Background
Wontons are cooked wheaten foods filled with thin wrappers and are popular, wherein wontons similar to the shape of cat ears are popular, and the shape of most wontons is similar to the shape.
In daily life, people are difficult to take out time and do wonton by hands, the quick-frozen wonton made by food factories can be eaten after being cooked with boiled water, the operation is more convenient, however, because the wonton with the shape similar to the cat ear is unique, the existing equipment can not process the wonton, the processing of the wonton needs a large amount of manual work, particularly the last kneading action, the cat ear shape is completely required to be manually kneaded out, the processing efficiency of the wonton is lower, therefore, a device capable of replacing the manual processing of the wonton is necessary to be provided.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a wonton processingequipment can not mechanized completion wonton processing among the solution prior art, and a large amount of work need artifical the participation, technical problem that machining efficiency hangs down.
In order to solve the technical problem, the utility model discloses a following technical scheme:
a wonton processing device is designed, comprising:
the wonton blank pressing mechanism comprises a first pressing film, a second pressing film and a first driving mechanism which is connected with the first pressing film or/and the second pressing film to drive the first pressing film and the second pressing film to press wonton skins with filling into wonton blanks;
the wonton kneading mechanism comprises a first kneading claw, a second kneading claw and a second driving mechanism which is in driving connection with the first kneading claw or/and the second kneading claw so as to drive the first kneading claw and the second kneading claw to knead wonton blanks into wontons.
Preferably, the first kneading claw includes an arc-shaped main plate portion and a flat plate portion located at a lower end of one side of the main plate portion, and the second kneading claw is symmetrical to the first kneading claw.
Preferably, the second driving mechanism includes a supporting plate, the first kneading claw is connected with a first rotating shaft, the second kneading claw is connected with a second rotating shaft, the first rotating shaft and the second rotating shaft are respectively rotatably mounted on the supporting plate, the first rotating shaft and the second rotating shaft are respectively connected with a first oscillating bar and a second oscillating bar, the first oscillating bar and the second oscillating bar are respectively provided with a first connecting shaft and a second connecting shaft, the second driving mechanism further includes a push-pull component, the push-pull component includes a front sliding groove and a rear pull rod, and the first connecting shaft and the second connecting shaft are arranged in the sliding groove.
Preferably, the first kneading claw is connected with a first rotating shaft, the second kneading claw is connected with a second rotating shaft, and the second driving mechanism comprises a first swing cylinder and a second swing cylinder which are respectively connected with the first rotating shaft and the second rotating shaft.
Preferably, first press mold, second press mold are the relative platelike mould that sets up, first press mold, the relative one side of second press mold are equipped with first recess and second recess respectively, first press mold, second press mold both sides articulate respectively on a supporting seat, first actuating mechanism is including being connected to respectively first telescopic link and the second telescopic link of first press mold and second press mold.
Preferably, first press mold and second press mold are corresponding semicircle ring-shaped, just first press mold or/and the relative one side of second press mold are equipped with the breach, first actuating mechanism is including being connected to the third telescopic link of first press mold or second press mold.
Preferably, the first squeeze film and the second squeeze film are corresponding disc type dies, the peripheral surfaces of the first squeeze film or/and the second squeeze film are/is provided with an extrusion groove, and the first driving mechanism is used for driving the first squeeze film and the second squeeze film to rotate.
Preferably, the wonton dumpling machine further comprises an annular station turntable, a plurality of wonton blank pressing mechanisms are arranged on the annular working turntable along the circumferential direction, and at least one wonton kneading mechanism is arranged on the annular station turntable in a matched mode.
Preferably, the wonton blank pressing device further comprises an annular station turntable and a conveying line, wherein a plurality of wonton blank pressing mechanisms are arranged on the annular station turntable along the circumferential direction, at least one wonton kneading mechanism is arranged above the conveying line, and a pushing mechanism used for pushing the wonton blanks to the conveying line is further arranged on the annular station turntable.
Preferably, the wonton kneading machine further comprises a conveying line, and at least one wonton blank pressing mechanism and at least one wonton kneading mechanism are arranged above the conveying line.
The utility model discloses a main beneficial technological effect lies in:
1. the utility model provides a wonton processingequipment is equipped with wonton base pressing mechanism and wonton kneading mechanism, wonton base pressing mechanism includes first press mold, the second press mold, and first actuating mechanism, first actuating mechanism can drive first press mold, the wonton skin pressfitting synthetic wonton base of filling material will be put to the second press mold, wonton kneading mechanism includes first claw of kneading and second claw of kneading, and second actuating mechanism, second actuating mechanism can drive first claw of kneading, the claw is kneaded into the wonton with the wonton base to the second, realize mechanized processing wonton, and the work efficiency is improved, the amount of labour of the worker is reduced, and the wonton cost of manufacture is saved.
2. The utility model discloses a mediate the claw and include curved mainboard portion and be located the flat plate portion of this mainboard portion one side lower extreme, the claw symmetry is mediated with first kneading claw to the second, mediate the claw when first kneading claw and second and press on the wonton base, curved mainboard portion can wrap up traditional cat ear form wonton into the wonton base, later two angles of rethread flat plate portion with the wonton base are mediated, the processing of traditional cat ear wonton of completion that can be ingenious.
3. The utility model discloses respectively through first swing cylinder and the first pivot of second swing cylinder drive, second pivot, simple structure is ingenious, and swing cylinder's swing moment of torsion is flexible, and the dynamics of mediating to the wonton base can not be too big, is unlikely to again to the dynamics of mediating undersize and mediate not tight, and consequently, the shaping rate of wonton is higher, and the waste product is few.
4. The utility model discloses a claw is mediated to second actuating mechanism's another kind of mode drives the multiunit simultaneously through link mechanism, and work efficiency is high, is suitable for the large-scale production occasion to use.
Drawings
Fig. 1 is a schematic structural view of an embodiment of the wonton processing device of the present invention.
Fig. 2 is a schematic structural view of a wonton kneading mechanism in an embodiment of the wonton processing device of the present invention.
Fig. 3 is a schematic diagram of the wonton processing device of the present invention when kneading wonton blanks.
Fig. 4 is a diagram of the open state of the wonton kneading mechanism in another embodiment of the wonton processing device of the utility model.
Fig. 5 is a closed state diagram of the wonton kneading mechanism of fig. 4.
Fig. 6 is a schematic structural view of the wonton processing device of the present invention in embodiment 3.
Fig. 7 is a working principle diagram of the wonton processing device of the embodiment 4 of the utility model.
Fig. 8 is a schematic structural view of the wonton processing device of the present invention in an embodiment 5.
Fig. 9 is a schematic structural view of the wonton processing device of the present invention in an embodiment 6.
Fig. 10 is a schematic structural view of the wonton processing device of the present invention in an embodiment 7.
Fig. 11 is a schematic structural view of an embodiment 8 of the wonton processing device of the present invention.
Fig. 12 is a schematic top view of the wonton processing apparatus of the present invention in an embodiment 9.
Fig. 13 is a schematic side view of the won ton processing device of the present invention in an embodiment 9.
Fig. 14 is a schematic structural view of the wonton processing device of the present invention in an embodiment 10.
Fig. 15 is a front view of the wonton kneading mechanism in the embodiment 11 of the wonton processing device of the present invention.
Fig. 16 is a top view of the wonton kneading mechanism in the embodiment 11 of the wonton processing device of the present invention.
Fig. 17 is a top view of the wonton kneading mechanism in the embodiment 12 of the wonton processing device of the present invention.
Fig. 18 is a front view of the wonton kneading mechanism in the embodiment 13 of the wonton processing device of the present invention.
Fig. 19 is a top view of the wonton kneading mechanism in the embodiment 14 of the wonton processing device of the present invention.
In the above figures, the reference numerals are to indicate: the wonton blank pressing mechanism 1, the first press mold 11, the first groove 111, the first telescopic rod 112, the notch 113, the first support plate 114, the second press mold 12, the second groove 121, the second telescopic rod 122, the third telescopic rod 123, the second support plate 124, the extrusion groove 125, the arc-shaped support plate 126, the support base 13, the support platform 14, the wonton kneading mechanism 2, the first kneading claw 21, the main plate part 211, the flat plate part 212, the first rotating shaft 213, the second kneading claw 22, the second rotating shaft 221, the first swing cylinder 23, the second swing cylinder 24, the casing 25, the drive rod 26, the wonton blank 3, the stuffing wrapping part 31, the dough skin part 32, the support plate 4, the first swing rod 41, the first connecting shaft 411, the second swing rod 42, the second connecting shaft 421, the push-pull part 43, the sliding groove 431, the pull rod 432, the first cross rod 433, the second cross rod 434, the first diagonal draw rod 436, the second diagonal rod 436, the short rod 437, the conveying line 5, and the conveying line 5, The device comprises an annular working turntable 6, a push plate 61, a pushing cylinder 62, a feeding conveyer belt 7, a bracket 71, a sliding block 711, a sliding rail 712, a gear box 8, a first rack 81, a second rack 82, a first gear 83, a second gear 84, a first notch 85 and a second notch 86.
Detailed Description
The following embodiments are only intended to illustrate the present invention in detail, and do not limit the scope of the present invention in any way.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. References to "first," "second," etc. in this application are intended to distinguish between similar items and not necessarily to describe a particular order or sequence.
Example 1:
a wonton processing device, the structure of which is shown in fig. 1 to 3.
As shown in fig. 1, the wonton processing device comprises a wonton blank pressing mechanism 1 at the lower part and a wonton kneading mechanism 2 at the upper part, wherein the wonton blank pressing mechanism 1 comprises a first press film 11 and a second press film 12, the first press film 11 and the second press film 12 are plate-shaped molds which are arranged oppositely, one opposite sides of the first press film 11 and the second press film 12 are respectively provided with a first groove 111 and a second groove 121, the first groove 111 and the second groove 121 are crescent-shaped, the two sides of the first press film 11 and the second press film 12 are respectively hinged on a supporting seat 13 by inner ends, the supporting seat 13 is arranged on a supporting platform 14, the first press film 11 and the second press film 12 are connected with a first driving mechanism, the first driving mechanism comprises a first telescopic rod 112 and a second telescopic rod 122 which are respectively connected to the first press film 11 and the second press film 12, the first telescopic rod 112 and the second telescopic rod 122 are cylinders, when stuffing is placed on the first press film 11 and the second press film 12, the first telescopic rod 112 and the second telescopic rod 122 are extended to drive the first pressing film 11 and the second pressing film 12 to be closed, and the wonton wrappers filled with stuffing are pressed into wonton blanks, wherein the pressed wonton blanks are crescent or rectangular.
The wonton kneading mechanism 2 is used for further kneading wonton blanks into traditional wontons similar to a cat ear shape, as shown in fig. 2, the wonton kneading mechanism 2 comprises a first kneading claw 21 and a second kneading claw 22, the first kneading claw 21 comprises an arc-shaped main plate part 211 and a flat plate part 212 positioned at the lower end of the outer side of the main plate part 211, the second kneading claw 22 is symmetrical to the first kneading claw 21, the second kneading claw 22 and the first kneading claw 21 are swung for about 180 degrees, the first kneading claw 21 and the second kneading claw 22 are connected with a second driving mechanism to drive the first kneading claw 21 and the second kneading claw 22 to knead the wonton blanks into the wontons, specifically, the first kneading claw 21 and the second kneading claw 22 are respectively connected with a first rotating shaft 213 and a second rotating shaft 221 through corresponding connecting blocks, the second driving mechanism comprises a first swinging cylinder 23 and a second swinging cylinder 24 respectively connected with the first rotating shaft 213 and the second rotating shaft 221, the first swing cylinder 23 and the second swing cylinder 24 can drive the first rotating shaft 213 and the second rotating shaft 221 to rotate in the circumferential direction by a certain angle, so that the first kneading claw 21 and the second kneading claw 22 are tightly closed, and after the closing, the flat plate portions on the first kneading claw 21 and the second kneading claw 22 are kneaded.
The kneading process of the wonton blank by the wonton kneading mechanism 2 is as follows: as shown in fig. 1, the first swing cylinder 23 and the second swing cylinder 24 are installed in a housing 25, a driving rod 26 is connected to the top of the housing 25, the driving rod 26 is a cylinder or a link mechanism, and can drive the casing 25 to move up and down, and as shown in fig. 3, when the wonton dough pressing mechanism 1 presses out a wonton dough 3 similar to the wonton dough 3 in fig. 3, the driving rod 26 drives the casing 25 to move down, for the wonton dough 3 in the crescent shape, the lower surfaces of the first kneading claw 21 and the second kneading claw 22 are pressed on the wrapper portion 32 outside the stuffing wrapping portion 31, the first swing cylinder 23 drives the first kneading claw 21 to rotate clockwise, the second swing cylinder 24 drives the second kneading claw 22 to rotate counterclockwise, in the rotating process, the main plate parts of the first kneading claw 21 and the second kneading claw 22 are arc-shaped to wrap the wonton blank 3, when the first kneading claw 21 and the second kneading claw 22 are kneaded, the flat plate parts of the first kneading claw and the second kneading claw are closed to knead the two corners of the wonton blank 3 together.
Example 2:
a wonton processing device, the structure of which refers to fig. 4 and 5.
As shown in fig. 4 and 5, the difference from embodiment 1 is that the second driving mechanism in this embodiment includes a supporting plate 4, a first rotating shaft 213 is connected to the first kneading claw 21, a second rotating shaft 221 is connected to the second kneading claw 22, the first rotating shaft 213 and the second rotating shaft 221 are respectively assembled on the supporting plate 4 through bearings, so that the first rotating shaft 213 and the second rotating shaft 221 can rotate, the first rotating shaft 213 and the second rotating shaft 221 are respectively connected to a first swing link 41 and a second swing link 42, the first swing link 41 and the second swing link 42 are respectively provided with a first connecting shaft 411 and a second connecting shaft 421, the second driving mechanism further includes a push-pull member 43, the push-pull member 43 is T-shaped, the push-pull member 43 includes a front sliding groove 431 and a rear pull rod 432, and the first connecting shaft 411 and the second connecting shaft 421 are disposed in the sliding groove 431.
When the pull rod 432 is pulled backward, the first rotating shaft 213 and the second rotating shaft 221 can be respectively driven to rotate by the first swing link 41 and the second swing link 42, so as to drive the first kneading claw 21 and the second kneading claw 22 to be closed, as shown in fig. 5, while when the pull rod 432 is pulled backward, the first kneading claw 21 and the second kneading claw 22 can be driven to be opened, as shown in fig. 4. When the device is used specifically, an air cylinder can be arranged on the supporting plate 4, and the pull rod 432 is driven to move back and forth by the air cylinder.
Example 3:
a wonton processing device, the structure of which is shown in fig. 6.
As shown in fig. 6, the difference from embodiment 1 lies in that, in this embodiment, the first squeeze film 11 and the second squeeze film 12 of the ravioli billet pressing mechanism 1 are in the shape of corresponding semicircular rings, and the side of the first squeeze film 11 facing the second squeeze film 12 is provided with a notch 113, the first driving mechanism includes a third telescopic rod 123 connected to the second squeeze film 12, the third telescopic rod 123 is a cylinder, the third telescopic rod 123 is installed on the supporting platform 14 through a vertical plate, the first squeeze film 11 is installed on the supporting platform 14, the third telescopic rod 123 can drive the second squeeze film 12 to move left and right, thereby controlling the opening and closing of the first squeeze film 11 and the second squeeze film 12.
The first pressed film 11 and the second pressed film 12 are slightly opened at the beginning, when the wonton wrapper with filling is placed on the first pressed film 11 and the second pressed film 12, the filling in the middle can press the middle part of the wrapper to fall into the hole between the first pressed film 11 and the second pressed film 12, the wrapper is folded, and the two sides of the folded dough cover fall into the gap between the first pressing film 11 and the second pressing film 12, the third telescopic rod 123 drives the first pressing film 11 and the second pressing film 12 to close, and presses the two sides of the folded dough cover, because of the gap 113, in the pressing process, the dough sheet is not cut off, when the third telescopic rod 123 is withdrawn, the pressed wonton blanks fall on the supporting platform 14, and the wonton kneading mechanism 2 is arranged above the wonton blank pressing mechanism 1 and close to one side of the second pressing film 12, and the wonton kneading mechanism 2 drives the first kneading claw and the second kneading claw to move downwards to knead the wonton blanks on the supporting platform 14 into wontons.
Example 4:
a wonton processing device, the structure of which is shown in fig. 7.
As shown in fig. 7, the difference from the embodiment 3 lies in that the first squeeze film 11 and the second squeeze film 12 of the ravioli dough pressing mechanism 1 of the present embodiment are obliquely arranged, the first squeeze film 11 is installed on the first supporting plate 114, the second squeeze film 12 is installed on the second supporting plate 124 through the third telescopic rod 123 at the rear end, the notch 113 on the first squeeze film 11 is oblique, the side of the second squeeze film 12 facing the notch 113 is correspondingly obliquely arranged, so that the wonton blanks pressed by the wonton blank pressing mechanism 1 are tucked in the first press film 11, the wonton kneading mechanism 2 inclines to ensure that the lower ends of the first kneading claw and the second kneading claw face the first press film 11, when the wonton blank pressing mechanism 1 presses the wonton blank, the wonton kneading mechanism 2 drives the first kneading claw and the second kneading claw to move downwards to knead the wonton blank in the first pressing film 11 into wonton, a conveying line 5 is arranged below the wonton blank pressing mechanism 1, and the wonton kneading mechanism 2 incidentally carries the kneaded wonton to fall on the conveying line 5 for collection.
Example 5:
a wonton processing device, the structure of which is shown in fig. 8.
As shown in fig. 8, the difference from embodiment 1 lies in that the first squeeze film 11 and the second squeeze film 12 in this embodiment are corresponding disc type molds, similar to the molds of a dumpling making machine, a plurality of extruding slots 125 are arranged at intervals on the outer peripheral surface of the second squeeze film 12, the first squeeze film 11 and the second squeeze film 12 are driven by a first driving mechanism, the first driving mechanism includes a motor, the motor drives the first squeeze film 11 to rotate clockwise through a transmission mechanism such as a gear, a chain or a belt, etc. to drive the second squeeze film 12 to rotate counterclockwise, a dough cylinder filled with filling is fed from above between the first squeeze film 11 and the second squeeze film 12, a crescent wonton blank is extruded from the first squeeze film 11 and the second squeeze film 12, a group of squeeze films is arranged below the first squeeze film 11 and the second squeeze film 12, a group of squeeze films is arranged above the conveying line 5, a row of wonton kneading mechanisms 2 is arranged on the rear side of the squeeze films above the conveying line, this mechanism 2 is mediated to six wontons connects a actuating lever 26 through the connecting plate jointly, and actuating lever 26 is the cylinder, has controlled the speed of first press mold 11 and the 12 pressure wonton base of second press mold and the speed of transfer chain 5, has six wonton bases to be located each wonton on transfer chain 5 simultaneously and mediates mechanism 2 below, and actuating lever 26 action drives the wonton and mediates mechanism 2 and move down the wonton skin of crescent and mediate the wonton of similar cat ear shape.
Example 6:
a wonton processing device, the structure of which is shown in fig. 9.
As shown in fig. 9, the difference from embodiment 5 is that an arc-shaped supporting plate 126 is arranged below the second squeeze film 12 in this embodiment, the wonton blanks extruded by the first squeeze film 11 and the second squeeze film 12 are located between the second squeeze film 12 and the arc-shaped supporting plate 126, a wonton kneading mechanism 2 is arranged at the outlet of the second squeeze film 12 and the arc-shaped supporting plate 126, the wonton blanks reach the wonton kneading mechanism 2 along with the rotation of the second squeeze film 12, and the wonton blanks coming out from between the second squeeze film 12 and the arc-shaped supporting plate 126 are kneaded into wontons by the action of the wonton kneading mechanism 2.
Example 7:
a wonton processing device, the structure of which is shown in fig. 10.
As shown in fig. 10, the difference from embodiment 1 lies in that the wonton processing apparatus of this embodiment further includes an annular station rotary table 6, six wonton dough pressing mechanisms 1 in embodiment 1 are circumferentially arranged on the annular station rotary table 6, a conveying line 5 is arranged on one side of the annular station rotary table 6, a row of five wonton kneading mechanisms (only two kneading claws of each wonton kneading mechanism are shown in fig. 10) are arranged above the conveying line 5, the five wonton kneading mechanisms are driven by a driving rod to move up and down, a pushing mechanism is further arranged on the annular station rotary table 6, the pushing mechanism does not rotate along with the annular station rotary table 6, the pushing mechanism includes a pushing plate 61 and a pushing cylinder 62, and is used for pushing the wonton dough pressed by the wonton dough pressing mechanisms 1 onto the conveying line 5, the rotating speed of the annular station rotary table 6 and the action frequency of the pushing mechanism are controlled, when five wonton dough are respectively located below the five wonton kneading, the five wonton kneading mechanisms act, and the first kneading claw 21 and the second kneading claw 22 are closed to knead the wonton blanks into wontons.
Example 8:
a wonton processing device, the structure of which is shown in fig. 11.
As shown in fig. 11, the difference from embodiment 1 lies in that the wonton processing apparatus of this embodiment further includes an annular work station rotating disk 6, six wonton dough pressing mechanisms 1 in embodiment 1 are circumferentially arranged on the annular work station rotating disk 6, a wonton kneading mechanism (only two kneading claws of each wonton kneading mechanism are illustrated in fig. 10) is arranged on the annular work station rotating disk 6 in a matching manner, the wonton kneading mechanism is perpendicular to the annular work station rotating disk 6, the wonton kneading mechanism does not rotate along with the annular work station rotating disk 6, and when the pressed wonton dough is rotated below the wonton kneading mechanism, the wonton kneading mechanism acts to control the first kneading claw 21 and the second kneading claw 22 to be closed to knead the wonton dough into wonton.
Example 9:
a wonton processing device, the structure of which refers to fig. 12 and fig. 13.
As shown in fig. 12 and 13, six wonton dough pressing mechanisms 1 in the embodiment 1 are circumferentially arranged on the annular station rotating disc 6, which is different from the embodiment 8 in that the wonton kneading mechanism 2 in the wonton processing mechanism of the embodiment extends from the side surface of the annular station rotating disc 6 to the annular working rotating disc 6, when the pressed wonton dough rotates to the position facing the wonton kneading machine 2, the first telescopic rod 112 and the second telescopic rod 122 extend to press the wonton dough, the second telescopic rod 122 retracts completely, the first telescopic rod 112 is not moved, so that the pressed wonton dough 3 is in a standing posture, and at this time, the wonton kneading mechanism 2 on the side surface moves to control the first kneading claw and the second kneading claw to be closed to knead the wonton dough into wonton.
Example 10:
a wonton processing device, the structure of which is shown in fig. 14.
As shown in fig. 14, the difference from the embodiment 5 is that a row of six wonton kneading mechanisms is arranged on the rear side above the conveying line 5, a feeding conveyer belt 7 is arranged on the front side of the conveying line 5, the front end of the feeding conveyer belt 7 is inclined downwards, a bracket 71 is arranged below the feeding conveyer belt 7, the lower part of the feeding conveyer belt 7 is connected to a slide rail 712 on the bracket 71 through a slide block 711, the feeding conveyer belt 7 is connected to a vertical plate on the rear end of the bracket 71 through a fourth telescopic rod 71, six wonton blanks corresponding to the six wonton kneading mechanisms above the conveyor line 5 are placed on the feeding conveyor belt 7, the fourth telescopic rod 71 drives the feeding conveyor belt 7 to move forwards and then quickly retract, the six wonton blanks can be conveyed to the conveying line 5 according to corresponding intervals, when the six wonton blanks are positioned below the wonton kneading mechanisms on the conveying line 5, the wonton kneading mechanisms move downwards to knead the wonton skins into wontons similar to the shape of the cat ears. Through setting up special pay-off conveyer belt 7, be favorable to keeping the interval of adjacent wonton base on transfer chain 5, can ensure that six wonton kneading mechanisms in transfer chain 5 top knead each wonton base smoothly and knead into the wonton.
Example 11:
a wonton processing device, the structure of which is shown in fig. 15 and fig. 16.
As shown in fig. 15, the difference from embodiment 5 is that the six pairs of kneading claws in this embodiment are driven by a set of second driving mechanism, the second driving mechanism includes a supporting plate 4, taking the first pair of kneading claws as an example, the first kneading claw 21 is connected with a first rotating shaft 213, the second kneading claw 22 is connected with a second rotating shaft 221, the first rotating shaft 213 and the second rotating shaft 221 are respectively assembled on the supporting plate 4 through bearings, so that the first rotating shaft 213 and the second rotating shaft 221 can rotate, as shown in fig. 16, the first rotating shaft 213 and the second rotating shaft 221 are respectively connected with a first swing link 41 and a second swing link 42, the first swing link 41 and the second swing link 42 are respectively provided with a first connecting shaft 411 and a second connecting shaft 421, the second driving mechanism further includes a push-pull member 43, the push-pull member 43 includes a first cross bar 433 and a second cross bar 434, the upper ends of the first connecting shaft 411 and the second connecting shaft 421 are respectively hinged to the first cross bar 433, Second horizontal pole 434, first horizontal pole 433, second horizontal pole 434 rear end articulate respectively have first oblique pull rod 435, second oblique pull rod 436, first oblique pull rod 435, second oblique pull rod 436 rear end articulate jointly has quarter butt 437, through push-and-pull quarter butt 437, accessible first oblique pull rod 435, second oblique pull rod 436 drive first horizontal pole 433, the removal is controlled to second horizontal pole 434, finally drive first pivot 213, second pivot 221, make first claw 21 and the second claw 22 of mediating open and shut. The remaining kneading claws are connected in the same manner as the pair of kneading claws at the forefront.
Example 12:
a wonton processing device, the structure of which is shown in fig. 17.
As shown in fig. 17, the difference from embodiment 11 is that the first cross bar 433 and the second cross bar 434 in the second driving mechanism in this embodiment are provided with sliding grooves corresponding to the first connecting shaft 411 and the second connecting shaft 421, and taking the matching relationship between the first connecting shaft 411 and the sliding groove 431 as an example, when the first cross bar 433 moves left and right, the first connecting shaft 411 rotates, and at the same time, the first cross bar 433 moves up and down along the sliding groove 431, and this type of mechanism can drive the first kneading claw and the second kneading claw to open and close.
Example 13:
a wonton processing device, the structure of which is shown in fig. 18 and fig. 19.
As shown in fig. 18, the difference from embodiment 5 is that the six pairs of kneading claws in this embodiment are driven by a set of second driving mechanism, which includes a gear box 8, taking the first pair of kneading claws as an example, wherein a first rotating shaft 213 is connected to the first kneading claw 21, a second rotating shaft 221 is connected to the second kneading claw 22, the first rotating shaft 213 and the second rotating shaft 221 are respectively assembled on the gear box 8 through bearings, so that the first rotating shaft 213 and the second rotating shaft 221 can rotate, as shown in fig. 19, a first rack 81 and a second rack 82 are respectively provided in the gear box 8, the first rotating shaft 213 and the second rotating shaft 221 are respectively connected with a first gear 83 and a second gear 84 located in the gear box 8, the first gear 83 and the second gear 84 are respectively engaged with the first rack 81 and the second rack 82, a first notch 85 and a second notch 86 are respectively provided on both sides of the gear box 8, the gear box 8 is provided with a cover, and after the cover is covered, a link mechanism can be arranged to be connected to the first rack 81 and the second rack 82 through the first notch 85 and the second notch 86, and drive the first rack 81 and the second rack 82 to move left and right, so that the first rotating shaft 213 and the second rotating shaft 221 are driven to rotate back and forth through the first gear 83 and the second gear 84, and the first kneading claw 21 and the second kneading claw 22 are driven to open and close.
The present invention has been described in detail with reference to the accompanying drawings and embodiments, but those skilled in the art will understand that various specific parameters in the above embodiments can be changed or equivalent substitutions can be made on related components, structures and materials without departing from the technical concept of the present invention, thereby forming a plurality of specific embodiments, which are common variations of the present invention and will not be described in detail herein.