CN210492357U - Cylinder separating type dough mixing machine adopting combined gear transmission - Google Patents

Abstract

The utility model relates to an off-cylinder flour-mixing machine adopting combined gear transmission, which comprises a machine body and a charging basket vehicle, wherein the charging basket vehicle is provided with a charging basket; a power output mechanism is arranged in the main machine body, and a transmission mechanism is arranged in the charging bucket vehicle; the power output mechanism is provided with an output shaft; one end of the output shaft is fixed with a combination tooth; the transmission mechanism is provided with a first input shaft, and one end of the first input shaft is provided with a meshing mechanism matched with the combining teeth; when the engaging teeth engage with the engaging mechanism, the power output by the power output mechanism is transmitted to the first input shaft through the output shaft, the engaging teeth and the engaging mechanism, so that the transmission mechanism drives the charging barrel to rotate. The utility model discloses a setting combines tooth and meshing mechanism, makes storage bucket car and the host computer body can effectively mesh and separate fast, has improved the transmission stability of storage bucket car and the host computer body greatly to the problem of original friction drive's easy wearing and tearing has been avoided.

Description

Cylinder separating type dough mixing machine adopting combined gear transmission

Technical Field

The utility model relates to a food processing machinery technical field especially relates to an adoption combines driven jar formula flour-mixing machine that leaves of tooth.

Background

The existing cylinder-separating type double-acting dough mixing machine is widely used in the food stirring processing industry. The difference between the cylinder-separating double-acting dough kneading machine and the common dough kneading machine is that the machine head of the cylinder-separating double-acting dough kneading machine can be lifted and the charging basket of the cylinder-separating double-acting dough kneading machine is arranged on a charging basket vehicle which can also be separated from the main machine body. The cylinder-separating double-acting dough mixer has the advantage that the well-stirred dough can be easily taken out, and the production efficiency is greatly improved. The technical difficulty of the cylinder-separating double-acting dough mixer is that the charging basket can rotate along with the motor of the main machine body, and the charging basket vehicle and the main machine body are quickly separated.

At present, in order to realize the functions, most of the existing cylinder-separating double-acting dough mixing machines are in friction transmission, so that a driving wheel on a main machine body is in contact transmission with a charging basket of a charging basket vehicle, and the transmission mode has the following defects: the friction force easily causes the abrasion of the driving wheel to reduce the friction force, and the stability of transmission and even the failure of transmission can not be effectively ensured. In order to solve the technical problem, the transmission and separation of the main machine body and the charging basket vehicle are realized in a tooth combining mode.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model discloses an it is not enough to overcome the shortcoming among the prior art, provides an adoption and combines from jar formula flour-mixing machine of tooth transmission.

A cylinder-separating dough mixer adopting combined gear transmission comprises a machine body and a charging basket vehicle, wherein the charging basket vehicle is provided with a charging basket; a power output mechanism is arranged in the main machine body, and a transmission mechanism is arranged in the charging bucket vehicle; the power output mechanism is provided with an output shaft; one end of the output shaft is fixed with a combination tooth; the transmission mechanism is provided with a first input shaft, and one end of the first input shaft is provided with a meshing mechanism matched with the combining teeth; when the combination teeth are meshed and matched with the meshing mechanism, the power output by the power output mechanism is transmitted to the first input shaft through the output shaft, the combination teeth and the meshing mechanism in sequence, and then the transmission mechanism drives the charging barrel to rotate.

Adopt to combine driven from jar formula flour-mixing machine of tooth, combine tooth and meshing mechanism through the setting, make the storage bucket car and the host computer body can effectively mesh and separate fast, improved the transmission stability of storage bucket car and the host computer body greatly to the problem of original friction drive's easy wearing and tearing has been avoided.

Furthermore, a plurality of bosses are uniformly and equally arranged on one end surface of the combination tooth around the circumferential direction of the combination tooth, and grooves are formed between the adjacent bosses;

the engagement mechanism comprises at least one engagement tooth; the meshing teeth are uniformly distributed on one end of the first input shaft in the circumferential direction of the first input shaft; the respective engaging teeth are insertable into the corresponding grooves of the coupling teeth.

The engaging teeth can be driven to rotate when the engaging teeth rotate by clamping the engaging teeth into the grooves of the engaging teeth.

Further, the device also comprises a guide shaft; one end of the first input shaft is provided with a shaft hole vertical to the axis of the first input shaft; the guide shaft is fixed on the shaft hole, the axis of the guide shaft is intersected and vertical to the axis of the first input shaft, and two ends of the guide shaft are exposed and serve as two meshing teeth; two ends of the guide shaft can be inserted into two grooves which are symmetrical with any center of the combination teeth.

Two ends of the guide shaft are used as two meshing teeth which are positioned on the same straight line and are symmetrically distributed, and the two meshing teeth can be simultaneously clamped into two symmetrical grooves of the combination teeth; the guide shaft is driven to rotate by the combination gear, so that the stress is uniform, and the transmission is more stable.

Furthermore, each boss of the combination tooth is provided with a spherical guide post.

By arranging the spherical guide post, when the guide shaft is contacted with the spherical guide post, the guide shaft can be smoothly combined at any angle.

Furthermore, mounting holes are formed in each boss of the combination teeth; a mounting column is arranged below the spherical guide column; the spherical guide post is connected with the mounting hole on the boss through the mounting post.

Through independently processing sphere guide pillar and boss, be favorable to reducing the processing degree of difficulty that combines the tooth, and then reduce cost.

Further, the power output mechanism further comprises a motor, a main belt wheel and a first belt wheel; the output end of the motor is connected with the main belt wheel; the first belt wheel is fixed on the output shaft and is positioned at the other end of the combination tooth; the main belt wheel is in belt transmission connection with the first belt wheel through a belt.

Further, the charging bucket transmission mechanism comprises a second bearing seat, a second belt wheel, a reduction box and a third belt wheel; the first input shaft is disposed within the second bearing housing; the second belt wheel is fixed at the other end of the first input shaft; the reduction gearbox is arranged below the charging bucket, an output transmission shaft is arranged above the reduction gearbox, and the output transmission shaft is connected with the charging bucket shaft of the charging bucket; an input transmission shaft is arranged on the side face of the reduction gearbox, and the third belt wheel is fixed on the input transmission shaft and is in belt transmission connection with the second belt wheel through a belt.

Further, the adjusting device also comprises an adjusting seat and a first bearing seat; the adjusting seat is arranged on the main machine body; the first bearing seat is fixed on the adjusting seat; the other end of the first input shaft is fixed in the first bearing seat.

Furthermore, the adjusting seat comprises a bottom plate and a vertical plate arranged on the bottom plate; the bottom plate and the vertical plate are both provided with a long hole; the bottom plate is fixed on the main machine body through the long hole in a bolt connection mode; the first bearing seat is fixed on the long hole of the vertical plate in a bolt connection mode.

The upper adjusting seat is provided with the long hole, so that the horizontal and vertical movement adjustment of the output shaft can be realized, and the coaxiality of the output shaft and the first input shaft can be further ensured.

For a better understanding and an implementation, the present invention is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic view of the internal structure of a cylinder-separating dough mixer driven by a combination gear of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

fig. 3 is a schematic structural view of the coupling teeth and the spherical guide posts of the present invention;

fig. 4 is a schematic view of the guide shaft and the coupling teeth of the present invention;

fig. 5 is a schematic structural diagram of the adjusting seat of the present invention.

In the figure: 1. a main body; 2. a charging bucket vehicle; 3. a charging bucket; 31. a charging barrel shaft; 4. a power take-off mechanism; 41. an output shaft; 42. a coupling tooth; 421. a boss; 422. a groove; 423. a spherical guide post; 43. a first pulley; 44. a first bearing housing; 45. an adjusting seat; 451. a base plate; 452. a vertical plate; 453. a long hole; 5. a transmission mechanism; 51. a first input shaft; 52. a guide shaft; 53. a second bearing housing; 54. a second pulley; 55. a reduction gearbox; 56. a third pulley.

Detailed Description

Referring to fig. 1 to 5, the off-cylinder dough mixer driven by the combined gear 42 of the present embodiment includes a main body 1 and a material barrel cart 2, wherein a material barrel 3 is disposed on the material barrel cart 2, and a material barrel shaft 31 is disposed below the material barrel 3; a power output mechanism 4 is arranged in the main machine body 1, and a transmission mechanism 5 is arranged in the charging bucket vehicle 2; the main machine body 1 can drive a transmission mechanism 5 of the charging basket trolley 2 through a power output mechanism 4, so that the transmission mechanism 5 drives a charging basket 3 on the charging basket trolley 2 to rotate;

specifically, the power output mechanism 4 includes a motor (not shown), a primary pulley (not shown), a first pulley 43, a first bearing seat 44, an adjusting seat 45, an output shaft 41, a coupling tooth 42, and six spherical guide posts 423; referring to fig. 3 specifically, one end surface of the coupling tooth 42 is provided with six bosses 421 equally and uniformly around the circumference thereof, a groove 422 is formed between adjacent bosses 421, each boss 421 of the coupling tooth 42 is provided with a mounting hole, and a mounting post corresponding to the mounting hole is provided below the spherical guide post 423; referring to fig. 5 in particular, the adjusting seat 45 includes a bottom plate 451 and a vertical plate 452 disposed on the bottom plate 451, and the bottom plate 451 and the vertical plate 452 are both provided with a long hole 453;

specifically, the transmission mechanism 5 comprises a first input shaft 51, an engagement mechanism, a second bearing seat 53, a second belt pulley 54, a reduction box 55 and a third belt pulley 56; one end of the first input shaft 51 is provided with a shaft hole vertical to the axis thereof; an output transmission shaft is arranged above the reduction gearbox 55, and an input transmission shaft is arranged on the side surface of the reduction gearbox 55;

specifically, the engagement mechanism includes two engagement teeth.

The connection mode of this embodiment:

the motor is arranged on the main machine body 1, and the output end of the motor is connected with the main belt wheel; the adjusting seat 45 is disposed on the main body 1 by means of a bolt through a long hole 453 of a bottom plate 451 thereof, and the first bearing seat 44 is disposed on the long hole 453 of a vertical plate 452 of the adjusting seat 45 by means of a bolt; the other end of the output shaft 41 is fixed in the first bearing seat 44; the coupling teeth 42 are fixed to one end of the output shaft 41; the spherical guide pillar 423 is connected with the mounting hole on the boss 421 through a mounting pillar; the first belt pulley 43 is fixed on the output shaft 41 and is positioned at the other end of the combination tooth 42; the primary pulley and the first pulley 43 are in belt transmission connection through a belt;

the second bearing seat 53 is arranged in the charging bucket vehicle 2, the first input shaft 51 is arranged in the second bearing seat 53, and the first input shaft 51 is arranged coaxially with the output shaft 41; the second pulley 54 is fixed to the other end of the first input shaft 51; the third belt wheel 56 is fixed on the input transmission shaft of the reduction box 55; the output transmission shaft of the reduction gearbox 55 is connected with the charging basket shaft 31 of the charging basket 3; the third pulley 56 is in belt-driven connection with the second pulley 54 via a belt;

the two meshing teeth are uniformly arranged on one end of the first input shaft 51 in the circumferential direction around the first input shaft 51; for convenience of processing, the present embodiment preferably uses a guide shaft 52 instead of the two engaging teeth, specifically, the guide shaft 52 is fixed on the shaft hole, the axis of the guide shaft 52 intersects and is perpendicular to the axis of the first input shaft 51, and two ends of the guide shaft 52 are exposed to serve as two engaging teeth; both ends of the guide shaft 52 can be inserted into two recesses 422 of any central symmetry of the coupling teeth 42.

The working process of the embodiment:

a user pushes the material barrel cart 2 to enable two ends of the guide shaft 52 to be inserted into any two grooves 422 of the combination teeth 42, so as to start the motor, enable the motor to drive the main belt wheel to rotate, further drive the first belt wheel 43 to rotate through a belt, drive the output shaft 41 to rotate by the first belt wheel 43, and drive the combination teeth 42 to rotate by the output shaft 41;

the combination teeth 42 drive the guide shaft 52 and the first input shaft 51 connected with the guide shaft 52 to rotate; the first input shaft 51 and the second pulley 54 rotate; the second belt wheel 54 drives the third belt wheel 56 to rotate through a belt, and then the third belt wheel 56 drives the input transmission shaft of the reduction box 55 to rotate; the output rotating shaft of the reduction box 55 rotates and drives the charging basket shaft 31 of the charging basket 3 to rotate;

when a user pulls the charging bucket vehicle 2 to separate the guide shaft 52 from the combining teeth 42, the motor stops driving the charging bucket 3 to rotate;

if the user finds that the guide shaft 52 is difficult to insert into the groove 422 of the coupling tooth 42 because the first input shaft 51 and the output shaft 41 are not centered, the position of the adjustment seat 45 with respect to the housing and the position of the first bearing seat 44 with respect to the adjustment seat 45 can be adjusted by the long hole 453 of the adjustment seat 45.

Compared with the prior art, the utility model discloses a combine tooth and guiding axle through the setting, make the storage bucket car and the host computer body can effectively mesh and separate fast, improved the transmission stability of storage bucket car and host computer body greatly to the problem of original friction drive's easy wearing and tearing has been avoided. In addition, the guide shaft is driven to rotate by the combination gear, so that the stress is uniform, and the transmission is more stable; by arranging the spherical guide post, when the guide shaft is contacted with the spherical guide post, the guide shaft and the spherical guide post can be smoothly combined at any angle; through independently processing sphere guide pillar and boss, be favorable to reducing the processing degree of difficulty that combines the tooth, and then reduce cost.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (9)

1. A cylinder-separating dough mixer adopting combined gear transmission comprises a main machine body and a charging basket vehicle, wherein a charging basket is arranged on the charging basket vehicle; a power output mechanism is arranged in the main machine body, and a transmission mechanism is arranged in the charging bucket vehicle; the method is characterized in that:

the power output mechanism is provided with an output shaft; one end of the output shaft is fixed with a combination tooth;

the transmission mechanism is provided with a first input shaft, and one end of the first input shaft is provided with a meshing mechanism matched with the combining teeth;

when the combination teeth are meshed and matched with the meshing mechanism, the power output by the power output mechanism is transmitted to the first input shaft through the output shaft, the combination teeth and the meshing mechanism in sequence, and then the transmission mechanism drives the charging barrel to rotate.

2. The cylinder-separating dough mixer adopting combined gear transmission according to claim 1, is characterized in that: one end face of the combination tooth is uniformly provided with a plurality of bosses at equal intervals around the circumferential direction of the combination tooth, and grooves are formed between the adjacent bosses;

the engagement mechanism comprises at least one engagement tooth; the meshing teeth are uniformly distributed on one end of the first input shaft in the circumferential direction of the first input shaft; the respective engaging teeth are insertable into the corresponding grooves of the coupling teeth.

3. The cylinder-separating dough mixer adopting combined gear transmission according to claim 2, is characterized in that: the device also comprises a guide shaft; one end of the first input shaft is provided with a shaft hole vertical to the axis of the first input shaft; the guide shaft is fixed on the shaft hole, the axis of the guide shaft is intersected and vertical to the axis of the first input shaft, and two ends of the guide shaft are exposed and serve as two meshing teeth; two ends of the guide shaft can be inserted into two grooves which are symmetrical with any center of the combination teeth.

4. The cylinder-separating dough mixer adopting combined gear transmission according to claim 3, is characterized in that: each lug boss of the combination tooth is provided with a spherical guide post.

5. The cylinder-separating dough mixer adopting combined gear transmission according to claim 4, is characterized in that: mounting holes are formed in the bosses of the combination teeth; a mounting column is arranged below the spherical guide column; the spherical guide post is connected with the mounting hole on the boss through the mounting post.

6. The cylinder-separating dough mixer adopting combined gear transmission according to any one of claims 1 to 5 is characterized in that: the power output mechanism also comprises a motor, a main belt wheel and a first belt wheel; the output end of the motor is connected with the main belt wheel; the first belt wheel is fixed on the output shaft and is positioned at the other end of the combination tooth; the main belt wheel is in belt transmission connection with the first belt wheel through a belt.

7. The cylinder-separating dough mixer adopting combined gear transmission according to claim 6, wherein: the charging bucket transmission mechanism comprises a second bearing seat, a second belt wheel, a reduction box and a third belt wheel; the first input shaft is disposed within the second bearing housing; the second belt wheel is fixed at the other end of the first input shaft; the reduction gearbox is arranged below the charging bucket, an output transmission shaft is arranged above the reduction gearbox, and the output transmission shaft is connected with the charging bucket shaft of the charging bucket; an input transmission shaft is arranged on the side face of the reduction gearbox, and the third belt wheel is fixed on the input transmission shaft and is in belt transmission connection with the second belt wheel through a belt.

8. The cylinder-separating dough mixer adopting combined gear transmission according to claim 7, is characterized in that: the adjusting seat and the first bearing seat are further included; the adjusting seat is arranged on the main machine body; the first bearing seat is fixed on the adjusting seat; the other end of the first input shaft is fixed in the first bearing seat.

9. The cylinder-separating dough mixer adopting combined gear transmission according to claim 8, wherein: the adjusting seat comprises a bottom plate and a vertical plate arranged on the bottom plate; the bottom plate and the vertical plate are both provided with a long hole; the bottom plate is fixed on the main machine body through the long hole in a bolt connection mode; the first bearing seat is fixed on the long hole of the vertical plate in a bolt connection mode.

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