CN218018836U - Intermittent transmission mechanism of slicing machine - Google Patents

Abstract

The utility model relates to a slicer field is a slicer intermittent type drive mechanism very much. The automatic feeding device comprises a machine table, a material frame and a transverse driving assembly, wherein a feeding assembly is arranged at the bottom of the material frame, and a pressing assembly is arranged above an opening of the material frame; the feeding assembly comprises a first conveying shaft, a second conveying shaft, a conveying belt and a feeding driving assembly; the material pressing assembly comprises a shifting rod and a shifting tooth, and the second conveying shaft is in transmission connection with the shifting rod through a transmission part; the feeding driving assembly comprises an input shaft, the input shaft is rotatably connected with the material frame, a one-way bearing is fixedly arranged at the periphery of the other end of the input shaft, a swing arm is fixedly arranged at the periphery of the one-way bearing, a roller is rotatably connected to the free end of the swing arm, a blocking portion is further arranged on the machine table and located in the moving direction of the roller, and the roller has two states of being touched and separated from the blocking portion. The utility model provides a slicer intermittent type drive mechanism for ripe meat cutting, and adopt mechanical transmission, stability is good, can reduce the emergence of trouble.

Description

Intermittent transmission mechanism of slicing machine

Technical Field

The utility model relates to a slicer field is a slicer intermittent type drive mechanism very much.

Background

Chinese patent with application number CN201510101449.1 discloses an intelligent slicer, and it includes presses meat frame, carries meat platform, drags meat board and blade disc, and wherein carry the slope of meat platform and set up and be used for depositing the material, thereby presses meat frame to adopt the cylinder to drive the briquetting and reciprocate on carrying the meat platform and promote the material to blade disc department and cut.

The slicer has the following defects: 1. the cutting machine can only be used for cutting frozen meat, and cooked meat can deform and flatten under the extrusion of the air cylinder; 2. the meat pressing frame adopts electric transmission, so that the stability is insufficient, and the meat pressing frame is easy to break down.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an: the intermittent transmission mechanism of the slicing machine for cutting the cooked meat is provided, mechanical transmission is adopted, stability is good, and faults can be reduced.

The utility model discloses a following technical scheme realizes: the utility model provides a slicer intermittent type drive mechanism which characterized in that: the material storage device comprises a machine table, a material frame for storing materials and a transverse driving assembly connected between the machine table and the material frame and used for driving the material frame to transversely reciprocate, wherein one longitudinal side wall of the material frame is opened to form an opening, a feeding assembly for continuously driving the materials to move to the opening is arranged at the bottom of the material frame, and a pressing assembly for pressing the materials is further arranged above the opening of the material frame;

the feeding assembly comprises a first conveying shaft, a second conveying shaft, a conveying belt and a feeding driving assembly, wherein the first conveying shaft and the second conveying shaft are rotatably connected to the material frame, longitudinally distributed at intervals and extending along the transverse direction;

the material pressing assembly comprises a shifting lever which is rotatably connected to the material frame and is positioned above the second conveying shaft, a plurality of shifting teeth which extend transversely and protrude outwards are annularly arranged on the outer periphery of the shifting lever, and the second conveying shaft and the shifting lever are in transmission connection through a transmission part so that the second conveying shaft and the shifting lever can rotate synchronously;

the feeding driving assembly comprises an input shaft which is arranged at the outer side of the material frame and extends along the longitudinal direction, the input shaft is rotatably connected with the material frame, one end of the input shaft, which is close to the second conveying shaft, is provided with a first helical tooth, and the second conveying shaft is provided with a second helical tooth which can be in matched transmission with the first helical tooth;

the periphery of the input shaft other end has set firmly one-way bearing, one-way bearing's periphery has set firmly the swing arm, it is connected with the gyro wheel to rotate on the free end of swing arm, still is equipped with the stop part on the board, the stop part is located the direction of motion of gyro wheel, the gyro wheel has and touches and two states that break away from with the stop part, and when being in the state of touching, one-way bearing locks swing arm and input shaft and rotates together to one direction, still is connected with the extension spring that is used for driving swing arm automatic re-setting between material frame and swing arm, and when being in the off-state, one-way bearing can rotate to another direction under the tractive of extension spring.

In order to facilitate the regulation of the blocking part, an adjusting component used for adjusting the position relation of the blocking part in the transverse direction is further arranged on the machine table, the adjusting component comprises a lead screw connected to the machine table in a rotating mode, the blocking part is placed on the machine table and connected with the lead screw in a threaded mode, and a handle is arranged at one end of the lead screw.

In order to realize the horizontal reciprocating motion of material frame, the horizontal drive subassembly is including setting up on the board and horizontal extension and with material frame sliding connection's guide rail and guide arm and the moving part who is used for driving material frame along guide rail and guide arm place extending direction reciprocating motion that is connected with the material frame, moving part is including setting up the moving motor on the board, the first connecting rod that is connected with the moving motor output shaft and articulate the second connecting rod between first connecting rod and material frame.

Preferably, the transmission component comprises a first synchronizing wheel fixedly arranged on the second conveying shaft, a second synchronizing wheel fixedly arranged on the shifting lever and a synchronous belt connected between the first synchronizing wheel and the second synchronizing wheel.

Compared with the prior art, the utility model has the advantages that:

because this slicer intermittent type drive mechanism adopts the horizontally conveyer belt to carry the material to cooperate the driving lever to dial the material and press the material, can be used for the transport of cooked meat, and the driving of driving adopts mechanical structure to carry out the transmission with carrying, and stability is good, and the fault incidence is low.

1. The utility model discloses, adopt horizontally conveyer belt to carry the material to the cooperation driving lever is dialled the material and is pressed the material, can be used for the transport of cooked meat, and the driving lever adopts mechanical structure to carry out the transmission with the transmission of carrying the drive, and stability is good, and the fault incidence is low.

2. The utility model discloses, wherein the material frame adopts slider-crank mechanism to drive its transverse reciprocating motion, and the motion is steady, and is effectual after the cutting.

3. The utility model discloses, wherein the position of stop part is adjustable to in the distance of adjusting intermittent type transmission.

Drawings

Fig. 1 is a first schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram ii according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a material frame in an embodiment of the present invention;

fig. 4 is a schematic view of an internal structure of a material frame in an embodiment of the present invention.

Description of the reference symbols: 1-machine table, 2-material frame, 3-transverse driving component, 31-guide rail, 32-guide rod, 33-moving component, 331-first connecting rod, 332-second connecting rod, 4-feeding component, 41-first conveying shaft, 42-second conveying shaft, 43-conveying belt, 44-feeding driving component, 441-input shaft, 442-first helical tooth, 443-second helical tooth, 444-one-way bearing, 445-swing arm, 446-roller, 447-blocking part, 448-tension spring, 449-adjusting component, 4491-screw rod, 4492-handle, 5-pressing component, 51-driving lever, 52-transmission component, 521-first synchronous wheel, 522-second synchronous wheel, 523-synchronous belt, 6-striker plate, 7-cutter and 8-rotating component.

Detailed Description

The invention is explained in detail below with reference to the accompanying drawings:

as shown in fig. 1-4, an intermittent drive mechanism for a microtome is characterized in that: the material storage device comprises a machine table 1, a material frame 2 used for storing materials and a transverse driving assembly 3 connected between the machine table 1 and the material frame 2 and used for driving the material frame 2 to transversely reciprocate, wherein one longitudinal side wall of the material frame 2 is opened to form an opening, a feeding assembly 4 used for continuously driving the materials to move to the opening is arranged at the bottom of the material frame 2, and a pressing assembly 5 used for pressing the materials is further arranged above the opening of the material frame 2;

the feeding assembly 4 comprises a first conveying shaft 41 and a second conveying shaft 42 which are rotatably connected to the material frame 2, longitudinally distributed at intervals and extending along the transverse direction, a conveying belt 43 connected between the first conveying shaft 41 and the second conveying shaft 42, and a feeding driving assembly 44 for driving the second conveying shaft 42 to rotate;

the material pressing assembly 5 comprises a shifting lever 51 which is rotatably connected to the material frame 2 and is positioned above the second conveying shaft 42, a plurality of shifting teeth which extend transversely and protrude outwards are annularly arranged on the outer periphery of the shifting lever 51, and the second conveying shaft 42 and the shifting lever 51 are in transmission connection through a transmission part 52 so that the second conveying shaft 42 and the shifting lever 51 can rotate synchronously;

the feeding driving assembly 44 comprises an input shaft 441 which is arranged at the outer side of the material frame 2 and extends along the longitudinal direction, the input shaft 441 is rotatably connected with the material frame 2, one end of the input shaft 441, which is close to the second conveying shaft 42, is provided with a first helical tooth 442, and the second conveying shaft 42 is provided with a second helical tooth 443 which can be in matched transmission with the first helical tooth 442;

the periphery of the other end of the input shaft 441 is fixedly provided with a one-way bearing 444, the periphery of the one-way bearing 444 is fixedly provided with a swing arm 445, the free end of the swing arm 445 is rotatably connected with a roller 446, the machine table 1 is also provided with a blocking part 447, the blocking part 447 is positioned in the moving direction of the roller 446, the roller 446 has two states of touching and disengaging with the blocking part, when in the touching state, the one-way bearing 444 locks the swing arm 445 and the input shaft 441 in one direction and rotates together, a tension spring 448 for driving the swing arm 445 to automatically reset is further connected between the material frame 2 and the swing arm 445, and when in the disengaging state, under the traction of the tension spring 448, the one-way bearing 444 can rotate in the other direction.

The intermittent transmission mechanism of the slicing machine adopts a horizontal conveying belt to convey materials, is matched with the deflector rod to carry out material shifting and pressing, can be used for slicing cooked meat, adopts a mechanical structure to carry out transmission between the deflector rod and the conveying drive, and is good in stability and low in failure rate.

In order to adjust the blocking portion conveniently, still be equipped with the adjusting part 449 that is used for adjusting the barrier portion 447 in the transverse direction on the board 1, adjusting part 449 is including rotating lead screw 4491 of connecting on board 1, the barrier portion 447 is placed on board 1 and with lead screw 4491 threaded connection, the one end of lead screw 4491 is equipped with hand (hold) 4492.

In order to realize the transverse reciprocating movement of the material frame, the transverse driving assembly 3 comprises a guide rail 31 and a guide rod 32 which are arranged on the machine table 1 and extend transversely and are connected with the material frame 2 in a sliding manner, and a moving part 33 which is connected with the material frame 2 and is used for driving the material frame 2 to reciprocate along the extending direction of the guide rail 31 and the guide rod 32, wherein the moving part 33 comprises a moving motor arranged on the machine table 1, a first connecting rod 331 connected with an output shaft of the moving motor, and a second connecting rod 332 hinged between the first connecting rod 331 and the material frame 2.

Preferably, the transmission component 52 includes a first synchronizing wheel 521 fixedly disposed on the second conveying shaft 42, a second synchronizing wheel 522 fixedly disposed on the shift lever 51, and a timing belt 523 connected between the first synchronizing wheel 521 and the second synchronizing wheel 522.

While the present invention has been shown and described with reference to particular embodiments and alternatives thereof, it will be understood that various changes and modifications can be made without departing from the spirit and scope of the invention. It is understood, therefore, that the invention is not to be limited, except as by the appended claims and their equivalents.

Claims (4)

1. The utility model provides a slicer intermittent type drive mechanism which characterized in that: the material storage device comprises a machine table (1), a material frame (2) used for storing materials and a transverse driving assembly (3) connected between the machine table (1) and the material frame (2) and used for driving the material frame (2) to transversely reciprocate, wherein one longitudinal side wall of the material frame (2) is opened to form an opening, a feeding assembly (4) used for continuously driving the materials to move to the opening is arranged at the bottom of the material frame (2), and a material pressing assembly (5) used for pressing the materials is further arranged above the opening of the material frame (2);

the feeding assembly (4) comprises a first conveying shaft (41) and a second conveying shaft (42) which are rotatably connected to the material frame (2), longitudinally distributed at intervals and extending along the transverse direction, a conveying belt (43) connected between the first conveying shaft (41) and the second conveying shaft (42), and a feeding driving assembly (44) for driving the second conveying shaft (42) to rotate;

the material pressing assembly (5) comprises a shifting lever (51) which is rotatably connected to the material frame (2) and is positioned above the second conveying shaft (42), the outer periphery of the shifting lever (51) is annularly provided with a plurality of shifting teeth which extend transversely and protrude outwards, and the second conveying shaft (42) and the shifting lever (51) are in transmission connection through a transmission part (52) so that the second conveying shaft and the shifting lever can rotate synchronously;

the feeding driving assembly (44) comprises an input shaft (441) which is arranged at the outer side of the material frame (2) and extends along the longitudinal direction, the input shaft (441) is rotatably connected with the material frame (2), one end of the input shaft (441) close to the second conveying shaft (42) is provided with a first helical tooth (442), and the second conveying shaft (42) is provided with a second helical tooth (443) which can be in matched transmission with the first helical tooth (442);

the periphery of the other end of the input shaft (441) is fixedly provided with a one-way bearing (444), the periphery of the one-way bearing (444) is fixedly provided with a swing arm (445), the free end of the swing arm (445) is rotatably connected with a roller (446), a blocking part (447) is further arranged on the machine table (1), the blocking part (447) is located in the moving direction of the roller (446), the roller (446) has two states of touching and disengaging with the blocking part, when the roller is in the touching state, the one-way bearing (444) locks the swing arm (445) and the input shaft (441) in one direction and rotates together, a tension spring (448) used for driving the swing arm (445) to automatically reset is further connected between the material frame (2) and the swing arm (445), and when the swing arm (445) is in the disengaging state, under the traction of the tension spring (448), the one-way bearing (444) can rotate in the other direction.

2. The slicer intermittent drive mechanism of claim 1, wherein: still be equipped with on board (1) and be used for adjusting regulation subassembly (449) that blocks portion (447) position relation in the transverse direction, regulation subassembly (449) is including rotating lead screw (4491) of connecting on board (1), block portion (447) place on board (1) and with lead screw (4491) threaded connection, the one end of lead screw (4491) is equipped with hand (hold) (4492).

3. The slicer intermittent drive mechanism of claim 1, wherein: horizontal drive assembly (3) including set up on board (1) and horizontal extension and with material frame (2) sliding connection's guide rail (31) and guide arm (32) and be used for driving material frame (2) along guide rail (31) and guide arm (32) place extending direction reciprocating motion's moving part (33) that material frame (2) are connected, moving part (33) including setting up moving motor on board (1), first connecting rod (331) that are connected with the moving motor output shaft and articulate second connecting rod (332) between first connecting rod (331) and material frame (2).

4. The slicer intermittent drive mechanism of claim 1, wherein: the transmission component (52) comprises a first synchronous wheel (521) fixedly arranged on the second conveying shaft (42), a second synchronous wheel (522) fixedly arranged on the shifting lever (51) and a synchronous belt (523) connected between the first synchronous wheel (521) and the second synchronous wheel (522).

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