A dumpling machine
By introducing a filling mixing and conveying mechanism into the wonton machine, combined with auxiliary and total filling cutting components and an exhaust component, the problems of uneven filling and gas mixing are solved, achieving uniform supply and consistent appearance of wontons, and improving production efficiency and product quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO YONGBO INTELLIGENT EQUIP CO LTD
- Filing Date
- 2025-08-08
- Publication Date
- 2026-07-14
AI Technical Summary
Existing wonton machines suffer from problems such as inconsistent filling sizes and air ingress during the filling supply process, affecting the uniformity and appearance of the wontons.
The system employs a filling mixing mechanism and a filling conveying mechanism, including a filling propulsion assembly and a filling tube assembly. By setting an auxiliary filling cut-off assembly and a total filling cut-off assembly, combined with an exhaust assembly, it ensures uniform delivery of filling and removal of gas, thereby achieving quantitative output.
This ensures a uniform supply of wonton filling, guaranteeing the overall uniformity and consistent appearance of the wontons, and improving production efficiency and product quality.
Smart Images

Figure CN224482796U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of food science and technology, specifically, it relates to a wonton machine. Background Technology
[0002] Food forming machinery is widely used in the production of various pasta, pastries, etc. Filling machines are specifically designed for producing various filled foods. Filled foods generally consist of an outer wrapper and an inner filling. Due to differences in filling materials and methods of wrapper preparation and shaping, there are many types of filling machines. Wonton machines are one type of filling machine. Wontons, as a popular traditional food, have a large consumer base. However, manual wonton making is inefficient, results in inconsistent appearance of the finished wontons, and uneven filling supply, affecting the consumer's eating experience. Therefore, using wonton machines to make wontons has become the mainstream method.
[0003] However, existing automated wonton-making equipment uses a rotary pump to supply the filling, which often results in fillings of varying sizes, thus affecting the overall uniformity of the wontons.
[0004] Meanwhile, during the filling process, the rotary pump often mixes gas into the filling, which further affects the uniformity of the filling.
[0005] Therefore, developing a wonton machine that can achieve a uniform supply of wonton filling, thereby ensuring the overall uniformity of the wontons, is a technical problem that urgently needs to be solved. Utility Model Content
[0006] The purpose of this invention is to provide a wonton machine that can achieve a uniform supply of wonton filling, thereby ensuring the overall uniformity of the wontons.
[0007] To achieve the above-mentioned objectives, the present invention employs the following technical solution:
[0008] This utility model discloses a wonton machine, comprising: a filling feeding unit, which includes a filling mixing mechanism and a filling conveying mechanism; the filling conveying mechanism includes a filling pushing component and a filling tube component; the filling mixing mechanism is used to rotate and mix the filling and convey the filling to the inlet of the filling tube component; the outlet of the filling tube component is used to convey the filling onto the cut wonton wrappers; the filling pushing component includes an auxiliary filling cutting component, a filling pushing component, and a total filling cutting component.
[0009] The auxiliary filling cutting component, the filling pushing component, and the main filling cutting component are arranged at intervals above the filling tube assembly along the filling conveying direction;
[0010] With the total filling cutting component pressed against the filling tube assembly, the filling delivery section stops feeding filling onto the wonton wrapper.
[0011] The filling mixing mechanism delivers filling into the filling tube assembly. The main filling cutting assembly is lifted off the filling tube assembly. With the auxiliary filling cutting assembly pressed against the filling tube assembly, the filling pushing assembly is pressed against the filling tube assembly to push the filling out from the outlet of the filling tube assembly and deliver the filling onto the wonton wrapper.
[0012] In some embodiments of this application, the filling tube assembly includes a venting assembly, which includes a tee and a vent pipe;
[0013] The three-way component includes a first connecting pipe and a second connecting pipe. The first connecting pipe has an exhaust port in the middle that connects to the inlet of the second connecting pipe, and the outlet of the second connecting pipe is connected to the exhaust pipe.
[0014] The inlet of the first connecting pipe is connected to the filling mixing mechanism, and the outlet of the first connecting pipe is used to deliver filling to the cut wonton wrappers;
[0015] A baffle plate is formed extending along the axial direction inside the first connecting pipe, the baffle plate dividing the first connecting pipe into a first cavity and a second cavity, and a sealing plate is provided at the outlet of the first connecting pipe, the sealing plate being used to seal the outlet of the second cavity;
[0016] The exhaust port is connected to the second cavity.
[0017] In some embodiments of this application, the filling tube assembly further includes a main filling tube and a sub-filling tube, wherein the inlet of the main filling tube is connected to the filling mixing mechanism, and the outlet of the main filling tube is connected to the inlet of the first connecting tube.
[0018] The inlet of the filling tube is connected to the outlet of the first connecting tube, and the outlet of the filling tube is used to deliver filling to the cut wonton wrappers.
[0019] In some embodiments of this application, a synchronous conveying unit is provided, which extends along the conveying direction, and the synchronous conveying unit is used to convey wonton wrappers and wontons;
[0020] A wonton wrapper cutting mechanism includes a transverse cutting section and a longitudinal cutting section. The longitudinal cutting section is used to cut wonton wrappers along the conveying direction of the wonton wrappers. The transverse cutting section is used to cut wonton wrappers in a direction perpendicular to the longitudinal cutting section. The transverse cutting section includes a plurality of cutting components. The cutting components extend along the width direction of the synchronous conveying section, and the plurality of cutting components are spaced apart circumferentially along the synchronous conveying section.
[0021] The folding section is used to fold the wonton wrapper containing the filling so that the wonton wrapper covers the filling from both sides.
[0022] The pressing and wrapping mechanism includes a pressing part and a wrapping part. The pressing part is used to press the overlapping part of the two layers of wonton skin formed after being turned over by the turning part, so as to press the two layers of wonton skin firmly. The wrapping part is used to wrap the wonton.
[0023] A control mechanism is configured to control the synchronous conveying mechanism, the dough cutting mechanism, the filling feeding section, the dough turning section, the dough pressing section, and the wrapping section to operate sequentially;
[0024] The longitudinal cutting section, the filling feeding section, the turning section, and the pressing and wrapping mechanism are arranged sequentially and at intervals above the synchronous conveying section along the conveying direction of the wonton wrappers.
[0025] In some embodiments of this application, a vertical support frame is also included, which is vertically positioned above the synchronous conveying unit;
[0026] The pressing part includes a pressing component and an auxiliary support component, wherein the pressing component is configured to be movable relative to the vertical support frame in a vertical direction;
[0027] The pressing assembly includes a limiting block, a pressure plate, and a pressure plate driving component;
[0028] The limiting pressure block is connected to the vertical support frame and can move vertically relative to the synchronous conveying part;
[0029] The limiting block has a limiting passage in the vertical direction, the pressure plate passes through the limiting passage, and the pressure plate can move in the vertical direction relative to the limiting passage under the drive of the pressure plate driving component;
[0030] The auxiliary support assembly is embedded in the conveying plane of the synchronous conveying unit, and the auxiliary support assembly is located below the pressing assembly. When the auxiliary support assembly supports the folded wonton wrapper containing the filling, the limiting block can move downward with the vertical support frame without the action of other external forces. When the limiting block touches the synchronous conveying unit located below, the limiting block stops moving. The vertical support frame drives the pressure plate to continue moving downward until the end of the pressure plate contacts the wonton wrapper located on the auxiliary support assembly and presses the folded wonton wrapper. The vertical support frame and the pressure plate stop moving downward. The pressure plate driving unit can drive the pressure plate to move upward and disengage from the wonton wrapper.
[0031] In some embodiments of this application, the auxiliary support assembly includes a lifting support component, an auxiliary enclosing component, and an elastic support component. The lifting support component has multiple through holes along the vertical direction. The auxiliary enclosing component passes through the through holes and is movable relative to the through holes. The elastic support component is configured to elastically support the lifting support component. When the elastic support component is subjected to a force along the vertical direction, during the movement of the lifting support component along the vertical direction, the lifting support component presses down on the elastic support component, and the auxiliary enclosing component moves relative to the through holes.
[0032] In some embodiments of this application, a push rod is connected vertically to the vertical support frame. When the lower end of the pressure plate is in contact with and pressing the wonton wrapper, the lower end of the push rod is in contact with the auxiliary support assembly. The lower end of the push rod pushes the auxiliary support assembly downward, and the pressure plate presses the wonton wrapper, pushing the auxiliary support assembly downward.
[0033] When the pressure plate and the push rod push the lifting support component downward to the target position, the wrapping part starts to work and wraps the pressed wonton; when the wrapping action is completed, the pressure plate drive part drives the pressure plate to move upward and disengage from the wrapped wonton.
[0034] In some embodiments of this application, the cutting assembly includes a first skin-cutting component;
[0035] The transverse cutting section includes a first cutting component and a buffer assembly. The synchronous conveying section drives multiple first cutting components to move until the multiple first cutting components move to the corresponding position below the first cutting component. The first cutting component moves downward to align with the first cutting component to cut the sub-skin.
[0036] The buffer assembly is used to adjust the force with which the mating first peeling component presses against the first peeling component.
[0037] In some embodiments of this application, the buffer assembly includes an adjusting bolt, an adjusting elastic part, and an adjusting connecting part. The upper end of the adjusting connecting part is provided with an adjusting threaded hole, and the adjusting elastic part is connected to the lower end of the adjusting connecting part.
[0038] The transverse cutting section also includes a mating support frame, a mating guide post, and a mating stop block. The mating support frame has a mating movement through hole.
[0039] One end of the mating guide post is connected to the mating first cutting component, and the other end of the mating guide post passes through the mating moving through hole and is connected to the mating stop block.
[0040] When the first cutting component is not subjected to external force, the mating support frame stops the...
[0041] The opposing stop block;
[0042] The mating support frame is provided with an adjustment through hole, and one end of the bolt passes through the adjustment through hole and is threadedly connected to the adjustment threaded hole; the end of the adjustment elastic part abuts against the mating first cutting component.
[0043] In some embodiments of this application, the adjusting elastic part includes a spring.
[0044] Compared with the prior art, the advantages and positive effects of this utility model are:
[0045] By incorporating a filling mixing mechanism to rotate and mix the filling, and then conveying it to the inlet of the filling tube assembly, the outlet of which delivers the filling to the cut wonton wrappers. Along the direction of filling delivery, an auxiliary filling cut-off component, a filling propulsion component, and a main filling cut-off component are sequentially positioned above the filling tube assembly at intervals. With the main filling cut-off component pressed against the filling tube assembly, the filling delivery unit stops feeding filling onto the wonton wrappers. The filling mixing mechanism feeds filling into the filling tube assembly, the main filling cut-off component lifts off the assembly, and with the auxiliary filling cut-off component pressed against it, the filling propulsion component presses against the assembly, forcing the filling out from the outlet of the filling tube assembly and onto the wonton wrappers. This achieves a quantitative output of filling, which helps improve the uniformity of wonton size.
[0046] Other features and advantages of this utility model will become clearer after reading the specific embodiments of this utility model in conjunction with the accompanying drawings. Attached Figure Description
[0047] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0048] Figure 1 This is one of the overall structural schematic diagrams of an embodiment of the wonton machine proposed in this utility model;
[0049] Figure 2 yes Figure 1 A partial schematic diagram at point A in the middle;
[0050] Figure 3 yes Figure 1A partial schematic diagram at point B in the middle;
[0051] Figure 4 This is the second schematic diagram of the overall structure of one embodiment of the wonton machine proposed in this utility model;
[0052] Figure 5 yes Figure 4 A partial schematic diagram at point C in the middle;
[0053] Figure 6 This is the third overall structural schematic diagram of an embodiment of the wonton machine proposed in this utility model;
[0054] Figure 7 yes Figure 6 A partial schematic diagram at point D in the middle;
[0055] Figure 8 This is one of the schematic diagrams of a three-way component of an embodiment of a wonton machine proposed in this utility model;
[0056] Figure 9 This is the second schematic diagram of a three-way component of an embodiment of a wonton machine proposed in this utility model;
[0057] Figure 10 This is a partial structural schematic diagram of one embodiment of the wonton machine proposed in this utility model;
[0058] In the picture,
[0059] 100. Synchronous conveyor section; 110. Conveyor roller; 111. Synchronous belt drive section; 112. Through passage; 121. Sub-synchronous belt; 122. Support platform;
[0060] 200. Peeling mechanism; 210. Cutting assembly; 211. First peeling component; 212. Alignment of the first peeling component; 2121. Groove portion; 213. Peel support and blade guard component; 2141. Adjusting bolt; 2142. Adjusting elastic portion; 2143. Adjusting connecting portion; 2151. Alignment support frame; 2152. Alignment guide post; 2153. Alignment stop block; 220. Longitudinal peeling section; 221. Flour conveying roller; 222. Second peeling component;
[0061] 300. Filling feeding section; 310. Filling cylinder; 340. Filling outlet; 350. Filling cutter; 351. Hollowed-out section; 360. Filling mixing mechanism; 370. Filling conveying mechanism; 371. Filling propulsion assembly; 37111. Main filling cut-off component; 37112. Main filling cut-off cylinder; 37121. Auxiliary filling cut-off component; 37122. Auxiliary filling cut-off cylinder; 37131. Filling propulsion component; 37132. Filling propulsion cylinder;
[0062] 372. Filling tube assembly; 3721. T-joint component; 37211. First connecting pipe; 37212. Second connecting pipe; 37213. Baffle plate; 37214. First cavity; 37215. Second cavity; 37216. Sealing plate; 3722. Exhaust pipe; 3723. Main filling tube; 3724. Sub-filling tube;
[0063] 400, Turning part; 410, Ejection part; 420, First auxiliary pressing part;
[0064] 500. Pressing and wrapping mechanism; 5111. Limiting block; 5112. Pressure plate; 51121. Pressure plate driving component; 5113. Protrusion;
[0065] 5114. Push rod; 5115. Moving rod; 5116. Stop block; 5117. Limiting passage; 5121. Lifting support component; 5123. Elastic support component; 5124. Through hole; 521. First rotating engagement component; 5211. Bending part; 522. Second rotating engagement component; 523. Kneading component;
[0066] 600. Control mechanism;
[0067] 710. Vertical support frame; 711. Horizontal support beam; 720. Frame. Detailed Implementation
[0068] In some embodiments of this application, such as Figure 1 , Figure 5 , Figure 7 , Figure 9 As shown, a wonton machine is disclosed, comprising a synchronous conveying unit 100, a wrapper cutting mechanism 200, a filling feeding unit 300, a wrapper turning unit 400, a wrapper pressing and wrapping mechanism 500, and a control mechanism.
[0069] The synchronous conveying unit 100 extends horizontally, and the direction of extension of the synchronous conveying unit 100 is the conveying direction of the wontons and wonton wrappers.
[0070] The dough cutting mechanism 200 includes a transverse cutting section and a longitudinal cutting section 220. The transverse cutting section and the longitudinal cutting section 220 cut the dough in the transverse and longitudinal directions respectively, so that the dough is formed into square wonton wrappers.
[0071] The cutting direction of the longitudinal cutting section 220 is the same as the conveying direction. The cutting direction of the transverse cutting section is perpendicular to the conveying direction.
[0072] Specifically, the longitudinal cutting section 220 is located at the dough input position of the synchronous conveying section 100.
[0073] like Figure 1 , Figure 2 , Figure 5 , Figure 6 , Figure 9 , Figure 10 As shown, the transverse slicing section includes multiple cutting components 210. The cutting components 210 extend along the width direction of the synchronous conveying section; that is, the extension direction of the cutting components 210 is the cutting direction of the transverse slicing section. The multiple cutting components 210 are spaced apart circumferentially along the synchronous conveying section 100.
[0074] After the dough is cut into sub-dough sheets by the longitudinal cutting section 220, the sub-dough sheets are cut into square wonton wrappers by the transverse cutting section. The wonton wrappers are supported on two adjacent cutting components 210. The synchronous conveying section 100 provides auxiliary support for the wonton wrappers from below. As the two adjacent cutting components 210 move with the synchronous conveying section 100, they support the wonton wrappers and move them to the next process.
[0075] The filling delivery unit 300 is used to deliver filling to the cut wonton wrappers. The filling delivery unit 300 is located above the synchronous conveying unit 100 and moves downwards to deliver filling to the wonton wrappers below the filling delivery unit 300.
[0076] In some embodiments of this application, such as Figures 1 to 10 As shown, the filling feeding unit 300 includes a filling mixing mechanism 360 and a filling conveying mechanism 370.
[0077] The filling mixing mechanism 360 is used to store and mix the filling.
[0078] Specifically, the filling mixing mechanism 360 includes a rotor pump, an agitator, and a filling cylinder. The rotor pump is located at the bottom of the filling cylinder, and the agitator is located in the middle of the filling cylinder.
[0079] The filling is placed inside the filling cylinder. The auger transports the filling to the rotor pump, and the rotation of the rotor pump transports the filling to the filling conveying mechanism 370.
[0080] During the rotation of the rotor pump, the filling can be squeezed out from the filling mixing mechanism one by one, thus realizing the feeding of the filling one by one.
[0081] Because the rotor pump transports the filling by rotating, it will also transport the gas along with the filling into the filling conveying mechanism 370.
[0082] Because the extruded filling contains gas, the filling is supplied unevenly in successive batches, resulting in wontons of varying sizes.
[0083] Therefore, a filling conveying mechanism 370 is set up.
[0084] The filling conveying mechanism 370 includes a filling propulsion assembly 371 and a filling tube assembly 372. A filling mixing mechanism 360 is used to rotate and mix the filling and convey it to the inlet of the filling tube assembly 372. The outlet of the filling tube assembly 372 is used to convey filling onto the cut wonton wrappers.
[0085] The filling propulsion assembly 371 includes an auxiliary filling cutting assembly, a filling propulsion assembly, and a total filling cutting assembly;
[0086] The auxiliary filling cutting component, the filling pushing component, and the main filling cutting component are arranged at intervals above the filling tube assembly 372 along the filling conveying direction.
[0087] With the filling cutting component pressed against the filling tube assembly 372, the filling delivery section 300 stops delivering filling to the wonton wrapper.
[0088] The filling mixing mechanism 360 conveys filling into the filling tube assembly 372. The total filling cutting component is lifted off the filling tube assembly 372. With the auxiliary filling cutting component pressed against the filling tube assembly 372, the filling pushing component is pressed against the filling tube assembly 372 to push the filling out from the outlet of the filling tube assembly 372 to deliver the filling onto the wonton wrapper.
[0089] The filling tube assembly 372 includes a venting assembly. The venting assembly includes a tee member 3721 and a venting pipe 3722.
[0090] like Figure 8 , Figure 9 As shown, the three-way component 3721 includes a first connecting pipe 37211 and a second connecting pipe 37212. An exhaust port is provided in the middle of the first connecting pipe 37211. The exhaust port communicates with the inlet of the second connecting pipe 37212.
[0091] The inlet of the first connecting pipe 37211 is connected to the filling mixing mechanism 360. The outlet of the first connecting pipe 37211 is used to deliver filling to the cut wonton wrappers.
[0092] The outlet of the second connecting pipe 37212 is connected to the filling cylinder.
[0093] A baffle plate 37213 is provided extending axially within the first connecting pipe 37211. The baffle plate 37213 extends from the inlet of the first connecting pipe 37211 to the outlet of the first connecting pipe 37211. The baffle plate 37213 penetrates through the first connecting pipe 37211.
[0094] The baffle plate 37213 divides the first connecting pipe 37211 into a first cavity 37214 and a second cavity 37215.
[0095] A sealing plate 37216 is provided at the outlet of the first connecting pipe 37211, and the sealing plate 37216 is used to seal the outlet of the second cavity 37215.
[0096] The exhaust port is connected to the second cavity 37215.
[0097] Thus, the filling, stirred and conveyed by the filling stirring mechanism 360, enters the first connecting pipe 37211 through the inlet of the first connecting pipe 37211, which means it simultaneously enters the first cavity 37214 and the second cavity 37215.
[0098] The filling that enters the first cavity 37214 passes through the first cavity 37214 to deliver the filling onto the cut wonton wrappers for use in subsequent processes.
[0099] The filling material entering the second cavity 37215 passes through the second cavity 37215 to enter the exhaust pipe 3722, and is then transported to the filling cylinder through the exhaust pipe 3722.
[0100] During the process of mixing the filling in the mixing mechanism 360 and conveying it to the filling conveying mechanism 370, gas may be mixed into the filling. Since the rotor pump in the mixing mechanism 360 rotates in the same direction, the rotor pump's blades rotate the filling. Between the two blades, the front part along the mixing direction generally does not retain gas, while the rear part along the mixing direction retains gas. Therefore, the first cavity 37214 and the second cavity 37215 of the first connecting pipe 37211 correspond to the front and rear parts of the mixing direction of the blades, respectively. This allows the gas in the rear part of the mixing direction between the two blades to enter the exhaust pipe 3722 through the second cavity 37215 and then be conveyed to the filling cylinder for discharge. This avoids the introduction of gas into the wonton filling when it is conveyed to the wonton wrapper.
[0101] In some embodiments of this application, a total filling cutting component is provided to cut off the filling conveyed from the filling cylinder to the filling tube assembly 372. The total filling cutting component includes a total filling cutting member 37111 and a total filling cutting cylinder 37112. The total filling cutting cylinder 37112 drives the total filling cutting member 37111 to press against the filling tube assembly 372 to cut off the filling and stop its conveying. When filling conveying and supplying are required, the total filling cutting cylinder 37112 drives the total filling cutting member 37111 to lift off the filling tube assembly 372.
[0102] With the main filling cut-off component 37111 lifted off the filling tube assembly 372, the auxiliary filling cut-off component and the filling push component operate separately to complete the filling supply.
[0103] The auxiliary filling cutting assembly includes an auxiliary filling cutting component 37121 and an auxiliary filling cutting cylinder 37122. The auxiliary filling cutting cylinder 37122 drives the auxiliary filling cutting component 37121 to move, so as to press or disengage the filling tube assembly 372.
[0104] The filling propulsion assembly includes a filling propulsion component 37131 and a filling propulsion cylinder 37132. The filling propulsion cylinder 37132 drives the filling propulsion component 37131 to move in order to press against or disengage from the filling tube assembly 372.
[0105] With the main filling cutting component 37111 lifted from the filling tube assembly 372, the auxiliary filling cutting cylinder 37122 drives the auxiliary filling cutting component 37121 to press against the filling tube assembly 372. Thus, the filling tube assembly 372 corresponding to the auxiliary filling cutting component 37121 and the main filling cutting component 37111 is filled with filling. The filling pushing cylinder 37132 drives the filling pushing component 37131 to press against the filling tube assembly 372. Adjusting the width of the filling pushing component 37131 allows for the metered extrusion of filling from the filling tube assembly 372, ensuring uniform filling delivery to the wonton wrapper.
[0106] Adjusting the width of the filling pusher 37131 can adjust the contact area between the filling pusher 37131 and the filling tube assembly 372, thereby adjusting the filling extruded from the filling tube assembly 372.
[0107] The filling tube assembly 372 also includes a main filling tube 3723 and a sub-filling tube 3724. The inlet of the main filling tube 3723 is connected to the filling mixing mechanism 360, and the outlet of the main filling tube 3723 is connected to the inlet of the first connecting tube 37211.
[0108] The inlet of the filling tube 3724 is connected to the outlet of the first connecting tube 37211, and the outlet of the filling tube 3724 is used to deliver filling to the cut wonton wrappers.
[0109] The auxiliary filling cutting component, the filling pushing component, and the main filling cutting component are arranged at intervals above the filling distribution pipe 3724 along the filling conveying direction.
[0110] With the main filling cutting component raised from the filling tube 3724, the auxiliary filling cutting component moves down and presses against the filling tube 3724. The space between the pressing point of the auxiliary filling cutting component and the outlet of the filling tube 3724 is filled with filling. In this state, the filling pushing component presses down on the filling tube 3724, extruding a certain amount of filling from the outlet of the filling tube 3724. Since the cross-sectional area of the filling tube 3724 is fixed, the contact area between the filling pushing component and the filling tube 3724 is constant, ensuring a fixed amount of filling is extruded from the filling tube 3724, thus guaranteeing a quantitative output of filling.
[0111] Since the filling is transported to the filling distribution pipe 3724 via the first connecting pipe 37211 and has been vented, a certain amount of filling that does not contain gas is obtained.
[0112] To provide support for the filling section 300, the wonton machine also includes a vertical support frame 710.
[0113] To support the synchronous conveying unit 100, the dough cutting mechanism 200, the filling feeding unit 300, the dough turning unit 400, the dough pressing and wrapping mechanism 500, and the control mechanism, the wonton machine also includes a frame 720.
[0114] A vertical support frame 710 is mounted on the frame 720. The vertical support frame 710 spans vertically above the synchronous conveyor section 100.
[0115] The filling feeding unit 300 is connected to the vertical support frame 710, and the output end of the filling feeding unit 300 moves vertically relative to the vertical support frame 710.
[0116] The output end of the filling feeding section 300 can be equipped with a filling cutter 350, which cuts the filling from the filling outlet 340. The filling outlet is connected to the output end of the filling distribution tube 3724.
[0117] The filling cutter 350 cuts the filling output from the filling outlet 340, causing the filling to fall onto the wonton wrapper.
[0118] The filling cutter 350 has a hollow section 351. The hollow section 351 is used to reduce the amount of filling sticking to the filling cutter 350 during the filling cutting process.
[0119] When the filling delivery unit 300 moves to the wonton wrapper, it delivers filling to the wonton wrapper. Then, the filling delivery unit 300 moves in the opposite direction and rises.
[0120] The wonton wrappers containing the filling are supported by two cutting components 210 and moved along the conveying direction to the turning section 400.
[0121] The folding section 400 is embedded in the synchronous conveying section 100, and the two cutting components 210 support the wonton wrappers carrying the filling and move them to the folding section 400. The folding section 400 folds the wonton wrappers carrying the filling so that the wonton wrappers cover the filling from both sides.
[0122] To prevent the wonton wrapper from being pressed firmly onto the synchronous conveyor 100 and becoming difficult to move after being folded by the folding section 400, the folding section 400 includes an ejector component 410. The ejector component 410 can move upward relative to the synchronous conveyor 100 to lift the folded wonton wrapper and remove it from the synchronous conveyor 100, thereby facilitating the cutting component 210 to push the folded wonton to the pressing and wrapping mechanism 500 for pressing and wrapping.
[0123] To prevent over-folding of the wonton wrappers during the folding process of the folding section 400, the folding section 400 also includes a first auxiliary pressing component 420. The wonton wrappers are conveyed by the synchronous conveying section 100 to the folding section 400 below the first auxiliary pressing component 420, which is the working position of the folding section 400. The lower end of the first auxiliary pressing component 420 contacts the wonton wrapper and presses it lightly.
[0124] Specifically, the lower end of the first auxiliary pressing component 420 contacts the middle of the wonton wrapper along the conveying direction, so that when the flipping part 400 flips the wonton wrapper, it lightly presses the middle of the lower end of the first auxiliary pressing component 420, that is, lightly presses the part of the wonton wrapper to be bent, thereby avoiding the situation where the wonton wrapper is over-folded during the flipping process, and avoiding problems such as inconsistent shape of the final wonton.
[0125] In some embodiments of this application, the first auxiliary pressing component 420 may be in the form of a brush.
[0126] In some other embodiments, the first auxiliary pressing component 420 may also be in the form of removable silicone.
[0127] Specifically, the first auxiliary pressing component 420 includes a silicone part, an opening, and a clamping part. The silicone part is inserted into the opening, and the clamping part clamps the opening, thereby realizing the installation of the silicone part. When the silicone part is worn or has other problems, the silicone part can be removed from the opening by removing the clamping part and then replaced.
[0128] To prevent wrinkles from forming on the wonton wrappers during the pressing process, the edges of the folded wonton wrappers need to be lightly pressed. The pressing part also includes a second auxiliary pressing component, the end of which is lightly pressed against the folded edge.
[0129] In some embodiments of this application, such as Figure 4 , Figure 5 As shown, the synchronous conveying unit 100 includes two conveying rollers 110 and a synchronous belt assembly, which is fitted over the two conveying rollers 110. To achieve synchronous transmission of the conveying rollers 110 with respect to the synchronous belt assembly, synchronous belt drive sections 111 are formed at both ends of the conveying rollers 110. The synchronous belt assembly includes two sub-synchronous belts 121. The two sub-synchronous belts 121 respectively engage with the synchronous belt drive sections 111 on both sides of the two conveying rollers 110.
[0130] Specifically, the synchronous belt drive unit 111 consists of multiple drive rods spaced circumferentially along the end of the conveyor roller 110, and the multiple drive rods cooperate with the sub-synchronous belt 121 in sequence.
[0131] During the cyclic operation of the synchronous belt assembly driven by the conveyor roller 110, scraps of wonton wrappers and dry flour can easily fall between the conveyor roller 110 and the sub-synchronous belt 121, causing abnormal transmission problems such as jamming. Therefore, the conveyor roller 110 is configured to form several through-passages 112 extending in its radial direction. This allows scraps of wonton wrappers and dry flour to fall outside the conveyor roller 110 through the through-passages 112, thereby preventing jamming between the sub-synchronous belt 121 and the conveyor roller 110.
[0132] Specifically, the synchronous belt drive unit 111 adopts a method of arranging multiple drive rods circumferentially at intervals, thereby forming multiple through-paths 112 between the multiple drive rods, so that wonton skin scraps and dry flour can enter the through-paths 112 and fall out of the through-paths 112 as the conveying roller 110 rotates.
[0133] In some embodiments of this application, the transverse cutting section is used to cut the wonton wrappers, and the cutting assembly 210 includes a first wrapper cutting component 211. The supporting side of the first wrapper cutting component 211 is connected between two sub-synchronous belts 121 along the width direction of the synchronous conveying section 100.
[0134] In some embodiments of this application, in order to achieve the function of cutting wonton wrappers, the cutting assembly 210 further includes a first cutting component 212 that engages with the first cutting component 211 that has been moved to its corresponding position, thereby achieving the lateral cutting of the wonton wrappers and forming wonton wrappers.
[0135] The synchronous belt assembly drives multiple first cutting components 211 to move. When any one of the first cutting components 211 moves to the corresponding position below the first cutting component 212, the first cutting component 212 moves downward to align with the first cutting component, so as to cut the dough and form a wonton wrapper.
[0136] A downward-facing groove 2121 extends from the first cutting component 212. During the process of aligning the first cutting component 212 with the first cutting component 211, the first cutting component 211 is inserted into the groove 2121 until it is pressed firmly against the groove 2121, thus cutting the wonton wrapper.
[0137] like Figure 1 , Figure 4 , Figure 5 , Figure 6 As shown, the transverse cutting section also includes a buffer assembly. The buffer assembly is used to adjust the force with which the first cutting component 212 presses against the first cutting component 211.
[0138] The buffer assembly includes an adjusting bolt 2141, an adjusting elastic part 2142, and an adjusting connecting part 2143. The upper end of the adjusting connecting part 2143 has an adjusting threaded hole, and the adjusting elastic part 2142 is connected to the lower end of the adjusting connecting part 2143. The transverse cutting section also includes a mating support frame 2151, a mating guide post 2152, and a mating stop block 2153. The mating support frame 2151 has a mating movement through hole. One end of the mating guide post 2152 engages with the first cutting section. The first cutting component 212 is connected, and the other end of the mating guide post 2152 passes through the mating movement through hole and is connected to the mating stop block 2153. When the first cutting component 212 is not subjected to external force, the mating support frame 2151 stops the mating stop block 2153. The mating support frame 2151 is provided with an adjustment through hole, and one end of the adjustment bolt 2141 passes through the adjustment through hole and is threadedly connected to the adjustment threaded hole. The end of the adjustment elastic part 2142 abuts against the first cutting component 212. The adjustment elastic part 2142 includes a spring.
[0139] In some embodiments of this application, such as Figure 4 , Figure 5 As shown, in order to support the movement of the wonton wrapper, the horizontal cutting part of the cutting assembly 210 also includes a wrapper-supporting and knife-protecting component 213. The wrapper-supporting and knife-protecting component 213 extends along the support side of the first wrapper-cutting component 211 and can play an auxiliary support role for the first wrapper-cutting component 211, so as to prevent the first wrapper-cutting component 211 from deforming due to the force during the cutting process.
[0140] In addition, the skin-supporting and knife-protecting component 213, which extends horizontally, can support the edge of the wonton skin.
[0141] The two ends of the skin protector 213 are connected to two sub-synchronous belts 121 respectively.
[0142] In some embodiments of this application, such as Figure 1 , Figure 4 , Figure 5As shown, the longitudinal cutting section 220 includes a dough feeding roller 221 and a dough feeding brush cutting roller;
[0143] The feeding brush cutting roller includes a plurality of second cutting components 222 and a plurality of brushes. The plurality of second cutting components 222 are spaced apart along their axial direction, and brushes are arranged between adjacent second cutting components 222.
[0144] The flour conveying brush cutting roller is located above the flour conveying roller 221;
[0145] The dough conveying device conveys the wonton dough to the space between the dough conveying roller 221 and the dough conveying brush cutting roller. The dough conveying roller 221 and the dough conveying brush cutting roller are configured to rotate in opposite directions. While the dough conveying roller 221 and the brush are rotating to convey the dough to the synchronous conveying unit 100, a plurality of second dough cutting components 222 cut the dough along the conveying direction of the dough.
[0146] In some embodiments of this application, there is one second dough cutting component 222, and brushes are disposed on both sides of the second dough cutting component 222. The second dough cutting component 222 is configured to cut the dough into two sub-dough pieces along the conveying direction of the synchronous conveying unit 100. The cutting component 210 is configured to cut the sub-dough pieces in a direction perpendicular to the conveying direction of the synchronous conveying unit 100 to form wonton wrappers.
[0147] In some other embodiments of this application, there are multiple second cutting components 222. The second cutting components 222 located on both sides are used to cut the two side edges of the dough, and the second cutting component 222 located in the middle is configured to cut the dough into multiple sub-dough pieces along the conveying direction of the synchronous conveying unit 100. The cutting assembly 210 is configured to cut the sub-dough pieces in a direction perpendicular to the conveying direction of the synchronous conveying unit 100 to form wonton wrappers.
[0148] The timing belt assembly also includes a support platform 122. The support platform 122 is embedded between the two sub-timing belts 121. During the process of the cutting component 210 supporting the movement of the wonton wrapper and pushing the wonton wrapper, the support platform 122 provides auxiliary support for the wonton wrapper and the wonton.
[0149] The wonton wrapper containing the filling, obtained by folding, is moved along the support platform 122 by the cutting component 210 to the subsequent pressing and wrapping mechanism 500.
[0150] In some embodiments of this application, the pressing and wrapping mechanism 500 includes a pressing part and a wrapping part. The pressing part is used to press the overlapping areas on both sides of the wonton skin formed after the turning part 400 turns the skin over, so as to press the two layers of wonton skin firmly, and the wrapping part is used to wrap the wonton.
[0151] The longitudinal cutting section 220, the filling section 300, the turning section 400, and the pressing and wrapping mechanism 500 are arranged sequentially and at intervals above the synchronous conveying section 100 along the conveying direction of the wonton skin.
[0152] The pressing section includes a pressing assembly and an auxiliary support assembly. The auxiliary support assembly is located below the pressing assembly.
[0153] The pressing component is connected to the vertical support frame 710 and is configured to move vertically relative to the vertical support frame 710.
[0154] The auxiliary support component is embedded within the synchronous conveying unit 100. Specifically, the auxiliary support component is recessed into the support platform 122.
[0155] When a wonton wrapper containing filling is folded and moved along the support platform 122 to the auxiliary support component by the cutting component 210, the pressing component is configured to press the overlapping wonton wrappers together while pushing the auxiliary support component to move in the vertical direction, thereby achieving the pressing of the overlapping wonton wrappers.
[0156] like Figure 4 , Figure 5 As shown, the pressing assembly includes a limiting block 5111 and a pressure plate 5112.
[0157] The limiting block 5111 is connected to the vertical support frame 710. The limiting block 5111 can move relative to the synchronous conveying part 100 in the vertical direction with the vertical support frame 710 so that the limiting block 5111 can approach the wonton skin containing the filling after pressing.
[0158] Without the action of other external forces, the limiting block 5111 can move downward with the vertical support frame 710. When the limiting block 5111 touches the synchronous conveying part 100 located below, the limiting block 5111 stops moving. The vertical support frame 710 drives the pressure plate 5112 to continue moving downward until the end of the pressure plate 5112 contacts the wonton skin located on the auxiliary support assembly and presses the folded wonton skin. The vertical support frame 710 and the pressure plate 5112 stop moving downward.
[0159] Specifically, in order to ensure that the limiting block 5111 can limit and protect the pressing plate 5112 while ensuring that the limiting block 5111 will not interfere with the pressing plate 5112 during the pressing of the wonton skin, a protrusion 5113 is provided on the end of the limiting block 5111. During the movement of the limiting block 5111 towards the synchronous conveying unit 100, the protrusion 5113 contacts the synchronous conveying unit 100 before the pressing plate 5112 contacts the wonton skin.
[0160] Specifically, in order to ensure that the vertical support frame 710 can still move downwards even after the protrusion 5113 stops moving downwards after contacting the synchronous conveying unit 100, a transverse support beam 711 is provided on the vertical support frame 710. A through hole in the vertical direction is opened on the transverse support beam 711. A moving rod 5115 extending in the vertical direction is connected to the limiting pressure block 5111. The limiting pressure block 5111 is connected to the lower end of the moving rod 5115. A stop block 5116 is connected to the upper end of the moving rod 5115. The middle part of the moving rod 5115 passes through the through hole. When the protrusion 5113 is not in contact with the synchronous conveying unit 100, the limiting block 5111, due to gravity, causes the stop block 5116 to abut against the transverse support beam 711, thus suspending the limiting block 5111 below the transverse support beam 711. The transverse support beam 711 can then drive the limiting block 5111 to move up and down vertically. After the protrusion 5113 contacts the synchronous conveying unit 100, the limiting block 5111 stops moving downward, and the moving rod 5115 moves upward relative to the transverse support beam 711.
[0161] A limiting passage 5117 is formed vertically on the limiting block 5111. The pressing plate 5112 passes through the limiting passage 5117. When the limiting block 5111 moves to the target position relative to the synchronous conveying unit 100, the pressing plate 5112 moves vertically relative to the limiting passage 5117 until the end of the pressing plate 5112 presses against the overlapping wonton skin after folding, so as to press the two layers of wonton skin firmly and realize the pinching of the wonton skin at this point.
[0162] In some embodiments of this application, such as Figure 6 , Figure 7 As shown, the pressing assembly also includes a pressure plate driving component 51121, which can drive the pressure plate 5112 to move in the vertical direction.
[0163] Since the auxiliary support assembly can move vertically relative to the support platform 122, the pressure plate 5112 experiences a large force during the process of contacting the wonton wrapper and pushing the auxiliary support assembly vertically through the wonton wrapper. The pressure plate 5112 is prone to deformation. Therefore, a push rod 5114 is connected vertically to the vertical support frame 710. When the lower end of the pressure plate 5112 is in contact with and pressing the wonton wrapper, the lower end of the push rod 5114 contacts the auxiliary support assembly and pushes the auxiliary support assembly downward. At the same time, the pressure plate 5112 presses against the wonton wrapper and simultaneously pushes the auxiliary support assembly downward.
[0164] The auxiliary support assembly includes a lifting support component 5121, an auxiliary enclosing component, and an elastic support component 5123. The lifting support component 5121 has multiple through holes 5124 along the vertical direction. The upper end of the auxiliary enclosing component passes through these through holes 5124. The lifting support component 5121 moves vertically relative to the auxiliary enclosing component. During this movement, the elastic support component 5123 provides elastic support to the lifting support component 5121. As the pressure plate 5112 and the push rod 5114 push the lifting support component 5121 downwards, the elastic support component 5123 elastically deforms. When the pressure plate 5112 and the push rod 5114 release their downward force on the lifting support component 5121, the elastic support component 5123 pushes the lifting support component 5121 upwards to its reset position.
[0165] When the pressure plate 5112 and the push rod 5114 push the lifting support component 5121 to move downward to the target position, the wrapping part starts to work and wraps the pressed wonton.
[0166] In the event of abnormalities in the wrapping of wontons, in order to prevent the wontons from sticking to the pressure plate 5112, the pressure plate driving component can drive the pressure plate 5112 to move upward, so that the pressure plate 5112 separates from the wontons.
[0167] like Figure 10 As shown, the enclosing part includes a first rotating enclosing component 521, a second rotating enclosing component 522, and a pinching component 523.
[0168] When the lifting support component 5121 is lowered to the target height relative to the auxiliary wrapping component, the first rotating wrapping component 521 and the second rotating wrapping component 522 rotate to the two sides of the wonton wrapper containing the filling above the lifting support component 5121. During the forward rotation of the first rotating wrapping component 521 relative to the side of the wonton wrapper containing the filling, it pushes one edge of the folded wonton wrapper to bend towards the side of the wonton wrapper containing the filling. During the reverse rotation of the second rotating wrapping component 522 relative to the side of the wonton wrapper containing the filling, it pushes the other edge of the folded wonton wrapper to bend towards the side of the wonton wrapper containing the filling.
[0169] The pinching component 523 presses the overlapping edge of one side of the bent wonton wrapper onto the auxiliary wrapping component to pinch the edge of the wonton wrapper together. This achieves the pressing and sealing of the wonton.
[0170] Specifically, while the first rotating wrapping component 521 is rotating to bend one side of the wonton wrapper, the second rotating wrapping component 522 rotates.
[0171] The end of the first rotating wrapping member 521 that contacts the wonton skin has a bent portion 5211, which bends toward the auxiliary wrapping member. The end of the second rotating wrapping member 522 that contacts the wonton skin is located on the side of the bent portion 5211 away from the auxiliary wrapping member.
[0172] After the wontons are formed by the above-mentioned packaging, the cutting component 210 pushes the wontons to move relative to the support platform 122, and transports the wontons to the subsequent wonton transport equipment.
[0173] In some embodiments of this application, in order to achieve sequential control of the above-mentioned components and to form the wonton, the control mechanism needs to coordinate the start and stop control of the above-mentioned synchronous conveying unit 100, the skin cutting mechanism 200, the filling feeding unit 300, the skin turning unit 400, and the skin pressing and wrapping mechanism 500.
[0174] In some embodiments of this application, there are two filling feeding sections 300, which are spaced apart along the width direction of the synchronous conveying section 100; there are two dough-turning sections 400, which are spaced apart and embedded into the synchronous conveying section 100 along the width direction of the synchronous conveying section 100; there are two pressing sections, which are spaced apart along the width direction of the synchronous conveying section 100; and there are two wrapping sections, which are spaced apart along the width direction of the synchronous conveying section 100. This layout also limits the floor space required.
[0175] Furthermore, this application does not impose any restrictions on the specific number of the filling section 300, the dough turning section 400, the pressing section, and the wrapping section; the design can be tailored to production capacity requirements.
Claims
1. A wonton machine, characterized in that, include: The filling delivery unit includes a filling mixing mechanism and a filling conveying mechanism. The filling conveying mechanism includes a filling pushing assembly and a filling tube assembly. The filling mixing mechanism is used to rotate and mix the filling and convey the filling to the inlet of the filling tube assembly. The outlet of the filling tube assembly is used to convey the filling onto the cut wonton wrappers. The filling pushing assembly includes an auxiliary filling cutting assembly, a filling pushing assembly, and a total filling cutting assembly. The auxiliary filling cutting component, the filling pushing component, and the main filling cutting component are arranged at intervals above the filling tube assembly along the filling conveying direction; With the total filling cutting component pressed against the filling tube assembly, the filling delivery section stops feeding filling onto the wonton wrapper. The filling mixing mechanism delivers filling into the filling tube assembly. The main filling cutting assembly is lifted off the filling tube assembly. With the auxiliary filling cutting assembly pressed against the filling tube assembly, the filling pushing assembly is pressed against the filling tube assembly to push the filling out from the outlet of the filling tube assembly and deliver the filling onto the wonton wrapper.
2. The wonton machine according to claim 1, characterized in that, The filling tube assembly includes an exhaust assembly, which includes a three-way component and an exhaust pipe; The three-way component includes a first connecting pipe and a second connecting pipe. The first connecting pipe has an exhaust port in the middle that connects to the inlet of the second connecting pipe, and the outlet of the second connecting pipe is connected to the exhaust pipe. The inlet of the first connecting pipe is connected to the filling mixing mechanism, and the outlet of the first connecting pipe is used to deliver filling to the cut wonton wrappers; A baffle plate is formed extending along the axial direction inside the first connecting pipe, the baffle plate dividing the first connecting pipe into a first cavity and a second cavity, and a sealing plate is provided at the outlet of the first connecting pipe, the sealing plate being used to seal the outlet of the second cavity; The exhaust port is connected to the second cavity.
3. The wonton machine according to claim 2, characterized in that, The filling tube assembly also includes a main filling tube and a sub-filling tube. The inlet of the main filling tube is connected to the filling mixing mechanism, and the outlet of the main filling tube is connected to the inlet of the first connecting tube. The inlet of the filling tube is connected to the outlet of the first connecting tube, and the outlet of the filling tube is used to deliver filling to the cut wonton wrappers.
4. The wonton machine according to claim 1, characterized in that, Also includes: A synchronous conveying unit, which extends along the conveying direction, is used to convey wonton wrappers and wontons; A wonton wrapper cutting mechanism includes a transverse cutting section and a longitudinal cutting section. The longitudinal cutting section is used to cut wonton wrappers along the conveying direction of the wonton wrappers. The transverse cutting section is used to cut wonton wrappers in a direction perpendicular to the longitudinal cutting section. The transverse cutting section includes a plurality of cutting components. The cutting components extend along the width direction of the synchronous conveying section, and the plurality of cutting components are spaced apart circumferentially along the synchronous conveying section. The folding section is used to fold the wonton wrapper containing the filling so that the wonton wrapper covers the filling from both sides. The pressing and wrapping mechanism includes a pressing part and a wrapping part. The pressing part is used to press the overlapping part of the two layers of wonton skin formed after being turned over by the turning part, so as to press the two layers of wonton skin firmly. The wrapping part is used to wrap the wonton. A control mechanism is configured to control the synchronous conveying unit, the dough cutting mechanism, the filling feeding unit, the dough turning unit, the dough pressing unit, and the wrapping unit to operate sequentially; The longitudinal cutting section, the filling feeding section, the turning section, and the pressing and wrapping mechanism are arranged sequentially and at intervals above the synchronous conveying section along the conveying direction of the wonton wrappers.
5. The wonton machine according to claim 4, characterized in that, It also includes a vertical support frame, which is vertically mounted above the synchronous conveying unit; The pressing part includes a pressing component and an auxiliary support component, wherein the pressing component is configured to be movable relative to the vertical support frame in a vertical direction; The pressing assembly includes a limiting block, a pressure plate, and a pressure plate driving component; The limiting pressure block is connected to the vertical support frame and can move vertically relative to the synchronous conveying part; The limiting block has a limiting passage in the vertical direction, the pressure plate passes through the limiting passage, and the pressure plate can move in the vertical direction relative to the limiting passage under the drive of the pressure plate driving component; The auxiliary support assembly is embedded in the conveying plane of the synchronous conveying unit, and the auxiliary support assembly is located below the pressing assembly. When the auxiliary support assembly supports the folded wonton wrapper containing the filling, the limiting block can move downward with the vertical support frame without the action of other external forces. When the limiting block touches the synchronous conveying unit located below, the limiting block stops moving. The vertical support frame drives the pressure plate to continue moving downward until the end of the pressure plate contacts the wonton wrapper located on the auxiliary support assembly and presses the folded wonton wrapper. The vertical support frame and the pressure plate stop moving downward. The pressure plate driving unit can drive the pressure plate to move upward and disengage from the wonton wrapper.
6. The wonton machine according to claim 5, characterized in that, The auxiliary support assembly includes a lifting support component, an auxiliary enclosing component, and an elastic support component. The lifting support component has multiple through holes along the vertical direction. The auxiliary enclosing component passes through the through holes and can move relative to the through holes. The elastic support component is configured to elastically support the lifting support component. When the lifting support component moves along the vertical direction under the action of a force along the vertical direction, the lifting support component presses down on the elastic support component, and the auxiliary enclosing component moves relative to the through holes.
7. The wonton machine according to claim 6, characterized in that, A push rod is connected vertically to the vertical support frame. When the lower end of the pressure plate is in contact with and pressing the wonton wrapper, the lower end of the push rod is in contact with the auxiliary support assembly. The lower end of the push rod pushes the auxiliary support assembly downward, and the pressure plate presses the wonton wrapper, pushing the auxiliary support assembly downward. When the pressure plate and the push rod push the lifting support component to move downward to the target position, the wrapping part starts to work and wraps the pressed wonton. When the wrapping action is completed and the auxiliary support component has not yet started its upward movement, the pressure plate drive unit drives the pressure plate to move upward and disengage from the wrapped wonton.
8. The wonton machine according to claim 4, characterized in that, The cutting assembly includes a first skin-cutting component; The transverse cutting section includes a first cutting component and a buffer assembly. The synchronous conveying section drives multiple first cutting components to move until the multiple first cutting components move to the corresponding position below the first cutting component. The first cutting component moves downward to align with the first cutting component to cut the sub-skin. The buffer assembly is used to adjust the force with which the mating first peeling component presses against the first peeling component.
9. The wonton machine according to claim 8, characterized in that, The buffer assembly includes an adjusting bolt, an adjusting elastic part, and an adjusting connecting part. The upper end of the adjusting connecting part is provided with an adjusting threaded hole, and the adjusting elastic part is connected to the lower end of the adjusting connecting part. The transverse cutting section also includes a mating support frame, a mating guide post, and a mating stop block. The mating support frame has a mating movement through hole. One end of the mating guide post is connected to the mating first cutting component, and the other end of the mating guide post passes through the mating moving through hole and is connected to the mating stop block. When the first cutting component is not subjected to external force, the mating support frame stops the... For the stop block; The mating support frame is provided with an adjustment through hole, and one end of the bolt passes through the adjustment through hole and is threadedly connected to the adjustment threaded hole; the end of the adjustment elastic part abuts against the mating first cutting component.
10. The wonton machine according to claim 9, characterized in that, The adjusting elastic part includes a spring.