CN215471591U - Food material cutting machine - Google Patents

Abstract

The utility model provides an eat material stock cutter, including the driving piece, the bent axle, the connecting rod, cutter and brace table, driving piece drive crankshaft is rotatory, be equipped with the crank throw on the bent axle, the crank throw, the connecting rod, the quantity of cutter and brace table is a plurality of, a plurality of crank throws are arranged along the direction that backs on the back of the body on the bent axle, a plurality of cutters set up the both sides that carry on the back on the bent axle mutually, the both ends of a plurality of connecting rods and a plurality of crank throws and a plurality of cutters rotate the connection one-to-one, a plurality of cutters move along the direction that backs on the back on a straight line, a plurality of brace tables correspond the one-to-one and set up the one side towards ground in the removal route of a plurality of cutters, the brace table is used for supporting and eats the material. Through setting up driving piece drive crankshaft and rotating, bent epaxial a plurality of crank throw drives the connecting rod motion, further drives the cutter and removes, and the cutter department of difference sets up same edible material, can accomplish multifold section work load, also can set up different edible materials in the cutter department of difference, once realizes the section of multiple edible material, and the section mutual noninterference of a plurality of cutters has improved work efficiency.

Description

Food material cutting machine

Technical Field

The utility model relates to a eat material blank technical field, concretely relates to eat material stock cutter.

Background

The food material cutting machine on the current market can not realize that one food material cutting machine slices two or more food materials while not interfering each other under the condition of using one motor, and simultaneously, to same food material, can only cut the material in one place once, and is inefficient.

SUMMERY OF THE UTILITY MODEL

The utility model provides an eat material stock cutter, including driving piece, bent axle, connecting rod, cutter and brace table, the driving piece drive the bent axle is rotatory, be equipped with the crank throw on the bent axle, the crank throw the connecting rod the cutter with the quantity of brace table is a plurality of, and is a plurality of the crank throw is in arrange along the direction of carrying on the back mutually on the bent axle, and is a plurality of the cutter sets up the both sides that carry on the back mutually of bent axle are a plurality of the both ends of connecting rod are with a plurality of the crank throw with a plurality of the cutter rotates the connection one-to-one, and is a plurality of the cutter removes along the direction of carrying on the back mutually on a straight line, and is a plurality of the brace table one-to-one sets up in a plurality of one side towards ground of the removal route of cutter, the brace table is used for supporting the material of eating.

Through setting up driving piece drive crankshaft and rotating, bent epaxial a plurality of crank throw drives the connecting rod motion, further drives the cutter and removes, and the cutter department of difference sets up same edible material, can accomplish multifold section work load, also can set up different edible materials in the cutter department of difference, once realizes the section of multiple edible material, and the section mutual noninterference of a plurality of cutters has improved work efficiency.

Optionally, the crankshaft further comprises two opposite first supporting members, two ends of the crankshaft are respectively rotatably connected with the two first supporting members, and the driving member is disposed on the first supporting members. Through setting up first support piece, when supporting the bent axle, make the bent axle rotate, be convenient for realize required motion.

Optionally, the crankshaft is connected to the driving member through a transmission. Through setting up the driving medium, can be so that arranging of driving piece is more reasonable, can turn to, slow down etc. to the rotation of driving piece, be convenient for realize eating the rotational speed of material required bent axle of section.

Optionally, the slicing device further comprises a material containing box, wherein the material containing box is arranged on one side of the cutter facing the ground and used for collecting the sliced food materials. Through setting up flourishing magazine, can collect the edible material of section completion, avoid eating the material to scatter, the edible material of collecting simultaneously also is convenient for carry out processing on next step.

Optionally, the cutting tool further comprises a second supporting piece, the second supporting piece is provided with a tool hole, and the cutting tool is accommodated in the tool hole and is in sliding connection with the second supporting piece. Through setting up second support piece, can support the cutter for the removal of cutter is reliable and stable.

Optionally, the cutting knife comprises a connecting part, a limiting part, a sliding part and a blade which are sequentially connected, the connecting part is rotatably connected with the connecting rod, the sliding part is accommodated in the knife hole and is in sliding connection with the second supporting part, the limiting part protrudes out of the surface of the sliding part, and the blade is used for slicing food materials. Through the structure that sets up foretell cutter, can realize that connecting portion are connected with the rotation of connecting rod, sliding connection of sliding part and second support piece to and the cutting of blade to eating the material, simple structure.

Optionally, the cutter further comprises a blanking portion in the shape of "Contraband", the blanking portion surrounds the edge of the blade close to the sliding portion, and the blanking portion protrudes from the surface of the blade facing the ground. Through setting up unloading portion, can be stable with the edible material of section completion push down from the brace table, be convenient for realize the action of cutting into slices of edible material next time.

Optionally, the blade is from keeping away from the one end of sliding part is to being close to the thickness of the one end of sliding part increases gradually, be equipped with the dicing knife rest on the brace table, the dicing knife rest includes the dicing sword that a plurality of vertically and horizontally staggered set up, and is a plurality of the dicing sword encloses to close and forms a plurality of fretwork holes, the cutter is used for impressing the edible material after the section the dicing knife rest, the dicing sword is used for eating the material dicing, and the edible material of dicing is followed the fretwork hole falls down. Through the arrangement, food materials can be diced, and meanwhile, the cutter and the dicing cutter frame have simple structures, are reliable in operation and are low in cost.

Optionally, the support platform further comprises a third support member and a fourth support member which are fixedly connected with the second support member and arranged at intervals, the fourth support member is arranged on one side, facing the ground, of the third support member, the third support member is provided with a feed port, and the support platform is connected with the fourth support member and is opposite to the feed port. Through setting up third support piece and fourth support piece, be convenient for realize the support of brace table and edible material.

Optionally, the support table includes a support block, a screw rod and a nut, the nut is fixed to the fourth support member, the screw rod includes a threaded section and a polished rod section that are connected, the threaded section is connected to the support block, the threaded section is rotatably connected to the nut, the support block faces the feed port, and the polished rod section is used for limiting a moving distance of the support block toward the feed port. The structure that sets up screw thread section, polished rod section and nut can adjust and eat the sliced thickness of material, can avoid simultaneously interfering with the cutter.

Optionally, the support table further comprises an auxiliary rod disposed at a circumferential side of the support block. Other instruments of accessible and the cooperation of auxiliary rod for the relative nut of screw rod rotates, and the regulation of the sliced thickness of material is eaten in the realization of convenient laborsaving.

Drawings

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

Fig. 1 is a schematic structural view of a food material cutting machine according to an embodiment.

Fig. 2 is a plan view and a partial structural sectional view of a food material cutting machine of an embodiment before slicing.

Fig. 3 is a plan view and a partial structural sectional view of a food material cutting machine of an embodiment when cutting slices.

Fig. 4 is a plan view and a partial structural sectional view of the food material cutting machine of the embodiment when slicing is completed.

FIG. 5 is a schematic diagram of a crankshaft according to an embodiment.

Fig. 6 is a perspective structural view and a sectional view of a cutter according to an embodiment.

FIG. 7 is a schematic structural diagram of a support stage according to an embodiment.

Fig. 8 is a schematic structural view of a food material cutting machine according to an embodiment.

Fig. 9 is a sectional view of the food material cutter of fig. 8.

Description of reference numerals:

11-a bottom plate, 12-a first support, 13-a second support, 14-a third support, 15-a fourth support;

21-drive, 22-drive, 23-support, 24-bearing;

30-crankshaft, 31-journal, 32-bell crank, 321-crank, 322-connecting rod, 33-matching section, 34-connecting section, 341-non-circular groove;

40-a connecting rod;

50-cutter, 51-connecting part, 511-clamping plate, 512-rotating rod, 52-limiting part, 53-sliding part, 54-cutter, 55-blanking part, 551-first blanking strip and 552-second blanking strip;

60-support table, 61-support block, 62-screw, 621-thread section, 622-polished rod section, 63-nut, 64-auxiliary rod;

70-material containing box, 71-accommodating cavity;

80-feeding pipe, 81-inner hole;

90-dicing blade holders;

91-food item one, 911-food item piece one, 92-food item two, 921-food item piece two.

Detailed Description

Technical solutions in embodiments of the present disclosure will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present disclosure, and it is apparent that the described embodiments are only some embodiments of the present disclosure, not all embodiments. All other embodiments, which can be derived by one of ordinary skill in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

Referring to fig. 1, an embodiment of the present disclosure provides a food material cutting machine, which includes a driving member 21, a crankshaft 30, a connecting rod 40, a cutter 50, and a supporting table 60.

Referring to fig. 1 and 5, the crankshaft 30 includes a plurality of journals 31 and a plurality of cranks 32, one journal 31 is connected between two adjacent cranks 32, and one journal 31 is connected to the outer side of the outermost crank 32. The crankshaft 30 further includes two fitting sections 33 and a connecting section 34, the fitting sections 33 being connected to the outside of the outermost journal 31, and the connecting section 34 being connected to the outside of one of the fitting sections 33. The plurality of journals 31, the two mating sections 33 and the connecting section 34 are coaxial. The bell crank 32 comprises two opposite cranks 321 and a connecting rod 322, the cranks 321 being connected to the journal 31, the connecting rod 322 connecting the two opposite cranks 321. The axis of the connecting rod 322 is parallel to and spaced from the axis of the journal 31. The plurality of throws 32 are arranged in opposite directions on the crankshaft 30, as shown in fig. 1 and 5, two throws 32 are shown, the two throws 32 being arranged in opposite directions. When the number of the crank throws 32 is 2N, and N is a positive integer, the N crank throws 32 are located on the same side of the journal 31, and the other N crank throws 32 are located on the other side of the journal 31 opposite to each other, that is, half of the crank throws 32 and the other half of the crank throws 32 are opposite to each other, so that the arrangement of the crank throws 32 is uniform, and the force balance during the rotation of the crankshaft 30 is facilitated; when the number of the crank throws 32 is 2N +1, the N crank throws 32 are located on the same side of the journal 31, and the other N +1 crank throws 32 are located on the opposite side of the journal 31, so as to ensure the uniform arrangement of the crank throws 32 as much as possible, and facilitate the realization of the force balance when the crankshaft 30 rotates.

The driver 21 is, for example, a motor, and the driver 21 is connected to the connecting section 34 of the crankshaft 30, thereby driving the crankshaft 30 to rotate. Optionally, the food material cutting machine further comprises a transmission member 22, and the driving member 21 is connected to the crankshaft 30 through the transmission member 22. Specifically, the transmission member 22 includes, for example, a gear set or the like for turning, decelerating, or the like, the rotational movement of the driving member 21. The connecting section 34 may be formed with a non-circular groove 341, the cross section of the non-circular groove 341 may have a shape such as "D" shape, square shape, etc., and the output shaft of the driving member 22 has a shape corresponding to the non-circular groove 341, so as to extend into the non-circular groove 341 and tightly contact with the inner wall of the non-circular groove 341, thereby achieving the connection and fixation of the driving member 22 and the crankshaft 30. Through setting up driving medium 22, can be so that arranging of driving piece 21 is more reasonable, can turn to, slow down etc. to the rotation of driving piece 21, be convenient for realize eating the required bent axle 30's of material section rotational speed. In addition, the speed of slicing the food materials can be adjusted by adjusting the rotating speed of the driving part 21.

The number of the connecting rod 40, the cutter 50 and the supporting table 60 is plural, and fig. 1 shows an embodiment in which the number of the connecting rod 40, the cutter 50 and the supporting table 60 is two. The plurality of cutters 50 are disposed at opposite sides of the crankshaft 30, both ends of the plurality of connecting rods 40 are rotatably connected to the plurality of bell cranks 32 and the plurality of cutters 50 in a one-to-one correspondence, and the plurality of cutters 50 move in opposite directions on a straight line. As shown in fig. 1, the number of the connecting rods 40, the cutters 50 and the supporting platforms 60 is 2, wherein one cutter 50 is arranged on the left side of the crankshaft 30, the other cutter 50 is arranged on the right side of the crankshaft 30, and the two cutters 50 are respectively connected with the corresponding crank throw 32 on the crankshaft 30 through one connecting rod 40. During one rotation of the crankshaft 30, the crank throw 32 drives the connecting rod 40 to perform a reciprocating motion, and further drives the cutter 50 to perform a reciprocating motion on a straight line, thereby completing a food material slicing action.

The plurality of support tables 60 are correspondingly disposed on one side of the moving path of the plurality of cutters 50 facing the ground one by one, and the support tables 60 are used for supporting the food materials.

When the cutting knife 50 moves to cut the food material into slices, the portions of the food material on the cutting knife 50 and the supporting table 60 are cut into slices. The distance between the support table 60 and the cutter 50 determines the thickness of the sliced food material. Due to the arrangement of the plurality of cutters 50, the food material slicing operation can be completed for a plurality of times in the process that the driving part 21 drives the crankshaft 30 to rotate for one circle. As in the embodiment of fig. 1, during one rotation of the crankshaft 30, the food material slicing operation can be performed twice. Therefore, in the same time, for the same food material, the slicing workload of multiple times can be completed, and different food materials can be arranged at different cutting knives 50, so that the slicing of multiple food materials can be realized at one time. The food materials include radix Raphani, rhizoma Solani Tuber osi, rhizoma Nelumbinis, rhizoma Dioscoreae, and radix Lactucae Sativae.

Taking the food material cutting machine of the embodiment shown in fig. 1 as an example, the food material slicing process will be described.

Referring to fig. 2, before the food material is sliced, the driving member 21 drives the crankshaft 30 to rotate to a first position, the food material is placed on the supporting table 60, and at this time, the crank 32 on the crankshaft 30 rotates to move a portion of the connecting rod 40 to the other side of the journal 31 opposite to the journal 31, that is, a portion of the connecting rod 40 is located on both sides of the journal 31, so that both the cutters 50 retract, that is, the cutters 50 move to a position spaced apart from the food material.

Referring to fig. 3, when the food material is sliced, the driving member 21 drives the crankshaft 30 to rotate to the second position, and at this time, the crank 32 on the crankshaft 30 rotates to drive the connecting rod 40 to gradually move to the same side of the journal 31, so that both the cutters 50 extend forward, that is, the cutters 50 move to contact with the food material and start cutting.

Referring to fig. 4, when the slicing of the food material is completed, the driving member 21 drives the crankshaft 30 to rotate to the third position, and at this time, the crank 32 on the crankshaft 30 rotates to drive the connecting rod 40 to move forward, so that the two cutters 50 move to the most forward position, and the food material is sliced. The food piece one 911 and the food piece two 921 as shown in fig. 4 have been separated from the food piece one 91 and the food piece two 92, respectively.

As shown in fig. 2 to 4, two different food materials, namely, the food material one 91 and the food material two 92, are shown, and as can be seen from the process shown in fig. 2 to 4, the slicing of the food material one 91 and the food material two 92 is simultaneously realized in the process of one rotation of the crankshaft 30. For the same two food materials, the slicing process is the same and is not described again.

In this embodiment, through setting up driving piece 21 drive crankshaft 30 and rotating, a plurality of crank throws 32 on the bent axle 30 drive the motion of connecting rod 40, further drive cutter 50 and remove, set up same edible material in the 50 departments of cutter of difference, can accomplish the section work load of multifold, also can set up different edible materials in the 50 departments of cutter of difference, once realize the section of multiple edible material, the section mutual noninterference of a plurality of cutters 50 has improved work efficiency.

Optionally, referring to fig. 1, the food material cutting machine further includes two opposite first supporting members 12, two ends of the crankshaft 30 are respectively rotatably connected to the two first supporting members 12, and the driving member 21 is disposed on the first supporting members 12. The first support member 12 may be plate-shaped, and a fitting hole is formed in the middle of the first support member, and the crankshaft 30 may be fitted with the fitting hole to realize the rotational connection between the crankshaft 30 and the first support member 12. By providing the first support 12, the crankshaft 30 is supported while the crankshaft 30 is allowed to rotate, facilitating the desired movement.

Specifically, two matching sections 33 of the crankshaft 30 are respectively rotatably connected to a first supporting member 12, and the connecting section 34 extends out to a side of the first supporting member 12 facing away from the other first supporting member 12 so as to be connected to the driving member 21.

The driving member 21 can be mounted on the first supporting member 12 through a bracket 23, and in the embodiment with the transmission member 22, the transmission member 22 can also be mounted on the first supporting member 12 through the bracket 23.

Optionally, a bearing 24 may be further disposed at the matching hole of the first supporting member 12, the crankshaft 30 is connected to the bearing 24, and by disposing the bearing 24, the friction resistance of the crankshaft 30 during rotation can be reduced, and the energy consumption can be reduced.

Optionally, referring to fig. 1, the food slicing device further includes a material containing box 70, and the material containing box 70 is disposed on a side of the cutting knife 50 facing the ground and is used for collecting the sliced food materials. The material container 70 includes a receiving cavity 71 opened upward, and when the slicing of the food material is completed, the food material pieces fall into the receiving cavity 71. Through setting up flourishing magazine 70, can collect the edible material of section completion, avoid eating the material to scatter, the edible material of collecting simultaneously also is convenient for carry out processing on next step. Further, the containing box 70 can be located at one side of the end position of the moving position of the cutter 50 far away from the driving part 21, and when the cutter 50 moves and cuts the food material, the speed is high, so that the inertia of the food material piece is driven to move forwards, the position of the containing box 70 is slightly forward, and the food material can be better received. In other designs, the material containing box 70 can be located at other positions as long as the material can be collected.

Referring to fig. 1 and 4, when the cutting knife 50 finishes cutting, the food material piece one 911 and the food material piece two 921 slide down from the supporting table 60 into the accommodating cavity 71 of the material containing box 70 under the driving of the forward movement of the cutting knife 50, so as to collect the food material piece one 911 and the food material piece two 921.

Referring to fig. 1, the food material cutting machine further includes a second supporting member 13, the second supporting member 13 is provided with a knife hole, and the cutting knife 50 is accommodated in the knife hole and slidably connected with the second supporting member 13.

It will be appreciated that the number of second supports 13 is the same as the number of cutters 50. The second supporting member 13 may also have a plate shape and a thickness to support the cutter 50. The shape of the cutter hole is approximately matched with that of the cutter 50, so that the cutter 50 can be contained in the cutter hole and can be limited, and only can do reciprocating motion back and forth but not do motion in other directions, and the motion stability and reliability of the cutter 50 are ensured. By arranging the second supporting member 13, the cutting knife 50 can be supported, so that the movement of the cutting knife 50 is stable and reliable.

Optionally, referring to fig. 1 and 6, the cutting knife 50 includes a connecting portion 51, a limiting portion 52, a sliding portion 53 and a blade 54, which are sequentially connected, the connecting portion 51 is rotatably connected to the connecting rod 40, the sliding portion 53 is accommodated in the knife hole and slidably connected to the second support 13, the limiting portion 52 protrudes out of the surface of the sliding portion 53, and the blade 54 is used for slicing food materials.

Specifically, the connecting portion 51 has a structure similar to that of the crank throw 32, and includes two opposite clamping plates 511 and a rotating rod 512 connected to the two clamping plates 511, and the rotating rod 512 is used for being rotatably connected to the connecting rod 40. The size of the limiting part 52 is slightly larger than that of the sliding part 53 and larger than that of the knife hole, so that when the sliding part 53 slides in the knife hole, the limiting part 52 cannot stretch into the knife hole, the moving distance of the cutter 50 is limited, and injuries caused by accidents can be avoided. The sliding portion 53 is substantially in the form of a rectangular flat plate, and when sliding in the tool hole, it is closely attached to one inner wall of the tool hole, and has a small gap with the other inner wall opposite to the tool hole, so that the sliding portion 53 can be supported well, and interference of the tool hole with the movement of the sliding portion 53 can be avoided. The blade 54 may have a wedge-shaped cross section, having a back connected to the sliding portion 53 and a tip opposite to the back for contacting the food material and cutting.

By the structure of the cutting knife 50, the rotating connection between the connecting part 51 and the connecting rod 40, the sliding connection between the sliding part 53 and the second support part 13, and the cutting of the food material by the blade 54 can be realized, and the structure is simple.

Optionally, referring to fig. 6, the cutting knife 50 further includes a blanking portion 55 in the shape of "Contraband", the blanking portion 55 surrounds the edge of the blade 54 close to the sliding portion 53, and the blanking portion 55 protrudes from the surface of the blade 54 facing the ground.

Specifically, the blanking portion 55 includes a first blanking bar 551 and two opposite second blanking bars 552, the first blanking bar 551 is disposed at the back of the blade 54, and the two opposite second blanking bars 552 are disposed at two sides of the blade 54. The end, close to the blade point, of the second blanking strip 552 is spaced from the blade point, so that the blade point is prevented from being affected to cut into the food material, and the end, close to the blade point, of the second blanking strip 552 can also be made into a sharp pointed structure, so that the food material can be cut in an auxiliary mode.

Referring to fig. 3, 4 and 6, when the cutting knife 50 slices the food material, after the cutting knife 54 cuts off the food material, the driving member 21 drives the crankshaft 30 to rotate, and the cutting knife 50 is driven by the connecting rod 40 to move forward, so that the blanking portion 55 contacts with the first food material piece 911 and the second food material piece 921, and pushes the first food material piece 911 and the second food material piece 921 to move forward, and the first food material piece 911 and the second food material piece 921 slide down from the supporting table 60 into the material containing box 70, and the slicing of the food material at the next time is not affected.

Therefore, by providing the discharging portion 55, the sliced food material can be stably pushed down from the supporting table 60, and the next slicing operation of the food material can be easily performed.

In one embodiment, referring to fig. 8 and 9, the blade 54 gradually increases in thickness from the end away from the sliding portion 53 to the end near the sliding portion 53. The shape of the blade 54 is designed such that one end of the blade 54, which is far from the sliding portion 53, has a sharp blade edge to cut the food material, and the other end of the blade 54, which is near to the sliding portion 53, has a thick blade back, and the thickness from the blade edge to the blade back is gradually changed, so that the cutter 50 has a force to cut the food material forward and a force to press the food material downward during the movement of the cutter 50.

Be equipped with the dicing knife rest 90 on the brace table, the dicing knife rest 90 includes the dicing sword of a plurality of vertically and horizontally staggered settings, and a plurality of dicing sword enclose to close and form a plurality of fretwork holes, and cutter 50 is used for impressing the edible material after the section into dicing knife rest 90, and the dicing sword is used for eating the material dicing, and the edible material of dicing falls down from the fretwork hole.

Specifically, the support table may be a fourth support 15, and the dicing blade holder 90 is mounted on the fourth support 15. The dicing knife is in a sharp sheet shape and can be used for cutting food materials. The dicing sword can include a plurality of first dicing swoves that transversely extend and a plurality of second dicing swoves that extend along longitudinal extension, and a plurality of first dicing swoves can equidistant interval set up, and a plurality of second dicing swoves also can equidistant interval set up, and a plurality of first dicing swoves and a plurality of second dicing swoves vertically and horizontally staggered form the fretwork hole of a plurality of sizes unanimity, are convenient for cut and form the edible material butyl of size unanimity. The dicer holder 90 may also include a frame that surrounds the periphery of the first plurality of dicers and the second plurality of dicers.

The food material sliced by the cutter 50 is pressed into the dicing cutter frame 90, and the food material slices are diced by the dicing cutter under the pressure of the cutter 50, so that the process of dicing the food material is realized. Through the arrangement, food materials can be diced, and meanwhile, the cutter 50 and the dicing knife rest 90 have simple structures, are reliable in operation and are low in cost.

Optionally, referring to fig. 1, the food material cutting machine further includes a third supporting member 14 and a fourth supporting member 15 fixedly connected to the second supporting member 13 and disposed at an interval, the fourth supporting member 15 is disposed on a side of the third supporting member 14 facing the ground, the third supporting member 14 is provided with a feeding hole (not shown), and the supporting platform 60 is connected to the fourth supporting member 15 and opposite to the feeding hole.

The feed inlet is used for placing food materials, the periphery of the food materials is attached to the third supporting piece 14, one end of the food materials is placed on the supporting table 60, and stable placement of the food materials is achieved. By providing the third support member 14 and the fourth support member 15, the support of the support table 60 and the food material is facilitated.

Optionally, a feeding pipe 80 can be arranged on the third supporting member 14, an inner hole 81 of the feeding pipe 80 is communicated with the feeding hole, food materials are placed in the feeding pipe 80, and better support for the food materials can be achieved through the feeding pipe 80.

Optionally, referring to fig. 1 and 7, the supporting table 60 includes a supporting block 61, a screw 62 and a nut 63, the nut 63 is fixed to the fourth supporting member 15, the screw 62 includes a threaded section 621 and a polished rod section 622 connected to each other, the threaded section 621 is connected to the supporting block 61, the threaded section 621 is rotatably connected to the nut 63, the supporting block 61 faces the feeding hole, and the polished rod section 622 is used for limiting a distance that the supporting block 61 moves towards the feeding hole.

Specifically, the supporting block 61 may be substantially in a shape of a circular disc, and a surface thereof facing the feeding hole may be substantially flat, so as to better support the food material. The length of the threaded segment 621 and the polished rod segment 622 are set as required so that the support block 61 is spaced from the cutter 50 to avoid interference when the threaded rod is moved to the nearest position toward the third support 14. When the threaded section 621 and the nut 63 rotate relatively, the distance between the supporting block 61 and the cutter 50 can be adjusted to adjust the thickness of the sliced food material.

Therefore, the structure of the threaded section 621, the polish rod section 622 and the nut 63 can adjust the thickness of the sliced food material while avoiding interference with the cutter 50.

Optionally, referring to fig. 7, the supporting table 60 further includes an auxiliary rod 64, and the auxiliary rod 64 is disposed at a circumferential side of the supporting block 61. The number of the auxiliary rods 64 can be 1 or more, and the auxiliary rods 64 can be matched with other tools, so that the screw rod 62 rotates relative to the nut 63, and the thickness of the food material slices can be conveniently and labor-saving adjusted.

Referring to fig. 1, the food material cutting machine may further include a bottom plate 11, the first supporting member 12 and the second supporting member 13 are disposed on the bottom plate 11, and the material containing box 70 may be placed on the bottom plate 11. The bottom plate 11, the first support member 12, the second support member 13, the third support member 14 and the fourth support member 15 may be an integrated structure, or may be partially an integrated structure, so that the integrity and the integration of the food material cutting machine may be improved, and the structure is more stable and compact.

While the disclosure has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the disclosure.

Claims (10)

1. The utility model provides an eat material stock cutter which characterized in that, includes driving piece, bent axle, connecting rod, cutter and brace table, the driving piece drive the bent axle is rotatory, be equipped with the bell crank on the bent axle, the bell crank the connecting rod the cutter with the quantity of brace table is a plurality of, and is a plurality of the bell crank is in arrange along the direction of carrying on the back mutually on the bent axle, and is a plurality of the cutter sets up the both sides that carry on the back mutually of bent axle, and is a plurality of the both ends of connecting rod with a plurality of bell crank and a plurality of the cutter rotates the connection one-to-one, and is a plurality of the cutter removes along the direction of carrying on the back mutually on a straight line, and is a plurality of the brace table one-to-one sets up in a plurality of one side towards ground of the removal route of cutter, the brace table is used for supporting to eat the material.

2. The food material cutting machine as claimed in claim 1, further comprising two first supporting members opposite to each other, wherein two ends of the crankshaft are rotatably connected to the two first supporting members respectively, and the driving member is disposed on the first supporting members.

3. The food material cutting machine of claim 2, further comprising a transmission member through which the driving member is connected with the crankshaft.

4. The food material cutting machine as claimed in claim 1, further comprising a second support member, wherein the second support member is provided with a knife hole, and the cutting knife is accommodated in the knife hole and slidably connected with the second support member.

5. The food material cutting machine as claimed in claim 4, wherein the cutter comprises a connecting portion, a limiting portion, a sliding portion and a blade, the connecting portion is rotatably connected with the connecting rod, the sliding portion is accommodated in the cutter hole and slidably connected with the second support member, the limiting portion protrudes out of the surface of the sliding portion, and the blade is used for cutting food materials.

6. The food material cutting machine as defined in claim 5, wherein the cutter further comprises a blanking portion in the shape of Contraband, the blanking portion surrounds the edge of the blade near the sliding portion, and the blanking portion protrudes from the surface of the blade facing the ground.

7. The food material cutting machine according to claim 5, wherein the blade gradually increases in thickness from one end away from the sliding portion to one end close to the sliding portion, a dicing knife rest is arranged on the supporting table, the dicing knife rest comprises a plurality of dicing knives arranged in a criss-cross manner, the dicing knives surround and form a plurality of hollowed holes, the cutting knife is used for pressing the sliced food material into the dicing knife rest, the dicing knives are used for dicing the food material, and the diced food material falls from the hollowed holes.

8. The food material cutting machine as recited in claim 6, further comprising a third support member and a fourth support member fixedly connected with the second support member and spaced apart from each other, wherein the fourth support member is disposed on a side of the third support member facing the ground, the third support member is provided with a feeding hole, and the supporting table is connected with the fourth support member and is opposite to the feeding hole.

9. The food material cutting machine according to claim 8, wherein the support table comprises a support block, a screw rod and a nut, the nut is fixed with the fourth support piece, the screw rod comprises a threaded section and a polished rod section which are connected, the threaded section is connected with the support block, the threaded section is rotatably connected with the nut, the support block faces the feed opening, and the polished rod section is used for limiting the moving distance of the support block towards the feed opening.

10. The food material cutting machine as defined in claim 9, wherein the support table further comprises auxiliary bars disposed at circumferential sides of the support block.

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