CN112273409A - Food processing is with dumpling wrapper apparatus for producing that can freely switch specification and dimension - Google Patents

Abstract

The invention discloses a dumpling wrapper production device capable of freely switching specification and size for food processing, which comprises a main box, wherein a transmission belt cavity with a leftward opening is arranged in the main box, the upper end wall of the transmission belt cavity is communicated with a grinding tool switching cavity, the front end wall of the grinding tool switching cavity is communicated with a grinding tool friction wheel cavity, the front side of the grinding tool friction wheel cavity is provided with a grinding tool belt wheel cavity extending rightward, a rotary tool switching knob is rotated, thereby driving the grinding tool switching box provided with the grinding tool rollers with different specifications to rotate, realizing a more convenient dumpling wrapper grinding tool roller switching mode, improving the production efficiency of dumpling wrappers, meanwhile, the device can freely adjust the production thickness of the dumpling wrappers by rotating the thickness adjusting knob, and the flour box is driven to vibrate ceaselessly by the vibration block, therefore, the flour can be continuously sprayed out through the mesh-shaped filter screen, and the processed dumpling wrappers are prevented from being adhered together due to over-wetting.

Description

Food processing is with dumpling wrapper apparatus for producing that can freely switch specification and dimension

Technical Field

The invention relates to the technical field of food processing, in particular to a dumpling wrapper production device capable of freely switching specification and size for food processing.

Background

Most of the production of present dumpling skin still goes on through the manual work, efficiency is lower, and present dumpling skin batch production machine can only produce the dumpling skin of same specification and dimension mostly, if need change the shape and the size of the dumpling skin of production, then need the artifical present dumpling skin grinding apparatus roller of dismantling down, install the grinding apparatus roller of another kind of required specification afterwards again, this kind of operation mode who changes dumpling skin production specification is comparatively loaded down with trivial details, efficiency is lower, and frequent dismouting also will cause the pollution or even the damage to the machine is inside, thereby influence the production quality of dumpling skin.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a dumpling wrapper production device capable of freely switching specification and size for food processing, and solve the problem that a dumpling wrapper production machine is complicated in mode of switching dumpling wrapper grinding tool rollers.

The invention is realized by the following technical scheme.

The invention relates to a dumpling wrapper production device capable of freely switching specification and size for food processing, which comprises a main box, wherein a transmission belt cavity with a leftward opening is arranged in the main box, the upper end wall of the transmission belt cavity is communicated with a grinding tool switching cavity, the front end wall of the grinding tool switching cavity is communicated with a grinding tool friction wheel cavity, a grinding tool belt wheel cavity extending rightwards is arranged at the front side of the grinding tool friction wheel cavity, the rear end wall of the grinding tool switching cavity is connected with a grinding tool switching box shaft which extends forwards into the grinding tool switching cavity and backwards into the outside in a rotating and matching manner, the rear end surface of the grinding tool switching box shaft is connected with a knob spline shaft positioned in the outside in a spline matching manner, a grinding tool switching knob is fixedly connected to the outer side of the knob spline shaft, four limiting grooves with forward openings and circumferentially arranged by taking the grinding tool switching box shaft as the center are arranged in the grinding tool switching knob, and the rear end surface The grinding tool switching box is fixedly connected with the grinding tool switching box shaft, four grinding tool roller cavities with outward openings are circumferentially arranged by taking the grinding tool switching box shaft as a center are arranged in the grinding tool switching box, grinding tool roller shafts which extend backwards into the grinding tool roller cavities and extend forwards into the grinding tool friction wheel cavities are connected in a rotationally matched manner on the front end wall of the grinding tool roller cavity, grinding tool rollers which are fixedly connected with the grinding tool roller shafts are arranged in the grinding tool roller cavities, the specifications and the sizes of the four grinding tool rollers are different, grinding tool friction wheels which are fixedly connected with the grinding tool roller shafts are arranged in the grinding tool friction wheel cavities, and driving friction wheel shafts which extend forwards into the grinding tool belt wheel cavities and extend backwards into the grinding tool friction wheel cavities and are positioned at the inner sides of the four grinding tool friction wheels are connected in a rotationally matched manner on the front end wall of the grinding tool friction wheel cavity, and an active friction wheel which is fixedly connected with the active friction wheel shaft and can be abutted against the abrasive tool friction wheel is arranged in the abrasive tool friction wheel cavity.

Preferably, the upper end wall of the transmission belt cavity is communicated with a flour box cavity which is positioned on the right side of the grinding tool switching cavity and has an upward opening, the front end wall of the flour box cavity is communicated with a vibration block cavity, the tail end of the front side of the lower end wall of the vibration block cavity is communicated with a cam push rod cavity, the lower end wall of the cam push rod cavity is communicated with a cam cavity which is positioned on the front side of the transmission belt cavity, the front side of the cam cavity is provided with a cam gear cavity which is positioned on the rear side of the grinding tool pulley cavity, the front side of the grinding tool pulley cavity is provided with a flour pulley cavity extending rightwards, the rear side of the transmission belt cavity is provided with a motor pulley cavity extending rightwards, the right end wall of the transmission belt cavity is communicated with an extrusion cavity which is positioned on the front side of the motor pulley cavity, the front end wall of the extrusion cavity is communicated with an adjustment shaft cavity, the front end wall of the adjustment shaft cavity is communicated with a thickness pulley cavity, the thickness is adjusted the chamber downside and is equipped with and is located the motor shaft gear chamber of flour pulley chamber rear side, motor pulley chamber rear side be equipped with main part case fixed connection just is located the motor of extrusion chamber rear side, extrusion chamber right-hand member wall intercommunication is equipped with the ascending feeding chamber of opening.

Preferably, the back end wall of the transmission belt cavity is connected with a dough sheet transmission shaft which is arranged by taking the grinding tool switching cavity as a central bilateral symmetry and extends forwards to the transmission belt cavity, the dough sheet transmission shaft extends backwards to the motor belt wheel cavity, the left side and the right side are connected with a dough sheet transmission belt positioned in the transmission belt cavity in a power fit manner, the front end wall and the back end wall of the transmission belt cavity are fixedly connected with a butt block which is abutted against the dough sheet transmission belt and can correspond to the grinding tool roller, the front end wall of the cam cavity is connected with a cam shaft which extends backwards to the cam cavity and extends forwards to penetrate through the cam gear cavity to the flour belt wheel cavity in a rotation fit manner, a cam fixedly connected with the cam shaft is arranged in the cam cavity, and the upper side of the cam is abutted with a cam push block connected with the cam cavity in a sliding fit manner, the utility model discloses a flour case, including the flour case, the flour case is equipped with the vibration piece, cam ejector pad up end with fixedly connected with cam spring between the cam chamber upper end wall, cam ejector pad up end fixedly connected with is located the cam spring inboard just upwards extends and runs through cam ejector pad chamber extremely the cam push rod in the vibrations piece intracavity, cam push rod up end fixedly connected with vibrations piece chamber sliding fit is connected and extends to backward the vibrations piece in the flour case intracavity.

Preferably, the rear end face of the vibrating block is fixedly connected with a flour box connected with the flour box cavity in a sliding fit manner, a flour cavity which is communicated up and down is arranged in the flour box, a reticular filter plate is fixedly connected in the flour cavity, the front end wall of the cam gear cavity is connected with a grinding tool belt wheel spindle which extends forwards into the grinding tool belt wheel cavity and backwards into the cam gear cavity in a rotating fit manner, a cam main gear fixedly connected with the cam shaft is arranged in the cam gear cavity, the upper side of the cam main gear is connected with a cam pinion fixedly connected with the grinding tool belt wheel spindle in a power fit manner, a grinding tool belt wheel belt positioned in the grinding tool belt wheel cavity is connected between the grinding tool belt wheel spindle and the driving friction wheel shaft in a power fit manner, the front end face of the motor is fixedly connected with a lower extrusion roller shaft which extends forwards through the motor belt wheel cavity and the extrusion cavity, lower squeeze roll axle and right side power fit is connected with and is located between the face skin transmission shaft motor drive belt in the motor band pulley intracavity, thickness band pulley chamber front end rotation fit is connected with and extends forward and runs through motor shaft gear chamber extremely the flour driving shaft of flour band pulley intracavity, the flour driving shaft with power fit is connected with and is located between the camshaft the flour belt of flour band pulley intracavity.

Preferably, a motor shaft main gear fixedly connected with the lower extrusion roller shaft is arranged in the motor shaft gear cavity, a motor shaft pinion fixedly connected with the flour driving shaft is connected to the upper side of the motor shaft main gear in a power fit manner, a thickness adjusting shaft extending upwards and penetrating through the thickness adjusting cavity to the outside is connected to the lower end wall of the thickness adjusting cavity in a rotating fit manner, a thickness adjusting knob located outside is fixedly connected to the upper end face of the thickness adjusting shaft, a thickness adjusting slider connected with the thickness adjusting shaft in a sliding fit manner is connected in the thickness adjusting cavity in a threaded fit manner, an upper extrusion roller shaft extending backwards and penetrating through the thickness pulley cavity and the adjusting shaft cavity to the extrusion cavity is connected in a rotating fit manner, a fit belt roller shaft extending forwards to the thickness pulley cavity and located on the upper side of the adjusting shaft cavity is connected to the rear end wall of the thickness pulley cavity in a rotating fit manner, the flour driving shaft is connected with a flour driving shaft through a matching belt wheel shaft, a thickness adjusting belt located in the thickness belt wheel cavity is connected between the matching belt wheel shaft and the flour driving shaft in a power matching mode, an upper squeeze roller fixedly connected with the upper squeeze roller shaft is arranged in the squeeze cavity, and a lower squeeze roller fixedly connected with the lower squeeze roller shaft and corresponding to the upper squeeze roller is arranged in the squeeze cavity.

The invention has the beneficial effects that: according to the dumpling wrapper roller switching device, the grinding tool switching knob is rotated, so that the grinding tool switching box provided with the grinding tool rollers with different specifications is driven to rotate, a more convenient dumpling wrapper grinding tool roller switching mode is realized, the production efficiency of dumpling wrappers is improved, meanwhile, the device can freely adjust the production thickness of the dumpling wrappers by rotating the thickness adjusting knob, and the flour box is driven to continuously vibrate by the vibration block, so that flour can be continuously scattered out through the mesh filter screen, and the processed dumpling wrappers are prevented from being adhered together due to excessive wetting.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view at B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view at C-C in FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-4, the device for producing dumpling wrappers capable of freely switching specification and size for food processing comprises a main body box 10, a transmission belt cavity 15 with a leftward opening is arranged in the main body box 10, an abrasive tool switching cavity 19 is communicated with the upper end wall of the transmission belt cavity 15, an abrasive tool friction wheel cavity 37 is communicated with the front end wall of the abrasive tool switching cavity 19, an abrasive tool belt wheel cavity 33 extending rightwards is arranged on the front side of the abrasive tool friction wheel cavity 37, an abrasive tool switching box shaft 21 extending forwards into the abrasive tool switching cavity 19 and backwards to the outside is connected in a rotationally matched manner in the rear end wall of the abrasive tool switching cavity 19, a spline shaft 41 located outside is connected in a splined manner in the rear end face of the abrasive tool switching box shaft 21 in a splined manner, an abrasive tool switching knob 40 is fixedly connected to the outer side of the spline shaft 41, four limiting grooves 42 with forward openings and circumferentially arranged by taking the abrasive tool switching box shaft 21 as a center are arranged in, the grinding tool switching mechanism is characterized in that a limiting block 39 which is located on the front side of a grinding tool switching knob 40 and can correspond to a limiting groove 42 is fixedly connected to the rear end face of the main body box 10, a grinding tool switching box 30 which is fixedly connected with a grinding tool switching box shaft 21 is arranged in a grinding tool switching cavity 19, four grinding tool roller cavities 20 which are provided with outward openings and circumferentially arranged by taking the grinding tool switching box shaft 21 as a center are arranged in the grinding tool switching box 30, grinding tool roller shafts 22 which extend backwards into the grinding tool roller cavities 20 and forwards into grinding tool friction wheel cavities 37 are connected in a rotating fit mode to the front end walls of the grinding tool roller cavities 20, grinding tool rollers 11 which are fixedly connected with the grinding tool roller shafts 22 are arranged in the grinding tool roller cavities 20, the specifications and the sizes of the four grinding tool rollers 11 are different, grinding tool friction wheels 35 which are fixedly connected with the grinding tool roller shafts 22 are arranged in the grinding tool friction wheel cavities 37, and grinding tool friction wheel cavities 37 are connected with rotating forward The driving friction wheel shaft 32 is arranged in the grinding tool friction wheel cavity 37 and located on the inner sides of the four grinding tool friction wheels 35, and a driving friction wheel 36 which is fixedly connected with the driving friction wheel shaft 32 and can be abutted against the grinding tool friction wheels 35 is arranged in the grinding tool friction wheel cavity 37.

Beneficially, the upper end wall of the transmission belt cavity 15 is communicated with a flour box cavity 18 which is located on the right side of the grinding tool switching cavity 19 and has an upward opening, the front end wall of the flour box cavity 18 is communicated with a vibration block cavity 55, the front end of the lower end wall of the vibration block cavity 55 is communicated with a cam push rod cavity 53, the lower end wall of the cam push rod cavity 53 is communicated with a cam cavity 51 which is located on the front side of the transmission belt cavity 15, the front side of the cam cavity 51 is provided with a cam gear cavity 48 which is located on the rear side of the grinding tool belt wheel cavity 33, the front side of the grinding tool belt wheel cavity 33 is provided with a flour belt wheel cavity 46 which extends rightward, the rear side of the transmission belt cavity 15 is provided with a motor belt wheel cavity 61 which extends rightward, the right end wall of the transmission belt cavity 15 is communicated with a squeezing cavity 23 which is located on the front side of the motor belt wheel cavity 61, the front end wall of the squeezing cavity 23 is communicated with an adjusting shaft cavity 73, the front end wall of, thickness pulley chamber 69 front end wall intercommunication is equipped with thickness regulation chamber 63, thickness regulation chamber 63 downside is equipped with and is located the motor shaft gear chamber 67 of flour pulley chamber 46 rear side, motor pulley chamber 61 rear side be equipped with main body box 10 fixed connection just is located the motor 74 of extrusion chamber 23 rear side, extrusion chamber 23 right-hand member wall intercommunication is equipped with the ascending income material chamber 26 of opening.

Beneficially, the rear end wall of the transmission belt cavity 15 is connected with a dough cover transmission shaft 14 which is arranged in a bilateral symmetry mode with the grinding tool switching cavity 19 as a center and extends forwards into the transmission belt cavity 15, the dough cover transmission shaft 14 on the right side extends backwards into the motor pulley cavity 61, the dough cover transmission shaft 14 on the left side and the right side is connected with a dough cover transmission belt 31 located in the transmission belt cavity 15 in a power fit mode, an abutting block 16 which is abutted to the dough cover transmission belt 31 and can correspond to the grinding tool roller 11 is fixedly connected between the front end wall and the rear end wall of the transmission belt cavity 15, the front end wall of the cam cavity 51 is connected with a cam shaft 45 which extends backwards into the cam cavity 51 and extends forwards to penetrate through the cam gear cavity 48 to the dough cover pulley cavity 46 in a rotating fit mode, a cam 50 fixedly connected with the cam shaft 45 is arranged in the cam cavity 51, cam 50 upside butt have with cam chamber 51 sliding fit connects cam ejector pad 49, cam ejector pad 49 up end with fixedly connected with cam spring 60 between the cam chamber 51 upper end wall, cam ejector pad 49 up end fixedly connected with is located cam spring 60 inboard just upwards extends and runs through cam ejector pad chamber 53 extremely cam push rod 54 in the vibrations piece chamber 55, cam push rod 54 up end fixedly connected with vibrations piece chamber 55 sliding fit connects and backward extends to vibrations piece 56 in flour case chamber 18.

Beneficially, a flour box 59 connected with the flour box cavity 18 in a sliding fit manner is fixedly connected to the rear end face of the vibration block 56, a flour cavity 58 penetrating up and down is arranged in the flour box 59, a meshed filter plate 57 is fixedly connected in the flour cavity 58, a grinding tool belt wheel spindle 52 extending forward into the grinding tool belt wheel cavity 33 and extending backward into the cam gear cavity 48 is connected to the front end wall of the cam gear cavity 48 in a rotating fit manner, a cam main gear 47 fixedly connected with the cam shaft 45 is arranged in the cam gear cavity 48, a cam pinion 43 fixedly connected with the grinding tool belt wheel spindle 52 is connected to the upper side of the cam main gear 47 in a dynamic fit manner, a grinding tool belt wheel belt 34 located in the grinding tool belt wheel cavity 33 is connected between the grinding tool belt wheel spindle 52 and the driving friction wheel shaft 32 in a dynamic fit manner, and a front end face of the motor 74 is fixedly connected with a grinding tool belt wheel 43 extending forward to penetrate through the motor belt wheel cavity 61 and lower squeeze roller axle 28 in the shaft gear chamber 67, lower squeeze roller axle 28 and right side power fit is connected with and is located between the face skin transmission shaft 14 motor drive belt 62 in the motor pulley chamber 61, thickness pulley chamber 69 front end wall internal rotation cooperation is connected with and extends forward and runs through motor shaft gear chamber 67 extremely flour driving shaft 66 in the flour pulley chamber 46, flour driving shaft 66 with power fit is connected with and is located between the camshaft 45 flour belt 44 in the flour pulley chamber 46.

Beneficially, a motor shaft main gear 68 fixedly connected with the lower squeeze roller shaft 28 is arranged in the motor shaft gear cavity 67, a motor shaft pinion 65 fixedly connected with the flour driving shaft 66 is connected to the upper side of the motor shaft main gear 68 in a power fit manner, a thickness adjusting shaft 71 extending upwards and penetrating through the thickness adjusting cavity 63 to the outside is connected to the lower end wall of the thickness adjusting cavity 63 in a power fit manner, a thickness adjusting knob 24 located at the outside is fixedly connected to the upper end surface of the thickness adjusting shaft 71, a thickness adjusting slider 64 in a screw fit connection with the thickness adjusting shaft 71 is connected to the lower end wall of the thickness adjusting cavity 63 in a sliding fit manner, the thickness adjusting slider 64 is in a rotation fit connection with an upper squeeze roller shaft 25 extending backwards and penetrating through the thickness pulley cavity 69 and the adjusting shaft cavity 73 to the squeeze cavity 23, and a rear end wall of the thickness pulley cavity 69 is in a rotation fit connection with an upper squeeze roller shaft cavity 69 extending forwards and located in 73, a thickness adjusting belt 70 positioned in the thickness pulley cavity 69 is connected between the matching belt wheel shaft 72 and the upper squeeze roller shaft 25 as well as between the matching belt wheel shaft 72 and the flour driving shaft 66 in a power matching manner, an upper squeeze roller 27 fixedly connected with the upper squeeze roller shaft 25 is arranged in the squeeze cavity 23, and a lower squeeze roller 29 fixedly connected with the lower squeeze roller shaft 28 and corresponding to the upper squeeze roller 27 is arranged in the squeeze cavity 23.

In an initial state, the driving friction wheel 36 and the lower side grinding tool friction wheel 35 are in an abutting state, the limiting block 39 and the upper side limiting groove 42 are in a corresponding state, the lower end face of the thickness adjusting slide block 64 and the lower end wall of the thickness adjusting cavity 63 are in an abutting state, the distance between the upper extrusion roller 27 and the lower extrusion roller 29 is at a minimum value, and the dumpling wrappers processed at the moment are in a thinnest state.

When the dough kneading machine starts to work, kneaded dough is placed into the feeding cavity 26, then the motor 74 is started to drive the lower extrusion roller shaft 28 to rotate, so that the lower extrusion roller 29 is driven to rotate, meanwhile, the lower extrusion roller shaft 28 drives the motor shaft pinion 65 to rotate through the motor shaft main gear 68, so that the flour driving shaft 66 is driven to rotate, the flour driving shaft 66 is simultaneously matched with the belt wheel shaft 72 through the thickness adjusting belt 70 to drive the upper extrusion roller shaft 25 to rotate, so that the upper extrusion roller 27 is driven to rotate, so that the dough receives the friction force of the upper extrusion roller 27 due to the fact that the upper extrusion roller 27 and the lower extrusion roller 29 rotate in different directions, so that the dough enters a gap between the upper extrusion roller 27 and the lower extrusion roller 29, and is gradually extruded into a sheet shape and then leftwards conveyed into the transmission belt cavity 15, namely the upper end face of the dough transmission belt 31;

meanwhile, the flour driving shaft 66 drives the cam shaft 45 to rotate through the flour belt 44, so as to drive the cam main gear 47 and the cam 50 to rotate, the cam 50 rotates and is matched with the thrust of the cam spring 60, so that the cam push block 49 reciprocates up and down in the cam cavity 51, and the flour box 59 achieves a vibration effect through the cam push rod 54 and the vibration block 56, so that the flour in the flour cavity 58 is scattered on the flaky flour through the mesh-shaped filter plate 57 at the moment, the flour is prevented from being adhered to the subsequent grinding tool roller 11, and the processed dumpling wrappers are prevented from being adhered to each other;

meanwhile, the lower extrusion roll shaft 28 drives the right side surface leather transmission shaft 14 to rotate through the motor transmission belt 62, the right side surface leather transmission shaft 14 is matched with the left side surface leather transmission shaft 14 so as to drive the surface leather transmission belt 31 to transmit the surface leather leftwards, meanwhile, the cam main gear 47 drives the grinding tool belt wheel main shaft 52 to rotate through the cam pinion 43, the grinding tool belt wheel main shaft 52 drives the driving friction wheel shaft 32 to rotate through the grinding tool belt wheel 34 so as to drive the driving friction wheel 36 to rotate, so as to drive the lower side grinding tool friction wheel 35 to rotate, so as to drive the lower side grinding tool roll 11 to rotate, so that the surface leather transmitted to the lower side of the grinding tool roll 11 leftwards from the surface leather transmission belt 31 is extruded between the grinding tool roll 11 and the abutting block 16 and is sheared by the grinding tool roll 11 so as to be;

if the thickness of the dumpling wrapper needs to be changed, the thickness adjusting knob 24 is rotated at the moment, so that the thickness adjusting shaft 71 is driven to rotate, the thickness adjusting slide block 64 is driven to move upwards, the thickness adjusting slide block 64 drives the upper extrusion roller 27 to move upwards through the upper extrusion roller shaft 25, the distance between the upper extrusion roller 27 and the lower extrusion roller 29 is changed at the moment, the thickness of the dumpling wrapper is changed, and the thickness of the dumpling wrapper is changed;

if the shape or diameter size of the dumpling wrapper needs to be changed, the grinding tool switching knob 40 is pulled backwards at the moment, so that the limiting block 39 and the upper limiting groove 42 are in a separated state, then the grinding tool switching knob 40 is rotated, so that any one limiting groove 42 of the other three sides corresponds to the limiting block 39 and is pushed forwards, so that the limiting block 39 completely corresponds to the limiting groove 42 of the other side, namely, the grinding tool switching box shaft 21 cannot rotate, so that when the grinding tool switching knob 40 is rotated, the grinding tool switching box shaft 21 is driven to rotate through the knob spline shaft 41, so that the grinding tool switching box 30 is driven to rotate, so that the grinding tool friction wheel 35 and the driving friction wheel 36 on the other side are driven to be in a butting state through the grinding tool roller shaft 22, so that the grinding tool roller 11 and the butting block 16 on the other side are also in a corresponding state, so that when the motor 74 is started, the driving, thereby driving the corresponding grinding tool roller 11 to rotate, realizing the free switching of the grinding tool roller 11, and changing the shape or the size of the produced dumpling wrapper.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a dumpling wrapper apparatus for producing that food processing is with can freely switching specification and dimension, includes the main part case, its characterized in that: the grinding tool switching mechanism comprises a main body box, a transmission belt cavity with a leftward opening is arranged in the main body box, a grinding tool switching cavity is communicated with the upper end wall of the transmission belt cavity, a grinding tool friction wheel cavity is communicated with the front end wall of the grinding tool switching cavity, a grinding tool belt wheel cavity extending rightwards is arranged on the front side of the grinding tool friction wheel cavity, a grinding tool switching box shaft extending forwards into the grinding tool switching cavity and extending backwards to the outside is connected in a rotating and matching mode in the rear end wall of the grinding tool switching cavity in a matched mode, a knob spline shaft located outside is connected in a spline matching mode in the rear end face of the grinding tool switching box shaft in a matched mode, a grinding tool switching knob is fixedly connected to the outer side of the knob spline shaft in a matched mode, four limiting grooves with the front opening and arranged circumferentially and taking the grinding tool switching box shaft as the center are arranged in, the grinding tool switching cavity is internally provided with a grinding tool switching box fixedly connected with a grinding tool switching box shaft, four grinding tool roller cavities with outward openings are circumferentially arranged by taking the grinding tool switching box shaft as a center, the front end wall of each grinding tool roller cavity is connected with a grinding tool roller shaft which extends backwards into the corresponding grinding tool roller cavity and forwards extends into the corresponding grinding tool friction wheel cavity in a rotating fit manner, grinding tool rollers fixedly connected with the corresponding grinding tool roller shafts are arranged in the corresponding grinding tool roller cavities, the specifications and the dimensions of the four grinding tool rollers are different, a grinding tool friction wheel fixedly connected with the corresponding grinding tool roller shaft is arranged in each grinding tool friction wheel cavity, the front end wall of each grinding tool friction wheel cavity is connected with a driving friction wheel shaft which extends forwards into the corresponding grinding tool belt wheel cavity and backwards extends into the corresponding grinding tool friction wheel cavity and is located on the inner sides of the four grinding tool friction wheels, and the grinding tool friction wheel cavity is internally provided with a driving friction wheel shaft The friction wheel is connected with the driving friction wheel.

2. The dumpling wrapper production apparatus capable of freely switching the specification and the size for food processing according to claim 1, wherein: the upper end wall of the transmission belt cavity is communicated with a flour box cavity which is positioned on the right side of the grinding tool switching cavity and has an upward opening, the front end wall of the flour box cavity is communicated with a vibration block cavity, the tail end of the front side of the lower end wall of the vibration block cavity is communicated with a cam push rod cavity, the lower end wall of the cam push rod cavity is communicated with a cam cavity positioned on the front side of the transmission belt cavity, the front side of the cam cavity is provided with a cam gear cavity positioned on the rear side of the grinding tool belt wheel cavity, the front side of the grinding tool belt wheel cavity is provided with a flour belt wheel cavity extending rightwards, the rear side of the transmission belt cavity is provided with a motor belt wheel cavity extending rightwards, the right end wall of the transmission belt cavity is communicated with an extrusion cavity positioned on the front side of the motor belt wheel cavity, the front end wall of the extrusion cavity is communicated with an adjusting shaft cavity, the front end wall of the adjusting shaft cavity is communicated with a thickness belt wheel, the thickness is adjusted the chamber downside and is equipped with and is located the motor shaft gear chamber of flour pulley chamber rear side, motor pulley chamber rear side be equipped with main part case fixed connection just is located the motor of extrusion chamber rear side, extrusion chamber right-hand member wall intercommunication is equipped with the ascending feeding chamber of opening.

3. The dumpling wrapper production apparatus capable of freely switching the specification and the size for food processing according to claim 1, wherein: the back end wall of the transmission belt cavity is connected with a dough sheet transmission shaft which is arranged by taking the grinding tool switching cavity as central bilateral symmetry and extends forwards to the transmission belt cavity, the dough sheet transmission shaft extends to the motor belt wheel cavity backwards, the left side and the right side are connected with a dough sheet transmission belt positioned in the transmission belt cavity in a power fit manner between the dough sheet transmission shaft, a butt block which is abutted against the dough sheet transmission belt and can correspond to the grinding tool roller is fixedly connected between the front end wall and the back end wall of the transmission belt cavity, a cam shaft which extends backwards into the cam cavity and extends forwards to penetrate through the cam gear cavity to the flour belt wheel cavity is connected in the front end wall of the cam cavity in a power fit manner, a cam which is fixedly connected with the cam shaft is arranged in the cam cavity, and a cam push block which is connected with the cam cavity in a sliding fit manner is abutted against the upper, the utility model discloses a flour case, including the flour case, the flour case is equipped with the vibration piece, cam ejector pad up end with fixedly connected with cam spring between the cam chamber upper end wall, cam ejector pad up end fixedly connected with is located the cam spring inboard just upwards extends and runs through cam ejector pad chamber extremely the cam push rod in the vibrations piece intracavity, cam push rod up end fixedly connected with vibrations piece chamber sliding fit is connected and extends to backward the vibrations piece in the flour case intracavity.

4. The dumpling wrapper production apparatus capable of freely switching the specification and the size for food processing according to claim 3, wherein: the rear end face of the vibrating block is fixedly connected with a flour box which is connected with the flour box cavity in a sliding fit manner, a flour cavity which is communicated up and down is arranged in the flour box, a reticular filter plate is fixedly connected in the flour cavity, the front end wall of the cam gear cavity is connected with a grinding tool belt wheel spindle which extends forwards into the grinding tool belt wheel cavity and backwards into the cam gear cavity in a rotating fit manner, a cam main gear which is fixedly connected with the cam shaft is arranged in the cam gear cavity, a cam pinion which is fixedly connected with the grinding tool belt wheel spindle is connected with the cam main gear in a power fit manner, a grinding tool belt wheel belt which is positioned in the grinding tool belt wheel cavity is connected between the grinding tool belt wheel spindle and the driving friction wheel shaft in a power fit manner, and the front end face of the motor is fixedly connected with a lower extrusion roller shaft which extends forwards through the motor belt, lower squeeze roll axle and right side power fit is connected with and is located between the face skin transmission shaft motor drive belt in the motor band pulley intracavity, thickness band pulley chamber front end rotation fit is connected with and extends forward and runs through motor shaft gear chamber extremely the flour driving shaft of flour band pulley intracavity, the flour driving shaft with power fit is connected with and is located between the camshaft the flour belt of flour band pulley intracavity.

5. The dumpling wrapper production apparatus capable of freely switching the specification and the size for food processing according to claim 4, wherein: a motor shaft main gear fixedly connected with the lower extrusion roller shaft is arranged in the motor shaft gear cavity, a motor shaft pinion fixedly connected with the flour driving shaft is connected to the upper side of the motor shaft main gear in a power fit manner, a thickness adjusting shaft which extends upwards and penetrates through the thickness adjusting cavity to the outside is connected to the lower end wall of the thickness adjusting cavity in a rotating fit manner, a thickness adjusting knob located at the outside is fixedly connected to the upper end face of the thickness adjusting shaft, a thickness adjusting slider in a sliding fit manner is connected to the thickness adjusting cavity and in a threaded fit manner with the thickness adjusting shaft, an upper extrusion roller shaft which extends backwards and penetrates through the thickness pulley cavity and the adjusting shaft cavity to the extrusion cavity is connected to the thickness adjusting slider in a rotating fit manner, and a matching belt roller shaft which extends forwards to the thickness pulley cavity and is located at the upper side of the adjusting shaft cavity is connected to the rear end, the flour driving shaft is connected with a flour driving shaft through a matching belt wheel shaft, a thickness adjusting belt located in the thickness belt wheel cavity is connected between the matching belt wheel shaft and the flour driving shaft in a power matching mode, an upper squeeze roller fixedly connected with the upper squeeze roller shaft is arranged in the squeeze cavity, and a lower squeeze roller fixedly connected with the lower squeeze roller shaft and corresponding to the upper squeeze roller is arranged in the squeeze cavity.

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