CN205040517U - Deep -fried twisted dough sticks automatic processing machine's feed mechanism - Google Patents

Abstract

The utility model provides a deep -fried twisted dough sticks automatic processing machine's feed mechanism belongs to food machinery equipment technical field. It has been solved, and the deep -fried twisted dough sticks quality of current deep -fried twisted dough sticks automatic processing machine preparation is poor, the problem of inefficiency. This deep -fried twisted dough sticks automatic processing machine's feed mechanism, deep -fried twisted dough sticks automatic processing machine includes the frame, is equipped with the conveyer belt in the frame, the frame has linked firmly the oil groove, feed mechanism is including setting up in the frame and lie in the transversal material loading scouring machine frame of personally submitting the rectangle of oil groove tip and linked firmly two and put the material pole, and the frame is still rotated in last silo top and is connected with the material loading axle, and the epaxial material loading pole that has linked firmly of material loading is equipped with driving piece no. 2 in the frame, and the one end of putting the material pole is equipped with and is used for transmitting the deep -fried twisted dough sticks on the material loading pole to the fender material piece of putting on the material pole when material loading pole downward swinging. This deep -fried twisted dough sticks automatic processing machine's feed mechanism can be automatically with deep -fry fashioned deep -fried twisted dough sticks transfer put the material pole on, degree of automation is high.

Description

A kind of feed mechanism of deep-fried twisted dough sticks machine for automatic working

Technical field

The utility model belongs to technical field of food machinery, relates to a kind of feed mechanism of deep-fried twisted dough sticks machine for automatic working.

Background technology

Deep-fried twisted dough sticks are a kind of ancient wheaten food, the fried food of strip hollow, it is sustained that mouthfeel is crisp, one of breakfast of Chinese tradition, first add water together with flour with yeast cake or old face when making deep-fried twisted dough sticks and rub up, after making dough fermentation to a certain extent, add appropriate soda ash again, salt and alum rub up, then thick 1 centimetre is cut into, the bar of long 10 cm, every about two are folded, press with narrow batten in centre, elongate to put in heat oil pot after rotating and go to explode, make to expand into a pine again, crisp again, yellow again, deep-fried twisted dough sticks fragrant again, need to carry out certain stretching and torsion at the dough of well cutting simultaneously, make fried deep-fried twisted dough sticks mouthfeel out better.

As Chinese utility model patent application (application number: 201320117108.X) discloses a kind of full-automatic Youtian frying machine, it comprises fetus device processed, the fried case of electrical heating of double-decked insulation, transmission device, deep-fried twisted dough sticks conveying device, deep-fried twisted dough sticks strainer and the actuating unit by driven by motor; The frame for movement that fetus device processed adopts conveyer belt and multiple pressure roller to match; Fried case is the fried case of electrical heating of double-decked insulation, actuating unit is by the chain and sprocket driving device of driven by motor, fetus device processed is driven by chain drive, deep-fried twisted dough sticks conveying device and the work of deep-fried twisted dough sticks strainer, but this Youtian frying machine is only that the deep-fried twisted dough sticks of well cutting are sent into fried case, pull out after fried, and too coarse for the process of dough and frying course.

Summary of the invention

The purpose of this utility model there are the problems referred to above for existing technology, proposes a kind of feed mechanism of deep-fried twisted dough sticks machine for automatic working, and fried shaping deep-fried twisted dough sticks can be transplanted on by the feed mechanism of these deep-fried twisted dough sticks machine for automatic working automatically to be put on material bar, and automaticity is high.

The purpose of this utility model realizes by following technical proposal: a kind of feed mechanism of deep-fried twisted dough sticks machine for automatic working, deep-fried twisted dough sticks machine for automatic working comprises frame, frame is provided with conveyer belt, described frame is fixed with the oil groove of strip at the output of conveyer belt, described feed mechanism comprises and is arranged in frame and is positioned at the rectangular feeding groove of the cross section of oil groove end, this feeding groove is connected with above-mentioned oil groove, described frame is fixed with two and puts material bar above feeding groove, described frame is also rotatably connected to feeding shaft above feeding groove, described feeding shaft is fixed with the material loading bar of L-type, described frame is provided with for driving material loading bar at feeding groove and putting the actuator two of expecting reciprocally swinging between bar, described put material bar one end be provided with when material loading bar to during lower swing for the deep-fried twisted dough sticks on material loading bar are delivered to put material bar on backgauge part.

Fried shaping after deep-fried twisted dough sticks be pushed in feeding groove, now material loading bar is positioned at the port of oil groove, the deep-fried twisted dough sticks length direction shifting out oil groove and oil groove or consistent, and it is perpendicular with material loading bar, actuator two drives material loading bar to swing, namely one end of material loading bar swings heavy edible oil and is inserted into below deep-fried twisted dough sticks, deep-fried twisted dough sticks can pick up and be flapped toward by material loading bar continuation swing puts material bar, when deep-fried twisted dough sticks drive material loading bar to reset swing downwards higher than putting material bar rear-guard moving part two, now backgauge part can stop that deep-fried twisted dough sticks move down with material loading bar, namely deep-fried twisted dough sticks are trapped within backgauge part, and be rolled into further put material bar on, fried good deep-fried twisted dough sticks temporarily leave in put material bar on carry out fuel-displaced, whole process automation degree is high.

In the feed mechanism of above-mentioned deep-fried twisted dough sticks machine for automatic working, described actuator two comprises the drive motors be connected in frame, the length direction of described feeding shaft is consistent with oil groove length direction, the output shaft of described drive motors is fixed with driving wheel, the end of described feeding shaft is fixed with driven pulley, and described driving wheel is connected by belt with driven pulley.Feeding shaft realizes reciprocating rotation by drive motors, and structure is simple.

In the feed mechanism of above-mentioned deep-fried twisted dough sticks machine for automatic working, the length direction of described oil groove is perpendicular to the length direction of conveyer belt, described material bar of putting is obliquely installed, and the length direction putting length direction and the oil groove of material bar is perpendicular, and puts and expect that bar and conveyer belt are all positioned at the same side of oil groove.Both conveyer belt, oil groove and put material rod circularize layout, make structure compacter, occupy little space.

In the feed mechanism of above-mentioned deep-fried twisted dough sticks machine for automatic working, described backgauge part comprises material blocking rod, the described end opens putting material bar has hinged groove, described material blocking rod one end is hinged on the cell wall of hinged groove by connecting pin, and the other end of material blocking rod stretches out hinged groove, described connecting pin is arranged with compression torsion spring, under the effect compressing torsion spring, material blocking rod downside is resisted against on the bottom surface of hinged groove.Under the effect compressing torsion spring, material blocking rod is resisted against hinged groove bottom land, when deep-fried twisted dough sticks rising by material loading lever bracket, deep-fried twisted dough sticks can make material blocking rod overcome to compress torsion spring and upwards swinging against material blocking rod, until deep-fried twisted dough sticks rise and depart from material blocking rod, material blocking rod resets and swings, when material loading bar declines under the effect of compression torsion spring afterwards, material blocking rod is positioned at the below of deep-fried twisted dough sticks, and therefore deep-fried twisted dough sticks are stopped by material blocking rod and are trapped on material blocking rod.

In the feed mechanism of above-mentioned deep-fried twisted dough sticks machine for automatic working, when on the bottom surface that material blocking rod downside is resisted against hinged groove, the upper side of described material blocking rod expects that bar upper side flushes with putting.Put material bar to be obliquely installed, therefore deep-fried twisted dough sticks can be rolled into correct position along putting material bar and do temporary transient storage.

Compared with prior art, the feed mechanism of these deep-fried twisted dough sticks machine for automatic working has the following advantages:

1, material bar is put because material loading bar swings deep-fried twisted dough sticks to be picked up and be flapped toward, when deep-fried twisted dough sticks drive material loading bar to reset swing downwards higher than putting material bar rear-guard moving part two, now backgauge part can stop that deep-fried twisted dough sticks move down with material loading bar, namely deep-fried twisted dough sticks are trapped within backgauge part, and be rolled into further put material bar on, fried good deep-fried twisted dough sticks temporarily leave in put and material bar carry out fuel-displaced, and whole process automation degree is high.

2, due to conveyer belt, oil groove and put material rod circularize layout, make structure compacter, occupy little space.

Accompanying drawing explanation

Fig. 1 is the perspective view of these deep-fried twisted dough sticks machine for automatic working.

Fig. 2 is the partial structurtes top view of these deep-fried twisted dough sticks machine for automatic working.

Fig. 3 is the schematic enlarged-scale view at A place in Fig. 1.

Fig. 4 is the schematic enlarged-scale view at B place in Fig. 2.

Fig. 5 is the schematic enlarged-scale view at C place in Fig. 1.

Fig. 6 is the schematic enlarged-scale view at D place in Fig. 1.

Fig. 7 is the schematic enlarged-scale view at E place in Fig. 1.

In figure, 1, frame; 11, conveyer belt; 12, oil groove; 121, rotating shaft; 122, switch-plate; 123, oil-through hole; 124, stirring block; 125, positioning sleeve; 126, connecting axle; 127, bolt; 13, feeding groove; 131, material bar is put; 14, Connection Block; 141, support bar; 142, set bolt; 15, lead; 16, guide post; 2, side plate; 21, cross bar; 3, pressing plate; 31, vertical pole; 32, powder box; 33, flour opening; 4, cutting knife; 41, cylinder is driven; 42, fairlead; 5, movable plate; 51, movable block; 511, chute; 52, material grasping bar; 53, jaw; 531, clamp sheet; 532, dynamic intermediate plate; 533, electromagnet; 534, mounting groove; 535, bearing pin; 536, reduction torsion spring; 537, iron plate; 54, actuating cylinder; 55, adapter sleeve; 56, connecting rod; 561, connecting plate; 57, link slot; 6, driving member; 61, drive link; 62, drive; 63, driver plate; 7, feeding shaft; 71, material loading bar; 72, drive motors; 73, driving wheel; 74, driven pulley; 8, backgauge part; 81, material blocking rod; 82, hinged groove; 83, connecting pin; 84, torsion spring is compressed; 9, power motor; 91, driving wheel; 92, breast wheel.

Detailed description of the invention

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.

As shown in Figures 1 to 7, a kind of feed mechanism of deep-fried twisted dough sticks machine for automatic working, deep-fried twisted dough sticks machine for automatic working comprises frame 1, frame 1 is provided with conveyer belt 11, frame 1 is connected with biside plate 2 and a pressing plate 3 above conveyer belt 11, biside plate 2 is all perpendicular to the upper side of conveyer belt 11, and the plate face of side plate 2 parallels with conveyer belt 11 length direction, pressing plate 3 is horizontally set between biside plate 2, and biside plate 2 and pressing plate 3 form the shaping channel being used for extruding dough, biside plate 2 bends towards the edge of conveyer belt 11 input respectively to conveyer belt 11 both sides arc, pressing plate 3 is rolled over towards the edge of conveyer belt 11 input to upside curved bend, frame 1 also vertically slidably connects cutting knife 4 above conveyer belt 11, cutting knife 4 vertically down and the knife face of cutting knife 4 and biside plate 2 and pressing plate 3 edge to against, frame 1 is provided with the actuator one for driving cutting knife 4 to move back and forth up and down, frame 1 slidably connects movable plate 5 all along its length in the both sides of conveyer belt 11, movable plate 5 all slidably connects movable block 51, the glide direction of this movable block 51 is consistent with the width of conveyer belt 11, movable block 51 is all rotatably connected to material grasping bar 52, and material grasping bar 52 is arranged along conveyer belt 11 width, material grasping bar 52 free end is provided with the jaw 53 for being clamped the end of strip dough, frame 1 is provided with the force piece one for driving movable plate 5 movement, frame 1 is also provided with when movable plate 5 moves for driving movable block 51 to move respectively and driving wherein material grasping bar 52 to rotate the driving member 6 of set angle, frame 1 is fixed with the oil groove 12 of strip at the output of conveyer belt 11, the length direction of this oil groove 12 is perpendicular to the length direction of conveyer belt 11, jaw 53 can move to the top of oil groove 12 one end, namely when described movable plate 5 slides along conveyer belt 11 length direction, an above-mentioned jaw 53 in position is had at least to be positioned at the top of oil groove 12 one end, some rotating shafts 121 are rotatably connected to along its length in oil groove 12, on rotating shaft 121 periphery wall, circumference is fixed with some switch-plates 122, frame 1 is provided with the force piece two for driving some rotating shafts 121 to rotate, oil groove 12 two relative cell walls along its length are all connected with the stirring block 124 of some strips, and the length direction of stirring block 124 parallels with oil groove 12 cell wall, stirring block 124 is all obliquely installed, and stirring block 124 on the cell wall of side is contrary with stirring block 124 incline direction on opposite side cell wall, feed mechanism comprises and is arranged in frame 1 and is positioned at the rectangular feeding groove 13 of the cross section of oil groove 12 end, this feeding groove 13 is connected with above-mentioned oil groove 12, frame 1 is fixed with two and puts material bar 131 above feeding groove 13, frame 1 is also rotatably connected to feeding shaft 7 above feeding groove 13, feeding shaft 7 is fixed with the material loading bar 71 of L-type, frame 1 is provided with for driving material loading bar 71 at feeding groove 13 and putting the actuator two of expecting reciprocally swinging between bar 131, put material bar 131 one end be provided with when material loading bar 71 to during lower swing for the deep-fried twisted dough sticks on material loading bar 71 are delivered to put material bar 131 on backgauge part 8.

Dough is soft to tooth bar tabular in advance, dough to be laid on conveyer belt 11 and to transmit with conveyer belt 11, due to the end arc bending laterally of biside plate 2, and the edge, one end of pressing plate 3 is rolled over to upside curved bend, therefore shaping channel forms an enlarging, dough enters shaping channel from this enlarging and is squeezed into width and the moderate shape of thickness by biside plate 2 and pressing plate 3, dough after shaping is moved out of shaping channel suitable distance, actuator one drives cutting knife 4 decline and cut dough, the dough cut down is strip, now force piece one drives movable plate 5 to move and makes jaw 53 clamp the two ends of dough, clamping rear force piece one drives movable plate 5 to move to the output of conveyer belt 11, in moving process, driving member 6 drives two movable blocks 51 to move to the both sides of conveyer belt 11, namely dough is stretched further, driving member 6 drives a wherein material grasping bar 52 to rotate set angle simultaneously, namely dough is while be stretched, while rotated in the shape of a spiral, dough is moved into the top of oil groove 12 one end afterwards, two jaws 53 discharge the two ends of dough simultaneously, dough is fallen in oil groove 12, and it is consistent with the length direction of oil groove 12 to fall at dough the length direction that oil groove 12 rolls into a ball below, oil groove 12 is heated by heating wire, inside there is high-temperature edible oil, can carry out fried to dough, in frying course, force piece two drives some rotating shafts 121 to rotate simultaneously, the end that switch-plate 122 in rotating shaft 121 can clash into dough makes dough move along its length, the dough lateral wall expanded gradually in moving process can steply contact with stirring block 124 sidewall, because stirring block 124 is obliquely installed, and two stirring block 124 incline directions of both sides are contrary, one end that stirring block 124 is lower is simultaneously immersed and is used in oil, the other end stretches out edible oil liquid level, therefore self circumference upset can be made when dough contacts stirring block 124 under propelling movement power forward, thus carry out evenly fried, fried shaping after deep-fried twisted dough sticks be pushed in feeding groove 13, now material loading bar 71 is positioned at the port of oil groove 12, the deep-fried twisted dough sticks length direction shifting out oil groove 12 and oil groove 12 or consistent, and it is perpendicular with material loading bar 71, actuator two drives material loading bar 71 to swing, namely one end of material loading bar 71 swings heavy edible oil and is inserted into below deep-fried twisted dough sticks, material loading bar 71 continue swing deep-fried twisted dough sticks can be picked up and be flapped toward put material bar 131, when deep-fried twisted dough sticks drive material loading bar 71 to reset swing downwards higher than putting material bar 131 rear-guard moving part two, now backgauge part 8 can stop that deep-fried twisted dough sticks move down with material loading bar 71, namely deep-fried twisted dough sticks are trapped within backgauge part 8, and be rolled into further put material bar 131 on, fried good deep-fried twisted dough sticks temporarily leave in put material bar 131 on carry out fuel-displaced, manually take off when needing simultaneously, whole process automation degree is high, working (machining) efficiency is high.

Specifically, frame 1 is all fixed with Connection Block 14 in the both sides of conveyer belt 11, Connection Block 14 offers connecting hole, biside plate 2 is all vertically fixed with cross bar 21, described cross bar 21 is plugged in connecting hole, and be connected by set bolt 142, U-shaped support bar 141 is fixed with between two Connection Blocks 14, this support bar 141 offers through hole, pressing plate 3 upper side is vertically fixed with vertical pole 31, vertical pole 31 is vertically plugged in through hole, and be connected by set bolt 142, the edge that pressing plate 3 upwards bends is fixed with the powder box 32 of strip along its length, the bottom surface of powder box 32 offers some flour openings 33, namely cross bar 21 can slide by Connection Block 14 relatively, to regulate the distance between biside plate 2, make it possible to the dough squeezing out different length length, and vertical pole 31 can move by relative support bar 141, to regulate the height of pressing plate 3 opposed belt 11 zone face, make it possible to the dough squeezing out different-thickness, applicability is strong.

Specifically, actuator one comprises driving cylinder 41, cylinder 41 is driven to be connected in frame 1, and drive the piston rod of cylinder 41 vertical down, cutting knife 4 is connected in the lower end of piston rod, the two ends of cutting knife 4 are all fixed with fairlead 42, frame 1 is vertically fixed with two leads 15, fairlead 42 is slidably located on lead 15, cylinder 41 is driven to drive cutting knife 4 back and forth lifting realization cutting, Stroke Control precision is high, and lead 15 pairs of fairleads 42 play stable guide effect simultaneously, cutting knife 4 are moved more stable.

Specifically, jaw 53 comprises electromagnet 533, clamp sheet 531 and dynamic intermediate plate 532, clamp sheet 531 is connected in the end of material grasping bar 52, material grasping bar 52 offers mounting groove 534, dynamic intermediate plate 532 is in strip, and dynamic intermediate plate 532 is hinged on by bearing pin 535 on the cell wall of mounting groove 534, one end of dynamic intermediate plate 532 protrudes upward mounting groove 534 and relative with clamp sheet 531, and on the side that dynamic intermediate plate 532 is relative with clamp sheet 531, there is some material grasping convex bodys, the other end of dynamic intermediate plate 532 stretches out mounting groove 534 downwards and relative with the lower wall of material grasping bar 52, bearing pin 535 is arranged with reduction torsion spring 536, under the effect of reduction torsion spring 536, one end that dynamic intermediate plate 532 is relative with clamp sheet 531 has the trend away from clamp sheet 531, electromagnet 533 is connected on material grasping bar 52, and the output of electromagnet 533 is positioned at the downside of material grasping bar 52, on dynamic intermediate plate 532, one end relative with the lower wall of material grasping bar 52 is fixed with iron plate 537, this iron plate 537 is relative with the output of electromagnet 533, after dough has cut, movable plate 5 moves the below making the free end of clamp sheet 531 embed dough end, then the iron plate 537 on the dynamic intermediate plate 532 of electromagnet 533 energising absorption, dynamic intermediate plate 532 overcomes reduction torsion spring 536 and swings, namely the end of dough is clamped in the dynamic end of intermediate plate 532 and the end of clamp sheet 531, and material grasping convex body can embed dough upper side, improve chucking power, time above deep-fried twisted dough sticks are transferred to oil groove 12, electromagnet 533 power-off, dynamic intermediate plate 532 departs from dough and opens under the effect of reduction torsion spring 536, dough falls in oil groove 12 automatically.

Specifically, force piece one comprises actuating cylinder 54, frame 1 is fixed with two guide posts 16 respectively in the both sides of conveyer belt 11, and the length direction of guide post 16 is consistent with the length direction of conveyer belt 11, the downside of movable plate 5 is all fixed with two adapter sleeves 55, this adapter sleeve 55 is slidably located on guide post 16 respectively, two U-shaped connecting rods 56 are fixed with between two movable plates 5, connecting plate 561 is fixed with between this two connecting rod 56, actuating cylinder 54 is connected in frame 1, and the piston rod of actuating cylinder 54 is connected mutually with connecting plate 561, two chain connecting plates are fixed together by connecting rod 56, realize synchronizing moving.

Specifically, driving member 6 comprises drive link 61, drive 62 and driver plate 63, drive link 61 has two, and level is connected in frame 1, two drive links 61 lay respectively at the both sides of conveyer belt 11 and the length direction of opposed belt 11 is obliquely installed, drive link 61 described in two is less than towards the spacing of one end of conveyer belt 11 output towards the spacing of one end of conveyer belt 11 input, movable plate 5 offers link slot 57 along conveyer belt 11 width, movable block 51 is slidably connected in link slot 57, movable block 51 upper side offers chute 511, drive link 61 is slidably connected in chute 511, wherein movable block 51 is stretched out in the end of a material grasping bar 52, drive 62 is connected in the external part of this material grasping bar 52, driver plate 63 is connected in frame 1 along conveyer belt 11 length direction, the wheel face of drive 62 is resisted against on the upper side of driver plate 63, the upper side of drive 62 wheel face and driver plate 63 all has rubber layer, namely in the moving process of movable plate 5, because guide post 16 is positioned at the chute 511 of movable block 51, therefore when movable block 51 moves along conveyer belt 11 length direction, guide post 16 can act on the cell wall of chute 511, movable block 51 can be moved along conveyer belt 11 width, realize the stretching to dough, and in movable plate 5 moving process, drive 62 is pressed on driver plate 63, rubber layer between the two makes to have larger frictional force between the two, therefore a wherein material grasping bar 52 can be driven to rotate when movable plate 5 moves, namely dough is reversed into helical form.

Specifically, force piece two comprises the power motor 9 be connected in frame 1, oil groove 12 sidewall is all stretched out in one end of rotating shaft 121, and be all fixed with two breast wheels 92 at external part, power motor 9 is fixed with driving wheel 91, driving wheel 91 is connected with one of them breast wheel 92 by belt, adjacent two breast wheels 92 are connected by belt, power motor 9 by belt drive wherein a rotating shaft 121 rotate, and adjacent shafts 121 is all connected by belt, therefore all rotating shafts 121 synchronous axial system simultaneously can be driven by a power motor 9.

Specifically, switch-plate 122 plate face is evenly equipped with some oil-through holes 123, described oil groove 12 sidewall is fixed with some positioning sleeves 125 along its length, stirring block 124 sidewall is vertically fixed with connecting axle 126, connecting axle 126 is plugged in positioning sleeve 125, oil groove 12 sidewall is stretched out in one end of positioning sleeve 125, and screw is offered on external part sidewall, bolt 127 is bolted with in screw, the end of this bolt 127 is pressed on connecting axle 126, oil-through hole 123 on switch-plate 122 can make edible oil pass switch-plate 122, high temperature oil in rotating shaft 121 rotation process is avoided to splash, and stirring block 124 is connected on positioning sleeve 125 by connecting axle 126, the distance between two relative stirring blocks 124 can be regulated, to be applicable to the deep-fried twisted dough sticks of different-diameter, fixed by bolt 127 after adjustment puts in place, applicability is strong.

Specifically, actuator two comprises the drive motors 72 be connected in frame 1, the length direction of described feeding shaft 7 is consistent with oil groove 12 length direction, the output shaft of drive motors 72 is fixed with driving wheel 73, the end of feeding shaft 7 is fixed with driven pulley 74, driving wheel 73 is connected by belt with driven pulley 74, and feeding shaft 7 realizes reciprocating rotation by drive motors 72, and structure is simple.

Specifically, backgauge part 8 comprises material blocking rod 81, put material bar 131 to be obliquely installed, the length direction putting length direction and the oil groove 12 of expecting bar 131 is perpendicular, and put the same side that material bar 131 and conveyer belt 11 are all positioned at oil groove 12, the end opens putting material bar 131 has hinged groove 82, material blocking rod 81 one end is hinged on hinged groove 82 cell wall by connecting pin 83, and the other end of material blocking rod 81 stretches out hinged groove 82, connecting pin 83 is arranged with and compresses torsion spring 84, under the effect compressing torsion spring 84, material blocking rod 81 downside is resisted against on the bottom surface of hinged groove 82, when material blocking rod 81 downside is resisted against on hinged groove 82 bottom surface, the upper side of material blocking rod 81 expects that bar 131 upper side flushes with putting, put and expect that bar 131 and conveyer belt 11 are all positioned at the same side of oil groove 12, make structure compacter, save arrangement space, under the effect compressing torsion spring 84, material blocking rod 81 is resisted against hinged groove 82 bottom land, when material loading bar 71 holds in the palm deep-fried twisted dough sticks rising, deep-fried twisted dough sticks can make material blocking rod 81 overcome to compress torsion spring 84 and upwards swinging against material blocking rod 81, until deep-fried twisted dough sticks rise and depart from material blocking rod 81, material blocking rod 81 resets and swings under compression torsion spring 84 acts on afterwards, when material loading bar 71 declines, material blocking rod 81 is positioned at the below of deep-fried twisted dough sticks, therefore deep-fried twisted dough sticks are stopped by material blocking rod 81 and are trapped on material blocking rod 81, material blocking rod 81 upper side expects that bar 131 upper side flushes with putting, and put material bar 131 be obliquely installed, therefore deep-fried twisted dough sticks can be rolled into correct position along putting material bar 131 and do temporary transient storage.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Claims (5)

1. the feed mechanism of a deep-fried twisted dough sticks machine for automatic working, deep-fried twisted dough sticks machine for automatic working comprises frame (1), described frame (1) is provided with conveyer belt (11), described frame (1) is fixed with the oil groove (12) of strip at the output of conveyer belt (11), it is characterized in that, described feed mechanism comprises that to be arranged on frame (1) upper and be positioned at the rectangular feeding groove (13) of the cross section of oil groove (12) end, this feeding groove (13) is connected with above-mentioned oil groove (12), described frame (1) is fixed with two and puts material bar (131) in the top of feeding groove (13), described frame (1) is also rotatably connected to feeding shaft (7) in feeding groove (13) top, described feeding shaft (7) is fixed with the material loading bar (71) of L-type, described frame (1) is provided with for driving material loading bar (71) at feeding groove (13) and putting the actuator two of expecting reciprocally swinging between bar (131), described one end of putting material bar (131) is provided with when material loading bar (71) is to being used for during lower swing the deep-fried twisted dough sticks on material loading bar (71) being delivered to the backgauge part (8) put on material bar (131).

2. the feed mechanism of deep-fried twisted dough sticks machine for automatic working according to claim 1, it is characterized in that, described actuator two comprises the drive motors (72) be connected in frame (1), the length direction of described feeding shaft (7) is consistent with oil groove (12) length direction, the output shaft of described drive motors (72) is fixed with driving wheel (73), the end of described feeding shaft (7) is fixed with driven pulley (74), and described driving wheel (73) is connected by belt with driven pulley (74).

3. the feed mechanism of deep-fried twisted dough sticks machine for automatic working according to claim 2, it is characterized in that, the length direction of described oil groove (12) is perpendicular to the length direction of conveyer belt (11), described material bar (131) of putting is obliquely installed, the length direction putting length direction and the oil groove (12) of material bar (131) is perpendicular, and puts the same side that material bar (131) and conveyer belt (11) are all positioned at oil groove (12).

4. the feed mechanism of deep-fried twisted dough sticks machine for automatic working according to claim 3, it is characterized in that, described backgauge part (8) comprises material blocking rod (81), the described end opens putting material bar (131) has hinged groove (82), described material blocking rod (81) one end is hinged on the cell wall of hinged groove (82) by connecting pin (83), and the other end of material blocking rod (81) stretches out hinged groove (82), described connecting pin (83) is arranged with and compresses torsion spring (84), under the effect compressing torsion spring (84), material blocking rod (81) downside is resisted against on the bottom surface of hinged groove (82).

5. the feed mechanism of deep-fried twisted dough sticks machine for automatic working according to claim 4, it is characterized in that, when material blocking rod (81) downside is resisted against on the bottom surface of hinged groove (82), the upper side of described material blocking rod (81) expects that bar (131) upper side flushes with putting.