket I1-2 is fixedly connected with a connecting rod I1-7, two connecting columns III 1-8 are fixedly connected with a gear II 1-5, and two connecting columns III 1-8 are fixedly connected with a stirring shell 1-9, two connecting rods II 1-10 are fixedly connected with stirring shells 1-9, two connecting rods II 1-10 are hinged with connecting rods III 1-11, connecting rods III 1-11 are fixedly connected with scraping face plates 1-12, two scraping face plates 1-12 are slidably connected with basin bodies 1-13, stirring columns I1-14 are connected with straight teeth I1-15 in a matching way, two springs 1-16 are fixedly connected with straight teeth I1-15, stirring columns II 1-17 are connected with straight teeth II 1-18 in a matching way, the other two springs 1-16 are connected with straight teeth II 1-18 in a matching way, the straight teeth I1-15 and the straight teeth II 1-18 are connected with gears III 1-19 in a meshing way, four springs 1-16 are fixedly connected with gear shells 1-20, and the gear shells 1-20 are rotatably connected with small cylinders 1-21, the small cylinders 1-21 are fixedly connected with the rotary buttons 1-22, the straight teeth I1-15 and the straight teeth II 1-18 are all in sliding connection with the gear shells 1-20, the connecting columns IV 1-23 are fixedly connected with the gear shells 1-20, the stirring shells 1-9 are fixedly connected with the connecting columns IV 1-23, the stirring columns I1-14 and the stirring columns II 1-17 are all in matching connection with the stirring shells 1-9, the cone teeth at the middle ends of the stirring columns I1-14 and the cone teeth at the middle ends of the stirring columns II 1-17 are all in matching connection with the cone teeth 1-25, the small cylinders II 1-24 are fixedly connected with the cone teeth 1-25, the connecting columns IV 1-23 are rotatably connected with the small cylinders II 1-24, the cone teeth 1-25 are fixedly connected with the connecting columns V1-26, the connecting columns V1-26 are fixedly connected with the pot bodies 1-13, the second support 1-27 is fixedly connected with the basin body 1-13, the two stirring blades 1-28 are respectively hinged with the first stirring column 1-14 and the second stirring column 1-17, and the door plate 1-29 is matched and connected with the basin body 1-13;

turning on the first motor 1-1 to drive the first gear 1-4 to rotate and the second gear 1-5 to rotate, driving the stirring shell 1-9 to rotate through the connection of the two connecting posts three 1-8, further driving the two connecting posts two 1-10 to rotate, driving the stirring posts one 1-14 and the stirring posts two 1-17 to rotate, so that the bevel teeth 1-25 are fixed on the basin body 1-13 to drive the stirring posts one 1-14 and the stirring posts two 1-17 to rotate, driving the connecting posts three 1-11 to rotate, driving the scraping panel 1-12 to rotate, sliding the scraping panel 1-12 and the basin body 1-13 to scrape the surface adhered on the basin body 1-13, and rotating the two stirring blades 1-28 along with the stirring posts one 1-14 and the stirring posts two 1-17, the stirring device has the advantages that the effect of fully stirring flour and water is achieved, the rotary knob 1-22 is rotated to drive the small cylinder 1-21 to rotate, the gear three 1-19 is driven to rotate, the straight tooth I1-15 and the straight tooth II 1-18 are stretched or closed, the stirring cylinder I1-14 and the stirring cylinder II 1-17 are stretched or closed, the positions of the two stirring blades 1-28 in the pot body 1-13 are adjusted, and the stirring effect can be changed according to the amount of the flour.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-8, and the cutting device 2 includes a second motor 2-1, a first rotating wheel 2-2, a first sliding groove 2-3, a half gear 2-4, a third small cylinder 2-5, a fourth support frame 2-6, a third straight gear 2-7, a fixed groove 2-8, a hinged column 2-9, a small groove 2-10, a first function rod 2-11, a second small groove 2-12, a second function rod 2-13, a third function rod 2-14, a fourth function rod 2-15, a fifth function rod 2-16, a sixth function rod 2-17, a frame 2-18, a round roller 2-19, a second fixed column 2-20, a transmission plate 2-21, a shaping block 2-22, and a second belt 2-23, 2-24 parts of a fixed column III, 2-25 parts of a rotating wheel II, 2-26 parts of a rotating wheel III, 2-27 parts of a connecting column six, 2-28 parts of a pushing column, 2-29 parts of a box body, 2-30 parts of a connecting rod six, 2-31 parts of a base, 2-32 parts of a cutter and 2-33 parts of a discharging port, 2-1 parts of a motor II and 2-2 parts of the rotating wheel I, 2-1 parts of the motor II and 2-3 parts of a sliding groove, 2-2 parts of the rotating wheel I and 2-4 parts of a half gear, 2-4 parts of the half gear and 2-5 parts of a small circular column III are fixedly connected, 2-5 parts of the small circular column III and 2-6 parts of a bracket are rotatably connected, 2-7 parts of a straight tooth III and 2-8 parts of a fixed groove are slidably connected, 2-7 parts of a straight tooth III and 2-4 parts of the half gear are in meshed transmission, 2-10 parts of the small groove opening is arranged on the fixed groove 2-8, the hinged columns 2-9 are connected with the small notches 2-10 in a sliding mode, the hinged columns 2-9 are fixedly connected with straight teeth three 2-7, the small notches two 2-12 are arranged on the function rods one 2-11, the hinged columns 2-9 are connected with the small notches two 2-12 in a sliding mode, the function rods one 2-11 are connected with the function rods two 2-13 in a hinged mode, the function rods three 2-14 are connected with the function rods four 2-15 in a hinged mode, the function rods five 2-16 are connected with the function rods six 2-17 in a hinged mode, the function rods one 2-11, the function rods three 2-14 and the function rods five 2-16 are connected with the frame 2-18 in a hinged mode, the function rods two 2-13, the function rods four 2-15 and the function rods six 2-17 are connected with the cutters 2-32 in a hinged mode, the circular rollers 2-19 are connected with the fixed columns two 2-20 in a rotating mode, three fixed columns two 2-20 are fixedly connected with the frame 2-18, three round rollers 2-19 are matched and connected with the transmission plate 2-21, the shaping block 2-22 is fixedly connected with the frame 2-18, the sliding chute 2-3 is fixedly connected with the frame 2-18, the fixed groove 2-8 is fixedly connected with the frame 2-18, the three round rollers 2-19 are matched and connected with the belt two 2-23, the fixed column three 2-24 is rotatably connected with the rotating wheel two 2-25, the fixed column three 2-24 is fixedly connected with the frame 2-18, the rotating wheel two 2-25 is matched and connected with the belt two 2-23, the rotating wheel three 2-26 is rotatably connected with the connecting column six 2-27, the connecting column six 2-27 is fixedly connected with the frame 2-18, the rotating wheel three 2-26 is matched and connected with the rotating wheel two 2-25, six pushing columns 2-28 are fixedly connected with transmission plates 2-21, box bodies 2-29 are fixedly connected with connecting rods six 2-30, bases 2-31 are slidably connected with the box bodies 2-29, the bases 2-31 are fixedly connected with frames 2-18, feed openings 2-33 are formed in the lower ends of the bases 2-31, fixing columns three 2-24 are fixedly connected with supports two 1-27, and rotating wheels three 2-26 are connected with a belt 4 in a matched mode;

the door plate 1-29 is opened to enable the neutralized surfaces of the pot bodies 1-13 to fall onto the transmission plates 2-21, the motor III 3-1 is opened to drive the rotating wheel III 3-3 to rotate, the belt 4 is driven to rotate, the rotating wheel III 2-26 is driven to rotate, the rotating wheel II 2-25 is driven to rotate, the belt II 2-23 is driven to rotate, the three round rollers 2-19 are driven to rotate, the transmission plates 2-21 are driven to rotate, the falling surfaces of the pot bodies 1-13 are further conveyed forwards, the surfaces are shaped through the shaping blocks 2-22, the motor II 2-1 is started to drive the rotating wheel I2-2 to rotate, the half gear 2-4 is driven to rotate, the straight teeth III 2-7 are driven to move upwards, the function rod I2-11 is driven to move upwards, the cutters 2-32 are driven to lift upwards through the hinged connection relationship, when the gearless surface of the half gear 2-4 moves to the position of the straight tooth III 2-7, the cutter 2-32 falls down to cut off the surface due to inertia, the reciprocating motion plays the role of a cutting surface, when the conveyor belt moves continuously, the pushing column 2-28 is driven to move, the box body 2-29 is driven to be pushed forward, when the conveyor belt moves to the feed opening 2-33, the surface section falls down from the feed opening 2-33 and falls into the compression device 3, when the position of the motor II 2-1 in the chute 2-3 is changed, the rotating speed of the half gear 2-4 is changed, the reciprocating speed of the straight tooth III 2-7 is changed, the vertical reciprocating speed of the base 2-31 is changed, and the length of the cutting surface section is changed.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 8, and the embodiment will be further described, wherein the compression device 3 includes a motor three 3-1, a bracket seven 3-2, a rotating wheel seven 3-3, a power rod 3-4, a sector tooth one 3-5, an elongated slot 3-6, a connecting column seven 3-7, a back plate 3-8, a connecting column eight 3-9, a sector tooth two 3-10, a long arm one 3-11, a hinge column three 3-12, a long arm two 3-13, a connecting column nine 3-14, an upper pressure plate 3-15, a sliding plate 3-16, and a lower pressure plate 3-17, the motor three 3-1 is fixedly connected with the bracket seven 3-2, the motor three 3-1 is fixedly connected with the rotating wheel seven 3-3, and the rotating wheel seven 3-3 is fixedly connected with the power rod 3-4, the elongated slot 3-6 is arranged on the fan-shaped tooth I3-5, the two elongated slots 3-6 are both in sliding connection with the power rod 3-4, the two elongated slots 3-6 are both fixedly connected with the connecting column VII 3-7, the two back plates 3-8 are both rotatably connected with the connecting column VII 3-7, the two back plates 3-8 are both fixedly connected with the connecting column VIII 3-9, the two fan-shaped teeth II 3-10 are both rotatably connected with the connecting column VIII 3-9, the hinge column III 3-12 is fixedly connected with the back plates 3-8, the long arm I3-11 is rotatably connected with the hinge column III 3-12, the long arm I3-11 is hinged with the long arm II 3-13, the fan-shaped tooth I3-5 is hinged with the long arm II 3-13, the two long arm II 3-13 are both fixedly connected with the connecting column VII-14, the connecting column nine 3-14 is fixedly connected with the upper pressure plate 3-15, the long arm II 3-13 is fixedly connected with the upper pressure plate 3-15, the sliding plate 3-16 is fixedly connected with the lower pressure plate 3-17, the sliding plate 3-16 is fixedly connected with the base 2-31, and the rotating wheel seven 3-3 is connected with the belt 4 in a matching way;

the noodle segments in the cutting device 2 enter the sliding plate 3-16 from the feed opening 2-33 and slide on the lower pressure plate 3-17, the motor III 3-1 is started to drive the rotating wheel VII 3-3 to rotate and drive the power rod 3-4 to move, further drive the two fan-shaped teeth I3-5 to reciprocate left and right, further drive the two long arms II 3-13 to reciprocate up and down, further drive the upper pressure plate 3-15 to reciprocate up and down, and thus the noodle segments are compressed into noodle cakes.

The invention relates to an automatic flour cake making device, which has the working principle that: turning on the first motor 1-1 to drive the first gear 1-4 to rotate and the second gear 1-5 to rotate, driving the stirring shell 1-9 to rotate through the connection of the two connecting posts three 1-8, further driving the two connecting posts two 1-10 to rotate, driving the stirring posts one 1-14 and the stirring posts two 1-17 to rotate, so that the bevel teeth 1-25 are fixed on the basin body 1-13 to drive the stirring posts one 1-14 and the stirring posts two 1-17 to rotate, driving the connecting posts three 1-11 to rotate, driving the scraping panel 1-12 to rotate, sliding the scraping panel 1-12 and the basin body 1-13 to scrape the surface adhered on the basin body 1-13, and rotating the two stirring blades 1-28 along with the stirring posts one 1-14 and the stirring posts two 1-17, the effect of fully stirring flour and water is achieved, the rotary buttons 1-22 are rotated to drive the small cylinders 1-21 to rotate, the gears three 1-19 are driven to rotate, the straight teeth I1-15 and the straight teeth II 1-18 are stretched or closed, the stirring cylinders I1-14 and the stirring cylinders II 1-17 are stretched or closed, the positions of the two stirring blades 1-28 in the pot body 1-13 are adjusted, and the stirring effect can be changed according to the amount of the flour; the door plate 1-29 is opened to enable the neutralized surface of the pot body 1-13 to fall onto the transmission plate 2-21, the motor three 3-1 is opened to drive the rotating wheel seven 3-3 to rotate, the belt (4) is driven to rotate, the rotating wheel three 2-26 is driven to rotate, the rotating wheel two 2-25 is driven to rotate, the belt two 2-23 is driven to rotate, the three round rollers 2-19 are driven to rotate, the transmission plate 2-21 is driven to rotate, the falling surface of the pot body 1-13 is further conveyed forwards, the surface is shaped through the shaping block 2-22, the motor two 2-1 is started, the rotating wheel one 2-2 is driven to rotate, the half gear 2-4 is driven to rotate, the straight teeth three 2-7 are driven to move upwards, the function rod one 2-11 is driven to move upwards, the cutter 2-32 is driven to lift upwards through the hinged connection relationship, when the gearless surface of the half gear 2-4 moves to the position of the straight tooth III 2-7, the cutter 2-32 falls down to cut off the surface due to inertia, the reciprocating motion plays the role of a cutting surface, when the conveyor belt moves continuously, the pushing column 2-28 is driven to move, the box body 2-29 is driven to be pushed forward, when the conveyor belt moves to the feed opening 2-33, the surface section falls down from the feed opening 2-33 and falls into the compression device 3, when the position of the motor II 2-1 in the chute 2-3 is changed, the rotating speed of the half gear 2-4 is changed, the reciprocating speed of the straight tooth III 2-7 is changed, the vertical reciprocating speed of the base 2-31 is changed, and the length of the cutting surface section is changed; the noodle segments in the cutting device 2 enter the sliding plate 3-16 from the feed opening 2-33 and slide on the lower pressure plate 3-17, the motor III 3-1 is started to drive the rotating wheel VII 3-3 to rotate and drive the power rod 3-4 to move, further drive the two fan-shaped teeth I3-5 to reciprocate left and right, further drive the two long arms II 3-13 to reciprocate up and down, further drive the upper pressure plate 3-15 to reciprocate up and down, and thus the noodle segments are compressed into noodle cakes.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides an automatic make cake device, includes agitating unit (1), cutting device (2), compressor arrangement (3), belt (4), its characterized in that: the stirring device (1) is connected with the cutting device (2), the cutting device (2) is connected with the compression device (3), the cutting device (2) is connected with the belt (4), and the compression device (3) is connected with the belt (4);

the stirring device (1) comprises a motor I (1-1), a bracket I (1-2), a connecting column (1-3), a gear I (1-4), a gear II (1-5), a connecting column II (1-6), a connecting rod I (1-7), a connecting column III (1-8), a stirring shell (1-9), a connecting rod II (1-10), a connecting rod III (1-11), a shaving board (1-12), a pot body (1-13), a stirring column I (1-14), a straight tooth I (1-15), a spring (1-16), a stirring column II (1-17), a straight tooth II (1-18), a gear III (1-19), a gear shell (1-20), a small cylinder (1-21), a rotary knob (1-22), Four connecting columns (1-23), two small circular columns (1-24), bevel gears (1-25), five connecting columns (1-26), two supports (1-27), stirring blades (1-28) and door plates (1-29), a first motor (1-1) is fixedly connected with a first support (1-2), a first motor (1-1) is fixedly connected with the connecting columns (1-3), the connecting columns (1-3) are fixedly connected with a first gear (1-4), a first gear (1-4) is in meshing transmission with a second gear (1-5), a second gear (1-5) is fixedly connected with a second connecting column (1-6), a second connecting column (1-6) is fixedly connected with a first connecting rod (1-7), a first support (1-2) is fixedly connected with a first connecting rod (1-7), two connecting columns III (1-8) are fixedly connected with gears II (1-5), two connecting columns III (1-8) are fixedly connected with stirring shells (1-9), two connecting rods II (1-10) are fixedly connected with stirring shells (1-9), connecting rods II (1-10) are hinged with connecting rods III (1-11), connecting rods III (1-11) are fixedly connected with scraping panels (1-12), two scraping panels (1-12) are slidably connected with pot bodies (1-13), stirring columns I (1-14) are matched and connected with straight teeth I (1-15), two springs (1-16) are fixedly connected with straight teeth I (1-15), stirring columns II (1-17) are matched and connected with straight teeth II (1-18), and other two springs (1-16) are matched and connected with straight teeth II (1-18), the first straight tooth (1-15) and the second straight tooth (1-18) are respectively in meshed connection with the third gear (1-19), the four springs (1-16) are respectively in fixed connection with the gear shell (1-20), the gear shell (1-20) is rotatably connected with the small cylinder (1-21), the small cylinder (1-21) is fixedly connected with the rotary knob (1-22), the first straight tooth (1-15) and the second straight tooth (1-18) are respectively in sliding connection with the gear shell (1-20), the connecting column (four) (1-23) is fixedly connected with the gear shell (1-20), the stirring shell (1-9) is fixedly connected with the connecting column (four) (1-23), the first stirring column (1-14) and the second stirring column (1-17) are respectively in matched connection with the stirring shell (1-9), and the middle end cone teeth of the first stirring column (1-14) and the middle end cone teeth of the second stirring column (1-17) are respectively in meshed connection with the cone teeth (1-19) 25) The small cylinder II (1-24) is fixedly connected with the bevel gear (1-25), the connecting column IV (1-23) is rotatably connected with the small cylinder II (1-24), the bevel gear (1-25) is fixedly connected with the connecting column V (1-26), the connecting column V (1-26) is fixedly connected with the pot body (1-13), the bracket II (1-27) is fixedly connected with the pot body (1-13), the two stirring blades (1-28) are respectively hinged with the stirring column I (1-14) and the stirring column II (1-17), and the door plate (1-29) is connected with the pot body (1-13) in a matching way;

the cutting device (2) comprises a motor II (2-1), a rotating wheel I (2-2), a sliding groove (2-3), a semi-gear (2-4), a small cylinder III (2-5), a support IV (2-6), a straight tooth III (2-7), a fixing groove (2-8), a hinge column (2-9), a small groove opening (2-10), a function rod I (2-11), a small groove opening II (2-12), a function rod II (2-13), a function rod III (2-14), a function rod IV (2-15), a function rod V (2-16), a function rod VI (2-17), a frame (2-18), a round roller (2-19), a fixing column II (2-20), a transmission plate (2-21), a shaping block (2-22), A belt II (2-23), a fixed column III (2-24), a rotating wheel II (2-25), a rotating wheel III (2-26), a connecting column VI (2-27), a pushing column (2-28), a box body (2-29), a connecting rod VI (2-30), a base (2-31), a cutter (2-32) and a discharging port (2-33), a motor II (2-1) is fixedly connected with the rotating wheel I (2-2), the motor II (2-1) is in sliding connection with a sliding chute (2-3), the rotating wheel I (2-2) is in matching connection with a half gear (2-4), the half gear (2-4) is fixedly connected with a small cylinder III (2-5), the small cylinder III (2-5) is in rotating connection with a support frame IV (2-6), a straight gear III (2-7) is in sliding connection with a fixed groove (2-8), a straight tooth three (2-7) is in meshing transmission with a half gear (2-4), a small notch (2-10) is arranged on a fixed groove (2-8), a hinge column (2-9) is in sliding connection with the small notch (2-10), the hinge column (2-9) is fixedly connected with the straight tooth three (2-7), a small notch two (2-12) is arranged on a function rod one (2-11), the hinge column (2-9) is in sliding connection with the small notch two (2-12), the function rod one (2-11) is in hinged connection with a function rod two (2-13), a function rod three (2-14) is in hinged connection with a function rod four (2-15), a function rod five (2-16) is in hinged connection with a function rod six (2-17), the function rod one (2-11) and the function rod three (2-14) are arranged in a fixed mode, A fifth functional rod (2-16) is hinged with the frame (2-18), a second functional rod (2-13), a fourth functional rod (2-15) and a sixth functional rod (2-17) are hinged with the cutter (2-32), round rollers (2-19) are rotatably connected with second fixed columns (2-20), three second fixed columns (2-20) are fixedly connected with the frame (2-18), three round rollers (2-19) are matched and connected with the transmission plate (2-21), a shaping block (2-22) is fixedly connected with the frame (2-18), a chute (2-3) is fixedly connected with the frame (2-18), a fixed groove (2-8) is fixedly connected with the frame (2-18), and three round rollers (2-19) are matched and connected with a second belt (2-23), a fixed column III (2-24) is rotationally connected with a rotating wheel II (2-25), the fixed column III (2-24) is fixedly connected with a frame (2-18), the rotating wheel II (2-25) is matched and connected with a belt II (2-23), the rotating wheel III (2-26) is rotationally connected with a connecting column VI (2-27), the connecting column VI (2-27) is fixedly connected with the frame (2-18), the rotating wheel III (2-26) is matched and connected with the rotating wheel II (2-25), six pushing columns (2-28) are all fixedly connected with a transmission plate (2-21), a box body (2-29) is fixedly connected with a connecting rod VI (2-30), a base (2-31) is slidably connected with the box body (2-29), and the base (2-31) is fixedly connected with the frame (2-18), the feed opening (2-33) is arranged at the lower end of the base (2-31), the fixed column III (2-24) is fixedly connected with the support II (1-27), and the rotating wheel III (2-26) is connected with the belt (4) in a matching way.

2. An automatic pancake making apparatus as claimed in claim 1, wherein: the compression device (3) comprises a motor III (3-1), a support VII (3-2), a rotating wheel VII (3-3), a power rod (3-4), a sector gear I (3-5), an elongated slot (3-6), a connecting column VII (3-7), a back plate (3-8), a connecting column VIII (3-9), a sector gear II (3-10), a long arm I (3-11), a hinged column III (3-12), a long arm II (3-13), a connecting column VII (3-14), an upper pressure plate (3-15), a sliding plate (3-16) and a lower pressure plate (3-17), the motor III (3-1) is fixedly connected with the support VII (3-2), the motor III (3-1) is fixedly connected with the rotating wheel VII (3-3), the rotating wheel VII (3-3) is fixedly connected with the power rod (3-4), the elongated slots (3-6) are arranged on the first fan-shaped teeth (3-5), the two elongated slots (3-6) are in sliding connection with the power rods (3-4), the two elongated slots (3-6) are fixedly connected with the seventh connecting column (3-7), the two back plates (3-8) are in rotating connection with the seventh connecting column (3-7), the two back plates (3-8) are in fixed connection with the eighth connecting column (3-9), the two second fan-shaped teeth (3-10) are in rotating connection with the eighth connecting column (3-9), the third hinge column (3-12) is fixedly connected with the back plates (3-8), the first long arm (3-11) is in rotating connection with the third hinge column (3-12), the first long arm (3-11) is in hinged connection with the second long arm (3-13), the first fan-shaped teeth (3-5) are in hinged connection with the second long arm (3-13), the two long arms II (3-13) are fixedly connected with the connecting column nine (3-14), the connecting column nine (3-14) is fixedly connected with the upper pressure plate (3-15), the long arms II (3-13) are fixedly connected with the upper pressure plate (3-15), the sliding plates (3-16) are fixedly connected with the lower pressure plate (3-17), the sliding plates (3-16) are fixedly connected with the bases (2-31), and the rotating wheel seven (3-3) is connected with the belt (4) in a matching mode.

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