CN209788314U

CN209788314U - Stuffed food forming machine

Info

Publication number: CN209788314U
Application number: CN201920546320.5U
Authority: CN
Inventors: 李进强; 司军伟
Original assignee: Kang He Machinery And Equipment Co Ltd Chengdu
Current assignee: Kang He Machinery And Equipment Co Ltd Chengdu
Priority date: 2018-07-13
Filing date: 2019-04-19
Publication date: 2019-12-17
Anticipated expiration: 2029-04-19
Also published as: CN209768764U; CN109820008A; CN109924230A; CN109864091A; CN209825011U

Abstract

the utility model relates to the technical field of food processing equipment, and provides a stuffed food forming machine, which comprises a frame and a plurality of forming devices; each forming device comprises at least one forming die; each forming die comprises a die body arranged on the mounting plate and a leather receiving plate arranged at the top of the die body; a forming cavity with an opening at the upper end is arranged on the die body, and forming holes are arranged on the skin connecting plate at positions corresponding to the forming cavity; a pressing mechanism is arranged between the leather receiving plate and the die body; the pressing mechanism is provided with a pressing hole positioned between the molding hole and the molding cavity; a power mechanism is also arranged on the frame; the power mechanism provides driving force for the pressing mechanism so as to enlarge or reduce the pressing hole. The utility model discloses a farci food make-up machine extrudees the middle part of food through the pressfitting side in pressfitting hole, makes the top of food form fluffy bundle and rolls over like the flower shape, has not only improved the shaping effect, has guaranteed the uniformity of food outward appearance moreover, has improved finished product quality.

Description

Stuffed food forming machine

Technical Field

The utility model relates to a food processing equipment technical field, in particular to farci food make-up machine.

Background

The shaomai is also called shaomai, the top end of the shaomai is in a shape of fluffy bundle folded like a flower, and the shaomai is a steamed snack which takes flour as wrapper and wraps stuffing and is steamed in a cage. The roasted wheat is like pomegranate, white and glittering, has thin and thick stuffing, is fragrant and delicious, has the advantages of small steamed buns and pot sticks, and is often used as a delicacy for banquets. The shaomai as a snack is generally wrapped by hands in the production process, and the shaomai produced by hands has good taste, but has low forming efficiency and large labor capacity, is difficult to meet the requirements under modern economic conditions, and has sanitary problems.

The invention discloses an invention patent with the application number of 201410170052.3 and the application date of 2014.4.25, which is named as a farci food forming machine, and the technical scheme is as follows: the dough sheet feeding device, the stuffing feeding device and the taking-out device are fixedly arranged on a dough sheet receiving station, a stuffing filling station and a taking-out station of the annular rail respectively, and the annular rail is provided with the dough sheet receiving plate capable of moving on the annular rail in a surrounding manner.

Application number is 201120387278.0, and application date is 2011.10.12, the name is the utility model patent of automatic dumpling machine, and its technical scheme is: comprises a frame, a skin making mechanism, a feeding mechanism, an inclusion mechanism, a pushing mechanism, a conveying mechanism, a rotary worktable, a forming mechanism and a transmission mechanism, wherein the skin making mechanism, the feeding mechanism, the inclusion mechanism, the pushing mechanism, the conveying mechanism, the rotary worktable, the forming mechanism and the transmission mechanism are arranged on the frame; the forming mechanism is installed on the rotary worktable in a surrounding mode, the leather making mechanism, the feeding mechanism and the inclusion mechanism are sequentially fixed around the rotary worktable according to procedures, the pushing mechanism is arranged below the forming mechanism and installed on the same station of the rotary worktable with the transmission mechanism, and the pushing mechanism and the rotary worktable are connected with the transmission mechanism of the society at the bottom of the rack.

Although the devices can manufacture the shaomai, the devices do not have the capability of processing the top end of the shaomai into a fluffy bundle folded like a flower, the shaomai has poor forming effect, and the quality of a finished product is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: provides a farci food forming machine with good forming effect.

The utility model provides a technical scheme that its technical problem adopted is: the stuffed food forming machine comprises a frame and a plurality of forming devices; a rotary workbench is arranged on the rack, and the forming device is arranged on the rotary workbench in a surrounding manner; each forming device comprises a mounting plate arranged on the rotary worktable and at least one forming die arranged on the mounting plate; each forming die comprises a die body arranged on the mounting plate and a leather receiving plate arranged at the top of the die body; a forming cavity with an opening at the upper end is arranged on the die body, and forming holes are formed in the positions, corresponding to the forming cavity, of the skin-connecting plate; a pressing mechanism is arranged between the leather receiving plate and the die body; the pressing mechanism is provided with a pressing hole positioned between the forming hole and the forming cavity; the rack is also provided with a power mechanism; the power mechanism provides driving force for the pressing mechanism so as to enlarge or reduce the pressing hole.

furthermore, the pressing mechanism comprises at least three pressing blocks, and each pressing block is provided with a pressing side face and a guide convex strip; the pressing blocks are arranged on the circumference so that the pressing side surface is encircled to form a pressing hole; the leather receiving plate is provided with a guide sliding chute at a position corresponding to the guide raised line, and the guide raised line is in sliding fit with the corresponding guide sliding chute and can slide along the guide sliding chute; the mould further comprises a driving ring which is rotatably arranged on the mould body and is positioned below the pressing block, and one side of the driving ring is provided with a driving handle extending to the outside of the mould body; the bottom of each pressing block is provided with a driving groove, and a driving shaft extending into each driving groove is arranged on the driving ring.

Furthermore, the power mechanism comprises a mounting seat arranged on the rack, and a first rotating shaft and a second rotating shaft which are vertically and rotatably arranged on the mounting seat; the first rotating shaft is provided with a first driving lever for providing driving force for the driving handle, and the second rotating shaft is provided with a second driving lever for providing driving force for the driving handle; the power source is in transmission connection with the first rotating shaft and the second rotating shaft.

Further, the power source is an air cylinder, and a cylinder body of the air cylinder is hinged to the mounting seat; a first connecting rod is fixed on the first rotating shaft, and a second connecting rod is fixed on the second rotating shaft; a piston rod of the air cylinder is hinged with one end of a first connecting rod, and the other end of the first connecting rod is hinged with one end of a second connecting rod through a third connecting rod; the first rotating shaft and the second rotating shaft rotate in opposite directions.

Further, each forming device comprises at least two forming dies arranged on the mounting plate; all the driving handles are positioned on the same side of the forming die and are hinged with the fourth connecting rod at the same time.

Furthermore, a roller which is matched with the first deflector rod and the second deflector rod in a rolling way is arranged on the fourth connecting rod.

Furthermore, the forming device also comprises a limiting piece for controlling the pressing size of the pressing hole; the limiting part comprises a convex block arranged on the fourth connecting rod and a stop block arranged on the mounting plate and positioned on the motion trail of the convex block.

Furthermore, the bottom of the leather connecting plate is provided with a first accommodating cavity for accommodating the pressing block; the pressing block is arranged in the first accommodating cavity.

Furthermore, a second accommodating cavity with an opening at one side is formed in the top of the die body, a positioning ring is arranged on the second accommodating cavity, and the axis of the positioning ring is overlapped with the axis of the forming cavity; the driving ring is arranged in the second accommodating cavity and sleeved on the positioning ring; the driving handle extends out of the die body from the opening on one side of the second accommodating cavity.

the utility model has the advantages that: the utility model discloses a farci food make-up machine, after food just takes shape in the shaping chamber, remove forming device through swivel work head and extrude station department, provide drive power for pressing mechanism through power unit to make the pressfitting hole diminish, then extrude the middle part of food through the pressfitting side in pressfitting hole, make the top of food form fluffy bunch roll over like the flower shape, not only improved the shaping effect, guaranteed the uniformity of food outward appearance moreover, improved finished product quality.

Drawings

FIG. 1 is a perspective view of the stuffed food forming machine of the present invention;

FIG. 2 is a perspective view of the power mechanism and the forming device of the stuffed food forming machine of the present invention;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a perspective view of the molding device in the stuffed food molding machine of the present invention;

FIG. 5 is a top view of the forming device in the stuffed food forming machine of the present invention;

FIG. 6 is a cross-sectional view A-A of FIG. 5;

FIG. 7 is a top view of the pressing mechanism in the stuffed food forming machine of the present invention in an open state;

FIG. 8 is a front exploded view of the molding device in the stuffed food molding machine of the present invention;

Fig. 9 is a reverse explosion diagram of the forming device in the stuffed food forming machine of the present invention.

The reference numbers in the figures are: 1-a frame, 2-a rotary workbench, 3-a skin making device, 4-a stuffing injection device, 5-a finished product taking device, 6-a forming device, 10-a forming die, 20-a power mechanism, 101-a mounting plate, 102-a die body, 103-a skin connecting plate, 104-a pressing mechanism, 105-a fourth connecting rod, 106-a roller, 107-a stop block, 108-a top core, 109-a top rod, 110-a lifting plate, 111-a return spring, 112-a lug, 201-a mounting seat, 202-a first rotating shaft, 203-a second rotating shaft, 204-a first deflector rod, 205-a second deflector rod, 206-a power source, 207-a first connecting rod, 208-a second connecting rod, 209-a third connecting rod, 1021-a forming cavity, 1022-second accommodating chamber, 1023-positioning ring, 1031-forming hole, 1032-guiding chute, 1033-first accommodating chamber, 1041-driving ring, 1042-pressing block, 1043-driving handle, 1044-pressing side face, 1045-pressing hole, 1046-guiding convex strip, 1047-driving groove and 1048-driving shaft.

Detailed Description

The invention will be further described with reference to the following figures and examples:

The utility model discloses a stuffing food forming machine, which comprises a frame 1 and a plurality of forming devices 6; a rotary workbench 2 is arranged on the frame 1, and the forming device 6 is arranged on the rotary workbench 2 in a surrounding manner; each forming device 6 comprises a mounting plate 101 arranged on the rotary table 2, at least one forming die 10 arranged on the mounting plate 101; each forming die 10 comprises a die body 102 arranged on the mounting plate 101, and a skin-contacting plate 103 arranged on the top of the die body 102; a molding cavity 1021 with an opening at the upper end is arranged on the die body 102, and molding holes 1031 are arranged on the skin-connecting plate 103 at the positions corresponding to the molding cavity 1021; a pressing mechanism 104 is arranged between the skin-connecting plate 103 and the die body 102; the pressing mechanism 104 has a pressing hole 1045 between the molding hole 1031 and the molding cavity 1021; the frame 1 is also provided with a power mechanism 20; the power mechanism 20 provides a driving force for the pressing mechanism 104 to enlarge or reduce the pressing hole 1045.

as shown in fig. 1, the stuffed food forming machine comprises a frame 1 and a plurality of forming devices 6, wherein a rotary worktable 2 is arranged on the frame 1; a plurality of forming devices 6 are arranged around the rotary table 2. The machine frame 1 is at least provided with a skin making station, a stuffing injection station, an extrusion station and a finished product taking-out station which are positioned around the rotary worktable 2 according to the working procedures; the machine is characterized in that a skin making device 3 is arranged at a skin making station of the machine frame 1, a stuffing injecting device 4 is arranged at a stuffing injecting station, a power mechanism 20 is arranged at an extruding station, and a finished product taking-out device 5 is arranged at a finished product taking-out station.

As shown in fig. 4 to 6, each molding device 6 includes a mounting plate 101 and at least one molding die 10 provided on the mounting plate 101, the mounting plate 101 being fixedly connected to the rotary table 2; each forming die 10 comprises a die body 102 arranged on a mounting plate 101, the die body 102 is provided with a forming cavity 1021 with an upper end opened, and the shape of the forming cavity 1021 can be set according to the shape of a primarily formed food; preferably, the forming cavity 1021 is cylindrical for a food product that is initially formed into a cylindrical shape. A top core 108 capable of moving up and down is arranged in the molding cavity 1021, and the top core 108 is used for ejecting the food from the molding cavity 1021. The bottom of the top core 108 is provided with a top rod 109 extending downwards to the outside of the die body 102, and the top rod 109 can move up and down. When the food ejecting device is used, upward acting force is continuously applied to the ejector rod 109, the ejector rod 109 is driven to move upwards, the ejector core 108 is driven to move upwards, and food is ejected out of the forming cavity 1021 through the ejector core 108. Each forming die 10 further comprises a skin connecting plate 103 mounted on the top of the die body 102, a forming hole 1031 is arranged on the skin connecting plate 103 at a position corresponding to the forming cavity 1021, and the forming hole 1031 may be circular or petal-shaped; further, the top of the leather receiving plate 103 is provided with a sunken step for conveniently receiving and placing the dough cover, and the sunken step can be square, rectangular or circular.

The dough-making device 3 mainly comprises a dough-pressing device and a dough-cutting device, the dough-pressing device presses the well-mixed flour into dough belts with uniform thickness, and the dough-cutting device cuts the dough belts into single dough sheets. The stuffing filling device 4 mainly comprises a stuffing filling hopper, a stuffing feeding mechanism arranged at the lower end of the stuffing filling hopper, and at least one stuffing filling pipe communicated with the stuffing feeding mechanism, wherein stuffing is filled into at least one wrapper at one time, and the stuffing filling pipe pokes the wrapper into the forming cavity 1021 during stuffing filling to form a cylindrical food. The finished product taking-out device 5 comprises an ejection mechanism, a finished product pushing mechanism and a conveying mechanism which are arranged on the rack 1; after the formed food is sent to the finished product taking-out station, the ejection mechanism applies an upward driving force to the ejector rod 109, the food is ejected out of the forming cavity 1021 of the forming die 10 through the ejector core 108, then the food is pushed into the conveying mechanism through the finished product pushing mechanism, and the food is conveyed away through the conveying mechanism.

Each forming die 10 further comprises a pressing mechanism 104 arranged between the leather receiving plate 103 and the die body 102; the pressing mechanism 104 has a pressing hole 1045, and the pressing hole 1045 is located between and communicates with both the molding hole 1031 and the molding chamber 1021. The power mechanism 20 is arranged at the extrusion station of the frame 1 and is used for providing a driving force for the pressing mechanism 104, so that not only the pressing hole 1045 can be enlarged, but also the pressing hole 1045 can be reduced; the enlargement and the reduction of the caulking hole 1045 are not performed simultaneously for each molding device 6.

Fig. 1 shows an embodiment of a stuffed food forming machine, wherein 8 forming devices 6 are uniformly distributed on the circumference of a rotary table 2, 2 forming dies 10 are arranged on a mounting plate 101 of each forming device 6, and 16 forming dies 10 are arranged on the whole stuffed food forming machine.

The food in the utility model includes but not limited to shaomai, steamed stuffed bun, chaos, etc. Taking shaomai as an example, and combining the above embodiments, the working principle of the stuffed food forming machine is as follows: firstly, the pressing mechanism 104 on each forming mold 10 is in an open state, that is, the pressing hole 1045 is enlarged to a set maximum state; then the forming device 6 is moved to a skin-making station through the rotary workbench 2, and the made shao-mai skin is simultaneously placed in the concave steps at the tops of the two forming dies 10 through the skin-making device 3; then the rotary workbench 3 is rotated, the forming device 6 is moved to a stuffing filling station, two wheat bran cooks are inserted into a forming cavity 1021 of the forming die 10 through a stuffing filling pipe on the stuffing filling device 4, and stuffing filling is completed; then the rotary workbench 3 is rotated, the forming device 6 is moved to the extrusion station, the power mechanism 20 provides driving force for the pressing mechanism 104, the pressing hole 1045 is driven to be gradually reduced, the pressing side surface of the pressing hole 1045 is used for extruding the middle part of the steamed dumpling, and the top part of the steamed dumpling is formed into a fluffy bundle which is folded like a flower; then the power mechanism 20 provides an opposite driving force for the pressing mechanism 104, and the driving pressing hole 1045 becomes larger gradually; then the rotary worktable 2 is rotated, the forming device 6 is moved to a finished product taking-out station, and two wheat shavings are simultaneously taken out from the forming cavity 1021 of the forming die 10 and conveyed away by the finished product taking-out device 5, so that the production of the wheat shavings is completed. Through debugging, the rotation angle of the rotary worktable 2 is controlled every time, so that the continuity of the wheat burning production can be ensured, and the production efficiency is improved.

The utility model discloses a farci food make-up machine can not only make the top of food form fluffy bundle and roll over like the flower shape, has improved the shaping effect of food, has guaranteed the uniformity of food outward appearance moreover, has improved finished product quality.

The pressing mechanism 104 is used for performing secondary forming on the primarily formed food, specifically, extruding the middle of the food, so that the top of the food is formed into a fluffy bundle folded like a flower. As an example, the pressing mechanism 104 may include a plurality of rotating shafts disposed parallel to the axis of the forming cavity 1021, a plurality of rotating shafts are circumferentially disposed around the top of the forming cavity 1021, each rotating shaft is provided with a rotating plate rotating around its center line, and the side surfaces of the plurality of rotating plates together enclose a pressing hole 1045, so that when the rotating plate is driven by the power mechanism 20 to rotate around its center of rotation, the pressing hole 1045 may become larger or smaller.

Fig. 7 to 9 illustrate a preferred embodiment of the pressing mechanism 104, wherein the pressing mechanism 104 includes at least three pressing blocks 1042, and each pressing block 1042 is provided with a pressing side 1044 and a guiding rib 1046; the pressing blocks 1042 are circumferentially arranged so that the pressing side 1044 surrounds a pressing hole 1045; a guide chute 1032 is arranged at a position on the skin receiving plate 103 corresponding to the guide raised line 1046, and the guide raised line 1046 is in sliding fit with the corresponding guide chute 1032 and can slide along the guide chute 1032; the die further comprises a driving ring 1041 which is rotatably arranged on the die body 102 and is positioned below the pressing block 1042, and one side of the driving ring 1041 is provided with a driving handle 1043 which extends to the outside of the die body 102; the bottom of each press-fit block 1042 is provided with a driving slot 1047, and the driving ring 1041 is provided with a driving shaft 1048 extending into each driving slot 1047.

The pressing mechanism 104 includes at least three pressing blocks 1042, each pressing block 1042 has a pressing side 1044 and a guiding protrusion 1046; the plurality of pressing blocks 1042 are circumferentially arranged and make the plurality of pressing surfaces 1044 surround a polygonal pressing hole 1045. A guide convex strip 1046 is arranged at the top of each pressing block 1042, and a guide chute 1032 in sliding fit with each guide convex strip 1046 is arranged at the bottom of the leather receiving plate 103; each guide protrusion 1046 is slidably mounted in the corresponding guide runner 1032 and can slide in the guide runner 1032. Through the sliding fit of the guiding protruding strips 1046 and the guiding chutes 1032, each press-fit block 1042 can be ensured to reciprocate linearly in a plane perpendicular to the axis of the molding cavity 1021, so that the press-fit holes 1045 become larger or smaller.

The driving ring 1041 is annular and rotatably mounted on the mold body 102, and in order to facilitate the operation of the driving ring 1041, a driving handle 1043 extending to the outside of the mold body 102 is further disposed on one side of the driving ring 1041. The bottom of each press-fit block 1042 is provided with a driving slot 1047, a driving shaft 1048 matched with each driving slot 1047 is fixed on the driving ring 1041, and each driving shaft 1048 is cylindrical and extends into the corresponding driving slot 1047. When the driving device is used, only a driving force needs to be applied to the driving handle 1043 from the outside, the driving ring 1041 can be driven to rotate by the driving handle 1043, and then the driving shaft 1048 is driven to rotate around the central line of the driving ring 1041, the driving shaft 1048 simultaneously moves in the driving groove 1047, when the driving shaft 1048 contacts with the side surface of the driving groove 1047, the driving force is applied to the side surface of the driving groove 1047 by the driving shaft 1048, and the pressing block 1042 is driven to move. For convenience of description, the side of the drive slot 1047 that contacts the drive shaft 1048 will be referred to as the drive surface hereinafter.

As shown in fig. 7 to 9, an embodiment of the stitching mechanism 104 is shown, the stitching mechanism 104 includes four stitching blocks 1042, and the four stitching blocks 1042 are circumferentially arranged so that the four stitching sides 1044 surround a quadrangular stitching hole 1045. Preferably, the press-fit holes 1045 are square, and an included angle between the projection of the guide protruding strip 1046 and the press-fit side 1044 on the horizontal plane is 45 °. Further, of the two adjacent press-fit side surfaces 1044, an auxiliary press-fit surface is further disposed at one end of the previous press-fit side surface 1044 close to the next press-fit side surface 1044, so that an octagonal press-fit hole 1045 is defined by the four press-fit side surfaces 1044 and the four auxiliary press-fit surfaces together; when the pressing block 1042 extrudes the food, the shape of the pressing hole 1045 is closer to a circle, so as to improve the appearance quality of the food after pressing.

As shown in fig. 7, the pressing block 1042 moves in the direction indicated by the arrow in the figure under the action of the guiding protrusion 1046, so that the pressing hole 1045 surrounded by the four pressing sides 1044 gradually becomes smaller, and after the pressing sides 1044 contact with the food, the food is pressed through the pressing sides 1044 along with the movement of the pressing block 1042. Each pressing side 1044 can generate two acting forces in the process of extruding the food, wherein one acting force is a radial acting force F1, and the other acting force is a tangential acting force F2; the food is radially extruded by the radial acting force F1, and a rotating force is generated by the tangential acting force F2, so that the food can be extruded and rotated, the shape of the food is increased, and the finished product is more attractive. After the food is formed, the pressing block 1042 only needs to move in the opposite direction of the arrow in fig. 7 to gradually enlarge the pressing hole 1045, and when the size of the pressing hole 1045 is larger than the size of the forming cavity 1021, the food can be taken out of the forming cavity 1021.

the width of each position of the driving slot 1047 in the sliding direction along the guiding protruding strip 1046 is smaller than the width of the motion track of the driving shaft 1048 in the direction, so that it is ensured that the driving shaft 1048 can contact with the driving surface of the driving slot 1047 in the rotating process of the driving ring 1041, a driving force is provided for the driving slot 1047, and the pressing block 1042 is driven to move. The distance between the two ends of the driving groove 1047 in the direction perpendicular to the sliding direction of the guiding protruding strip 1046 is greater than or equal to the length of the motion track of the driving shaft 1048 in the direction, so that the driving shaft 1048 and the driving groove 1047 are prevented from being locked in the rotating process of the driving ring 1041, the moving range of the driving shaft 1048 is ensured, and the maximum adjusting range of the press-fit hole 1045 is further ensured.

In order to improve the use efficiency, as shown in fig. 9, the widths of the driving grooves 1047 are preferably uniform at each position in the sliding direction of the guide ribs 1046; during the movement of the driving shaft 1048 in the driving slot 1047, the driving shaft 1048 is simultaneously contacted with the two driving surfaces of the driving slot 1047. This is provided to ensure that the driving shaft 1048 is always in contact with the two driving surfaces of the driving slot 1047 during the rotation of the driving ring 1041, so that the driving shaft 1048 can continuously provide driving force to the driving surfaces.

The power mechanism 20 is used for providing a driving force for the pressing mechanism 104, so as to enlarge or reduce the pressing hole 1045 of the pressing mechanism 104. Fig. 2 and 3 illustrate an embodiment of the power mechanism 20, where the power mechanism 20 includes a mounting seat 201 disposed on the frame 1, and a first rotating shaft 202 and a second rotating shaft 203 vertically and rotatably disposed on the mounting seat 201; a first deflector rod 204 for providing driving force for driving the handle 1043 is arranged on the first rotating shaft 202, and a second deflector rod 205 for providing driving force for driving the handle 1043 is arranged on the second rotating shaft 203; and a power source 206 in transmission connection with the first rotating shaft 202 and the second rotating shaft 203.

the power mechanism 20 and the forming device 6 in the utility model are of a split structure, the power mechanism 20 is arranged at the extrusion station of the frame 1, and the mounting seat 201 is fixed on the frame 1 and plays a supporting role; the first rotating shaft 202 is vertically arranged and rotatably mounted on the mounting base 201 through a bearing, and a first shift lever 204 for providing a driving force for the driving handle 1043 is further arranged on the first rotating shaft 202. The second rotating shaft 203 is vertically arranged and rotatably mounted on the mounting base 201 through a bearing, and a second shift lever 205 for providing a driving force for the driving handle 1043 is further arranged on the second rotating shaft 203. The power source 206 provides power for the rotation of the first rotating shaft 202 and the second rotating shaft 203, and the power source 206 may be two motors, and the two motors are respectively in transmission connection with the first rotating shaft 202 and the second rotating shaft 203.

In order to improve the production efficiency, each molding device 6 includes at least two molding dies 10 provided on the mounting plate 101; all the driving handles 1043 are located on the same side of the molding die 10 and are simultaneously hinged with the fourth connecting bar 105. The fourth connecting rod 105 is provided with a roller 106 which is in rolling fit with the first toggle lever 204 and the second toggle lever 205. All the ejector pins 109 are simultaneously connected with an uplifting plate 110, and a return spring 111 sleeved on each ejector pin 109 is arranged between the uplifting plate 110 and the die body 102. In use, all the press-fit holes 1045 in each forming device 6 can be controlled to be simultaneously enlarged or reduced by only applying force to the fourth connecting rod 105 or the roller 106. The food in all the molding cavities 1021 in each molding device 6 can be ejected by only applying an upward force to the lifting plate 110, which is more convenient to operate. Through setting up reset spring 111, after ejecting filled food out of molding chamber 1021 through core 108, under the effect of reset spring 111 elasticity, core 108 resets to the bottom of molding chamber 1021.

For convenience of description, the terms "clockwise" and "counterclockwise" are used herein to correspond to the clockwise and counterclockwise directions of the drawings, but do not limit the structure of the present invention.

as shown in fig. 3, each forming device 6 includes two forming dies 10, and the actuating mechanism 20 in the above embodiment operates according to the following principle:

1. The molding device 6 is moved to a position corresponding to the first rotating shaft 202, the power source 206 drives the first rotating shaft 202 to rotate counterclockwise, and then drives the first shifting lever 204 to rotate counterclockwise, the first shifting lever 204 contacts with the roller 106 to apply continuous driving force to the roller 106, and then drives the driving ring 1041 to rotate clockwise, and the driving pressing block 1042 moves to reduce the pressing hole 1045, so as to extrude the middle of the food.

2. After the step 1 is completed, the forming device 6 is moved to a position corresponding to the second rotating shaft 203, the power source 206 drives the second rotating shaft 203 to rotate clockwise, and further drives the second deflector rod 205 to rotate clockwise, the second deflector rod 205 contacts with the roller 106, and provides a continuous driving force for the roller 106, and further drives the driving ring 1041 to rotate counterclockwise, and the pressing block 1042 is driven to move, so that the pressing hole 1045 is enlarged, and then the food can be taken out from the forming cavity 1021.

fig. 2 and 3 show an embodiment of the power source 206, wherein the power source 206 is a cylinder, and the cylinder body of the cylinder is hinged on the mounting seat 201; a first connecting rod 207 is fixed on the first rotating shaft 202, and a second connecting rod 208 is fixed on the second rotating shaft 203; a piston rod of the cylinder is hinged with one end of a first connecting rod 207, and the other end of the first connecting rod 207 is hinged with one end of a second connecting rod 208 through a third connecting rod 209; the first rotating shaft 202 and the second rotating shaft 203 rotate in opposite directions.

When the device is used, as shown in fig. 3, the cylinder is started, the piston rod of the cylinder extends, and the first connecting rod 207 drives the first rotating shaft 202 to rotate anticlockwise; meanwhile, the first connecting rod 207 drives the second rotating shaft 203 to rotate clockwise through the third connecting rod 209 and the second connecting rod 208. In the structure, only one air cylinder is needed to drive the first rotating shaft 202 and the second rotating shaft 203 to rotate at the same time, so that the synchronous rotation of the first rotating shaft 202 and the second rotating shaft 203 is realized, and the manufacturing cost is reduced. When the two molding devices 6 move to the positions corresponding to the first rotating shaft 202 and the second rotating shaft 203, only one operation is needed, so that the pressing hole 1045 in one molding device 6 can be reduced, the pressing hole 1045 in the other molding device 6 can be enlarged, and the operation efficiency is improved.

The molding device 6 further comprises a limiting piece for controlling the pressing size of the pressing hole 1045; the limiting member includes a protrusion 112 disposed on the fourth connecting rod 105, and a stop 107 disposed on the mounting plate 101 and located on a motion track of the protrusion 112. The pressing size of the pressing hole 1045 refers to the minimum size of the pressing hole 1045 surrounded by the pressing side 1044, and the movement locus of the bump 112 refers to the movement locus of the bump 112 in the process that the pressing hole 1045 is reduced from large to small. By arranging the stopper 107 on the motion track of the bump 112, when the bump 112 moves to the position of the stopper 107, the stopper 107 limits the bump 112, thereby controlling the minimum size of the pressing hole 1045. The projection 112 and the fourth connecting rod 105 may be integrally formed.

In order to save the installation space, as a preferable scheme, the bottom of the leather connecting plate 103 is provided with a first accommodating cavity 1033 for accommodating the pressing block 1042; the pressing block 1042 is disposed in the first receiving cavity 1033. The top of the die body 102 is provided with a second accommodating cavity 1022 with an opening on one side, the bottom of the second accommodating cavity 1022 is provided with a positioning ring 1023, and the axis of the positioning ring 1023 is coincident with the axis of the forming cavity 1021; the driving ring 1041 is arranged in the second accommodating cavity 1022 and is sleeved on the positioning ring 1023; the driving handle 1043 is provided from the opening of the side of the second accommodation cavity 1022 and even outside the mold body 102.

As shown in fig. 8, the positioning ring 1023 is in a circular ring shape, the positioning ring 1023 is arranged at the bottom of the second receiving cavity 1022, and the axis of the positioning ring 1023 is coincident with the axis of the forming cavity 1021; the positioning ring 1023 may also be integrally formed with the mold body 102. The driving handle 1043 extends out of the opening on one side of the second accommodating cavity 1022 to the outside of the mold body 102, so that an operator can operate the driving handle 1043 conveniently from the outside of the mold body 102. Further, the sum of the heights of the first receiving cavity 1033 and the second receiving cavity 1022 is greater than or equal to the sum of the thicknesses of the driving ring 1041 and the press block 1042, wherein the thickness of the driving ring 1041 does not include the thickness of the driving shaft 1048, and the thickness of the press block 1042 does not include the thickness of the guiding convex strip 1046.

Claims

1. A stuffed food forming machine, which comprises a frame (1) and a plurality of forming devices (6); the machine frame (1) is provided with a rotary workbench (2), and the forming device (6) is arranged on the rotary workbench (2) in a surrounding manner; each forming device (6) comprises a mounting plate (101) arranged on the rotary worktable (2) and at least one forming die (10) arranged on the mounting plate (101); each forming die (10) comprises a die body (102) arranged on the mounting plate (101), and a skin connecting plate (103) arranged at the top of the die body (102); a molding cavity (1021) with an opening at the upper end is arranged on the die body (102), and molding holes (1031) are arranged on the skin-connecting plate (103) at positions corresponding to the molding cavity (1021);

The die is characterized in that a pressing mechanism (104) is arranged between the leather receiving plate (103) and the die body (102); the pressing mechanism (104) is provided with a pressing hole (1045) between the molding hole (1031) and the molding cavity (1021); the rack (1) is also provided with a power mechanism (20); the power mechanism (20) provides driving force for the pressing mechanism (104) so as to enlarge or reduce the pressing hole (1045).

2. The stuffed food forming machine of claim 1, wherein the pressing mechanism (104) comprises at least three pressing blocks (1042), and each pressing block (1042) is provided with a pressing side (1044) and a guiding rib (1046); the pressing blocks (1042) are arranged circumferentially to enable the pressing side surfaces (1044) to enclose a pressing hole (1045); a guide sliding chute (1032) is arranged at a position, corresponding to the guide convex strip (1046), on the leather receiving plate (103), and the guide convex strip (1046) is in sliding fit with the corresponding guide sliding chute (1032) and can slide along the guide sliding chute (1032); the die is characterized by further comprising a driving ring (1041) which is rotatably arranged on the die body (102) and is positioned below the pressing block (1042), and a driving handle (1043) which extends to the outside of the die body (102) is arranged on one side of the driving ring (1041); the bottom of each pressing block (1042) is provided with a driving groove (1047), and the driving ring (1041) is provided with a driving shaft (1048) extending into each driving groove (1047).

3. the stuffed food forming machine according to claim 2, wherein the power mechanism (20) comprises a mounting seat (201) arranged on the frame (1), a first rotating shaft (202) and a second rotating shaft (203) which are vertically and rotatably arranged on the mounting seat (201); a first deflector rod (204) for providing driving force for the driving handle (1043) is arranged on the first rotating shaft (202), and a second deflector rod (205) for providing driving force for the driving handle (1043) is arranged on the second rotating shaft (203); the power source (206) is in transmission connection with the first rotating shaft (202) and the second rotating shaft (203).

4. the machine for forming stuffed foods as claimed in claim 3, wherein the power source (206) is an air cylinder, and the cylinder body of the air cylinder is hinged on the mounting seat (201); a first connecting rod (207) is fixed on the first rotating shaft (202), and a second connecting rod (208) is fixed on the second rotating shaft (203); a piston rod of the air cylinder is hinged with one end of a first connecting rod (207), and the other end of the first connecting rod (207) is hinged with one end of a second connecting rod (208) through a third connecting rod (209); the rotating directions of the first rotating shaft (202) and the second rotating shaft (203) are opposite.

5. The filled food forming machine according to claim 3, wherein each forming device (6) comprises at least two forming dies (10) arranged on a mounting plate (101); all the driving handles (1043) are positioned on the same side of the forming die (10) and are simultaneously hinged with the fourth connecting rod (105).

6. The machine for forming stuffed foods according to claim 5, wherein the fourth connecting rod (105) is provided with a roller (106) which is in rolling fit with the first deflector rod (204) and the second deflector rod (205).

7. The machine for forming stuffed foods as claimed in claim 6, wherein the forming device (6) further comprises a stopper for controlling the pressing size of the pressing hole (1045); the limiting part comprises a convex block (112) arranged on the fourth connecting rod (105) and a stop block (107) arranged on the mounting plate (101) and positioned on the motion trail of the convex block (112).

8. The machine for forming farci food according to claim 2, characterized in that the bottom of the skin-engaging plate (103) has a first housing chamber (1033) for housing the pressing block (1042); the pressing block (1042) is arranged in the first containing cavity (1033).

9. The machine according to claim 2, characterized in that the top of the mould body (102) has a second housing cavity (1022) open on one side, a positioning ring (1023) being arranged on the second housing cavity (1022), the axis of the positioning ring (1023) coinciding with the axis of the forming cavity (1021); the driving ring (1041) is arranged in the second accommodating cavity (1022) and sleeved on the positioning ring (1023); the driving handle (1043) extends out of the die body (102) from the opening on one side of the second accommodating cavity (1022).