阅读说明：本技术 一种物流用粉碎装置 (Reducing mechanism for commodity circulation ) 是由 张沈青 王丽梅 鲁晓丽 王秋雅 于 2021-05-28 设计创作，主要内容包括：本发明涉及物流废弃包装回收用具技术领域,涉及一种物流用粉碎装置；本发明一号轴上的一号蜗轮也跟着转动,并驱动一号蜗杆带动二号轴转动；二号轴又通过一号传动带、传动轮组的作用使三号轴转动,进而使一号粉碎刀在粉碎筒内对从上方落下的物料进行粉碎,经过粉碎的物料即从下料管排除；而若物料未充分粉碎,则会残留在扬料板上；一号轴左端的一号锥齿轮也跟着转动,并驱动二号锥齿轮带动其同轴的阿基米德凸轮一起转动；阿基米德凸转动时,其尖头端与滑轴周期性作用,使滑轴通过升降杆带着扬料板重复性出现先下移然后瞬间复位的动作,在扬料板瞬间复位时,扬料板上的物料则会受到惯性作用而被扬起,并重新与一号粉碎刀作用,从而保证粉碎效果。(The invention relates to the technical field of logistics waste packaging and recycling tools, in particular to a crushing device for logistics; a first worm wheel on a first shaft of the invention also rotates along with the first worm wheel, and drives a first worm to drive a second shaft to rotate; the second shaft rotates the third shaft under the action of the first transmission belt and the transmission wheel set, so that the first crushing cutter crushes materials falling from the upper part in the crushing barrel, and the crushed materials are discharged from the discharging pipe; if the materials are not fully crushed, the materials can remain on the lifting plate; the first bevel gear at the left end of the first shaft also rotates along with the first shaft, and drives the second bevel gear to drive the coaxial Archimedes cam to rotate together; when the Archimedes convex rotates, the tip end of the Archimedes convex periodically acts with the sliding shaft, so that the sliding shaft drives the lifting plate to repeatedly move downwards and then reset instantly through the lifting rod, when the lifting plate resets instantly, materials on the lifting plate can be lifted under the action of inertia and act with the first crushing knife again, and the crushing effect is ensured.)

1. A crushing device for logistics is characterized by comprising a tank body component (1), a driving component (2), a first-class crushing component (3), a compression component (8) and a material lifting component (5);

the tank body assembly (1) comprises a base (101), a support (102), a crushing cylinder (103), a discharging pipe (104) and a hopper (105), wherein the crushing cylinder (103) is connected above the base (101) through the support (102), the top of the crushing cylinder (103) is connected with the hopper (105), and the bottom of the crushing cylinder is bent and connected with the vertical discharging pipe (104); a discharge outlet (106) is formed in the bottom of the hopper (105), and a bottom cover (107) is detachably arranged at the bottom end of the blanking pipe (104);

the base (101) is provided with a driving assembly (2), the crushing cylinder (103) is internally provided with a first-class crushing assembly (3), and the discharging pipe (104) is provided with a compression assembly (8); the right end of the first-class crushing assembly (3) is connected with the driving assembly (2), and the left end of the first-class crushing assembly is connected with the compressing assembly (8); the material lifting component (5) is arranged below the first type of crushing component (3), and the material lifting component (5) is also matched with the driving component (2).

2. The smashing device for logistics according to claim 1, wherein the driving assembly (2) comprises a servo motor (201), a first shaft (202), a first worm wheel (203), a first worm (204), a second shaft (205) and a first bevel gear (206);

the servo motor (201) is fixed on the base (101), and the output end of the servo motor is upwards connected with a first shaft (202); a first worm wheel (203) is arranged on the first shaft (202), and a first worm (204) is meshed with the first worm wheel (203); the second shaft (205) horizontally penetrates through and rotates to be connected with the support (102), the right end of the second shaft is connected with the first worm (204), and the left end of the second shaft is provided with the first bevel gear (206).

3. The smashing device for logistics according to claim 2, wherein the smashing assemblies (3) comprise a first transmission belt (301), a transmission wheel set (302), a third shaft (303) and a smashing knife (304);

the third shaft (303) is rotatably arranged in the crushing barrel (103) and is uniformly provided with a class of crushing knives (304); the right end of the third shaft (303) extends out of the crushing barrel (103) and is provided with a transmission wheel set (302) corresponding to the second shaft (205); the transmission wheel sets (302) are in transmission connection through a first transmission belt (301).

4. The crushing device for logistics according to claim 3, wherein the material lifting component (5) comprises an Archimedes cam (501), a second bevel gear (502), a sliding shaft (503), a lifting rod (504), a pressing plate (505), a first tension spring (506) and a material lifting plate (507);

the first bevel gear (206) is vertically meshed with a second bevel gear (502), and the second bevel gear (502) is coaxially connected with an Archimedes cam (501); the material lifting plate (507) is of a hollow structure, is arranged in the crushing barrel (103), and the bottom of the material lifting plate is connected with a lifting rod (504); the lifting rod (504) extends out of the crushing cylinder (103) downwards, a pressure plate (505) is arranged on the lifting rod (504), and a first tension spring (506) is connected between the pressure plate (505) and the outer wall of the crushing cylinder (103) and is positioned below the crushing cylinder (103); the bottom end of the lifting rod (504) is connected with a sliding shaft (503) forward, and the sliding shaft (503) is located below the Archimedes cam (501) and abuts against the Archimedes cam (501).

5. The crushing device for logistics according to claim 4, wherein the compression assembly (8) comprises a disc cam (801), a roller (802), a pressure rod (803), a pressure plate (804), a second tension spring (805) and a sealing plate (806);

the left end of the third shaft (303) extends out of the crushing barrel (103) and is connected with a disc cam (801), a roller (802) is abutted to the lower part of the disc cam (801), the roller (802) is arranged at the top end of a pressure rod (803), and the pressure rod (803) extends downwards into the discharging pipe (104) and is connected with a material pressing plate (804); a second tension spring (805) is connected between the pressure plate (804) and the inner top of the blanking pipe (104); the right end of the material pressing plate (804) is further connected with a sealing plate (806), and the sealing plate (806) is arranged along the inner wall of the discharging pipe (104) and extends upwards out of the discharging pipe (104).

6. The crushing device for logistics according to claim 5, wherein the material lifting plate (507) is still lower than the third shaft (303) when moving to the highest position and is not contacted with the crushing knife (304).

7. The smashing device for logistics according to claim 5, further comprising a discharging assembly (4), wherein the discharging assembly (4) comprises an incomplete bevel gear (401), a driven bevel gear (402), a fourth shaft (403), a support (404), a first reel (405), a first pull rope (406), a first wire wheel set (407), a baffle (408) and a pressure spring (409);

the baffle (408) is arranged below the discharge opening (106), and the right end of the baffle is hinged with the outer wall of the hopper (105); a pressure spring (409) is also connected between the baffle (408) and the inner wall of the crushing cylinder (103); the top end of the first shaft (202) is connected with an incomplete bevel gear (401); the right part of the base (101) is connected with a support (404), and a fourth shaft (403) horizontally penetrates through and is rotatably connected with the support (404); a driven bevel gear (402) is symmetrically arranged at the left section of the fourth shaft (403), and the driven bevel gear (402) is meshed with the incomplete bevel gear (401); a first reel (405) is arranged on the right section of the fourth shaft (403), and a first pull rope (406) is led out from the first reel (405); a wire wheel group (407) is arranged on the outer wall of the crushing barrel (103), and a first pull rope (406) bypasses the wire wheel group (407) and extends into the crushing barrel (103) and is connected with a baffle (408).

8. The crushing device for logistics according to claim 5, further comprising a second type crushing assembly (6); the second type crushing assembly (6) comprises a first transmission wheel (601), a second transmission belt (602), a second transmission wheel (603), a mounting shaft (604) and a second type crushing knife (605);

the mounting shaft (604) is positioned in the hopper (105) and is arranged close to the discharge port (106), and the mounting shaft (604) is uniformly provided with second-class crushing knives (605); the outer end of the mounting shaft (604) is connected with a first transmission wheel (601), and a second bevel gear (502) is also coaxially connected with a second transmission wheel (603); the first driving wheel (601) is in transmission connection with the second driving wheel (603) through a second transmission belt (602).

9. The crushing device for logistics according to claim 5, characterized by further comprising a pushing assembly (7); the pushing assembly (7) comprises a second reel (701), a second pull rope (702), a second type wire wheel set (703) and a rotating plate (704);

the bottom of the hopper (105) is provided with an arc-shaped surface, and the arc-shaped surface extends to the right part; the rotating plate (704) is positioned in the hopper (105), the left end of the rotating plate is hinged with the inner wall of the hopper (105), and the right end of the rotating plate is lapped with an arc-shaped surface; a second reel (701) is further arranged on the fourth shaft (403), and a second pull rope (702) is led out from the second reel (701); the top of the right end of the hopper (105) is provided with a second type of wire wheel set (703), and a second pull rope (702) bypasses the second type of wire wheel set (703) and is downwards connected with a rotating plate (704).

10. The crushing device for logistics according to claim 9, wherein the left end of the rotating plate (704) is spaced from the left end of the top of the hopper (105) to form a feeding port.

Technical Field

The invention relates to the technical field of logistics waste packaging and recycling tools, and relates to a crushing device for logistics.

Background

Logistics refers to the overall process of planning, implementing and managing raw materials, semi-finished products, finished products or related information from the production area of a commodity to the consumption area of the commodity in transportation, storage, distribution and other ways with the lowest cost and high efficiency in order to meet the needs of customers.

Logistics is a system for controlling the movement of raw materials, finished products and information from supply to the end consumer via the transfer and possession of various intermediate links, thereby achieving the clear goal of organization.

Modern logistics is a product of economic globalization and is also an important service industry for promoting economic globalization. The modern logistics industry in the world is in a steady growth situation, and Europe, America and Japan become important logistics bases in the world at present.

The modern logistics concrete content comprises the following aspects: customer service, demand forecasting, order processing, distribution, inventory control, shipping, warehouse management, factory and warehouse layout and location, handling, purchasing, packaging, intelligence information.

For logistics transportation, the transported articles are generally required to be packaged, so that a large amount of waste packages exist in the logistics industry.

In order to reduce material waste and to make reasonable use of resources, the logistics industry needs to recycle waste packages.

However, it is known that since the types and sizes of articles transported in logistics are different and the packaging specifications used are also different, it is necessary to crush and compress the articles for recycling.

Most of the existing logistics packaging and crushing devices perform simple crushing work, so that on one hand, the action time of packaging and crushing workpieces is short, and the situation of insufficient crushing is easy to occur; on the other hand, the subsequent compression operation requires transferring the crushed packages to an additional device, which also affects the overall working efficiency.

Therefore, the inventor has devised a crushing apparatus for logistics to solve the above problems.

Disclosure of Invention

Technical problem to be solved

The invention aims to overcome the defects in the prior art and provides a crushing device for logistics.

(II) technical scheme

A crushing device for logistics comprises a tank body component, a driving component, a first-class crushing component, a compression component and a material lifting component;

the tank body assembly comprises a base, a support, a crushing barrel, a feeding pipe and a hopper, wherein the crushing barrel is connected above the base through the support, the top of the crushing barrel is connected with the hopper, and the bottom of the crushing barrel is bent and connected with the vertical feeding pipe; the bottom of the hopper is provided with a discharge port, and the bottom end of the blanking pipe is detachably provided with a bottom cover;

the base is provided with a driving assembly, the crushing barrel is internally provided with a first-class crushing assembly, and the blanking pipe is provided with a compression assembly; the right end of the first-class crushing assembly is connected with the driving assembly, and the left end of the first-class crushing assembly is connected with the compressing assembly; the material raising component is arranged below the first type of crushing component and is also matched with the driving component.

Preferably, the driving assembly comprises a servo motor, a first shaft, a first worm wheel, a first worm, a second shaft and a first bevel gear;

the servo motor is fixed on the base, and the output end of the servo motor is upwards connected with a first shaft; a first worm wheel is arranged on the first shaft and meshed with a first worm; the second shaft horizontally penetrates through and rotates the connecting support, the right end of the second shaft is connected with the first worm, and the left end of the second shaft is provided with the first bevel gear.

Preferably, the first type of crushing component comprises a first transmission belt, a transmission wheel set, a third shaft and a first type of crushing cutter;

the third shaft is rotatably arranged in the crushing barrel and is uniformly provided with a class of crushing knives; the right end of the third shaft extends out of the crushing barrel and is provided with a transmission wheel set corresponding to the second shaft; the transmission wheel sets are in transmission connection through a first transmission belt.

Preferably, the lifting component comprises an Archimedes cam, a second bevel gear, a sliding shaft, a lifting rod, a pressing plate, a first tension spring and a lifting plate;

the first bevel gear is vertically meshed with a second bevel gear, and the second bevel gear is coaxially connected with an Archimedes cam; the material raising plate is of a hollow structure, is arranged in the crushing barrel and is connected with a lifting rod at the bottom; the lifting rod extends out of the crushing barrel downwards, a pressing plate is arranged on the lifting rod, and a first tension spring is connected between the pressing plate and the outer wall of the crushing barrel and is positioned below the crushing barrel; the bottom end of the lifting rod is connected with a sliding shaft forward, and the sliding shaft is positioned below the Archimedes cam and props against the Archimedes cam.

Preferably, the compression assembly comprises a disc cam, a roller, a compression rod, a pressure plate, a second tension spring and a sealing plate;

the left end of the third shaft extends out of the crushing barrel and is connected with a disc-shaped cam, a roller is abutted below the disc-shaped cam and is arranged at the top end of a pressure rod, and the pressure rod extends downwards into a blanking pipe and is connected with a pressure plate; a second tension spring is connected between the pressure plate and the inner top of the blanking pipe; the right end of the pressure plate is also connected with a sealing plate which is arranged along the inner wall of the blanking pipe and extends upwards out of the blanking pipe.

Preferably, the material lifting plate is still lower than the third shaft when moving to the highest position and is not contacted with one type of crushing knife.

Optionally, the device also comprises a discharging assembly, wherein the discharging assembly comprises an incomplete bevel gear, a driven bevel gear, a fourth shaft, a support, a first reel, a first pull rope, a first-class wire wheel set, a baffle and a pressure spring;

the baffle is arranged below the discharge port, and the right end of the baffle is hinged with the outer wall of the hopper; a pressure spring is connected between the baffle and the inner wall of the crushing cylinder; the top end of the first shaft is connected with an incomplete bevel gear; the right part of the base is connected with a support, and a fourth shaft horizontally penetrates through and is rotatably connected with the support; a driven bevel gear is symmetrically arranged at the left section of the fourth shaft and meshed with the incomplete bevel gear; a first reel is arranged at the right section of the fourth shaft, and a first pull rope is led out from the first reel; a wire wheel group is arranged on the outer wall of the crushing barrel, and a pull rope I bypasses the wire wheel group and extends into the crushing barrel and is connected with a baffle.

Optionally, the device also comprises a second type crushing assembly; the second type crushing assembly comprises a first driving wheel, a second driving belt, a second driving wheel, an installation shaft and a second type crushing cutter;

the mounting shaft is positioned in the hopper and is close to the discharge port, and the second-class crushing knives are uniformly arranged on the mounting shaft; the outer end of the mounting shaft is connected with a first driving wheel, and a second bevel gear is also coaxially connected with a second driving wheel; the first driving wheel and the second driving wheel are in transmission connection through a second driving belt.

Optionally, the device further comprises a pushing assembly; the material pushing assembly comprises a second reel, a second pull rope, a second type of lead wheel set and a rotating plate;

the bottom of the hopper is provided with an arc-shaped surface which extends to the right part; the rotating plate is positioned in the hopper, the left end of the rotating plate is hinged with the inner wall of the hopper, and the right end of the rotating plate is lapped with the arc-shaped surface; a second reel is also arranged on the fourth shaft, and a second pull rope is led out from the second reel; the top of the right end of the hopper is provided with a second type of wire wheel set, and a second pull rope bypasses the second type of wire wheel set and is downwards connected with the rotating plate.

Optionally, a distance is left between the left end of the rotating plate and the left end of the top of the hopper to form a feeding port.

(III) advantageous effects

The invention provides a crushing device for logistics, which has the following advantages:

1, a servo motor is adopted to drive a first shaft to rotate, a first worm wheel on the first shaft also rotates, and a first worm is driven to drive a second shaft to rotate; the second shaft rotates the third shaft under the action of the first transmission belt and the transmission wheel set, so that the first crushing knife crushes the packages falling from the upper part in the crushing barrel, and the crushed packages are discharged from the discharging pipe; if the package is not crushed fully, the package will remain on the material raising plate; the first bevel gear at the left end of the first shaft also rotates along with the first shaft, and drives the second bevel gear to drive the coaxial Archimedes cam to rotate together; when the Archimedes convex rotates, the tip end of the Archimedes convex periodically acts with the sliding shaft, so that the sliding shaft drives the lifting plate through the lifting rod to repeatedly move downwards and then reset instantly, when the lifting plate resets instantly, the package on the lifting plate is lifted under the action of inertia and acts with the first crushing knife again, and the crushing effect is ensured.

2, the third shaft drives the disc-shaped cam to rotate, and the roller is abutted against the disc-shaped cam under the action of the second tension spring, so that the roller drives the pressure plate and the sealing plate to lift through the pressure rod in turn; in the process that the sealing plate moves upwards, the crushing cylinder is gradually communicated with the blanking pipe, so that the package falls into the blanking pipe; on the contrary, the blanking pipe inlet is sealed in the downward moving process of the sealing plate, a compression cavity is formed by matching the bottom cover, and the blanking pipe is automatically compressed by the downward moving material pressing plate.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only for the present invention and protect some embodiments, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a block diagram of another embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is an enlarged view of a portion of FIG. 2;

FIG. 5 is a block diagram of a discharge assembly;

FIG. 6 is a block diagram of another portion of the discharge assembly;

FIG. 7 is a block diagram of a type II size reduction assembly;

FIG. 8 is a block diagram of the pusher assembly;

in the drawings, the components represented by the respective reference numerals are listed below:

1-tank assembly, 101-base, 102-support, 103-crushing cylinder, 104-blanking pipe, 105-hopper, 106-discharge outlet, 107-bottom cover;

2-driving component, 201-servo motor, 202-first shaft, 203-first worm wheel, 204-first worm, 205-second shaft, 206-first bevel gear;

3-a type crushing component, 301-a first transmission belt, 302-a transmission wheel set, 303-a third shaft and 304-a type crushing knife;

4-a discharge assembly, 401-an incomplete bevel gear, 402-a driven bevel gear, 403-a fourth shaft, 404-a support, 405-a first reel, 406-a first pull rope, 407-a wire guide wheel set, 408-a baffle and 409-a pressure spring;

5-a material lifting component, 501-an Archimedes cam, 502-a second bevel gear, 503-a sliding shaft, 504-a lifting rod, 505-a pressing plate, 506-a first tension spring and 507-a material lifting plate;

6-type II crushing assembly, 601-a first transmission wheel, 602-a second transmission belt, 603-a second transmission wheel, 604-installation shaft, 605-type II crushing knife;

7-pushing assembly, 701-second reel, 702-second pull rope, 703-second type wire wheel set and 704-rotating plate;

8-compression assembly, 801-disc cam, 802-roller, 803-compression bar, 804-pressure plate, 805-tension spring II and 806-sealing plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third," if any, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to the attached drawings, the crushing device for logistics comprises a tank body component 1, a driving component 2, a first-class crushing component 3, a compression component 8 and a material lifting component 5;

the tank body assembly 1 comprises a base 101, a support 102, a crushing cylinder 103, a feeding pipe 104 and a hopper 105, wherein the crushing cylinder 103 is connected above the base 101 through the support 102, the top of the crushing cylinder 103 is connected with the hopper 105, and the bottom of the crushing cylinder 103 is bent and connected with the vertical feeding pipe 104; the bottom of the hopper 105 is provided with a discharge port 106, and the bottom end of the blanking pipe 104 is detachably provided with a bottom cover 107;

the base 101 is provided with a driving assembly 2, the crushing cylinder 103 is internally provided with a first-class crushing assembly 3, and the discharging pipe 104 is provided with a compression assembly 8; the right end of the first-class crushing assembly 3 is connected with the driving assembly 2, and the left end of the first-class crushing assembly is connected with the compressing assembly 8; the material lifting component 5 is arranged below the first type of crushing component 3, and the material lifting component 5 is also matched with the driving component 2.

Example 2

Referring to the attached drawings, the crushing device for logistics comprises a tank body component 1, a driving component 2, a first-class crushing component 3, a compression component 8 and a material lifting component 5;

the tank body assembly 1 comprises a base 101, a support 102, a crushing cylinder 103, a feeding pipe 104 and a hopper 105, wherein the crushing cylinder 103 is connected above the base 101 through the support 102, the top of the crushing cylinder 103 is connected with the hopper 105, and the bottom of the crushing cylinder 103 is bent and connected with the vertical feeding pipe 104; the bottom of the hopper 105 is provided with a discharge port 106, and the bottom end of the blanking pipe 104 is detachably screwed with a bottom cover 107;

the base 101 is provided with a driving assembly 2, the crushing cylinder 103 is internally provided with a first-class crushing assembly 3, and the discharging pipe 104 is provided with a compression assembly 8; the right end of the first-class crushing assembly 3 is connected with the driving assembly 2, and the left end of the first-class crushing assembly is connected with the compressing assembly 8; the material lifting component 5 is arranged below the first type of crushing component 3, and the material lifting component 5 is also matched with the driving component 2.

The driving component 2 comprises a servo motor 201, a first shaft 202, a first worm wheel 203, a first worm 204, a second shaft 205 and a first bevel gear 206;

the servo motor 201 is fixed on the base 101, and the output end of the servo motor is upwards connected with a first shaft 202; a first worm wheel 203 is connected to the first shaft 202, and a first worm 204 is meshed with the first worm wheel 203; the second shaft 205 horizontally penetrates through and rotates to be connected with the bracket 102, the right end of the second shaft is connected with the first worm 204, and the left end of the second shaft is fixedly connected with the first bevel gear 206.

Wherein, the first type crushing component 3 comprises a first transmission belt 301, a transmission wheel set 302, a third shaft 303 and a first type crushing knife 304;

the third shaft 303 is rotatably arranged in the crushing barrel 103 and is uniformly provided with a first-class crushing knife 304; the right end of the third shaft 303 extends out of the crushing cylinder 103 and is provided with a transmission wheel set 302 corresponding to the second shaft 205; the transmission wheel sets 302 are in transmission connection through a first transmission belt 301.

The lifting component 5 comprises an Archimedes cam 501, a second bevel gear 502, a sliding shaft 503, a lifting rod 504, a pressing plate 505, a first tension spring 506 and a lifting plate 507;

the first bevel gear 206 is vertically meshed with a second bevel gear 502, and the second bevel gear 502 is coaxially connected with an Archimedes cam 501; the material lifting plate 507 is of a hollow structure, is arranged in the crushing barrel 103 and is connected with the lifting rod 504 at the bottom; the lifting rod 504 extends out of the crushing cylinder 103 downwards, a pressing plate 505 is connected to the lifting rod 504, the pressing plate 505 is positioned below the crushing cylinder 103, and a first tension spring 506 is connected between the pressing plate 505 and the outer wall of the crushing cylinder 103; the bottom end of the lifting rod 504 is connected with a sliding shaft 503 forward, and the sliding shaft 503 is positioned below the Archimedes cam 501 and abuts against the Archimedes cam 501.

The compression assembly 8 comprises a disc cam 801, a roller 802, a pressure rod 803, a pressure plate 804, a second tension spring 805 and a sealing plate 806;

the left end of the third shaft 303 extends out of the crushing barrel 103 and is connected with a disc cam 801, a roller 802 is abutted below the disc cam 801, the roller 802 is installed at the top end of a pressure rod 803, and the pressure rod 803 extends downwards into the blanking pipe 104 and is connected with a material pressing plate 804; a second tension spring 805 is connected between the pressure plate 804 and the inner top of the blanking pipe 104; the right end of the pressure plate 804 is further connected with a sealing plate 806, and the sealing plate 806 is arranged along the inner wall of the blanking pipe 104 and extends upwards out of the blanking pipe 104.

The following describes the method of using the present apparatus by taking this embodiment as an example:

a hopper 105 is used for putting the to-be-treated logistics waste package, and then the to-be-treated logistics waste package falls into the crushing cylinder 103 from a discharge opening 106; and starting a servo motor 201 to drive a first shaft 202 to rotate;

the first worm wheel 203 on the first shaft 202 rotates along with the first worm wheel and drives the first worm 204 to drive the second shaft 205 to rotate; the second shaft 205 rotates the third shaft 303 through the action of the first transmission belt 301 and the transmission wheel set 302, so that the first crushing knife 304 crushes the packages falling from the upper side in the crushing cylinder 103; wherein if the package is not sufficiently crushed, the package will remain on the material lifting plate 507;

the first bevel gear 206 at the left end of the first shaft 202 rotates along with the first shaft, and drives the second bevel gear 502 to drive the coaxial Archimedes cam 501 to rotate together; referring to the drawings, the slide shaft 503 at the bottom of the lifting rod 504 is always abutted against the archimedean cam 501 due to the action of the tension spring 505, and when the archimedean cam 501 rotates, the sharp end of the archimedean cam periodically acts with the slide shaft 503 to make the slide shaft 503 repeat the following states: gradually moving downwards and then instantly resetting; in this way, the sliding shaft 503 drives the lifting plate 507 to synchronize the actions through the lifting rod 504, and when the lifting plate 507 is reset instantly, the package on the lifting plate 507 is lifted under the action of inertia and acts with the first crushing knife 304 again, so that the crushing effect is ensured;

when the device works, the bottom cover 107 is ensured to seal the bottom end of the blanking pipe 104, so that the third shaft 303 drives the disc-shaped cam 801 to rotate, and the roller 802 abuts against the disc-shaped cam 801 under the action of the second tension spring 805, so that the roller is driven by the pressure rod 803 to lift and lower the pressure plate 804 and the sealing plate 806;

in the process that the sealing plate 806 moves upwards, the crushing cylinder 103 is gradually communicated with the blanking pipe 104, so that the package falls into the blanking pipe 104; on the contrary, the closing plate 806 moves downwards to close the inlet of the blanking tube 104, and a compression cavity is formed by matching with the bottom cover 107, so that the blanking tube 104 is automatically compressed by the downward-moving pressing plate 804;

after the treatment is completed, the bottom cover 107 is removed and the compressed package is taken out.

It should be noted that when the material lifting plate 507 moves up to the highest position, it is still lower than the third shaft 303 and does not contact with the first type crushing knife 304, so as to avoid interference.

Example 3

On the basis of the above-described embodiments,

the device also comprises a discharging component 4, wherein the discharging component 4 comprises an incomplete bevel gear 401, a driven bevel gear 402, a fourth shaft 403, a support 404, a first reel 405, a first pull rope 406, a first-class wire guide wheel set 407, a baffle 408 and a pressure spring 409;

the baffle 408 is arranged below the discharge opening 106, and the right end of the baffle is hinged with the outer wall of the hopper 105; a pressure spring 409 is also connected between the baffle 408 and the inner wall of the crushing cylinder 103; the top end of the first shaft 202 is connected with an incomplete bevel gear 401; the right part of the base 101 is connected with a support 404, and a fourth shaft 403 horizontally penetrates and is rotatably connected with the support 404; a driven bevel gear 402 is symmetrically and fixedly connected to the left section of the fourth shaft 403, and the driven bevel gear 402 is meshed with the incomplete bevel gear 401; a first reel 405 is arranged at the right section of the fourth shaft 403, and a first pull rope 406 is led out from the first reel 405; a first wire wheel group 407 is arranged on the outer wall of the crushing barrel 103, and a first pull rope 406 bypasses the first wire wheel group 407, extends into the crushing barrel 103 and is connected with a baffle 408.

Specifically, incomplete bevel gear 401 at the top end of first shaft 202 also rotates along with the rotation of driven bevel gear 402, and make fourth shaft 403 generate reciprocating forward and reverse rotation, so that first reel 405 can retract and release first pull rope 406, and cooperation pressure spring 409 makes baffle 408 generate reciprocating deflection, thereby intermittently opening discharge gate 106 to carry out blanking, and avoiding too much disposable feeding.

Example 4

On the basis of the above-described embodiments,

also comprises a second type crushing component 6; the second type crushing assembly 6 comprises a first driving wheel 601, a second driving belt 602, a second driving wheel 603, a mounting shaft 604 and a second type crushing knife 605;

the mounting shaft 604 is positioned in the hopper 105 and is arranged close to the discharge port 106, and the second-class crushing knives 605 are uniformly arranged on the mounting shaft 604; the outer end of the mounting shaft 604 is connected with a first driving wheel 601, and a second bevel gear 502 is also coaxially connected with a second driving wheel 603; the first driving wheel 601 and the second driving wheel 603 are in transmission connection through a second driving belt 602.

Specifically, No. two bevel gears 502 still drives coaxial No. two drive wheel 603 and rotates, and No. two drive wheel 603 makes No. one drive wheel 603 drive installation axle 604 through No. two drive belt 602 again and rotates to make two types of crushing sword 605 carry out primary crushing to commodity circulation abandonment packing in bin outlet 106 department, avoid because commodity circulation abandonment packing is bulky and do not good discharging from bin outlet 106.

Example 5

On the basis of the above-described embodiments,

also comprises a material pushing component 7; the pushing assembly 7 comprises a second reel 701, a second pull rope 702, a second type wire wheel group 703 and a rotating plate 704;

the bottom of the hopper 105 is provided with an arc-shaped surface which extends to the right part; the rotating plate 704 is positioned in the hopper 105, the left end of the rotating plate is hinged with the inner wall of the hopper 105, and the right end of the rotating plate is lapped with an arc-shaped surface; a second reel 701 is also arranged on the fourth shaft 403, and a second pull rope 702 is led out from the second reel 701; the top of the right end of the hopper 105 is provided with a second type wire wheel group 703, and a second pulling rope 702 bypasses the second type wire wheel group 703 and is downwards connected with a rotating plate 704.

Referring to the drawing, the left end of the rotating plate 704 is spaced from the left end of the top of the hopper 105 to form a feeding port, so that the feeding into the hopper 105 is facilitated; specifically, similar to the first reel 405, the second reel 701 also winds and unwinds the second pull rope 702, wherein the second pull rope 702 winds and unwinds to rotate the rotating plate 704 clockwise, so that the logistic plastic tray in the hopper 105 is pushed to the discharge opening 106 to assist blanking.

It should be noted that the control method of the electrical components is the prior art, and is explained here in order to avoid redundancy of description; and the present invention is primarily intended to protect mechanical equipment, the control means and circuit connections will not be explained in detail herein.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.