CN112720607B - Energy-saving and environment-friendly waste paperboard compression equipment - Google Patents

Abstract

The invention relates to compression equipment, in particular to energy-saving and environment-friendly waste paperboard compression equipment. The technical problems of the invention are as follows: the energy-saving environment-friendly waste paperboard compression equipment is small in compression difficulty, short in time, easy in cutting operation and high in recovery efficiency. An energy-saving and environment-friendly waste paperboard compression device, which comprises: base, working plate and mounting panel are equipped with the working plate between the base, are equipped with the mounting panel on a portion of base, characterized by still including compression mechanism and pushing equipment, are equipped with compression mechanism on the mounting panel, are equipped with pushing equipment between a portion of base and the working plate. The position of the material can be adjusted through the action of the adjusting mechanism, so that the material is placed more orderly, and the subsequent cutting and compression are facilitated; through the effect of cleaning mechanism, can be with participating in the material cleaning out work board.

Description

Energy-saving and environment-friendly waste paperboard compression equipment

Technical Field

The invention relates to compression equipment, in particular to energy-saving and environment-friendly waste paperboard compression equipment.

Background

The cardboard is a thick paper sheet formed by interweaving fibers and processed by various pulps, has wide application, can be used for packaging, building, printing, decoration and the like, has low price, low practical cost and high utilization rate, and has very high elasticity, flat compression strength and vertical compression strength, so that the cardboard has high use frequency.

However, the used paperboards need to be recovered and tidied uniformly, so that the environment can be protected, the paperboards can be reused, the paperboards are compressed manually and have large difficulty, long time and low recovery efficiency due to the special structure of the paperboards, and the waste paperboards are difficult to cut and operate, so that the waste paperboards are developed, the compression difficulty is small, the time is short, the cutting operation is easy, and the recovery efficiency is high.

Disclosure of Invention

In order to overcome the defects of high compression difficulty, long time, difficult cutting operation and low recovery efficiency, the invention has the following technical problems: the energy-saving environment-friendly waste paperboard compression equipment is small in compression difficulty, short in time, easy in cutting operation and high in recovery efficiency.

The utility model provides an energy-conserving environmental protection is with abandonment cardboard compression equipment, includes base, working plate, mounting panel, compression mechanism and pushing equipment, is equipped with the working plate between the base, is equipped with the mounting panel on the one portion base, is equipped with compression mechanism on the mounting panel, is equipped with pushing equipment between one portion base and the working plate.

Further stated, the compression mechanism comprises a servo motor, a half gear, a first transmission rod, a first gear, a first belt transmission group, a second transmission rod, a first cam, a first sliding sleeve, a first spring and a pressing plate, wherein the servo motor is arranged on one part of a mounting plate, the half gear is arranged on an output shaft of the servo motor, the second transmission rod is rotatably connected to one part of the mounting plate, the first cam is arranged on one part of the second transmission rod, one side of the mounting plate is rotatably connected with the first transmission rod, the first belt transmission group is connected between the second transmission rod and the first transmission rod, the first gear is arranged on one part of the second transmission rod, the first gear is meshed with the half gear, the first sliding sleeve is arranged on one part of the mounting plate, the pressing plate is slidably connected with the pressing plate, and the first spring is connected between the pressing plate and the first sliding sleeve.

Further, the pushing mechanism comprises a third transmission rod, a second gear, a second belt transmission group, a fourth transmission rod, a crank connecting rod, a first connecting rod and a pushing plate, wherein one side of the working plate is rotatably connected with the third transmission rod, one part of the third transmission rod is provided with the second gear, the second gear is meshed with the half gear, one part of the base is rotatably connected with the fourth transmission rod, the second belt transmission group is connected between the fourth transmission rod and one part of the third transmission rod, one part of the fourth transmission rod is slidably connected with the crank connecting rod, the upper part of the crank connecting rod is provided with the first connecting rod, and the right rear part of the first connecting rod is provided with the pushing plate.

Further, the cutting mechanism comprises a mounting frame, a second sliding sleeve, a second spring, a cutter and a first handle, wherein one part of the mounting plate is provided with the mounting frame, the mounting frame is provided with the second sliding sleeve, the cutter is connected to the second sliding sleeve in a sliding manner, the second spring is connected between the cutter and the second sliding sleeve, and one part of the cutter is provided with the first handle.

Further, the device comprises a material blocking mechanism, wherein the material blocking mechanism comprises a second cam, a second connecting rod, a wedge block, a baffle plate and a rotary type baffle rod, one part of a fourth transmission rod is provided with the second cam, the bottom of the working plate is connected with the second connecting rod in a sliding mode, one part of the second connecting rod is provided with the wedge block, one part of the working plate is connected with the baffle plate in a sliding mode, and one part of the pressing plate is provided with the rotary type baffle rod.

Further, the cleaning mechanism comprises a cleaning frame and a second handle, wherein one part of the working plate is provided with a storage groove, the storage groove is provided with a detachable cleaning frame, and one part of the cleaning frame is provided with the second handle.

Further, the device also comprises an adjusting mechanism, wherein the adjusting mechanism comprises an adjusting plate, a third connecting rod and a third handle, the two sides of one mounting plate are connected with the third connecting rod in a sliding mode, the adjusting plate is arranged between one part of the third connecting rod, and the third handle is arranged between one part of the third connecting rod.

The invention has the following advantages: the position of the material can be adjusted through the action of the adjusting mechanism, so that the material is placed more orderly, and the subsequent cutting and compression are facilitated; the participating materials can be cleaned out of the working plate under the action of the cleaning mechanism, so that the working plate can be kept clean and tidy; through the cooperation of cutting mechanism and stock stop, can realize the light neat cutting to the material, prevent that the material from taking place the displacement in cutting process.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of a partial perspective structure of the present invention.

Fig. 4 is a schematic perspective view of a dam mechanism of the present invention.

Wherein the above figures include the following reference numerals: the device comprises a base, a 2-working plate, a 21-mounting plate, a 3-compression mechanism, a 31-servo motor, a 32-half gear, a 33-first transmission rod, a 34-first gear, a 35-first belt transmission group, a 36-second transmission rod, a 37-first cam, a 38-first sliding sleeve, a 39-first spring, a 310-pressing plate, a 4-pushing mechanism, a 41-third transmission rod, a 42-second gear, a 43-second belt transmission group, a 44-fourth transmission rod, a 45-crank connecting rod, a 46-first connecting rod, a 47-pushing plate, a 5-cutting mechanism, a 51-mounting frame, a 52-second sliding sleeve, a 53-second spring, a 54-cutter, a 55-first handle, a 6-blocking mechanism, a 61-second cam, a 62-second connecting rod, a 63-wedge block, a 64-baffle, a 65-rotating blocking rod, a 7-cleaning mechanism, a 71-placing groove, a 72-cleaning frame, a 73-second handle, an 8-adjusting mechanism, a 81-adjusting plate, a 82-third connecting rod and a 83-third connecting rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The utility model provides an energy-conserving environmental protection is with abandonment cardboard compression equipment, is shown in fig. 1, including base 1, work board 2, mounting panel 21, compression mechanism 3 and pushing equipment 4, is equipped with work board 2 between the base 1, is equipped with mounting panel 21 on the rear portion base 1, is equipped with compression mechanism 3 on the mounting panel 21, is equipped with pushing equipment 4 between front portion base 1 and the work board 2.

When people need to compress materials, the materials are placed on the working plate 2, the compression mechanism 3 is started, the compression mechanism 3 drives the pushing mechanism 4 to move, when the pushing mechanism 4 pushes the materials backwards, the compression mechanism 3 compresses the materials, after the operation is finished, the compression mechanism 3 is closed, and the pushing mechanism 4 stops moving.

Example 2

On the basis of embodiment 1, as shown in fig. 2 to 4, the compression mechanism 3 comprises a servo motor 31, a half gear 32, a first transmission rod 33, a first gear 34, a first belt transmission group 35, a second transmission rod 36, a first cam 37, a first sliding sleeve 38, a first spring 39 and a pressing plate 310, wherein the servo motor 31 is arranged at the right lower part of the mounting plate 21, the half gear 32 is arranged on the output shaft of the servo motor 31, the second transmission rod 36 is rotatably connected at the upper side of the right part of the mounting plate 21, the first cam 37 is arranged at the left part of the second transmission rod 36, the first transmission rod 33 is rotatably connected at the lower side of the right part of the mounting plate 21, a first belt transmission group 35 is connected between the second transmission rod 36 and the first transmission rod 33, the first gear 34 is meshed with the half gear 32, the first sliding sleeve 38 is arranged on the left part of the mounting plate 21, the pressing plate 310 is slidably connected with the pressing plate 310, and the first spring 39 is connected between the pressing plate 310 and the first sliding sleeve 38.

The material is placed on the working plate 2, then the servo motor 31 is started, the servo motor 31 drives the half gear 32, the first transmission rod 33, the first gear 34 and the first belt transmission group 35 to move, meanwhile, the second transmission rod 36 and the first cam 37 move, the first sliding sleeve 38, the first spring 39 and the pressing plate 310 move, when the half gear 32 and the first gear 34 are meshed, the first transmission rod 33 and the first belt transmission group 35 drive the second transmission rod 36 and the first cam 37 to rotate, when the first cam 37 is contacted with the pressing plate 310, the first cam 37 drives the pressing plate 310 to move downwards to compress the material, at the moment, the first spring 39 is subjected to pressure shrinkage movement, when the half gear 32 and the first gear 34 are separated, the first spring 39 loses pressure stretching reset, at the moment, the pressing plate 310 is driven to move upwards to reset, people can take out the compressed material, and after the compression is completed, the servo motor 31 is turned off.

The pushing mechanism 4 comprises a third transmission rod 41, a second gear 42, a second belt transmission group 43, a fourth transmission rod 44, a crank connecting rod 45, a first connecting rod 46 and a pushing plate 47, wherein the right rear side of the working plate 2 is rotationally connected with the third transmission rod 41, the right part of the third transmission rod 41 is provided with the second gear 42, the second gear 42 is meshed with the half gear 32, the front base 1 is rotationally connected with the fourth transmission rod 44, the second belt transmission group 43 is connected between the fourth transmission rod 44 and the right part of the third transmission rod 41, the left part of the fourth transmission rod 44 is slidably connected with the crank connecting rod 45, the upper part of the crank connecting rod 45 is provided with the first connecting rod 46, and the right rear part of the first connecting rod 46 is provided with the pushing plate 47.

When the second gear 42 and the half gear 32 are separated, the third transmission rod 41, the second belt transmission group 43, the fourth transmission rod 44, the crank connecting rod 44 and the first connecting rod 46 stop moving, so that the push plate 47 stops moving, the half gear 32 is meshed with the first gear 34, the material is compressed, the reciprocating is performed, the material is pushed at intervals and fully compressed, and after the pushing is finished, the servo motor 31 is turned off.

The cutting mechanism 5 comprises a mounting frame 51, a second sliding sleeve 52, a second spring 53, a cutter 54 and a first handle 55, wherein the mounting frame 51 is arranged at the front part of the left mounting plate 21, the second sliding sleeve 52 is arranged on the mounting frame 51, the cutter 54 is connected onto the second sliding sleeve 52 in a sliding manner, the second spring 53 is connected between the cutter 54 and the second sliding sleeve 52, and the first handle 55 is arranged at the left part of the cutter 54.

When the material is compressed, the first handle 55 is manually operated to move downwards to drive the cutter 54 to move downwards to cut the material, the second spring 53 is subjected to pressure shrinkage motion at the moment, after the material is cut, people release the first handle 55, the second spring 53 loses pressure to stretch and reset, and the cutter 54 is driven to move upwards to reset.

The device further comprises a material blocking mechanism 6, wherein the material blocking mechanism 6 comprises a second cam 61, a second connecting rod 62, a wedge block 63, a baffle plate 64 and a rotary baffle rod 65, the second cam 61 is arranged in the middle of the fourth transmission rod 44, the bottom of the working plate 2 is connected with the second connecting rod 62 in a sliding mode, the wedge block 63 is arranged at the rear portion of the second connecting rod 62, the baffle plate 64 is connected at the rear portion of the working plate 2 in a sliding mode, and the rotary baffle rod 65 is arranged at the rear portion of the pressing plate 310.

When the second gear 42 and the half gear 32 are meshed, the third transmission rod 41 and the second belt transmission group 43 move, meanwhile, the fourth transmission rod 44 and the second cam 61 move, when the second cam 61 contacts with the second connecting rod 62, the second connecting rod 62 and the wedge block 63 are driven to move backwards, the wedge block 63 contacts with the baffle plate 64, the baffle plate 64 is driven to move upwards to block and fix materials, when the second cam 61 is separated from the second connecting rod 62, the half gear 32 and the first gear 34 are meshed, the pressing plate 310 drives the rotary baffle rod 65 to move downwards, when the pressing plate 310 contacts with the baffle plate 64, the baffle plate 64 is driven to move downwards to reset, the second connecting rod 62 and the wedge block 63 are driven to move forwards to reset, and then the materials can be taken out, and the servo motor 31 is closed.

The cleaning mechanism 7 comprises a cleaning frame 72 and a second handle 73, the rear part of the working plate 2 is provided with a storage groove 71, the storage groove 71 is provided with a detachable cleaning frame 72, and the rear part of the cleaning frame 72 is provided with the second handle 73.

After the materials are compressed and cut, the second handle 73 is manually held, the cleaning frame 72 is pulled backwards after being lifted, the materials are cleaned, and after the cleaning is finished, the cleaning frame 72 is pushed forwards and reset by holding the second handle 73.

Still including adjustment mechanism 8, adjustment mechanism 8 is including regulating plate 81, third connecting rod 82 and third handle 83, and both sides all are connected with third connecting rod 82 in the front and back of left portion mounting panel 21 in a sliding manner, are equipped with regulating plate 81 between the right part of third connecting rod 82, are equipped with third handle 83 between the left part of third connecting rod 82.

When the material is conveyed to the lower part of the pressing plate 310, the third handle 83 is manually operated, the adjusting plate 81 is slightly moved rightward through the third connecting rod 82, the material is adjusted, the material is tidier, after the adjustment is finished, the third handle 83 is manually operated, and the adjusting plate 81 is moved leftward through the third connecting rod 82 to reset.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (3)

1. The energy-saving and environment-friendly waste paperboard compression equipment comprises a base (1), a working plate (2) and a mounting plate (21), wherein the working plate (2) is arranged between the base (1), one part of the base (1) is provided with the mounting plate (21), and the energy-saving and environment-friendly waste paperboard compression equipment is characterized by further comprising a compression mechanism (3) and a pushing mechanism (4), the compression mechanism (3) is arranged on the mounting plate (21), and the pushing mechanism (4) is arranged between one part of the base (1) and the working plate (2); the compression mechanism (3) comprises a servo motor (31), a half gear (32), a first transmission rod (33), a first gear (34), a first belt transmission group (35), a second transmission rod (36), a first cam (37), a first sliding sleeve (38), a first spring (39) and a pressing plate (310), wherein one part of the mounting plate (21) is provided with the servo motor (31), the output shaft of the servo motor (31) is provided with the half gear (32), one part of the upper side of the mounting plate (21) is rotationally connected with the second transmission rod (36), one part of the second transmission rod (36) is provided with the first cam (37), one side of the mounting plate (21) is rotationally connected with the first transmission rod (33), the first belt transmission group (35) is connected between the second transmission rod (36) and the first transmission rod (33), one part of the second transmission rod (36) is provided with the first gear (34), the first gear (34) is meshed with the half gear (32), one part of the mounting plate (21) is provided with the first sliding sleeve (38), one part of the first sliding sleeve (38) is connected with the pressing plate (310), and the first spring (38) is connected between the first sliding sleeve (38); the pushing mechanism (4) comprises a third transmission rod (41), a second gear (42), a second belt transmission group (43), a fourth transmission rod (44), a crank connecting rod (45), a first connecting rod (46) and a pushing plate (47), wherein one side of the working plate (2) is rotatably connected with the third transmission rod (41), one part of the third transmission rod (41) is provided with the second gear (42), the second gear (42) is meshed with the half gear (32), one part of the base (1) is rotatably connected with the fourth transmission rod (44), the second belt transmission group (43) is connected between the fourth transmission rod (44) and one part of the third transmission rod (41), one part of the fourth transmission rod (44) is slidably connected with the crank connecting rod (45), the upper part of the crank connecting rod (45) is provided with the first connecting rod (46), and the right rear part of the first connecting rod (46) is provided with the pushing plate (47); the cutting mechanism (5) comprises a mounting frame (51), a second sliding sleeve (52), a second spring (53), a cutter (54) and a first handle (55), wherein one part of the mounting plate (21) is provided with the mounting frame (51), the mounting frame (51) is provided with the second sliding sleeve (52), the cutter (54) is connected onto the second sliding sleeve (52) in a sliding manner, the second spring (53) is connected between the cutter (54) and the second sliding sleeve (52), and one part of the cutter (54) is provided with the first handle (55); the novel hydraulic automatic feeding device is characterized by further comprising a material blocking mechanism (6), wherein the material blocking mechanism (6) comprises a second cam (61), a second connecting rod (62), a wedge block (63), a baffle plate (64) and a rotary type baffle rod (65), one part of a fourth transmission rod (44) is provided with the second cam (61), the bottom of the working plate (2) is connected with the second connecting rod (62) in a sliding mode, one part of the second connecting rod (62) is provided with the wedge block (63), one part of the working plate (2) is connected with the baffle plate (64) in a sliding mode, and one part of the pressing plate (310) is provided with the rotary type baffle rod (65).

2. The energy-saving and environment-friendly waste paperboard compression equipment is characterized by further comprising a cleaning mechanism (7), wherein the cleaning mechanism (7) comprises a cleaning frame (72) and a second handle (73), a storage groove (71) is formed in one part of the working plate (2), the cleaning frame (72) is detachably arranged on the storage groove (71), and the second handle (73) is arranged on one part of the cleaning frame (72).

3. The energy-saving and environment-friendly waste paperboard compression equipment according to claim 2, further comprising an adjusting mechanism (8), wherein the adjusting mechanism (8) comprises an adjusting plate (81), a third connecting rod (82) and a third handle (83), the two sides of one mounting plate (21) are connected with the third connecting rod (82) in a sliding mode, the adjusting plate (81) is arranged between one part of the third connecting rod (82), and the third handle (83) is arranged between one part of the third connecting rod (82).

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