CN210998940U - Semi-crossed belt transmission slicing machine - Google Patents

Abstract

The utility model discloses a semi-crossed belt drive slicer belongs to food machinery technical field. The utility model discloses a motor is as the power supply, realizes full-automatic operation through this motor drive to install whole transmission spare part in almag's mesa, make the overall arrangement of slicer compact, transmission structure simplify, the cost of manufacture reduces, has promoted the pleasing to the eye degree of complete machine appearance, utilizes the utility model discloses can be whole adorn in the mesa to whole driving chain, do not have any outside transmission to extend, thereby obtain small and exquisite orderly appearance, the utility model discloses a novel transmission structure has broken through traditional design, is the high price/performance ratio product that is applicable to hotel, supermarket and fast food industry.

Description

Semi-crossed belt transmission slicing machine

Technical Field

The utility model relates to a food machinery technical field, more specifically say, relate to a semi-cross belt drive slicer.

Background

The slicer is used as a machine for cutting thin and uniform tissue slices, is convenient to use and high in automation degree, is frequently applied to the field of food processing, and is particularly popular among meat cutting and deeply audiences in hotels, catering industry and small supermarkets. However, most of the existing meat slicers adopt double motors to respectively drive the slicing knife and the meat carrying table to move, so that the slicing machine is complex in overall structure, large in occupied space and high in manufacturing cost.

Through retrieval, the Chinese patent application number: CN 201220136077.8, application date: 3/31/2012, the name of invention creation: the utility model provides a mutton slicer, this application includes rectangular frame, rectangular frame upper portion installing support, the first motor of support upper portion installation, first motor and retarder connection, the reduction gear is installed on rectangular frame's upper portion, the reduction gear is articulated with first connecting rod one end, the first connecting rod other end is articulated with second connecting rod one end, the second connecting rod other end is articulated with first connecting plate, install the cutter on the first connecting plate, rectangular frame installs the second motor, install the gear on the second motor output shaft, gear and drive chain meshing, drive chain meshes with first sprocket and second sprocket respectively, first sprocket is installed on first lead screw, the second sprocket is installed on the second lead screw, install the meat material push pedal between first lead screw and the second lead screw, support below installation meat material closing device.

Above-mentioned application controls cutter and meat material push pedal respectively through two motors and removes, though two motors mutually support and cut into slices the meat, its control is comparatively simple, easily operates, but because two motors and transmission system's existence, leads to corresponding connection control part to increase to make the volume increase of whole slicer, consequently, need further improvement urgently.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

The utility model aims to overcome the defects of complex structure and large volume of the slicer in the prior art and provides a semi-crossed belt transmission slicer; the utility model discloses a be equipped with a motor, rotate by the blade of this motor drive slicer, drive simultaneously and carry the meat platform and make reciprocating motion along the direction at blade place to the realization is to the section of meat, and its drive unit part of whole slicer is whole to be integrated in the mesa, makes slicer small, compact structure, sexual valence relative altitude.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

a semi-crossed belt transmission slicer comprises a cutter shaft assembly, a meat carrying table, a motor, a speed reducer and a crank connecting rod sliding block mechanism, wherein the cutter shaft assembly and the meat carrying table are arranged on a table board; the crank connecting rod sliding block mechanism is connected with the speed reducer, an input shaft of the speed reducer is connected with a rear output shaft of the motor through a belt, and the speed reducer is driven by the motor, so that the crank connecting rod sliding block mechanism and the connected meat carrying table are driven to reciprocate; the front output shaft of the motor drives the blades in the cutter shaft assembly to rotate.

As a further improvement of the utility model, the motor is provided with a front shaft and a rear shaft, a belt wedge groove is arranged on the shaft extension of the output shaft at the front end of the motor, and the multi-wedge drives the blades in the blade shaft assembly to rotate; the rear end of the motor is provided with a motor belt wheel which is connected with a speed reducer belt wheel on the input shaft of the speed reducer through a half-crossed belt; the motor belt wheel and the speed reducer belt wheel are staggered in space.

As a further improvement of the utility model, the speed reducer is inversely arranged on the inner wall of the table top; the stagger angle between the motor belt wheel and the speed reducer belt wheel is 45 degrees.

As a further improvement of the present invention, the crank-link slider mechanism further comprises a crank and a link, wherein the crank has an integrated rotating shaft and is inserted into the hollow output shaft of the speed reducer, the other end of the crank is connected with one end of the link, and the other end of the link is connected with the slider; a circular rail is arranged inside the table board, two ends of the circular rail are respectively connected with the inner wall of the table board, and the sliding block is slidably mounted on the circular rail; one end of the sliding block extends out of the table top, and a sliding block support is fixed on the extending end of the sliding block.

As a further improvement of the utility model, a square rail is arranged in the table-board and is parallel to the round rail; the upper surface of the sliding block is vertically provided with a sliding block boss, a sliding block shaft is arranged on the sliding block boss, a bearing is arranged on the sliding block shaft, and the bearing is in rolling contact with the upper surface of the square rail.

As a further improvement of the utility model, the cutter shaft assembly further comprises a cutter sleeve, a poly-wedge belt and a cutter shaft; the cutter shaft is parallel to an output shaft of the motor, the cutter sleeve is arranged on the cutter shaft through two bearings, and the cutter sleeve is connected with a corresponding output shaft on the motor through a poly-wedge belt; the blade is arranged on the cutter sleeve.

As a further improvement of the utility model, a long waist-shaped hole is arranged on the side wall of the table-board and arranged along the length direction of the table-board; the slider extends from the long kidney-shaped hole.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with existing well-known technique, have following apparent effect:

(1) the utility model discloses a semi-cross belt drive slicer, through the single motor drive arbor subassembly work of setting in the mesa, and simultaneously, the motor still drives speed reducer work, and transmit the motion to carrying the meat platform by crank link slider mechanism, thereby realize carrying the reciprocating motion of meat platform, mutually support through carrying the meat platform and arbor subassembly and realize the section to the meat, this structural design is simple, drive for current bi-motor, single motor drive of full-automatic slicer has been solved, the whole difficult problem of integrating in the mesa of drive chain, whole transmission structure is very simplified, its low in production cost, the volume of whole device has effectively been reduced.

(2) In order to facilitate the slicing machine to automatically process meat, the meat carrying table needs to be arranged obliquely, the meat is placed on the meat carrying table and slides downwards along the meat carrying table under the action of self gravity, and therefore the slicing continuity of the slicing machine is improved; in addition, in order to ensure the uniformity of the slicing thickness of the slicing machine, the cutter shaft assembly needs to be obliquely arranged and is vertical to the plane of the meat carrying table, so that the motor is obliquely arranged, and the cutter shaft assembly is convenient to mount; in addition, the speed reducer is horizontally arranged on the inner wall of the table board, so that the reciprocating motion stability of the meat carrying table is effectively ensured.

(3) The utility model discloses a semi-crossed belt drive slicer, for the wholeness ability of further optimization slicer, especially, the continuation of aiming at slicer work, establish the stagger angle between motor band pulley and the speed reducer band pulley into 45, be about to establish the crisscross angle in space between the output shaft of motor and the input shaft of speed reducer into 45, the space dislocation contained angle between the output shaft of motor and the horizontal plane establishes into 45, the blade of arbor subassembly is 45 with the contained angle between the horizontal plane, because the blade is mutually perpendicular with the plane that carries meat platform place, thereby make the contained angle that carries between meat platform and the horizontal plane be 45, this angle scope is in order to carry the stationarity and the homogeneity that the meat platform removed in order to can effectual control meat.

(4) The utility model discloses a semi-crossed belt transmission slicer, its slider slides and sets up on the circular rail, when the speed reducer control crank link slider mechanism motion, its slider reciprocates on the circular rail, drives and carries the meat platform reciprocating motion, namely controls and carries the meat platform to carry the meat to the blade reciprocating motion of arbor subassembly to cut meat; in addition, the slider rolling contact is in the upper surface of square rail, through the cooperation jointly of square rail and circular rail, further improves the stability that the slider removed, guarantees the homogeneity of slicer to meat section thickness simultaneously.

Drawings

Fig. 1 is a schematic structural view of a half-cross transmission slicer according to the present invention;

fig. 2 is a schematic view of another structure of a half-cross transmission slicer according to the present invention;

FIG. 3 is a schematic view of the mounting structure of each component inside the middle table-board of the present invention;

FIG. 4 is a schematic structural view of a transmission unit with a hidden table top according to the present invention;

FIG. 5 is a cross-sectional view of the blade mounting structure of the present invention;

fig. 6 is a cross-sectional view of the connection between the middle slider and the square rail.

The reference numerals in the schematic drawings illustrate:

10. a table top; 11. a bottom frame; 20. a cutter shaft assembly; 21. a blade; 22. a knife sheath; 23. a V-ribbed belt; 24. a cutter shaft; 25. a pull rod; 26. a cutter protecting disc; 30. a motor; 31. a motor mounting shaft; 32. a motor bracket; 33. a motor pulley; 40. a speed reducer; 41. mounting a plate; 42. a speed reducer belt wheel; 50. a half-crossed belt; 61. a crank; 62. a connecting rod; 70. a slider; 71. a slider boss; 72. a slider shaft; 73. a bearing; 81. a circular rail; 82. a square rail; 90. carry the meat platform.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples.

Example 1

Referring to fig. 1, 2, 3 and 4, a semi-cross belt driven slicer of the present embodiment includes a cutter shaft assembly 20 and a meat carrying platform 90 mounted on a table top 10, wherein the cutter shaft assembly 20 is used for cutting meat placed on the meat carrying platform 90, in the prior art, in order to control the cutter shaft assembly 20 and the meat carrying platform 90 to work, two motors are generally used for driving respectively, although the operation method is simple and convenient, due to the presence of the two motors and other components used in cooperation with the two motors, the whole slicer has a large volume and a low integration level, and needs to be further improved.

In the embodiment, in order to improve the integration of the slicer, one motor 30 is used as a power source for driving, that is, the motor 30 simultaneously drives the cutter shaft assembly 20 and the meat carrying platform 90 to work, in order to control the motion of the meat carrying platform 90, an output shaft at the rear end of the motor 30 is connected with an input shaft of a speed reducer 40, and the speed reducer 40 is connected with the meat carrying platform 90 through a crank-link slider mechanism. An output shaft at the front end of the motor 30 is connected with the cutter shaft assembly 20.

The method specifically comprises the following steps: referring to fig. 3 and 4, the motor 30 of the present embodiment is obliquely installed in the table top 10, a motor mounting shaft 31 is installed on one side of the motor 30, the motor mounting shaft 31 is fixedly installed on a motor bracket 32, and the motor 30 of the present embodiment is fixed on the table top 10 through the motor bracket 32.

The present embodiment controls the installation angle of the motor 30, even if a certain included angle is formed between the output shaft of the motor 30 and the horizontal plane, that is, a certain included angle is formed between the cutter shaft assembly 20 installed on the output shaft of the motor 30 and the horizontal plane.

It should be noted that, because the slicing machine needs to move the inner part on the meat carrying platform 90 during the use process, the meat carrying platform 90 is arranged obliquely, that is, a certain included angle exists between the meat carrying platform 90 and the horizontal plane, so that the meat can move under the action of its own gravity. In addition, in order to ensure the uniformity of the thickness of the sliced meat in the slicer, the plane of the meat carrying table 90 of the slicer is perpendicular to the plane of the blade 21 on the knife shaft assembly 20.

As shown in fig. 4, the output shafts at both ends of the motor 30 are located on the same straight line in the present embodiment, and the directions of the two output shafts are opposite.

Preferably, in this embodiment, an angle between the output shaft of the motor 30 and a horizontal plane is 45 °, that is, an angle between the blade 21 of the knife shaft assembly 20 and the horizontal plane is 45 °, and since the blade 21 is perpendicular to a plane where the meat carrying table 90 is located, the angle between the meat carrying table 90 and the horizontal plane is 45 °. By means of this angle design, the overall performance of the slicer is further optimized, in particular with regard to the continuity of the operation of the slicer. Because, if the angle between the output shaft of the motor 30 and the horizontal plane is increased, that is, the angle between the meat carrying platform 90 and the horizontal plane is also increased, the resistance of the meat placed on the meat carrying platform 90 on the plane where the meat carrying platform 90 is located is reduced when the inclination angle is increased, the meat moves down on the meat carrying platform 90 at a high speed, which is inconvenient to control, and may cause the problem that the thickness of the sliced meat cut by the blade 21 is uneven; if the angle between the output shaft of the motor 30 and the horizontal plane is reduced, the angle between the meat carrying table 90 and the horizontal plane is also reduced, and the resistance of the meat on the meat carrying table 90 on the plane where the meat carrying table 90 is located is increased, i.e. the meat is not easy to move downwards, which may cause the problem that the slicer cannot cut the meat. Therefore, the included angle between the output shaft of the motor 30 and the horizontal plane is set to 45 degrees, the uniformity of the meat moving on the meat carrying table 90 can be effectively guaranteed, namely, the continuity of the work of the slicing machine is guaranteed, and meanwhile, the uniformity of the cutting thickness of the meat by the cutter shaft assembly 20 is also guaranteed.

As shown in fig. 3, in the present embodiment, the speed reducer 40 is disposed on a mounting plate 41, and is horizontally mounted upside down on the inner wall of the table top 10 through the mounting plate 41, the input shaft of the speed reducer 40 is disposed on the side wall of the speed reducer 40, and the input shaft of the speed reducer 40 and the output shaft of the rear end of the motor 30 are connected through a half-crossed belt 50, that is, the output shaft of the motor 30 and the input shaft of the speed reducer 40 are in a spatial offset state, and the spatial offset angle is 45 °.

In order to facilitate installation of the half cross belt 50 and prevent the half cross belt 50 from falling off the input shaft of the speed reducer 40 and the output shaft of the motor 30, the motor pulley 33 is provided on the output shaft of the motor 30 in the present embodiment, and similarly, the speed reducer pulley 42 is provided on the input shaft of the speed reducer 40, and the half cross belt 50 is provided on the motor pulley 33 and the speed reducer pulley 42 in the present embodiment.

In addition, the crank-link slider mechanism of the present embodiment pair includes a crank 61, a link 62 and a slider 70, wherein one end of the crank 61 is mounted on the output shaft of the speed reducer 40, it is worth to be noted that, because the output shaft of the speed reducer 40 needs to control the movement of the crank-link slider mechanism, the reciprocating movement of the meat carrying platform 90 is realized, and in order to ensure the stability of the movement, the output shaft of the speed reducer 40 is vertically arranged on the bottom surface of the speed reducer 40; the crank 61 has an integral rotation shaft, and the output shaft of the speed reducer 40 is hollow, into which the crank 61 is inserted, thereby fixing the crank 61 to the output shaft of the speed reducer 40. The other end of the crank 61 is hinged with one end of the connecting rod 62, and the other end of the connecting rod 62 is hinged with the sliding block 70. The slider 70 of the present embodiment is connected to the meat carrying table 90.

In this embodiment, a circular rail 81 is disposed inside the table top 10, two ends of the circular rail 81 are respectively connected to the inner wall of the table top 10, and the sliding block 70 is slidably mounted on the circular rail 81. When the motor 30 operates, the speed reducer 40 is driven to work through the half-crossed belt 50, and the speed reducer 40 drives the crank-link slider mechanism to move, so that the slider 70 is driven to reciprocate on the circular rail 81, namely the reciprocating motion of the meat carrying table 90 is realized.

With reference to fig. 1 and 3, in the present embodiment, a long waist-shaped hole is formed on the side wall of the table top 10, and the long waist-shaped hole is arranged along the length direction of the table top 10; one end of the slider 70 of the present embodiment protrudes from the long kidney-shaped hole, and a slider bracket, to which the meat carrying table 90 of the present embodiment is fixedly mounted, is fixed to the protruding end of the slider 70.

As shown in fig. 5, the arbor shaft assembly 20 of the present embodiment further includes a tool case 22, a poly-wedge belt 23 and an arbor 24; in this embodiment, the knife shaft 24 is disposed on the upper surface of the motor 30, the knife shaft 24 is parallel to the output shaft of the motor 30, the knife pouch 22 is mounted at the front end of the knife shaft 24 through two bearings, and the knife pouch 22 is connected to the output shaft at the front end of the motor 30 through the poly-wedge belt 23. Further, the insert 21 of the present embodiment is attached to the holder 22.

Preferably, in this embodiment, a belt wedge groove is formed on the shaft extension of the output shaft at the front end of the motor 30, and the poly-wedge belt 23 is slidably disposed on the belt wedge groove.

The present embodiment is provided with a tension bracket at one side of the motor 30, by which the tension of the v-ribbed belt 23 is adjusted, thereby facilitating the rotation of the driving blade 21.

In addition, in the present embodiment, a pull rod 25 is disposed inside the knife shaft 24, the pull rod 25 is disposed along the length direction of the knife shaft 24, one end of the pull rod 25 is screwed with a cutter protection disc 26, the cutter protection disc 26 is disposed outside the knife blade 21, and the knife blade 21 is protected by the cutter protection disc 26.

The table top 10 of the present embodiment is made of aluminum magnesium alloy.

Example 2

The semi-cross belt driven slicer of the present embodiment is substantially the same as embodiment 1, and further, in the present embodiment, a slider boss 71 is vertically disposed on the upper surface of the slider 70, as shown in fig. 6, the slider boss 71, the upper surface of the slider 70 and the inner wall of the table top 10 enclose a region, a square rail 82 is disposed in the region, and with reference to fig. 3 and 4, both ends of the square rail 82 of the present embodiment are fixed on the inner wall of the table top 10, and the square rail 82 and the circular rail 81 are parallel to each other.

In the present embodiment, a slider shaft 72 is vertically mounted on a side wall of the slider boss 71, the slider shaft 72 is located above the square rail 82, and a bearing 73 is mounted on the slider shaft 72, and the bearing 73 is in rolling contact with the upper surface of the square rail 82.

The present embodiment further improves the stability of the movement of the sliding block 70 by the cooperation of the square rail 82 and the circular rail 81, and simultaneously ensures the uniformity of the thickness of the sliced meat by the slicer.

In addition, a base frame 11 is connected to the table top 10 to protect the drive system in the table top 10, and the base frame 11 protects the drive system. The driving system of the present embodiment is a system composed of the motor 30, the speed reducer 40 and the crank-link slider mechanism,

according to the semi-crossed belt transmission slicing machine, the blade 21 is driven to rotate by the motor 30 arranged in the table board 10, meanwhile, the motor 30 drives the speed reducer 40 to work, the motion is transmitted to the meat carrying table 90 through the crank-link slider mechanism, the reciprocating motion of the meat carrying table 90 is achieved, and the meat is sliced by the mutual matching of the meat carrying table 90 and the blade 21. The whole device is simple in structural design, greatly simplified and low in processing and production cost compared with the existing double-motor control, and the whole driving system is integrated in the table top 10, so that the size of the whole device is effectively reduced.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (7)

1. A semi-cross belt driven slicer including an arbor shaft assembly (20) and a meat carrying platform (90) mounted on a table top (10), characterized in that: the meat carrying table is characterized by further comprising a motor (30), a speed reducer (40) and a crank connecting rod sliding block mechanism which are integrally installed inside the table top (10), wherein the meat carrying table (90) is fixed on a sliding block support, and the sliding block support is installed on a sliding block (70) of the crank connecting rod sliding block mechanism; the crank connecting rod sliding block mechanism is connected with the speed reducer (40), an input shaft of the speed reducer (40) is connected with a rear output shaft of the motor (30) through a belt, and the motor (30) drives the speed reducer (40) so as to drive the crank connecting rod sliding block mechanism and the connected meat carrying table (90) to reciprocate; the front output shaft of the motor (30) drives the blade (21) in the cutter shaft assembly (20) to rotate.

2. A semi-cross belt driven microtome as claimed in claim 1, wherein: the motor (30) is output from the front and the back, a belt wedge groove is arranged on the shaft extension of an output shaft at the front end of the motor (30), and a blade (21) in the cutter shaft assembly (20) is driven to rotate by a poly-wedge belt (23); the rear end of the motor (30) is provided with a motor belt wheel (33) which is connected with a speed reducer belt wheel (42) on an input shaft of a speed reducer (40) through a half-crossed belt (50); the motor belt wheels (33) and the speed reducer belt wheels (42) are staggered in space.

3. A semi-cross belt driven microtome as claimed in claim 2, wherein: the speed reducer (40) is arranged on the inner wall of the table top (10) in an inverted mode; the stagger angle between the motor belt wheel (33) and the speed reducer belt wheel (42) is 45 degrees.

4. A semi-cross belt driven microtome as claimed in claim 2 or 3 wherein: the crank-connecting rod sliding block mechanism further comprises a crank (61) and a connecting rod (62), wherein the crank (61) is provided with an integrated rotating shaft and is inserted into a hollow output shaft of the speed reducer (40), the other end of the crank (61) is connected with one end of the connecting rod (62), and the other end of the connecting rod (62) is connected with the sliding block (70); a circular rail (81) is arranged inside the table top (10), two ends of the circular rail (81) are respectively connected with the inner wall of the table top (10), and the sliding block (70) is slidably mounted on the circular rail (81); one end of the sliding block (70) extends out of the table top (10), and a sliding block bracket is fixed on the extending end of the sliding block (70).

5. The half-cross belt driven microtome according to claim 4, wherein: a square rail (82) is arranged in the table top, and the square rail (82) is parallel to the round rail (81); the upper surface of the sliding block (70) is vertically provided with a sliding block boss (71), the sliding block boss (71) is provided with a sliding block shaft (72), the sliding block shaft (72) is provided with a bearing (73), and the bearing (73) is in rolling contact with the upper surface of the square rail (82).

6. The half-cross belt driven microtome according to claim 5, wherein: the cutter shaft assembly (20) further comprises a cutter sleeve (22), a poly-wedge belt (23) and a cutter shaft (24); the cutter shaft (24) is parallel to an output shaft of the motor (30), the cutter sleeve (22) is arranged on the cutter shaft (24) through two bearings, and the cutter sleeve (22) is connected with the corresponding output shaft of the motor (30) through a poly-wedge belt (23); the blade (21) is arranged on the knife sleeve (22).

7. The half-cross belt driven microtome according to claim 6, wherein: a long waist-shaped hole is formed in the side wall of the table top (10), and the long waist-shaped hole is formed along the length direction of the table top (10); the slider (70) extends from the elongated kidney-shaped aperture.

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