CN211682440U

CN211682440U - Fragrant strip waste recovery device

Info

Publication number: CN211682440U
Application number: CN202020136674.5U
Authority: CN
Inventors: 林铭兰
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-01-21
Filing date: 2020-01-21
Publication date: 2020-10-16
Anticipated expiration: 2030-01-21

Abstract

The utility model discloses a fragrant strip waste recovery device belongs to fragrant mechanical field of system, fragrant strip waste recovery device includes feeding drive mechanism, pay-off drive mechanism and waste recovery mechanism, waste recovery mechanism is including allocating the subassembly, drive assembly and workbin, drive assembly's power take off end and the power input end fixed connection who allocates the subassembly, allocate the position between the feed end that the branch material end of subassembly is located feeding drive mechanism's discharge end and pay-off drive mechanism's the feed end, allocate the waste recovery end and the workbin looks adaptation of subassembly. The utility model discloses a fragrant strip waste recovery device adopts waste recovery mechanism to handle unnecessary fragrant strip waste material, and the reposition of redundant personnel is waited to process fragrant strip and fragrant strip waste material to carry out recycle with unnecessary fragrant strip waste material, degree of automation is high, the input cost of using manpower sparingly, and unifies recycle to fragrant strip waste material, and fragrant strip utilization is higher, saves the resource, environmental protection more.

Description

Fragrant strip waste recovery device

Technical Field

The utility model relates to a fragrant machinery of system especially relates to a fragrant strip waste recovery device.

Background

Incense burning has a long history in China, and has incense burning habits in various festivals and occasions, so incense products have a huge market in China. However, because the traditional manual incense making process is complicated, the production speed is slow, the dust is high, the cost is high, and the quality of the incense product is difficult to control, the traditional manual incense making process is gradually replaced by the incense making machine, and the incense making machine has a great market prospect in the incense making industry.

In the existing incense making machine, incense stick raw materials need to be equally cut into sticks in the incense making process. In order to ensure that adjacent incense sticks are completely separated and prevented from being connected, and the cut parts of the incense sticks are more flat and uniform, when the raw materials of the incense sticks are cut, a small section of waste material of the incense sticks can be separated by sweeping and cutting between the tail part of the front section of the incense stick and the head part of the rear section of the incense stick, and the waste material of the incense sticks is separated from the two adjacent incense sticks to be processed. The incense stick waste material that is used for the wall is formed to two adjacent incense sticks of treating processing to current system fragrant machine, adopts artifical sweeping to abandon the mode of usefulness to carry out clout abandonment processing usually, and degree of automation is lower, increases the human cost, and incense stick raw materials utilization ratio is lower, causes the wasting of resources.

SUMMERY OF THE UTILITY MODEL

In order to overcome prior art's defect, the utility model aims to solve the technical problem that a fragrant strip waste recovery device is proposed adopts waste recovery mechanism to handle unnecessary fragrant strip waste material, and the reposition of redundant personnel is waited to process fragrant strip and fragrant strip waste material to carry out recycle with unnecessary fragrant strip waste material, degree of automation is high, the input cost of using manpower sparingly, and unify recycle to fragrant strip waste material, fragrant strip material utilization is higher, save the resource, environmental protection more.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a pair of fragrant strip waste recovery device, including feeding drive mechanism, pay-off drive mechanism and waste recovery mechanism, feeding drive mechanism's discharge end passes through waste recovery mechanism and feeding drive mechanism's feeding end looks adaptation, waste recovery mechanism is including allocating the subassembly, drive assembly and workbin, drive assembly's power take off end and the power input end fixed connection who allocates the subassembly, allocate the position between the discharge end that the subassembly was located feeding drive mechanism and feeding drive mechanism's the feed end of subassembly, allocate the waste recovery end and the workbin looks adaptation of subassembly.

The utility model discloses preferred technical scheme lies in, the subassembly of allocating includes minute plectrum, waste material guide slot and transmission shaft, divides the bottom surface of plectrum and the feed end fixed connection of waste material guide slot, the discharge end and the waste material case looks adaptation of waste material guide slot, and feeding drive mechanism's discharge end is through dividing plectrum and material drive mechanism's feed end looks adaptation, drive assembly's power take off end and the power input end fixed connection of transmission shaft, and the outer disc of transmission shaft is fixed on the bottom surface of dividing the plectrum.

The utility model discloses preferred technical scheme lies in, drive assembly includes cylinder group, swing group and bearing positioning seat, and the tailpiece of the piston rod of cylinder group and the power input end fixed connection of swing group, the power input end of transmission shaft pass bearing positioning seat and the power output end fixed connection of swing group, and transmission shaft and bearing positioning seat rotatable coupling.

The utility model discloses preferred technical scheme lies in, swing group includes pendulum rod and joint bearing, and the power input end of pendulum rod is articulated mutually with joint bearing's power output end, the power output end of pendulum rod and the power input end fixed connection of transmission shaft, joint bearing's power input end and the piston rod end fixed connection of cylinder group.

The utility model discloses preferred technical scheme lies in, cylinder group is including driving actuating cylinder and cylinder support, and the one end and the cylinder support fixed connection of driving actuating cylinder drive actuating cylinder's tailpiece of the piston rod and the power input end fixed connection of swing group.

The utility model has the preferable technical proposal that the side surface of the distributing sheet close to the feeding transmission mechanism and the top surface of the distributing sheet form a sharp edge end with an included angle of 20-70 degrees.

The utility model discloses preferred technical scheme lies in, waste material guide slot configuration is concave groove, the feed inlet in concave groove and the bottom surface fixed connection who distributes the piece, the discharge gate and the waste material case looks adaptation in concave groove.

The utility model discloses preferred technical scheme lies in, fragrant strip waste recovery device still includes the frame, and bearing positioning seat and cylinder group are all fixed in one side of frame, and the dump bin is fixed in the bottom of frame, and the one end rotatable coupling of bearing plate and transmission shaft is passed through to the frame.

The utility model discloses preferred technical scheme lies in, and one side of frame is fixed with the protection casing that covers on drive assembly.

The utility model discloses preferred technical scheme lies in, is equipped with in the frame and feeds and cuts the mechanism, feeds and cuts output and feeding drive mechanism looks adaptation of cutting the mechanism.

The utility model has the advantages that:

the utility model provides a fragrant strip waste recovery device, fragrant strip raw materials form and wait to process fragrant strip and unnecessary fragrant strip waste material through cutting the back on feeding drive mechanism, and wait to process fragrant strip and be equidistant staggered distribution with unnecessary fragrant strip waste material, then transmit the branch material end of allocating the subassembly through feeding drive mechanism. The user debugs drive assembly and minute group subassembly matched with slew velocity, make it can utilize waiting to process the incense stick and the incense stick waste material transmit the interval time difference of minute group subassembly branch material end and treat processing incense stick and incense stick waste material and shunt, and carry out recycle with unnecessary incense stick waste material, degree of automation is high, the input cost of using manpower sparingly, and carry out unified recycle to the incense stick waste material, incense stick raw materials utilization ratio is higher, save the resource, environmental protection more.

Drawings

Fig. 1 is an isometric view of the overall structure of a waste strip recycling device provided in an embodiment of the present invention;

fig. 2 is an exploded view of the incense stick waste recycling device provided in the embodiment of the present invention;

FIG. 3 is an enlarged view of the waste incense stick recovery device shown in part A of FIG. 2;

FIG. 4 is an enlarged view of the waste strip recycling device shown in B of FIG. 2;

fig. 5 is a first perspective view of a dispensing assembly according to an embodiment of the present invention;

fig. 6 is a structural perspective view two of the dispensing assembly according to the embodiment of the present invention;

fig. 7 is an enlarged view of the structure of the dispensing assembly shown in section C of fig. 6.

In the figure:

1. a feed transmission mechanism; 2. a feeding transmission mechanism; 3. a waste recovery mechanism; 31. a distribution component; 311. a shifting piece; 3111. a sharp edge end; 312. a waste chute; 313. a drive shaft; 32. a drive assembly; 321. a cylinder group; 3211. a driving cylinder; 3212. a cylinder support; 322. a swing group; 3221. a swing rod; 3222. a knuckle bearing; 323. a bearing positioning seat; 324. a protective cover; 33. a waste bin; 4. a frame; 41. a bearing plate; 5. feed the cutting mechanism.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 7, in the incense stick waste recycling device provided in this embodiment, in order to enable the incense stick waste recycling device to split the incense sticks to be processed and the incense stick waste, the waste of the incense sticks is recycled. Further, incense stick waste recycling device includes feeding drive mechanism 1, pay-off drive mechanism 2 and waste recycling mechanism 3, feeding end looks adaptation of feeding drive mechanism 2 is passed through waste recycling mechanism 3 to the discharge end of feeding drive mechanism 1, waste recycling mechanism 3 is including allocating subassembly 31, drive assembly 32 and dump bin 33, drive assembly 32's power take off end and the power input end fixed connection who allocates subassembly 31, allocate the position between feeding end that subassembly 31 divided the material end to be located feeding drive mechanism 1 and the feeding end of pay-off drive mechanism 2, allocate subassembly 31's waste recycling end and dump bin 33 looks adaptation. The incense stick raw materials form incense sticks to be processed and redundant incense stick waste materials after being cut on the feeding transmission mechanism 1, the incense sticks to be processed and the redundant incense stick waste materials are distributed in an equidistant and staggered mode, and then the incense stick raw materials are transmitted to the material distribution end of the distribution component 31 through the feeding transmission mechanism 1. The user debugs drive assembly 32 and divide and dial subassembly 31 matched with swing speed, makes it can utilize waiting to process the incense stick and the incense stick waste material transmits the interval time difference of allocating the subassembly 31 branch material end to treat to process the incense stick and the incense stick waste material and shunt. The specific working steps are as follows: in the interval time that the incense stick waste material leaves the material distributing end of the material distributing assembly 31 and the incense stick to be processed does not enter the material distributing end of the material distributing assembly 31 (namely, the feeding transmission mechanism 1 needs to spend time by the distance between the incense stick to be processed and the incense stick waste material), the driving assembly 32 drives the material distributing assembly 31 to swing, so that the material distributing end of the material distributing assembly 31 is abutted against the discharging end of the feeding transmission mechanism 1 to form a transitional connection panel, when the incense stick to be processed enters the material distributing assembly 31 from the discharging end of the feeding transmission mechanism 1, the incense stick to be processed enters the feeding end of the feeding transmission mechanism 2 through the transitional connection panel, and is transmitted to the next station through the feeding transmission mechanism 2 to be further processed. Step two: in the interval time that the incense sticks to be processed leave the material distributing end of the distributing component 31 and the waste incense sticks do not enter the material distributing end of the distributing component 31 (namely the time spent by the feeding transmission mechanism 1 after the distance between the incense sticks to be processed and the waste incense sticks), the driving component 32 drives the distributing component 31 to swing, so that the material distributing end of the distributing component 31 is separated from the material discharging end of the feeding transmission mechanism 1 to form a material discharging gap, meanwhile, the material distributing end of the distributing component 31 inclines towards one side of the feeding transmission mechanism 2 to form a baffle plate which can block the incense stick waste from advancing, when the waste incense stick material enters the distributing component 31 from the discharging end of the feeding transmission mechanism 1, the waste incense stick material falls into the waste material recovery end of the distributing component 31 from the discharging gap through the baffle plate and the transmission action of the feeding transmission mechanism 1, and the incense stick waste materials are conducted into a waste material box 33 to be collected together, so that a user can recycle the incense stick waste materials in the waste material box 33. Through the action of circulating above-mentioned two work steps, make fragrant strip waste recovery device can treat to process fragrant strip and fragrant strip waste material and shunt to carry out recycle with unnecessary fragrant strip waste material, degree of automation is high, the input cost of using manpower sparingly, and unify recycle to fragrant strip waste material, and fragrant strip utilization of raw materials is higher, saves the resource, environmental protection more.

In order to make the distributing component 31 capable of distributing the incense sticks to be processed and the incense stick waste material. Further, the distributing component 31 comprises a distributing sheet 311, a waste material guide groove 312 and a transmission shaft 313, the bottom surface of the distributing sheet 311 is fixedly connected with the feeding end of the waste material guide groove 312, the discharging end of the waste material guide groove 312 is matched with the waste material box 33, the discharging end of the feeding transmission mechanism 1 is matched with the feeding end of the feeding transmission mechanism through the distributing sheet 311, the power output end of the driving component 32 is fixedly connected with the power input end of the transmission shaft 313, and the outer circular surface of the transmission shaft 313 is fixed on the bottom surface of the distributing sheet 311. The specific working steps are as follows: in the interval time when the incense stick waste material leaves the sub-shifting piece 311 and the incense stick to be processed does not enter the sub-shifting piece 311 (i.e. the feeding transmission mechanism 1 needs to spend time by the distance between the incense stick to be processed and the incense stick waste material), the driving component 32 drives the transmission shaft 313 to rotate, so as to drive the sub-shifting piece 311 to swing, so that the sub-shifting piece 311 abuts against the discharging end of the feeding transmission mechanism 1 to form a transitional connection panel, when the incense stick to be processed enters the sub-shifting piece 311 from the discharging end of the feeding transmission mechanism 1, the incense stick to be processed enters the feeding end of the feeding transmission mechanism 2 through the transitional connection panel, and is transmitted to the next station through the feeding transmission mechanism 2 to be further processed. Step two: in the interval time that the incense sticks to be processed leave the sub-shifting piece 311 and the waste incense sticks do not enter the sub-shifting piece 311 (i.e. the time spent by the feeding transmission mechanism 1 after the distance between the incense sticks to be processed and the waste incense sticks), the driving component 32 drives the transmission shaft 313 to rotate to drive the sub-shifting piece 311 to swing, so that the sub-shifting piece 311 is separated from the discharge end of the feeding transmission mechanism 1 to form a discharge gap, meanwhile, the branch poking sheet 311 inclines towards one side of the feeding transmission mechanism 2 to form a baffle plate for preventing the incense stick waste from advancing, when the waste incense stick material enters the distributing sheet 311 from the discharging end of the feeding transmission mechanism 1, the waste incense stick material falls into the waste material guide groove 312 from the discharging gap through the baffle plate and the transmission action of the feeding transmission mechanism 1, and the incense stick waste materials are conducted into a waste material box 33 to be collected together, so that a user can recycle the incense stick waste materials in the waste material box 33. Through the action of two above-mentioned work steps of circulation, make and allocate subassembly 31 and can treat to process fragrant strip and fragrant strip waste material and shunt to carry out recycle with unnecessary fragrant strip waste material, degree of automation is high, the input cost of using manpower sparingly, and unify recycle to fragrant strip waste material, fragrant strip utilization of raw materials is higher, saves the resource, environmental protection more.

In order to allow the drive assembly 32 to power the dispensing assembly 31. Further, the driving assembly 32 includes a cylinder block 321, a swing group 322, and a bearing positioning seat 323, a rod end of the cylinder block 321 is fixedly connected to a power input end of the swing group 322, a power input end of the transmission shaft 313 passes through the bearing positioning seat 323 to be fixedly connected to a power output end of the swing group 322, and the transmission shaft 313 is rotatably connected to the bearing positioning seat 323. The piston rod end of the cylinder set 321 makes reciprocating telescopic motion to drive the swing set 322 to make reciprocating swing, and drive the transmission shaft 313 to rotate on the bearing positioning seat 323, thereby driving the sub-shifting piece 311 to swing. The bearing positioning seat 323 plays a role in supporting and balancing the transmission shaft 313 through a rolling bearing, and the transmission shaft 313 can rotate on the bearing positioning seat 323 through the rolling bearing. Through the above process, the driving assembly 32 can provide power to the dispensing assembly 31.

In order to allow the swing group 322 to achieve a smooth swing. Further, the swing group 322 includes a swing rod 3221 and a knuckle bearing 3222, a power input end of the swing rod 3221 is hinged to a power output end of the knuckle bearing 3222, a power output end of the swing rod 3221 is fixedly connected to a power input end of the transmission shaft 313, and a power input end of the knuckle bearing 3222 is fixedly connected to a piston rod end of the cylinder group 321. The piston rod end of the cylinder group 321 makes reciprocating telescopic motion to drive the oscillating bearing 3222 to make reciprocating motion, and drive the oscillating rod 3221 to make reciprocating swing to drive the transmission shaft 313 to rotate, so as to drive the sub-shifting piece 311 to swing. The piston rod end of the cylinder group 321 is connected with the swing rod 3221 through the knuckle bearing 3222, so that the bearing capacity of the swing group 322 is improved, and the swing of the swing group 322 is more stable and reliable.

To facilitate mounting of the cylinder block 321 and to power the swing block 322. Further, the cylinder group 321 includes a driving cylinder 3211 and a cylinder support 3212, one end of the driving cylinder 3211 is fixedly connected to the cylinder support 3212, and a rod end of the driving cylinder 3211 is fixedly connected to a power input end of the swing group 322. The actuating cylinder 3211 can select for use the cylinder model for the miniature cylinder MA 16X 30SCA of Adeker, and the piston rod end of actuating cylinder 3211 makes reciprocating telescopic motion, drives swing group 322 and makes the swing, provides power for swing group 322, and cylinder support 3212 is used for installing fixed actuating cylinder 3211, conveniently drives actuating cylinder 3211 and carries out the location assembly.

In order to more fully separate the fragrance strip by the distributing sheet 311. Further, a sharp edge end 3111 with an included angle of 20-70 degrees is formed between the side surface of the distributing piece 311 close to the feeding transmission mechanism 1 and the top surface of the distributing piece 311. When sharp sword end 3111 butt when the discharge end of feeding drive mechanism 1, because sharp sword end 3111 is comparatively sharp, can scrape more fully from feeding drive mechanism 1's conveyer belt with the fragrant strip that conveys come and leave, reduce fragrant strip residual on feeding drive mechanism 1's the conveyer belt, fragrant strip raw materials utilization ratio is higher.

In order to reduce the problem of resource waste caused by easy material scattering when the incense stick raw material is recycled by the waste material guide groove 312. Further, the waste material guide groove 312 is configured as a concave groove, a feed inlet of the concave groove is fixedly connected with the bottom surface of the distributing sheet 311, and a discharge outlet of the concave groove is matched with the waste material box 33. The waste material guide groove 312 adopts a concave groove structure, so that the problem that the recycled fragrant strip raw materials are poured from the edge of the guide groove can be reduced, and the resource waste is reduced.

For positioning and assembling the scrap collecting mechanism 3. Further, the waste incense stick recovery device further comprises a frame 4, the bearing positioning seat 323 and the cylinder group 321 are fixed on one side of the frame 4, the waste bin 33 is fixed at the bottom of the frame 4, and the frame 4 is rotatably connected with one end of the transmission shaft 313 through the bearing plate 41. The positioning and assembling of the waste recovery mechanism 3 are realized by positioning and assembling the bearing positioning seat 323, the cylinder block 321 and the transmission shaft 313 through the frame 4.

To prevent personal injury and equipment damage from personnel contacting the drive assembly 32. Further, a shield 324 is fixed to one side of the frame 4 to cover the driving assembly 32. By covering the driving assembly 32 with the protective cover 324, personal injury and equipment damage caused by personnel contacting the driving assembly 32 can be prevented, and the safety is improved.

In order to cut the fragrant strip raw material of the feeding transmission mechanism 1. Further, a feeding and splitting mechanism 5 is arranged on the machine frame 4, and a splitting output end of the feeding and splitting mechanism 5 is matched with the feeding transmission mechanism 1. The incense stick raw materials are fed on the feeding transmission mechanism 1 and cut by the cutting mechanism 5 to form incense sticks to be processed and redundant incense stick waste materials, and the incense sticks to be processed and the redundant incense stick waste materials are distributed in an equidistant and staggered mode. Through the process, the fragrant strip raw materials of the feeding transmission mechanism 1 are cut.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims

1. The utility model provides a fragrant strip waste recovery device, includes feeding drive mechanism (1), pay-off drive mechanism (2) and waste recovery mechanism (3), the discharge end of feeding drive mechanism (1) passes through waste recovery mechanism (3) with the feeding end looks adaptation of pay-off drive mechanism (2), its characterized in that:

the waste recovery mechanism (3) comprises a distribution assembly (31), a driving assembly (32) and a waste box (33);

the power output end of the driving assembly (32) is fixedly connected with the power input end of the distribution assembly (31);

the material distributing end of the distributing component (31) is positioned between the discharge end of the feeding transmission mechanism (1) and the feed end of the feeding transmission mechanism (2), and the waste material recycling end of the distributing component (31) is matched with the waste material box (33).

2. The waste incense stick recycling device of claim 1, wherein:

the distribution component (31) comprises a distribution sheet (311), a waste guide groove (312) and a transmission shaft (313);

the bottom surface of the distributing and stirring sheet (311) is fixedly connected with the feeding end of the waste guide groove (312), and the discharging end of the waste guide groove (312) is matched with the waste box (33);

the discharge end of the feeding transmission mechanism (1) is matched with the feeding end of the feeding transmission mechanism through the sub-shifting piece (311);

the power output end of the driving assembly (32) is fixedly connected with the power input end of the transmission shaft (313), and the outer circular surface of the transmission shaft (313) is fixed on the bottom surface of the sub-poking piece (311).

3. The waste incense stick recycling device of claim 2, wherein:

the driving assembly (32) comprises a cylinder group (321), a swinging group (322) and a bearing positioning seat (323);

the piston rod end of the cylinder group (321) is fixedly connected with the power input end of the swing group (322);

the power input end of the transmission shaft (313) penetrates through the bearing positioning seat (323) to be fixedly connected with the power output end of the swinging group (322), and the transmission shaft (313) is rotatably connected with the bearing positioning seat (323).

4. The waste incense stick recycling device according to claim 3, wherein:

the swinging group (322) comprises a swinging rod (3221) and a joint bearing (3222);

the power input end of the swing rod (3221) is hinged with the power output end of the knuckle bearing (3222), and the power output end of the swing rod (3221) is fixedly connected with the power input end of the transmission shaft (313);

and the power input end of the joint bearing (3222) is fixedly connected with the piston rod end of the cylinder group (321).

5. The waste incense stick recycling device according to claim 3, wherein:

the cylinder group (321) comprises a driving cylinder (3211) and a cylinder support (3212);

one end of the driving cylinder (3211) is fixedly connected with the cylinder support (3212), and a piston rod end of the driving cylinder (3211) is fixedly connected with a power input end of the swing group (322).

6. The waste incense stick recycling device of claim 2, wherein:

and a sharp edge end (3111) with an included angle of 20-70 degrees is formed between the side surface of the sub-shifting piece (311) close to the feeding transmission mechanism (1) and the top surface of the sub-shifting piece (311).

7. The waste incense stick recycling device of claim 2, wherein:

the waste chute (312) is configured as a recessed groove;

the feed inlet of concave groove with the bottom surface fixed connection of minute plectrum (311), the discharge gate of concave groove with dump bin (33) looks adaptation.

8. The waste incense stick recycling device according to claim 3, wherein:

the incense stick waste recovery device also comprises a rack (4);

the bearing positioning seat (323) and the cylinder group (321) are fixed on one side of the frame (4);

the waste box (33) is fixed at the bottom of the rack (4);

the frame (4) is rotatably connected with one end of the transmission shaft (313) through a bearing plate (41).

9. The waste incense stick recycling device of claim 8, wherein:

and a protective cover (324) covering the driving assembly (32) is fixed on one side of the frame (4).

10. The waste incense stick recycling device of claim 8, wherein:

a feeding and splitting mechanism (5) is arranged on the rack (4);

the slitting output end of the feeding slitting mechanism (5) is matched with the feeding transmission mechanism (1).