CN204862763U - Griddle cake machine subassembly and domestic automatic griddle cake machine of kneading dough - Google Patents

Abstract

The utility model discloses a griddle cake machine subassembly and domestic automatic griddle cake machine of kneading dough, a griddle cake machine face subassembly alive includes: the (mixing) shaft, the piston head, the piston head is installed the lower extreme of (mixing) shaft, the stirring leaf, the stirring leaf is installed the piston head top on the (mixing) shaft, and the drive arrangement that kneads dough, the drive arrangement that kneads dough is used for the drive the (mixing) shaft is rotatory. The utility model provides a griddle cake machine subassembly of kneading dough, because the lower extreme of (mixing) shaft is provided with the piston head, the piston head can insert and form the sealed chamber of kneading dough in knead dough barrel's the bottom passageway, after the face of living is accomplished, piston head knead dough barrel's bottom passageway is taken out, the bottom passageway that the good dough of living passes through knead dough barrel gets into the clearance of going up between roast board and the lower roast board, realize cake of press and griddle cake, owing to saved dough conveying mechanism, consequently, do not require dough soft or hard degree, thereby do not need the high accuracy applying powder, the constant delivery pump refuels, added with water, domestic automatic griddle cake machine cost is reduced.

Description

Cake oven and face assembly and family expenses automatic cake baking machine

Technical field

The utility model relates to and baking with machinery or equipment, particularly relates to a kind of cake oven and face assembly and family expenses automatic cake baking machine.

Background technology

Existing Domestic cake baking machine, metering adds face, flow pump realizes measuring fuel filling, water, and wants glomeration behind face, then send method to be pressed into cake to cake press by motor, and then delivers between baking sheet and heat, and requires tighter for dough soft durometer.Therefore need high accuracy to add powder, constant displacement pump refuels, adds water, and after needing to detect dough hardness, adjustment adds face or oil, the complex mechanism of water and control system, therefore complex structure, and cost is high.

Summary of the invention

For above-mentioned prior art present situation, the utility model provides a kind of cake oven and face assembly and family expenses automatic cake baking machine, the technical problem solve existing Domestic cake baking machine and require that high accuracy adds powder because requiring high to dough soft durometer, constant displacement pump refuels, adding water.

In order to solve the problems of the technologies described above, a kind of cake oven face alive provided by the utility model assembly, described and face assembly comprises:

Shaft;

Piston head, described piston head is arranged on the lower end of described shaft;

Paddle, described paddle is arranged on the described shaft above described piston head; And

With face drive unit, described and face drive unit rotates for driving described shaft.

Wherein in an embodiment, described piston head is cylindrical.

Wherein in an embodiment, the upper end of described piston head is truncated cone.

Wherein in an embodiment, described paddle lower edge reclines mutually with described piston head end face.

Wherein in an embodiment, described and face drive unit comprises:

Stir face wheel, described in stir face wheel and be arranged at the upper end of described shaft, described in stir face wheel outer peripheral face on be provided with external tooth;

Large round wheel, the inner peripheral surface of described Large round wheel is provided with internal tooth, and this internal tooth engages with the described external tooth of taking turns on outer peripheral face in face that stirs;

Motor C;

First small belt pulley, described first small belt pulley is arranged on the output shaft of described motor C; With

First belt, described first belt is around on described first small belt pulley and described Large round wheel.

A kind of family expenses automatic cake baking machine provided by the utility model, also comprises above-mentioned with face assembly.

Compared with prior art, the cake oven that the utility model provides and face assembly and family expenses automatic cake baking machine, because the lower end of shaft is provided with piston head, piston head can insert in the foot passage of bakebread formed sealing with chamber, face, after the face of living completes, the foot passage of piston head bakebread is extracted out, the dough of having lived enters the gap between upper baking sheet and lower baking sheet by the foot passage of bakebread, realize cake of press and flapjack, owing to eliminating dough conveying mechanism, therefore to the not requirement of dough soft durometer, thus do not need high accuracy to add powder, constant displacement pump refuels, add water, reduce family expenses automatic cake baking machine cost.

The beneficial effect that the utility model additional technical feature has will be described in this description detailed description of the invention part.

Accompanying drawing explanation

Fig. 1-1 and Fig. 1-2 is respectively perspective view and the side-looking structural representation of the family expenses automatic cake baking machine in the utility model embodiment;

Fig. 2-1, Fig. 2-2, Fig. 2-3 be respectively family expenses automatic cake baking machine in the utility model embodiment automatically add flour, refuel, add water assembly perspective view, plan structure schematic diagram and look up structural representation, Fig. 2-4, Fig. 2-5 are respectively and automatically add flour, refuel, add the motion state diagram of bucket of water assembly, and Fig. 2-6, Fig. 2-7 are respectively and automatically add flour, refuel, add the first piston of water assembly and the motion state diagram of the second piston;

Fig. 3-1, Fig. 3-2 are respectively the baking sheet of the family expenses automatic cake baking machine in the utility model embodiment and the perspective view of face tub assembly and main TV structure schematic diagram;

Fig. 4-1, Fig. 4-2 are perspective view and the internal structure schematic diagram after removing side plate of the lifting assembly of family expenses automatic cake baking machine side in one of them embodiment of the utility model, and Fig. 4-3 is the perspective view of the lifting assembly of opposite side;

Fig. 5 is the structural representation of the lifting assembly of family expenses automatic cake baking machine side in another embodiment of the utility model.

Fig. 6-1, Fig. 6-2 be respectively family expenses automatic cake baking machine in the utility model embodiment with the perspective view of face assembly rotating part and main TV structure schematic diagram, Fig. 6-3, Fig. 6-4 be respectively family expenses automatic cake baking machine in the utility model embodiment with the perspective view seen from top to bottom and see from the bottom up of face assembly running part;

Fig. 7-1 is that the hook of family expenses automatic cake baking machine in the utility model embodiment hangs the structural representation closing disengagement structure, Fig. 7-2 is the perspective view that hook hangs the hook closing disengagement structure, Fig. 7-3 is that hook hangs the conjunction unhook seat of disengagement structure and the perspective view of unhook plate, and Fig. 7-4, Fig. 7-5, Fig. 7-6, Fig. 7-7, Fig. 7-8, Fig. 7-9, Fig. 7-10 are that hook hangs the motion state diagram closing disengagement structure;

Fig. 8-1 to Fig. 8-9 is the fundamental diagram of the family expenses automatic cake baking machine in the utility model embodiment.

Description of reference numerals: 100, frame, 102, base, the 104, first side plate, 104a, perpendicular guide groove, the 106, second side plate, 108, top board, 110, panel,

200, automatically flour is added, refuel, add water assembly, 202, water tank, 204, face case, 206, fuel tank, 207, supporting seat, 207a, cylindrical portion, 207b, slide groove portion, 207c, chute, 208, bucket, 208a, bucket body, 208b, sliding part, 208c, flour container cavity, 208d, first tooth bar, 209, baffle plate, 210, first gear, 212, first piston, 214, first cylinder body, 216, second cylinder body, 218, second piston, 220, second poke rod, 222, first poke rod, 224, motor D, 226, water feeding one-way valve, 228, go out water one-way valve, 230, in line check valve, 232, oil outlet one-way valve,

300 and face assembly, 302, piston head, 304, paddle, 306, shaft, 308, stir face wheel, 310, Large round wheel, the 312, first belt, the 313, first small belt pulley, 314, motor C,

400, baking sheet and face tub assembly, 402, motor A, 404, hook, 406, lower baking sheet, 408, spring, 410, upper baking sheet, 412, bakebread, 412a, epimere portion, 412b, center section part, 412c, hypomere portion, 414, the first slide rail, the 416, second slide rail, the 418, second gear, 420, the second tooth bar

500, lifting assembly, 502, installing plate, 504, lower link, 506, upper connecting rod, 508, the second belt, the 510, second small belt pulley, 512, motor B, 514, the 3rd gear, 516, transverse axis, 518, arm-tie, 520, big belt pulley, the 522, the 3rd tooth bar, 524, synchronizing sleeve, 526, bearing pin, 528, tranverse connecting rod, 530, motor E, 532, steel wire rope, 534, pulley

600, hook is hung and is closed disengagement structure, 602, hook base, and 604, hook, 604a, installation portion, 604b, hook portion, 604c, drive division, 604d, drive division, 606, unhook seat, 606a, spacing preiection, 608, unhook plate, the 610, second torsion spring, 612, rotating shaft, 614, limited block.

Detailed description of the invention

And the utility model is described in detail below with reference to the accompanying drawings in conjunction with the embodiments.It should be noted that, when not conflicting, the feature in following embodiment and embodiment can combine mutually.

As shown in Fig. 1-1,1-2, the family expenses automatic cake baking machine in one of them embodiment of the utility model comprises: frame 100, automatically add flour, refuel, add water assembly 200, baking sheet and face tub assembly 400 and face assembly 300, lifting assembly 500, hook hang and close disengagement structure 600 and control system.

Wherein, described frame 100 comprises base 102, first side plate 104, second side plate 106, top board 108 and panel 110, described first side plate 104 and described second side plate 106 are oppositely arranged, the lower end of described first side plate 104 and described second side plate 106 is fixed on base 102, upper end is connected with described top board 108, top board 108 is provided with the first circular hole (not shown), panel 110 covers on top board 108, panel 110 is provided with the second circular hole (not shown) corresponding with the first circular hole on top board 108.

Composition graphs 1-1, shown in Fig. 2-1 to Fig. 2-3, automatically flour is added, refuel, add water assembly to comprise and automatically add flour assembly, automatic oiling assembly and automatic watering assembly, wherein, automatically add flour assembly and comprise supporting seat 207, face case 204, bucket 208, baffle plate 209 and reinforced drive unit, described supporting seat 207 is fixed on the lower surface of the top board 108 of described frame 100, described supporting seat 207 has cylindrical portion 207a and slide groove portion 207b, described cylindrical portion 207a is relative with the first circular hole on described top board 108, described slide groove portion 207b is positioned at the side of described cylindrical portion 207a, described slide groove portion 207b is provided with the through chute 207c to described cylindrical portion 207a centre bore, described bucket 208 is loaded in described chute 207c, and can slidably reciprocate between closed position and open position, the sliding part 208b that described bucket 208 comprises bucket body 208a and is connected with bucket body 208a, bucket body 208a is provided with the flour container cavity 208c with open top and bottom opening, baffle plate 209 is arranged at the bottom opening place of flour container cavity 208c rotationally, described case 204 is positioned at the top of described bucket 208, and described case 204 has bottom opening.Described reinforced drive unit slidably reciprocates between closed position and open position for driving bucket 208, described reinforced drive unit in the present embodiment comprises motor D 224, first gear 210 and the first tooth bar 208d, described motor D 224 is arranged on described supporting seat 207, described first gear 210 is arranged on the output shaft of described motor D 224, described first tooth bar 208d is arranged in described bucket 208, and engages with described first gear 210.

As in Figure 2-4, when bucket 208 is in the closed position, the open top of flour container cavity 208c is relative with the bottom opening of face case 204, and the flour in face case 204 enters in flour container cavity 208c by gravity, and the bottom opening of flour container cavity 208c is closed by baffle plate 209.As shown in Figure 2-5, when bucket 208 is in an open position, flour container cavity 208c moves in cylindrical portion 207a centre bore, the bottom opening of flour container cavity 208c is opened, flour in flour container cavity 208c is fallen in bakebread 412 by gravity, and the bottom opening of face case 204 is closed by sliding part 208b.

Described automatic oiling assembly comprises fuel tank 206, first cylinder body 214, in line check valve 230, oil outlet one-way valve 232, first piston 212 and the first poke rod 222, described first cylinder body 214 is arranged at the side of described supporting seat 207, described first piston 212 is arranged in described first cylinder body 214, the middle part of described first poke rod 222 is installed in rotation on described supporting seat 207 by axle, one end of described first poke rod 222 is flexibly connected with the external part of described first piston 212, the other end is flexibly connected with described bucket 208, the import of described in line check valve 230 is communicated with described fuel tank 206, outlet and described first cylinder body 214 intracavity inter-connection, the import of described oil outlet one-way valve 232 and described first cylinder body 214 intracavity inter-connection, the intracavity inter-connection of outlet and described bakebread 412.Described automatic watering assembly comprises water tank 202, second cylinder body 216, water feeding one-way valve 226, go out water one-way valve 228, second piston 218 and the second poke rod 220, described second cylinder body 216 is arranged at the opposite side of described supporting seat 207, described second piston 218 is arranged in described second cylinder body 216, the middle part of described second poke rod 220 is installed in rotation on described supporting seat 207 by axle, one end of described second poke rod 220 is flexibly connected with the external part of described second piston 218, and the other end is flexibly connected with described bucket 208.The import of described water feeding one-way valve 226 is communicated with described water tank 202, outlet and the inner space of described second cylinder body 216, described in go out the import of water one-way valve 228 and described second cylinder body 216 intracavity inter-connection, the intracavity inter-connection of outlet and described bakebread 412.

As shown in figures 2-6, original position, does not have liquid in the first cylinder body 214 and the second cylinder body 216.When bucket 208 moves to open position by closed position, bucket 208 drives described first piston 212 and described second piston 218 outwards to move, at this moment in line check valve 230 and water feeding one-way valve 226 are opened, in water difference suction first cylinder body 214 in the oil in fuel tank 206 and water tank 202 and the second cylinder body 216 (see Fig. 2-7); When bucket 208 moves to closed position by open position, bucket 208 drives described first piston 212 and described second piston 218 inwardly to move, now oil outlet one-way valve 232 and go out water one-way valve 228 and open, hydraulic pressure in oil in first cylinder body 214 and the second cylinder body 216 enters in bakebread 412, realizes the operation automatically first adding face, rear oiling, water in order.

As Fig. 3-1, shown in Fig. 3-2, described baking sheet and face tub assembly 400 can be arranged to oscilaltion the first side plate 104 of described frame 100, between second side plate 106, described baking sheet and face tub assembly comprise the first slide rail 414, second slide rail 416, lower baking sheet 406, upper baking sheet 410, elastomeric element, bakebread 412 and baking sheet drive unit, wherein, described first slide rail 414 and described second slide rail 416 arranged in parallel, the relative edge of described lower baking sheet 406 two lays respectively in the chute of described first slide rail 414 and described second slide rail 416, and can slide between closed position and open position along chute, described upper baking sheet 410 is relatively arranged at above described lower baking sheet 406 with described lower baking sheet 406, described upper baking sheet 410 has near the closed position of described lower baking sheet 406 and the disconnected position away from described lower baking sheet 406, baking sheet 410 is provided with through hole on described.Described elastomeric element is arranged between described upper baking sheet 410 and described lower baking sheet 406.When described lower baking sheet 406 is positioned at closed position (see Fig. 3-1), described upper baking sheet 410 is relative with described lower baking sheet 406, and when described lower baking sheet 406 is positioned at open position, described upper baking sheet 410 and described lower baking sheet 406 stagger certain distance mutually.Described baking sheet drive unit moves between closed position and open position for driving described lower baking sheet 406, described baking sheet drive unit comprises motor A402, the second gear 418 and the second tooth bar 420, described motor A402 is arranged on described first slide rail 414, described second gear 418 is arranged on the output shaft of described motor A402, described second tooth bar 420 is arranged in described lower baking sheet 406, and described second tooth bar 420 engages with described second gear 418.

The lower end of described bakebread 412 is fixed in described upper baking sheet 410, and the center section part 412b that described bakebread 412 comprises hypomere portion 412c, epimere portion 412a above described hypomere portion 412c and is connected between described hypomere portion 412c and described epimere portion 412a, and the diameter of described hypomere portion 412c, described center section part 412b and described epimere portion 412a increases successively.Hypomere portion 412c is connected with the through hole in described upper baking sheet 410, and epimere portion 412a is relative with the cylindrical portion 207a of supporting seat 207.

Described lifting assembly 500 is for driving described baking sheet assembly 400 oscilaltion campaign, as Fig. 4-1, Fig. 4-2, shown in Fig. 4-3, described lifting assembly 500 comprises two to perpendicular guide groove 104a, two pairs of bearing pins 526, two pairs of arm-ties 518, two pairs of upper connecting rods 506, two pairs of lower links 504, two pairs of the 3rd tooth bars 522, transverse axis 516, installing plate 502, synchronizing sleeve 524, motor B512 and transmission mechanism, a pair perpendicular guide groove 104a is vertically arranged on the first side plate 104 of described frame 100 abreast, another is vertically arranged on second side plate 106 relative with described first side plate 104 of described frame 100 to perpendicular guide groove 104a abreast, a pair bearing pin 526 is arranged in perpendicular guide groove 104a described in a pair respectively, this a pair bearing pin 526 is connected with described first slide rail 414 of described baking sheet and face tub assembly 400, another is arranged at another in described perpendicular guide groove 104a respectively to bearing pin 526, and this pair bearing pin 526 is connected with described second slide rail 416 of described baking sheet and face tub assembly 400, a pair arm-tie 518 is arranged on the side of described first side plate 104 back to described second side plate 106, and another is arranged on the side of described second side plate 106 back to described first side plate 104 to arm-tie 518, often pair of upper connecting rod 506 arrangement in inverted "eight" shape, on a pair, the lower end of connecting rod 506 is connected with the movable upper end of arm-tie described in a pair 518 respectively, described in this pair, the upper end of upper connecting rod 506 is flexibly connected with bearing pin described in a pair 526 respectively, another is connected the movable upper end of the lower end of described upper connecting rod 506 respectively with another to described arm-tie 518, this another upper end of described upper connecting rod 506 is flexibly connected described bearing pin 526 with another, two pairs of described lower link 504 arrangements in "eight" shape, the upper end of a pair lower link 504 is flexibly connected with the lower end of arm-tie described in a pair 518 respectively, the lower end of this pair lower link 504 is flexibly connected with described first side plate 104, another is flexibly connected the lower end of the upper end of lower link 504 respectively with another to described arm-tie 518, this another lower end of described lower link 504 is flexibly connected with described second side plate 106, a pair the 3rd tooth bars 522 are laterally arranged on the side of described first side plate 104 back to described second side plate 106 abreast, the opposite face of these a pair the 3rd tooth bars 522 is provided with tooth, and one end of these a pair the 3rd tooth bars 522 is connected with arm-tie described in a pair 518 respectively, another is laterally arranged on the side of described second side plate 106 back to described first side plate 104 abreast to the 3rd tooth bar 522, this another be provided with tooth on the opposite face of the 3rd tooth bar 522, and this another one end of the 3rd tooth bar 522 is connected with arm-tie described in a pair 518 respectively, two the 3rd gears, 514, two the 3rd gears 514 lay respectively at two between two the 3rd tooth bars 522 in described 3rd tooth bar 522, and engage with these two the 3rd tooth bars 522, the two ends of described transverse axis 516 respectively three gear 514 described with two are connected, described installing plate 502 can be arranged on the side of described first side plate 104 back to described second side plate 106 up and down, and described motor B512 is arranged on described installing plate 502, described synchronizing sleeve 524 is fixed on described installing plate 502, and described in a pair, the 3rd tooth bar 522 is through described synchronizing sleeve 524, the output shaft of described motor B512 is connected with described transverse axis 516, transmission mechanism comprises the second small belt pulley 510, big belt pulley 520 and the second belt 508, and described second small belt pulley 510 is arranged on the output shaft of described motor B512, described big belt pulley 520 is arranged on described transverse axis 516, described second belt 508 is around on described second small belt pulley 510 and described big belt pulley 520.Described lifting assembly 500 also comprises: two pairs of tranverse connecting rods 528, and the two ends of a pair tranverse connecting rod 528 are connected with bearing pin described in a pair 526 respectively, and the two ends of a pair tranverse connecting rod 528 are connected described bearing pin 526 with another respectively.

During lifting assembly 500 start bit, a pair arm-tie 518 closes up; During rising, motor B512 energising rotates forward, described big belt pulley 520 is driven to rotate by the second small belt pulley 510, big belt pulley 520 drives transverse axis 516 to rotate, transverse axis 516 drives the 3rd gear 514 of the right and left to rotate, 3rd gear 514 makes the 3rd tooth bar 522 described in a pair seesaw, a pair arm-tie 518 is driven to separate or close up, a pair bearing pin 526 is driven to move up or down, thus realize baking sheet and face tub assembly 400 oscilaltion campaign, this lifting assembly lift is large, and stationarity is good.

Figure 5 shows that the structural representation of another kind of lifting assembly, it comprises motor E530, steel wire rope 532 and some pulleys 534, on the first side plate 104 that some pulleys 534 are fixed on frame 100 or the second side plate 106, steel wire rope 532 is around on some pulleys 534, steel wire rope 532 is connected with baking sheet and face tub assembly 400, motor E530 rotating drives the motion of steel wire rope 532 forward-reverse, thus drives baking sheet and face tub assembly 400 oscilaltion campaign.

As shown in Fig. 6-1, Fig. 6-2, Fig. 6-3 and Fig. 6-4, described and face assembly 300 comprises rotating part and running part, rotating part comprise shaft 306, piston head 302, paddle 304 and and Large round wheel 310, shaft 306 is positioned at described bakebread 412, described piston head 302 is arranged on the lower end of described shaft 306, described piston head 302 coordinates with described hypomere portion 412c, described piston head 302 is cylindrical, the upper end of piston head 302 has conical boss, drops in hypomere portion 412c to facilitate dough.Described paddle 304 is arranged on the described shaft 306 above described piston head 302, described paddle 304 lower edge reclines mutually with described piston head 302 end face, Large round wheel 310 is arranged on the upper end of described shaft 306, Large round wheel 310 can cover the first circular hole on top board 108, described in stir face wheel 308 outer peripheral face on be provided with external tooth.Running part comprises motor C314, the first small belt pulley 313 and the first belt 312, and described motor C314 is fixed on described top board 108; Described first small belt pulley 313 is arranged on the output shaft of described motor C314; Described first belt 312 is around on described first small belt pulley 313 and described Large round wheel 310.Describedly to be separated with bakebread about 412 with the rotating part of face assembly 300, when combining with the rotating part of face assembly 300 and bakebread 412, piston head 302 is positioned at hypomere portion 412c, the bottom opening of bakebread 412 is blocked, form chamber, face of living, for realization and surface function provide place, when being separated with bakebread 412 with the rotating part of face assembly 300, piston head 302 spins off in hypomere portion 412c, dough in bakebread 412 enters hypomere portion 412c, now, baking sheet and face tub assembly 400 move upward, by piston head 302, dough is pressed into thick cake.

As shown in Fig. 7-1, Fig. 7-2 and Fig. 7-3, hook is hung conjunction disengagement structure and is comprised limited block 614, hook base 602, hook the 604, first torsion spring, unhook seat 606, unhook plate 608 and the second torsion spring 610, what described limited block 614 was arranged on described frame 100 states on the first side plate 104 and described second side plate 106, for limiting the stroke that described upper baking sheet 410 moves upward; Described hook base 602 is arranged on the first slide rail 414 or the second slide rail 416; Described hook 604 has installation portion 604a, hook portion 604b and drive division 604c, described installation portion 604a is installed in rotation on described hook base 602, described hook portion 604b is connected with installation portion 604a, when described upper baking sheet 410 is in closed position, described hook portion 604b can hook the edge of described upper baking sheet 410, described drive division 604c extends along described hook 604 rotation direction, one end of described drive division 604c is connected with hook portion 604b by connecting portion 604d, and described drive division 604c has the first inclined-plane; Described first torsion spring is used for described hook 604 is resetted; Unhook seat 606 is arranged in frame 100, unhook seat 606 is provided with spacing preiection 606a; One end of unhook plate 608 is installed in rotation on unhook seat 606 by rotating shaft 612, unhook plate 608 has the second inclined-plane coordinated with described first inclined-plane; Second torsion spring 610 is contained in rotating shaft 612, resets for making unhook plate 608.

As shown in Fig. 7-4 to Fig. 7-10, when described baking sheet and face tub assembly 400 rise to the first desired location from original position, the first inclined-plane on described drive division 604c slides along the second inclined-plane on described unhook plate 608, drives described hook 604 to open; When described baking sheet and face tub assembly 400 continue to rise to the second desired location, upper baking sheet 410 at the move under influence of limited block 614 to closed position, first inclined-plane skids off the second inclined-plane (see Fig. 7-7) simultaneously, described hook 604 resets, the hook portion 604b of described hook 604 hooks described upper baking sheet 410 (see Fig. 7-8), and described unhook plate 608 resets under the effect of the second torsion spring 610; When baking sheet and face tub assembly 400 decline from extreme higher position, described drive division 604c skids off described unhook plate 608, and described hook 604 resets.

Hook in the utility model embodiment is hung and is closed disengagement structure, when can ensure there is cake between upper baking sheet 410 and lower baking sheet 406, hook can not hang conjunction, do not have to link up with and can hang conjunction during cake between upper baking sheet 410 and lower baking sheet 406, and ensure to drop to bottom together when hanging conjunction.

Control system is connected with motor A402, motor B512, motor C314 and motor D 224, for controlling motor A402, motor B512, motor C314 and motor D 224.

As shown in Fig. 8-1 to Fig. 8-9, the operation principle of the family expenses automatic cake baking machine in the utility model embodiment is as follows:

When A, initial position, baking sheet and face tub assembly 400 are positioned at bottom (see Fig. 8-1), and upper baking sheet 410 is in disconnected position;

When B, work, baking sheet and face tub assembly 400 move up to extreme higher position under the effect of lifting assembly 500, and described piston head 302 inserts in the hypomere portion 412c of bakebread 412, is blocked by hypomere portion 412c, form chamber, face of living; Upper baking sheet 410 rises to four limited block 614 places, stops.Lower baking sheet 406 continues to rise, and compresses four springs 408, and upper baking sheet 410 is fitted with lower baking sheet 406, and hook 604 hooks the edge of baking sheet 410, and lower baking sheet 406 is in closed position;

C, see Fig. 8-2, control system controls motor D 224 and works, and flour, oil and water are sent into respectively in bakebread 412, then, control system opens motor C314, drives paddle 304 to rotate to setting-up time and stops, realization and face operation by shaft 306;

D, see Fig. 8-3, after the face of living completes, lifting assembly 500 drives baking sheet and face tub assembly 400 to drop to extreme lower position from extreme higher position, described piston head 302 spins off from the hypomere portion 412c of bakebread 412, and open hypomere portion 412c, at this moment motor C314 is energized a few second again, the dough of becoming reconciled is under centrifugal force, Action of Gravity Field, fall in hypomere portion 412c by the gap between piston head 302 and bakebread 412, now, upper baking sheet 410 is also in closed position.

E, see Fig. 8-4, lifting assembly 500 drives baking sheet and face tub assembly 400 to rise from extreme lower position, and piston head 302 inserts in the hypomere portion 412c of bakebread 412 again, and dough is pressed into the thick pie of channel diameter;

E, see Fig. 8-5, baking sheet and face tub assembly 400 continue to rise, and hook 604 is opened, and lower baking sheet 406 is in disconnected position, and the lower surface of upper baking sheet 410 is concordant with the bottom surface of piston head 302.At this moment, at this moment thick pie dough just in time at upper baking sheet 410 and lower baking sheet 406 center.See Fig. 8-6, lower baking sheet 406 continues to rise, and thick pie dough is pressed into pancake shape.Lifting assembly 500 stops, and lower baking sheet 406 stops rising.

F, see Fig. 8-7, upper baking sheet 410 and lower baking sheet 406 electrified regulation several seconds, pancake is heated up and down.Lifting assembly 500 drives baking sheet and face tub assembly 400 to move downward, and lower baking sheet 406 stops to during extreme lower position, and upper baking sheet 410 and lower baking sheet 406 continue to be heated to the fixed time and then stop heating.Realize flapjack and bake operation.

G, see Fig. 8-8, the motor A402 of baking sheet and face tub assembly 400 is energized, and drive the second tooth bar 420 in lower baking sheet 406 to make to move to open position by the second gear 418, ripe pancake falls by gravity.Lower baking sheet 406 retreats the rear motor A402 that puts in place and reverse, and lower baking sheet 406 moves forward, to align before and after upper baking sheet 410 after, stopping.

H, see Fig. 8-9, motor B512 is energized and rotates backward, and drives baking sheet and face tub assembly 400 to move up, realizes piston head 302 and again inserts in the hypomere portion 412c of bakebread 412, formed seal with chamber, face.Upper baking sheet 410 rises to four limited block 614 places, stops.Lower baking sheet 406 continues to rise, and compresses four springs 408, and upper baking sheet 410 is fitted with lower baking sheet 406, and hook 604 hooks the edge of baking sheet 410, prepares to enter next circulation.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (6)

1. a cake oven face alive assembly, is characterized in that, described and face assembly (300) comprising:

Shaft (306);

Piston head (302), described piston head (302) is arranged on the lower end of described shaft (306);

Paddle (304), described paddle (304) is arranged on the described shaft (306) of described piston head (302) top; And

With face drive unit, described and face drive unit rotates for driving described shaft (306).

2. cake oven according to claim 1 face alive assembly, it is characterized in that, described piston head (302) is cylindrical.

3. cake oven according to claim 2 face alive assembly, it is characterized in that, the upper end of described piston head (302) is truncated cone.

4. cake oven according to claim 2 face alive assembly, it is characterized in that, described paddle (304) lower edge reclines mutually with described piston head (302) end face.

5., according to the face alive of the cake oven in claim 1-4 described in any one assembly, it is characterized in that, described and face drive unit comprises:

Stir face wheel (308), described in stir face wheel (308) and be arranged at the upper end of described shaft (306), described in stir face wheel (308) outer peripheral face on be provided with external tooth;

Large round wheel (310), the inner peripheral surface of described Large round wheel (310) is provided with internal tooth, and this internal tooth engages with the described external tooth of taking turns on (308) outer peripheral face in face that stirs;

Motor C (314);

First small belt pulley (313), described first small belt pulley (313) is arranged on the output shaft of described motor C (314); With

First belt (312), described first belt (312) is around on described first small belt pulley (313) and described Large round wheel (310).

6. a family expenses automatic cake baking machine, is characterized in that, also comprise as described in any one in claim 1 to 5 with face assembly (300).