CN112088926A

CN112088926A - Beveling meat slicer

Info

Publication number: CN112088926A
Application number: CN202010204591.XA
Authority: CN
Inventors: 严良雄
Original assignee: Guangdong Yangong Food Machinery Co ltd
Current assignee: Guangdong Yangong Food Machinery Co ltd
Priority date: 2020-03-21
Filing date: 2020-03-21
Publication date: 2020-12-18

Abstract

The invention discloses a beveling meat slicer which comprises a frame, wherein a knife rest structure is arranged on the frame, the knife rest structure comprises a blade fixing frame, and a plurality of inclined blades are distributed on the blade fixing frame; a comb plate structure is arranged on the rack above or below the knife rest structure; the comb plate structure comprises a comb plate fixing seat, a comb plate, an inclined sliding mechanism, a first rack, a first gear and a first driving mechanism; the first driving mechanism is driven, so that the comb plate can extend into or leave the gap between the two adjacent blades. The invention has the characteristics of strong transmission stability, high transmission accuracy, good waterproof performance and no need of arranging electronic control elements such as a proximity switch and the like; it also has the characteristics of strong cutting stability, high cutting accuracy and smooth and beautiful section; the device also has the characteristics of convenient feeding operation, good feeding stability and no material stacking and stacking; the fixed sliding block is not required to be refueled and maintained regularly, and the maintenance cost is low.

Description

Beveling meat slicer

Technical Field

The invention relates to a meat slice cutting device, in particular to a beveling meat slice cutting device.

Background

In the traditional technology, the fillet cutting is formed by manual processing of a cook, the mode is not only low in efficiency, but also the thickness of the cut fillet is not easy to control, and the uniformity of fillet cutting is difficult to guarantee. With the continuous maturity and rapid market development of food machinery, the fish filleting machine is widely applied to various large and medium-sized restaurants, hotels and fish food processing and manufacturing factories, improves the processing efficiency of the food industry and saves the cost.

In the prior art, the invention patent with the application number of CN201920137133.1 discloses a beveling filleting machine, which comprises a rack, wherein a transverse moving knife group is arranged on the rack, one side of the transverse moving knife group is connected with a first driving device, a conveying belt is arranged below the transverse moving knife group, and a pressing knife group is arranged above the transverse moving knife group; the transverse moving knife group comprises a transverse moving knife rest, a plurality of inclined lower blades are distributed on the transverse moving knife rest, the pressing knife group comprises a pressing seat, the upper end of the pressing seat is connected with a second driving device, a plurality of inclined upper blades are distributed on the bottom of the pressing seat, and the upper blades and the lower blades have the same inclination and are arranged in a mutually staggered mode. The fish filleting machine has the following defects:

1. the pressing knife group comprises a pressing seat, the upper end of the pressing seat is connected with a second driving device, and a plurality of inclined upper blades are distributed at the bottom of the pressing seat at equal intervals; the second driving device comprises an inclined ball screw, the two ends of the ball screw are connected with the rack, guide rails buckled with the pressing seats are arranged on the two sides of the ball screw, the rack is connected with the upper ends of the guide rails, the ball screw is connected with the pressing seats through screw nuts, and one end of the ball screw is connected with a lifting motor through a belt pulley. The transmission structure of this kind of structure adopts ball screw, belt transmission, has poor stability, the inaccurate shortcoming in transmission position, needs to set up electronic control element such as proximity switch moreover, and is high to waterproof requirement.

2. The transverse knife group comprises a transverse knife rest, a plurality of inclined lower blades are distributed on the transverse knife rest, and the fish meat is obliquely cut in the same direction, so that the defects of poor fish cutting stability and accuracy and poor smoothness and attractiveness of a cut surface exist.

3. The fish to be sliced is placed on a material placing plate, and the transverse position of the fish is positioned in the middle of a placing opening of an upper blade; then the grabbing cylinder drives the grabbing claws to extend out to grab the fish, and then the fish returns to the original position to be placed on the lower blade; the mode does not give a detailed structure, the grabbing claw needs to be controlled for multiple times, the defects of troublesome operation and poor stability of grabbing fish meat exist, and if the fish meat is placed on the grabbing claw, the problems that materials are easy to stack and are stacked exist.

4. The fixed sliding block of the oil filling machine needs to be periodically oiled for maintenance, and the maintenance cost is high.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a beveling meat slicer which has the characteristics of strong transmission stability, high transmission accuracy, good waterproof performance and no need of arranging electronic control elements such as a proximity switch and the like; furthermore, the cutting device has the characteristics of strong cutting stability, high cutting accuracy and smooth and attractive section; furthermore, the device has the characteristics of convenient feeding operation, good feeding stability and no material stacking and stacking; furthermore, the fixed sliding block does not need to be subjected to regular oiling maintenance, and the maintenance cost is low.

The purpose of the invention is realized by adopting the following technical scheme:

a beveling meat slicer comprises a frame, wherein a knife rest structure for transverse cutting is arranged on the frame, the knife rest structure comprises a blade fixing frame, and a plurality of inclined blades are distributed on the blade fixing frame; a comb plate structure is arranged on the rack above or below the knife rest structure; the method is characterized in that:

the comb plate structure comprises a comb plate fixing seat, a plurality of inclined comb plates arranged on the comb plate fixing seat, an inclined sliding mechanism arranged in an inclined mode, a first rack arranged in an inclined mode, a first gear and a first driving mechanism; the comb plate fixing seat is arranged on the inclined sliding mechanism and can slide along the inclined sliding mechanism; the first rack is fixedly arranged on the comb plate fixing seat and is positioned on the back of the comb plate; the first gear is fixedly arranged on an output shaft of the first driving mechanism and is meshed with the first rack; the blade, the inclined sliding mechanism, the first rack and the comb plate have the same inclination angle, and the blade and the comb plate are arranged in a staggered manner; and driving the first driving mechanism to enable the comb plate to extend into or leave the gap between two adjacent blades.

In an optional implementation manner, the rack is further provided with vertical fixing plates respectively positioned at two sides of the comb plate fixing seat; the inclined sliding mechanism comprises a fixed sliding block with an inclined hole, a guide piece with an inclined hole and a guide post, wherein the fixed sliding block with the inclined hole is fixedly arranged on the vertical fixed plate; the guide post is inserted into the inclined hole of the fixed slide block and the inclined hole of the guide piece in sequence.

In an optional embodiment, the number of the inclined sliding mechanisms is four, wherein, the left side and the right side of the front end of the comb plate fixing seat are respectively provided with one group, and the left side and the right side of the rear end of the comb plate fixing seat are respectively provided with one group; the first driving mechanism is a rotating motor; and a plastic fixed sliding block is also embedded in the inclined hole of the fixed sliding block.

In an alternative embodiment, the tool holder arrangement further comprises a tool holder drive mechanism;

the blade fixing frame comprises two first blade fixing frames arranged side by side and two second blade fixing frames arranged side by side; the blades comprise a plurality of inclined first blades and a plurality of inclined second blades; the plurality of first blades are arranged between the two first blade fixing frames, the plurality of second blades are arranged between the two second blade fixing frames, the inclination angles of the first blades and the second blades are the same, and the first blades and the second blades are transversely arranged in a mutually staggered manner;

the first blade fixing frame and the second blade fixing frame respectively reciprocate in the transverse direction under the driving of the tool rest driving mechanism, and simultaneously the first blade fixing frame and the second blade fixing frame respectively drive the first blade and the second blade to move in opposite directions so as to realize cutting.

In an optional embodiment, the tool rest structure further comprises a first transverse sliding mechanism and a second transverse sliding mechanism; the two first blade fixing frames are respectively arranged at two ends of the first transverse sliding mechanism and can slide along the first transverse sliding mechanism; the two second blade fixing frames are respectively arranged at two ends of the second transverse sliding mechanism and can slide along the second transverse sliding mechanism.

In an optional embodiment, the tool holder structure further comprises longitudinal fixing plates respectively mounted on the frame at two sides of the blade fixing frame;

the first transverse sliding mechanism comprises two first sliding sleeves fixedly arranged on the two longitudinal fixing plates respectively, and a first through hole and a first sliding rod which are arranged on the two first blade fixing frames respectively; the first sliding rod is inserted into the first through holes of the two first blade fixing frames and the guide holes of the two first sliding sleeves;

the second transverse sliding mechanism comprises two second sliding sleeves which are fixedly arranged on the two longitudinal fixing plates respectively, and a second through hole and a second sliding rod which are arranged on the two second blade fixing frames respectively; the second sliding rod is inserted into the second through holes of the two second blade fixing frames and the guide holes of the two second sliding sleeves;

the number of the first transverse sliding mechanisms is two, wherein one group is arranged at the front end of the first blade fixing frame, and one group is arranged at the rear end of the first blade fixing frame; the number of the second transverse sliding mechanisms is two, wherein one group is arranged at the front end of the second blade fixing frame, and one group is arranged at the rear end of the second blade fixing frame; the two groups of first transverse sliding mechanisms and the two groups of second transverse sliding mechanisms are arranged in a transversely staggered mode.

In an alternative embodiment, the tool rest driving mechanism comprises a tool rest motor fixedly arranged on the longitudinal fixing plate, a first transmission mechanism and a second transmission mechanism; the first transmission mechanism comprises a first eccentric wheel, a first eccentric pull rod and a first cutter frame connecting piece fixedly arranged on the first cutter frame; the second transmission mechanism comprises a second eccentric wheel, a second eccentric pull rod and a second tool rest connecting piece fixedly arranged on a second tool rest; the first output shaft and the second output shaft can synchronously and reversely rotate under the driving of the tool rest motor; one end of the first output shaft is fixedly connected with the first deflection wheel, and the first deflection wheel is connected with the first tool rest connecting piece through the first eccentric pull rod; one end of the second output shaft is fixedly connected with the second deflection wheel, and the second deflection wheel is connected with the second tool rest connecting piece through the second eccentric pull rod;

in the alternative, the first and second sets of the first,

the tool rest driving mechanism comprises a first tool rest driving mechanism and a second tool rest driving mechanism;

the first knife rest driving mechanism comprises a first motor and a first transmission mechanism which are arranged on a longitudinal fixing plate; the first transmission mechanism comprises a first eccentric wheel, a first eccentric pull rod and a first cutter frame connecting piece fixedly arranged on the first cutter frame; the first motor is provided with a first output shaft which is arranged along the longitudinal direction, one end of the first output shaft is fixedly connected with the first deflection wheel, and the first deflection wheel is connected with the first tool rest connecting piece through the first eccentric pull rod;

the second tool rest driving mechanism comprises a second motor and a second transmission mechanism; the second transmission mechanism comprises a second eccentric wheel, a second eccentric pull rod and a second tool rest connecting piece fixedly arranged on a second tool rest; the second motor has a second output shaft arranged in the longitudinal direction; one end of the second output shaft is fixedly connected with the second deflection wheel, and the second deflection wheel is connected with the second tool rest connecting piece through the second eccentric pull rod

The first output shaft and the second output shaft synchronously rotate in opposite directions under the driving of the first motor and the second motor respectively.

In an optional implementation mode, the device further comprises a feeding device, wherein the feeding device comprises a feeding mounting plate fixedly mounted on the rack at a position corresponding to the blade and a turnover feeding mechanism mounted on the feeding mounting plate; the overturning and feeding mechanism comprises an overturning structure and a feeding driving mechanism for driving the overturning structure to do reciprocating linear motion along the length direction of the feeding mounting plate; the turnover structure comprises a bearing mechanism for bearing materials and a turnover driving mechanism for driving the bearing mechanism to turn over.

In an alternative embodiment, the feeding driving mechanism is a feeding cylinder; the turnover structure further comprises a feeding sliding seat which is slidably arranged on the feeding air cylinder.

In an optional embodiment, the overturning driving mechanism comprises an overturning cylinder fixedly arranged on the feeding sliding seat, a rack plate and two second gears; linear racks are respectively arranged on two sides of the rack plate, and the two second gears are respectively meshed with the linear racks on the two sides of the rack plate; the bearing mechanism comprises two rotating shafts which are rotatably arranged on the feeding sliding seat, and the two rotating shafts are arranged side by side along the length direction of the feeding mounting plate; one end of each rotating shaft is provided with a bearing plate, and the other end of each rotating shaft is fixedly connected with one second gear; the two bearing plates are positioned between the two rotating shafts and are oppositely arranged; the back side of the rack plate is also provided with a vertical guide mechanism, and the vertical guide mechanism comprises a vertical guide column fixedly connected with the rack plate and a vertical guide sleeve fixedly arranged on the feeding sliding seat; the vertical guide post is inserted in the vertical guide sleeve;

in the alternative, the first and second sets of the first,

the overturning driving mechanism comprises an overturning cylinder, a connecting plate, two rack plates and four second gears, wherein the overturning cylinder is fixedly arranged on the feeding sliding seat; the two rack plates are respectively arranged on two sides of the overturning cylinder, and an output shaft of the overturning cylinder is respectively and fixedly connected with the two rack plates through connecting plates; linear racks are respectively arranged on two sides of each rack plate, and each two second gears are respectively meshed with the linear racks on two sides of one rack plate; the number of the bearing mechanisms is two, each bearing mechanism comprises two rotating shafts which are rotatably arranged on the feeding sliding seat, and the two rotating shafts are arranged side by side along the length direction of the feeding mounting plate; one end of each rotating shaft is provided with a bearing plate, and the other end of each rotating shaft is fixedly connected with one second gear; the two bearing plates are positioned between the two rotating shafts and are oppositely arranged; a vertical guide mechanism is arranged on the back side of each rack plate; each vertical guide mechanism comprises a vertical guide column fixedly connected with the rack plate and a vertical guide sleeve fixedly arranged on the feeding sliding seat; the vertical guide post is inserted in the vertical guide sleeve.

In an optional embodiment, the feeding device further comprises a horizontal guide mechanism, the horizontal guide mechanism comprises two horizontal guide posts which are arranged on two sides of the feeding mounting plate side by side along the length direction of the feeding mounting plate, and two ends of each horizontal guide post are fixedly mounted on the feeding mounting plate through a fixing part respectively; and a guide hole is formed in the position, corresponding to each horizontal guide column, of the feeding sliding seat, and the feeding sliding seat is sleeved with the two horizontal guide columns through the two guide holes respectively.

Compared with the prior art, the invention has the beneficial effects that:

1. the comb plate structure comprises a comb plate fixing seat, a plurality of inclined comb plates arranged on the comb plate fixing seat, an inclined first sliding mechanism, an inclined rack, a second gear and a first driving mechanism; in the course of the work, first actuating mechanism's output shaft drives the second gear rotatory, and the second gear drives the rack motion, and the rack drives comb plate fixing base and slides along first slide mechanism for comb plate is along the downward reciprocating motion of slope upwards or slope, realizes comb plate stretches into or leaves adjacent two the clearance of blade has that transmission stability is strong, transmission accuracy is high, waterproof performance is good and need not set up electronic control elements such as proximity switch's advantage.

2. The tool rest structure also comprises a tool rest driving mechanism, a first transverse sliding mechanism and a second transverse sliding mechanism; the blade fixing frame comprises two first blade fixing frames arranged side by side and two second blade fixing frames arranged side by side; the blades comprise a plurality of inclined first blades and a plurality of inclined second blades; in the working process, the first blade fixing frame and the second blade fixing frame respectively reciprocate along the transverse direction under the driving of the tool rest driving mechanism, and simultaneously the first blade fixing frame and the second blade fixing frame respectively drive the first blade and the second blade to move along opposite directions so as to realize cutting.

3. The invention also comprises a feeding device, wherein the feeding device comprises a feeding mounting plate and an overturning feeding mechanism; the overturning and feeding mechanism comprises an overturning structure and a feeding driving mechanism for driving the overturning structure to do reciprocating linear motion along the length direction of the feeding mounting plate; the overturning structure comprises a bearing mechanism for bearing materials and an overturning driving mechanism for driving the bearing mechanism to overturn; in the working process, the materials are placed on the bearing mechanism, the feeding driving mechanism drives the bearing mechanism to penetrate through the feeding port to move to the position above the blade, the overturning driving mechanism drives the bearing mechanism to overturn, the materials are placed on the blade to be cut, and then the materials exit from the feeding port.

4. The plastic fixed sliding block is embedded in the inclined hole of the fixed sliding block, so that the plastic fixed sliding block is wear-resistant and durable, and is not required to be periodically oiled for maintenance, and the maintenance requirement is greatly reduced.

Drawings

FIG. 1 is a perspective view of a meat slicer according to a first embodiment;

FIG. 2 is a perspective view of the first embodiment of the meat slicer with the outer shell removed;

FIG. 3 is a perspective view of an alternative angle miter saw of the first embodiment, shown with the outer casing removed;

FIG. 4 is a schematic view of a comb plate structure and a blade in accordance with the first embodiment;

FIG. 5 is a schematic structural diagram of a comb plate structure according to the first embodiment;

FIG. 6 is a perspective view showing the structure of a tool holder according to the first embodiment;

FIG. 7 is a perspective view of another angle of the blade holder configuration of the first embodiment;

fig. 8 is a schematic structural view of a blade holder and a blade according to the first embodiment;

FIG. 9 is a perspective view of a feeding device according to a first embodiment;

FIG. 10 is a perspective view of the feeding device with the protective casing removed according to the first embodiment;

fig. 11 is a perspective view of the feeding device with the protective casing removed according to the first embodiment from another angle.

In the figure: 100. a frame; 200. a tool holder structure; 211. a first blade mount; 212. a second blade mount; 221. a first blade; 222. a second blade; 231. a tool rest motor; 2311. a first output shaft; 2312. a second output shaft; 2321. a first eccentric wheel; 2322. a first eccentric pull rod; 2323. a first toolholder connector; 2331. a second eccentric wheel; 2332. a second eccentric pull rod; 2333. a second tool holder attachment; 240. a longitudinal fixing plate; 251. a first sliding sleeve; 252. a first slide bar; 261. a second sliding sleeve; 262. a second slide bar; 300. a comb plate structure; 310. a comb plate fixing seat; 311. a shielding plate; 320. a comb plate; 330. a tilt slide mechanism; 331. fixing the sliding block; 332. a guide member; 333. a guide post; 340. a first rack; 350. a first gear; 360. a first drive mechanism; 370. a vertical fixing plate; 400. a feeding device; 410. a feeding mounting plate; 420. a feeding cylinder; 430. a feeding sliding seat; 431. a protective housing; 441. turning over the air cylinder; 442. a connecting plate; 443. a rack plate; 444. a second gear; 451. a rotating shaft; 452. a carrier plate; 4521. a baffle plate; 461. a vertical guide post; 462. a vertical guide sleeve; 471. a horizontal guide post; 472. a fixing member; 480. and fixing the bracket.

Detailed description of the preferred embodiments

The present invention is further described with reference to the accompanying drawings and specific embodiments, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict. Except as specifically noted, the materials and equipment used in this example are commercially available. Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "back", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present application. In the description of the present application, "a plurality" means two or more unless specifically stated otherwise.

In the description of the present application, it should be noted that unless otherwise specifically stated or limited, the terms "connected," "communicating," and "connected" are to be construed broadly, e.g., as meaning a fixed connection, a connection through an intervening medium, a connection between two elements, or an interaction between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

The terms "first," "second," and the like in the description and in the claims of the present application and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The first embodiment is as follows:

referring to fig. 1-5, a meat slicer for beveling comprises a frame 100, wherein a blade holder structure 200 for transverse cutting is arranged on the frame 100, the blade holder structure 200 comprises a blade holder, and a plurality of inclined blades are distributed on the blade holder; a comb plate structure 300 is arranged on the rack 100 above the tool rest structure 200;

specifically, the comb plate structure 300 includes a comb plate holder 310, a plurality of inclined comb plates 320 fixedly disposed on the comb plate holder 310 in a detachable manner, an inclined sliding mechanism 330 disposed in an inclined manner, a first rack 340 disposed in an inclined manner, a first gear 350, and a first driving mechanism 360; the comb plate fixing base 310 is disposed on the inclined sliding mechanism 330 and can slide along the inclined sliding mechanism 330; the first rack 340 is fixedly installed on the comb plate fixing seat 310 and is located on the back of the comb plate; the first gear 350 is fixedly mounted on the output shaft of the first driving mechanism, and the first gear 350 is meshed with the first rack 340; the blade, the inclined sliding mechanism 330, the first rack 340 and the comb plate have the same inclination angle, and the blade and the comb plate are arranged in a mutually staggered manner; the first driving mechanism 360 is driven to enable the comb plate to extend into or leave the gap between two adjacent blades.

In a preferred embodiment of the present invention, the frame 100 is further provided with vertical fixing plates 370 respectively located at two sides of the comb plate fixing base 310; the inclined sliding mechanism 330 includes a fixed slider 331 having an inclined hole fixedly installed on the vertical fixing plate 370, a guide 332 having an inclined hole fixedly installed on the comb plate fixing base 310, and a guide post 333; the guide post 333 is inserted into the inclined hole of the fixed slider 331 and the inclined hole of the guide 332 in sequence.

In a preferred embodiment of the invention, in order to make the tilting slide more stable; the number of the inclined sliding mechanisms 330 is four, wherein one set is disposed on each of the left and right sides of the front end of the comb plate fixing base 310, and one set is disposed on each of the left and right sides of the rear end thereof.

In a preferred embodiment of the present invention, a shielding plate 311 is further disposed on the comb plate fixing base 310 directly above the first rack 340. The first driving mechanism 360 is a rotating motor.

In a preferred embodiment of the present invention, a plastic fixing slider is further embedded in the inclined hole of the fixing slider 331. Wear-resisting, durable, need not the maintenance of regularly refueling, greatly reduced the requirement of maintaining. The device also comprises a shell arranged on the rack, and a feed inlet is arranged at the position, corresponding to the knife rest structure, on the shell.

Referring to FIGS. 6-8, in a preferred implementation of the present invention, the tool holder configuration 200 further includes a tool holder drive mechanism;

specifically, the blade holder includes two first blade holders 211 arranged side by side and two second blade holders 212 arranged side by side; the blades include a plurality of inclined first blades 221 and a plurality of inclined second blades 222; the plurality of first blades 221 are fixedly arranged between the two first blade fixing frames 211 in a detachable mode, the plurality of second blades 222 are fixedly arranged between the two second blade fixing frames 212 in a detachable mode, the inclination angles of the first blades 221 and the second blades 222 are the same, and the first blades 221 and the second blades 222 are arranged in a transverse and mutually staggered mode;

the first blade fixing frame 211 and the second blade fixing frame 212 respectively reciprocate in the transverse direction under the driving of the tool rest driving mechanism, and simultaneously the first blade fixing frame 211 and the second blade fixing frame 212 respectively drive the first blade 221 and the second blade 222 to move in opposite directions so as to realize cutting.

In a preferred embodiment of the present invention, in order to make the first blade holder 211 and the second blade holder 212 reciprocate more stably in the lateral direction; the device also comprises a first transverse sliding mechanism and a second transverse sliding mechanism; the two first blade fixing frames 211 are respectively arranged at two ends of the first transverse sliding mechanism and can slide along the first transverse sliding mechanism; the two second blade holders 212 are respectively disposed at two ends of the second lateral sliding mechanism and can slide along the second lateral sliding mechanism.

In a preferred embodiment of the present invention, the present invention further comprises longitudinal fixing plates 240 respectively located at two sides of the blade holder;

the first transverse sliding mechanism comprises two first sliding sleeves 251 fixedly arranged on the two longitudinal fixing plates 240 respectively, and a first through hole and a first sliding rod 252 which are arranged on the two first blade fixing frames 211 respectively; the first sliding rod 252 is inserted into the first through holes of the two first blade fixing frames 211 and the guide holes of the two first sliding sleeves 251;

the second transverse sliding mechanism comprises two second sliding sleeves 261 respectively fixedly installed on the two longitudinal fixing plates 240, and a second through hole and a second sliding rod 262 respectively arranged on the two second blade fixing frames 212; the second sliding rod 262 is inserted into the second through holes of the two second blade holders 212 and the guide holes of the two second sliding sleeves 261.

The present embodiment ensures that the first blade holder 211 and the second blade holder 212 reciprocate more stably in the lateral direction by the sliding rod and the sliding bush.

In a preferred embodiment of the present invention, the number of the first lateral sliding mechanisms is two, wherein one is disposed at the front end of the first blade holder 211, and one is disposed at the rear end thereof; the number of the second transverse sliding mechanisms is two, wherein one group is arranged at the front end of the second blade fixing frame 212, and one group is arranged at the rear end of the second blade fixing frame; the two groups of first transverse sliding mechanisms and the two groups of second transverse sliding mechanisms are arranged in a transversely staggered mode. The design has the advantages of reasonable layout, compact structure and good sliding fit stability.

In a preferred embodiment of the present invention, the tool post drive mechanism comprises a tool post motor 231, a first transmission mechanism and a second transmission mechanism; the first transmission mechanism comprises a first eccentric wheel 2321, a first eccentric pull rod 2322 and a first knife rest connecting piece 2323 fixedly arranged on a first knife rest; the second transmission mechanism comprises a second eccentric wheel 2331, a second eccentric pull rod 2332 and a second knife rest connecting piece 2333 fixedly arranged on a second knife rest; the automatic transmission also comprises a first output shaft 2311 and a second output shaft 2312 which can synchronously and reversely rotate under the driving of the tool rest motor 231; one end of the first output shaft 2311 is fixedly connected with a first deflection wheel, and the first deflection wheel is connected with a first tool carrier connecting piece 2323 through a first eccentric pull rod 2322; one end of the second output shaft 2312 is fixedly connected with a second deflection wheel, which is connected with a second tool post connector 2333 through a second eccentric tension rod 2332. In the embodiment, a knife rest motor 231 drives a first output shaft 2311 and a second output shaft 2312 to synchronously and reversely rotate, so that the first knife rest is driven by a first eccentric wheel 2321, a first eccentric pull rod 2322 and the first knife rest to transversely move towards one direction, and the second knife rest is driven by a second eccentric wheel 2331, a second eccentric pull rod 2332 and the second knife rest to transversely move towards the opposite direction, so that the first blade and the second blade move towards each other, and the fish is obliquely cut. The design has the advantages of good cutting effect, good stability, convenient control and low cost.

In a preferred embodiment of the present invention, the tool post motor 231 is fixedly mounted to the longitudinal stationary plate. The first tool holder connection 2323 is fixedly mounted on the first tool holder adjacent to one side of the tool holder motor 231; the second carriage connector 2333 is fixedly mounted to the second carriage adjacent one side of the carriage motor 231. By adopting the design, the lengths of the first deviation pull rod and the second deviation pull rod 2332 can be reduced, the production cost is reduced, and the occupied space is reduced.

In a preferred embodiment of the present invention, the first eccentric link 2322 is perpendicular to the output shaft, and the second eccentric link is perpendicular to the output shaft.

In a preferred embodiment of the present invention, the first output shaft 2311 and the second output shaft 2312 are rotated in opposite directions in synchronization with each other through a gear transmission mechanism.

Referring to fig. 9-11, the device further comprises a feeding device 400, wherein the feeding device 400 comprises a feeding mounting plate 410 and an overturning feeding mechanism mounted on the feeding mounting plate 410; the overturning and feeding mechanism comprises an overturning structure and a feeding driving mechanism for driving the overturning structure to do reciprocating linear motion along the length direction of the feeding mounting plate 410; the turnover structure comprises a bearing mechanism for bearing materials and a turnover driving mechanism for driving the bearing mechanism to turn over.

In the actual working process, the materials are placed on the bearing mechanism, the feeding driving mechanism drives the bearing mechanism to penetrate through the feeding port to move to the position above the blade of the fish filleting machine, the overturning driving mechanism drives the bearing mechanism to overturn, the materials are placed on the blade to be cut, and then the materials exit from the feeding port.

In a preferred embodiment of the present invention, the feeding driving mechanism is a feeding cylinder 420.

In a preferred embodiment of the present invention, the reversing structure further comprises a feeding sliding seat 430 slidably mounted on the feeding cylinder 420.

In a preferred embodiment of the present invention, the turnover driving mechanism includes a turnover cylinder 441 fixedly mounted on the feeding sliding seat 430, a connecting plate 442, two rack plates 443, and four second gears 444; the two rack plates 443 are respectively arranged at two sides of the overturning cylinder 441, and the output shaft of the overturning cylinder 441 is respectively fixedly connected with the two rack plates 443 through the connecting plate 442; linear racks are respectively arranged on two sides of each rack plate 443, and each two second gears 444 are respectively meshed with the linear racks on two sides of one rack plate 443; the number of the bearing mechanisms is two, each bearing mechanism comprises two rotating shafts 451 which are rotatably arranged on the feeding sliding seat 430, and the two rotating shafts 451 are arranged side by side along the length direction of the feeding mounting plate 410; one end of each rotating shaft 451 is provided with a bearing plate 452, and the other end thereof is fixedly connected with a second gear 444; the two carrier plates 452 are disposed between the two rotation shafts 451 and are opposite to each other. In the use process, the connecting plate 442 is driven by the overturning cylinder 441 to drive the two rack plates 443 to move vertically, each rack plate 443 drives the second gears 444 on the two sides to rotate, the two second gears 444 drive the two rotating shafts 451 to rotate in the opposite directions synchronously, and then the overturning of the two bearing plates 452 is realized.

In a preferred implementation of the invention, the back side of each rack plate 443 is provided with a vertical guide mechanism; each vertical guide mechanism comprises a vertical guide column 461 fixedly connected with the rack plate 443 and a vertical guide sleeve 462 fixedly arranged on the feeding sliding seat 430; the vertical guide column 461 is inserted into the vertical guide sleeve 462. In the embodiment, the vertical guide column 461 and the vertical guide sleeve 462 are matched to ensure that the rack plate 443 reciprocates vertically more stably.

In a preferred embodiment of the present invention, a stopper 4521 is further disposed at one end of the bearing plate 452. The design can prevent the material landing like this.

In the preferred embodiment of the present invention, a protective casing 431 is further provided on the feeding sliding seat 430. By means of the design, the overturning cylinder 441 can be prevented from being influenced by the external environment.

In a preferred embodiment of the present invention, the feeding device 400 further includes a horizontal guiding mechanism, the horizontal guiding mechanism includes two horizontal guiding pillars 471 arranged at two sides of the feeding mounting plate 410 side by side along the length direction of the feeding mounting plate 410, and two ends of each horizontal guiding pillar 471 are respectively fixedly mounted on the feeding mounting plate 410 through a fixing member 472; a guiding hole is formed in the position of the feeding sliding seat 430 corresponding to each horizontal guiding column 471, and the feeding sliding seat is sleeved with the two horizontal guiding columns 471 through the two guiding holes respectively. The feeding sliding seat 430 is matched with the horizontal guide posts 471, so that the feeding sliding seat 430 is ensured to reciprocate more stably along the length direction of the feeding mounting plate 410.

In a preferred embodiment of the present invention, the feeder mounting plate 410 is further provided at one end with a fixing bracket 480 for coupling with the housing 100.

Example two:

the embodiment has the characteristics that: the tool rest driving mechanism comprises a first tool rest driving mechanism and a second tool rest driving mechanism;

the first knife rest driving mechanism comprises a first motor and a first transmission mechanism which are arranged on a longitudinal fixing plate; the first transmission mechanism comprises a first eccentric wheel, a first eccentric pull rod and a first cutter frame connecting piece fixedly arranged on the first cutter frame; the first motor is provided with a first output shaft which is arranged along the longitudinal direction, one end of the first output shaft is fixedly connected with a first deflection wheel, and the first deflection wheel is connected with a first tool rest connecting piece through a first eccentric pull rod;

the second tool rest driving mechanism comprises a second motor and a second transmission mechanism; the second transmission mechanism comprises a second eccentric wheel, a second eccentric pull rod and a second tool rest connecting piece fixedly arranged on a second tool rest; the second motor has a second output shaft arranged in the longitudinal direction; one end of the second output shaft is fixedly connected with a second deflection wheel, and the second deflection wheel is connected with a second tool rest connecting piece through a second eccentric pull rod;

The rest is the same as the first embodiment.

Example three:

the embodiment has the characteristics that: the first output shaft and the second output shaft realize synchronous reverse rotation through a belt transmission mechanism. The rest is the same as the first embodiment.

Example four:

the embodiment has the characteristics that: the first output shaft and the second output shaft realize synchronous reverse rotation through a chain transmission mechanism. The rest is the same as the first embodiment.

Example five:

the embodiment has the characteristics that: the overturning driving mechanism comprises an overturning cylinder, a rack plate and two second gears, wherein the overturning cylinder is fixedly arranged on the feeding sliding seat; two sides of the rack plate are respectively provided with a linear rack, and the two second gears are respectively meshed with the linear racks on the two sides of the rack plate; the bearing mechanism comprises two rotating shafts which are rotatably arranged on the feeding sliding seat, and the two rotating shafts are arranged side by side along the length direction of the feeding mounting plate; one end of each rotating shaft is provided with a bearing plate, and the other end of each rotating shaft is fixedly connected with a second gear; the two bearing plates are positioned between the two rotating shafts and are oppositely arranged.

In a preferred implementation of the invention, the back side of the rack plate is also provided with a vertical guide mechanism, and the vertical guide mechanism comprises a vertical guide column fixedly connected with the rack plate and a vertical guide sleeve fixedly arranged on the feeding sliding seat; the vertical guide post is inserted in the vertical guide sleeve. The rest is the same as the first embodiment.

Other examples are as follows:

the meat of the invention can be fish, beef, pork and the like; the shape, the number, the inclination angle, the installation mode and the like of the blade can be correspondingly adjusted according to actual conditions. The shape, the inclination angle, the installation mode and the like of the bearing plate can be correspondingly adjusted according to actual conditions, and the feeding driving mechanism and the overturning conveying mechanism can also be driven by a motor. While only certain features and embodiments of the application have been illustrated and described, many modifications and changes may occur to those skilled in the art (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the scope and spirit of the invention in the claims.

Finally, it should be noted that: the above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention should not be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims

1. A beveling meat slicer comprises a frame, wherein a knife rest structure for transverse cutting is arranged on the frame, the knife rest structure comprises a blade fixing frame, and a plurality of inclined blades are distributed on the blade fixing frame; a comb plate structure is arranged on the rack above or below the knife rest structure; the method is characterized in that:

2. The meat slicer according to claim 1, wherein the frame is further provided with vertical fixing plates respectively positioned at both sides of the comb plate fixing seat; the inclined sliding mechanism comprises a fixed sliding block with an inclined hole, a guide piece with an inclined hole and a guide post, wherein the fixed sliding block with the inclined hole is fixedly arranged on the vertical fixed plate; the guide post is inserted into the inclined hole of the fixed slide block and the inclined hole of the guide piece in sequence.

3. The meat slicer of claim 2, wherein the number of the inclined sliding mechanisms is four, wherein one set is respectively arranged at the left side and the right side of the front end of the comb plate fixing seat, and one set is respectively arranged at the left side and the right side of the rear end of the comb plate fixing seat; the first driving mechanism is a rotating motor; and a plastic fixed sliding block is also embedded in the inclined hole of the fixed sliding block.

4. The miter slicer of claim 1, wherein the blade carriage arrangement further includes a blade carriage drive mechanism;

5. The meat slicer of claim 4 wherein the carriage structure further includes a first lateral slide mechanism, a second lateral slide mechanism; the two first blade fixing frames are respectively arranged at two ends of the first transverse sliding mechanism and can slide along the first transverse sliding mechanism; the two second blade fixing frames are respectively arranged at two ends of the second transverse sliding mechanism and can slide along the second transverse sliding mechanism.

6. The meat slicer of claim 5 wherein the blade carriage structure further includes longitudinal retention plates mounted to the frame on opposite sides of the blade mount;

7. The meat slicer of claim 6 wherein the carriage drive mechanism includes a carriage motor, a first drive mechanism and a second drive mechanism fixedly mounted to the longitudinal stationary plate; the first transmission mechanism comprises a first eccentric wheel, a first eccentric pull rod and a first cutter frame connecting piece fixedly arranged on the first cutter frame; the second transmission mechanism comprises a second eccentric wheel, a second eccentric pull rod and a second tool rest connecting piece fixedly arranged on a second tool rest; the first output shaft and the second output shaft can synchronously and reversely rotate under the driving of the tool rest motor; one end of the first output shaft is fixedly connected with the first deflection wheel, and the first deflection wheel is connected with the first tool rest connecting piece through the first eccentric pull rod; one end of the second output shaft is fixedly connected with the second deflection wheel, and the second deflection wheel is connected with the second tool rest connecting piece through the second eccentric pull rod;

in the alternative, the first and second sets of the first,

the second tool rest driving mechanism comprises a second motor and a second transmission mechanism; the second transmission mechanism comprises a second eccentric wheel, a second eccentric pull rod and a second tool rest connecting piece fixedly arranged on a second tool rest; the second motor has a second output shaft arranged in the longitudinal direction; one end of the second output shaft is fixedly connected with the second deflection wheel, and the second deflection wheel is connected with the second tool rest connecting piece through the second eccentric pull rod;

8. The meat slicer of claim 1, further comprising a feeding device, wherein the feeding device comprises a feeding mounting plate fixedly mounted on the frame at a position corresponding to the blade and a turning feeding mechanism mounted on the feeding mounting plate; the overturning and feeding mechanism comprises an overturning structure and a feeding driving mechanism for driving the overturning structure to do reciprocating linear motion along the length direction of the feeding mounting plate; the turnover structure comprises a bearing mechanism for bearing materials and a turnover driving mechanism for driving the bearing mechanism to turn over.

9. The meat slicer of claim 8 wherein the feed drive mechanism is a feed cylinder; the turnover structure further comprises a feeding sliding seat which is slidably arranged on the feeding air cylinder.

10. The meat slicer of claim 9 wherein the tumble drive mechanism includes a tumble cylinder fixedly mounted on the feed slide, a rack plate, two second gears; linear racks are respectively arranged on two sides of the rack plate, and the two second gears are respectively meshed with the linear racks on the two sides of the rack plate; the bearing mechanism comprises two rotating shafts which are rotatably arranged on the feeding sliding seat, and the two rotating shafts are arranged side by side along the length direction of the feeding mounting plate; one end of each rotating shaft is provided with a bearing plate, and the other end of each rotating shaft is fixedly connected with one second gear; the two bearing plates are positioned between the two rotating shafts and are oppositely arranged; the back side of the rack plate is also provided with a vertical guide mechanism, and the vertical guide mechanism comprises a vertical guide column fixedly connected with the rack plate and a vertical guide sleeve fixedly arranged on the feeding sliding seat; the vertical guide post is inserted in the vertical guide sleeve;

in the alternative, the first and second sets of the first,