CN114919033B - Building site timber sweeps compression treatment device - Google Patents

Abstract

The invention relates to a processing device, in particular to a compression processing device for wood scraps in a construction site. Need design one kind and make things convenient for the sweeps to sieve iron before the compression blocking, building site timber sweeps compression treatment device that can not lead to the wasting of resources. The utility model provides a building site timber sweeps compression treatment device, includes spacing under casing, support chassis and support riser etc. and the symmetry rigid coupling has the support chassis around spacing under casing bottom, and the symmetry rigid coupling has the support riser around spacing under casing top left side. According to the invention, a proper amount of wood scraps are poured into the charging box, then the feeding roller rotates forwards to stir the wood scraps downwards, iron remained in the wood scraps is adsorbed on the screening roller by the magnetic sieve plate, and meanwhile, when the screening roller rotates forwards to drive the iron to rotate forwards to the right side, the magnetic sieve plate does not adsorb the iron, and the iron falls into the storage box through the guide square pipe, so that the iron is conveniently screened before the scraps are compressed into blocks, and resource waste is avoided.

Description

Building site timber sweeps compression treatment device

Technical Field

The invention relates to a treatment device, in particular to a compression treatment device for wood scraps in a construction site.

Background

Wood produces a large amount of wood waste during cutting and processing, and the waste is generally pushed directly beside the work site and is difficult to dispose of.

Patent application CN205766670U discloses a high-efficient wood waste briquetting processing apparatus. Woodwork manufacturing enterprise all can produce a large amount of timber sweeps and leftover bits in daily production process, and the waste material of bits form, microminiature is small, scatters easily in the air, needs sealed package, handles to get up to waste time and energy, lacks a high efficiency's timber sweeps treatment facility. The invention relates to a high-efficiency wood waste briquetting treatment device, wherein: the motor is fixedly connected with the crank, the crank is movably connected with the connecting rod, the connecting rod is fixedly connected with the push rod, the piston rod is connected with the ejection plate, the ejection plate is connected with the sliding groove through the cylindrical pin, the sliding groove is arranged on one side of the extrusion cavity, and the top of the extrusion cavity is connected with the feeding guide plate. Adopt hydraulic pressure as power, high efficiency's compaction timber waste is equipped with roof and ejecting equipment in the device, can be automatic ejecting with the waste material after the compaction, and is quick convenient, simple structure, and the practicality is strong. Although the device is convenient fast, simple structure, and the practicality is strong, fail to sieve remaining iron in the sweeps before compressing the blocking, lead to the wasting of resources.

Based on the defect that exists among the prior art, we propose a make things convenient for sweeps to sieve iron before compressing the blocking, can not lead to wasting of resources's building site timber sweeps compression processing apparatus.

Disclosure of Invention

In order to overcome the defect of resource waste caused by sieving iron remained in the scraps before the scraps are not compressed into blocks, the invention provides the compression treatment device for the wood scraps in the construction site, which is convenient for sieving the iron before the scraps are compressed into blocks and can not cause resource waste.

The technical implementation scheme of the invention is as follows:

the utility model provides a building site timber sweeps compression processing apparatus, including there being the spacing under casing, support the chassis, the charging box, support the riser, the feeding pipe chute, the atomizing spray tube, press the flitch, actuating mechanism and forming mechanism, symmetry rigid coupling has the support chassis around the spacing under casing bottom, symmetry rigid coupling has the support riser around the left side of spacing under casing top, the rigid coupling has the charging box between the support riser top, charging box right part below is connected with the feeding pipe chute, feeding pipe chute upper portion is connected with the atomizing spray tube, be equipped with the actuating mechanism who is used for providing power on the spacing under casing, be equipped with on the actuating mechanism and be used for compressing the flitch of pressing into the piece to timber sweeps, be equipped with the forming mechanism who is used for the unloading on the spacing under casing.

In a preferred embodiment of the invention, the driving mechanism comprises a servo motor, a slotting rotating shaft, a connecting bottom block, a sliding sleeve and a fixed guide pillar, the servo motor is connected to the left side of the front part of the limiting bottom box, an output shaft of the servo motor is connected with the slotting rotating shaft, the fixed guide pillars are symmetrically and fixedly connected to the front and the back of the upper part of the limiting bottom box, the sliding sleeve is arranged on the fixed guide pillars on the front and the back sides in a sliding manner, the sliding sleeve is fixedly connected with the pressure plate, the connecting bottom block is arranged on the front part of the limiting bottom box in a sliding manner, the connecting bottom block is fixedly connected with the pressure plate, and the connecting bottom block is further in threaded connection with the slotting rotating shaft.

In a preferred embodiment of the invention, the shaping mechanism comprises a shaping bottom plate, a first reset guide rod and a first reset spring, the first reset guide rod is symmetrically arranged at the front and back of the right part of the limiting bottom box in a sliding mode, the shaping bottom plate is fixedly connected between the bottom ends of the first reset guide rods at the front side and the back side, and the first reset spring is connected between the upper part of the first reset guide rods at the front side and the back side and the limiting bottom box.

In a preferred embodiment of the invention, the iron screening device also comprises a screening mechanism for screening iron, the screening mechanism comprises a first protective cover, a reversing bevel gear, a first reversing short column, a first transmission component, a second reversing short column, a positioning cover, a one-way rotating wheel and a positioning disc, a positioning roller, a feeding roller, a screening roller, a magnetic sieve plate, a material guide square tube, a storage box, a cleaning brush, a third reversing short column and a second transmission component, wherein the left part of the front side surface of the limiting bottom box is fixedly connected with a first protective cover, the lower part of the first protective cover is rotatably provided with the first reversing short column, the rear part of the first reversing short column and the left part of the slotting rotating shaft are fixedly connected with reversing bevel gears, the two reversing bevel gears are mutually engaged, the upper part of the first protective cover is rotatably provided with the second reversing short column, a first transmission component is connected between the front part of the first reversing short column and the front part of the second reversing short column, the upper part of the front side surface of the charging box is fixedly connected with a positioning cover, the positioning cover is rotatably provided with a one-way rotating wheel, the one-way rotating wheel is fixedly connected with the second reversing short column, and the left upper side of the front part of the charging box is rotatably provided with a positioning disc, one-way runner is located the positioning disc, one-way runner corotation can with the positioning disc contact, charging box left part upside rotary type is equipped with the location roller bearing, location roller bearing front end and positioning disc fixed connection, positioning roller middle part rigid coupling has the feeding gyro wheel, charging box right part upside rotary type is equipped with the screening gyro wheel, the inside rotary type of screening gyro wheel is equipped with the area magnetic screen board that is used for sifting out iron, charging box right part upside is connected with guide side pipe, charging box right flank lower part rigid coupling has the storage case, guide side pipe and storage case intercommunication, guide side pipe upper portion left side rigid coupling has the clearance brush, screening gyro wheel rear end centre of a circle position rigid coupling has third switching-over short column, be connected with the second drive assembly between third switching-over short column front portion and the positioning roller bearing rear portion.

In a preferred embodiment of the invention, the feeding inclined tube device further comprises a material blocking mechanism for blocking the feeding inclined tube, the material blocking mechanism comprises an L-shaped positioning frame, a positioning vertical plate, a positioning roller, a second reset guide rod, a second reset spring, a material blocking plate and a connecting transverse shaft, the L-shaped positioning frame is fixedly connected to the front side and the rear side of the material pressing plate, the second reset guide rod is fixedly connected to the front side and the rear side of the lower portion of the feeding inclined tube, the positioning vertical plate is slidably arranged on the second reset guide rods on the front side and the rear side, the positioning roller is rotatably arranged on the lower portion of the positioning vertical plate on the front side and the rear side, the second reset spring is sleeved on the second reset guide rods on the front side and the rear side, one end of the second reset spring is connected with the positioning vertical plate, the other end of the second reset spring is connected with the feeding inclined tube, the connecting transverse shaft is fixedly connected to the left side of the lower portion of the feeding inclined tube, the material blocking plate is rotatably arranged on the middle portion of the connecting transverse shaft, and the positioning rollers on the front side and the rear side are respectively slidably connected with the front side and the positioning vertical plate.

In a preferred embodiment of the invention, the discharging device also comprises a stripping mechanism for facilitating discharging, the stripping mechanism comprises a positioning transverse shaft, a second protective cover, a third transmission component, a fourth reversing short column, a driven gear, a positioning transverse plate, a driving rack, a limiting vertical plate, a third reset guide rod, a third reset spring, a connecting short rod, a positioning rope wheel and a stripping short block, the positioning transverse shaft is rotatably arranged between the right parts of the front and rear side supporting underframe, the second protective cover is fixedly connected between the right part of the rear supporting underframe and the rear side surface of the limiting bottom box, the fourth reversing short column is rotatably arranged in the middle of the rear part of the limiting bottom box, the third transmission component is connected between the middle part of the fourth reversing short column and the rear part of the positioning transverse shaft, the third transmission component is positioned in the second protective cover, the front portion of the fourth reversing short column is fixedly connected with a driven gear, the upper side of the rear portion of the limiting bottom box is provided with a positioning transverse plate in a sliding mode, the bottom of the positioning transverse plate is fixedly connected with a driving rack, the middle portion of the positioning transverse plate is fixedly connected with a third reset guide rod, the third reset guide rod is provided with a limiting vertical plate in a sliding mode, a third reset spring is sleeved on the third reset guide rod, one end of the third reset spring is connected with the limiting vertical plate, the other end of the third reset spring is connected with the positioning transverse plate, the upper side of the rear portion of the material pressing plate is fixedly connected with a connecting short rod, the connecting short rod is fixedly connected with the limiting vertical plate, the positioning transverse shaft is symmetrically and fixedly connected with positioning rope wheels in the front and back mode, the front and back symmetrical fixed connection at the top of the shaping bottom plate is provided with stripping short blocks for facilitating discharging, steel ropes are wound on the front and back positioning rope wheels on the front and back sides, and the tail ends of the front and back steel ropes are fixedly connected with the shaping bottom plate.

In a preferred embodiment of the invention, the ejection mechanism is used for ejecting materials and comprises positioning wedge blocks, positioning guide frames and positioning springs, the positioning guide frames used for ejecting materials are symmetrically arranged on the front and back of the upper side of the right part of the limiting bottom box in a sliding mode, the positioning wedge blocks used for ejecting materials are fixedly connected to the bottoms of the positioning guide frames, and the positioning guide frames on the front and back sides and the inside of the limiting bottom box are symmetrically fixedly connected with the positioning springs in the left and right mode.

In a preferred embodiment of the present invention, the storage box further comprises a cover, and the cover is rotatably arranged at the lower right part of the storage box.

The invention has the beneficial effects that:

1. according to the invention, a proper amount of wood scraps are poured into the charging box, then the feeding roller rotates forwards to stir the wood scraps downwards, iron remained in the wood scraps is adsorbed on the screening roller by the magnetic sieve plate, and meanwhile, when the screening roller rotates forwards to drive the iron to rotate forwards to the right side, the magnetic sieve plate does not adsorb the iron, and the iron falls into the storage box through the guide square pipe, so that the iron is conveniently screened before the scraps are compressed into blocks, and resource waste is avoided.

2. Under the action of the material blocking mechanism, the positioning roller moves rightwards to drive the material blocking plate to swing upwards, and the material blocking plate swings upwards to block the feeding inclined tube, so that the feeding inclined tube can be conveniently blocked.

3. According to the invention, under the action of the material ejecting mechanism, after the material pressing plate moves leftwards and resets, the positioning guide frame moves downwards and resets to eject the waste chip block downwards due to the action of the positioning spring, so that the waste chip block can be prevented from being attached to the limiting bottom box.

Drawings

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

Fig. 2 is a schematic view of a first partial sectional structure of the present invention.

Fig. 3 is a schematic sectional structure view of the driving mechanism of the present invention.

Fig. 4 is a schematic sectional structure view of the setting mechanism of the present invention.

FIG. 5 is a second partial sectional structural view of the present invention.

Figure 6 is a first partial cross-sectional structural schematic view of the screening mechanism of the present invention.

Fig. 7 is an enlarged schematic view of part a of the present invention.

Figure 8 is a second partial cross-sectional structural schematic view of the screening mechanism of the present invention.

Figure 9 is a third partial cross-sectional structural schematic view of the screening mechanism of the present invention.

Fig. 10 is a first partial sectional structural schematic view of the striker mechanism of the present invention.

Fig. 11 is a second partial sectional structural schematic view of the striker mechanism of the present invention.

Fig. 12 is a third partial sectional structural view of the present invention.

Fig. 13 is a first partial sectional structural schematic diagram of the stripping mechanism of the present invention.

Fig. 14 is an enlarged view of part B of the present invention.

Fig. 15 is a second partial sectional structural schematic diagram of the stripping mechanism of the invention.

Fig. 16 is a third partial sectional structural schematic view of the stripping mechanism of the present invention.

Fig. 17 is a schematic sectional structure view of the ejector mechanism of the present invention.

The parts are labeled as follows: 1. a limit bottom box, 2, a support bottom frame, 3, a charging box, 4, a support vertical plate, 5, a feeding inclined tube, 6, an atomizing spray pipe, 7, a pressure plate, 8, a driving mechanism, 81, a servo motor, 82, a slotted rotating shaft, 83, a connecting bottom block, 84, a sliding sleeve, 85, a fixed guide post, 9, a shaping mechanism, 91, a shaping bottom plate, 92, a first reset guide rod, 93, a first reset spring, 10, a screening mechanism, 101, a first protective cover, 102, a reversing bevel gear, 103, a first reversing short column, 104, a first driving component, 105, a second reversing short column, 106, a positioning cover, 107, a one-way rotating wheel, 108, a positioning disc, 109, a positioning rolling shaft, 1010, a feeding rolling wheel, 1011, a screening rolling wheel, 1012, a magnetic screen plate, 1013, a guide square tube, 1014, a storage box, 1015, a cleaning brush, 1016, a third reversing short column, 1017, a second transmission assembly, 1018, a cover, 11, a material blocking mechanism, 111, an L-shaped positioning frame, 112, a positioning vertical plate, 113, a positioning roller, 114, a second reset guide rod, 115, a second reset spring, 116, a material blocking plate, 117, a connecting transverse shaft, 12, a material removing mechanism, 121, a positioning transverse shaft, 122, a second protective cover, 123, a third transmission assembly, 124, a fourth reversing short column, 125, a driven gear, 126, a positioning transverse plate, 127, a driving rack, 128, a limiting vertical plate, 129, a third reset guide rod, 1210, a third reset spring, 1211, a connecting short rod, 1212, a positioning rope pulley, 1213, a material removing short block, 1214, a steel rope, 13, a material ejecting mechanism, 131, a positioning wedge block, 132, a positioning guide frame, 133 and a positioning spring.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.

Example 1

The utility model provides a building site timber sweeps compression processing apparatus, as shown in fig. 1-4, including spacing bottom case 1, support chassis 2, charging box 3, support riser 4, feeding pipe chute 5, atomizing spray tube 6, pressure flitch 7, actuating mechanism 8 and forming mechanism 9, spacing bottom case 1 bottom front and back symmetry rigid coupling has support chassis 2, spacing bottom case 1 top left side front and back symmetry rigid coupling has support riser 4, the rigid coupling has charging box 3 between the support riser 4 top, charging box 3 right part lower side is connected with feeding pipe chute 5, feeding pipe chute 5 upper portion is connected with atomizing spray tube 6, be equipped with actuating mechanism 8 on the spacing bottom case 1, be equipped with pressure flitch 7 on the actuating mechanism 8, pressure flitch 7 can realize compressing the timber sweeps into the piece, actuating mechanism 8 can realize providing power for the removal of pressure flitch 7, be equipped with forming mechanism 9 on the spacing bottom case 1, forming mechanism 9 can realize unloading the fashioned sweeps piece.

As shown in fig. 2 and fig. 3, the driving mechanism 8 includes a servo motor 81, a slotted rotating shaft 82, a connecting bottom block 83, a sliding sleeve 84 and a fixed guide post 85, the left side of the front portion of the limiting bottom case 1 is connected with the servo motor 81, an output shaft of the servo motor 81 is connected with the slotted rotating shaft 82, the fixed guide posts 85 are symmetrically and fixedly connected to the front and the back of the upper portion of the limiting bottom case 1, the sliding sleeves 84 are slidably arranged on the fixed guide posts 85 on the front and the back sides, the sliding sleeves 84 are fixedly connected with the pressure plate 7, the connecting bottom block 83 is slidably arranged on the front portion of the limiting bottom case 1, the connecting bottom block 83 is fixedly connected with the pressure plate 7, and the connecting bottom block 83 is further in threaded connection with the slotted rotating shaft 82.

As shown in fig. 2 and fig. 4, the shaping mechanism 9 includes a shaping bottom plate 91, a first reset guide rod 92 and a first reset spring 93, the first reset guide rods 92 are symmetrically arranged at the right portion of the limiting bottom box 1 in a front-back sliding manner, the shaping bottom plate 91 is fixedly connected between the bottom ends of the first reset guide rods 92 at the front and back sides, and the first reset springs 93 are connected between the upper portions of the first reset guide rods 92 at the front and back sides and the limiting bottom box 1.

Firstly, an operator connects an external water pipe of an atomizing spray pipe 6, opens the atomizing spray pipe 6, then pours a proper amount of wood waste into a charging box 3, the wood waste drops into a limiting bottom box 1 through a feeding inclined pipe 5, and the atomizing spray pipe 6 sprays clear water to the wood waste, so that the wood waste keeps moist, and is favorable for subsequent compression into blocks, when the limiting bottom box 1 is filled with the proper amount of wood waste, a servo motor 81 is started to rotate forwards, the servo motor 81 rotates forwards to drive a slotting rotating shaft 82 to rotate forwards, the slotting rotating shaft 82 rotates forwards to drive a connecting bottom block 83 to move rightwards, the connecting bottom block 83 moves rightwards to drive a pressure plate 7 to move rightwards, the pressure plate 7 moves rightwards to compress the wood waste into blocks, then the blocked wood waste is located on a shaping bottom plate 91, the servo motor 81 rotates backwards to reset, the slotting rotating shaft 82 rotates backwards to drive the pressure plate 7 to move leftwards through the connecting bottom block 83 to reset, after the pressure plate 7 moves leftwards to reset to the maximum stroke, the servo motor 81 is closed, the first reset guide rod 92 is pulled to drive the shaping bottom plate 91 to move downwards, the first reset spring 93 to repeatedly, and the first reset spring is released to compress the wood waste, and the first reset spring is released.

Example 2

On the basis of embodiment 1, as shown in fig. 5 to 9, the screening device 10 further comprises a screening mechanism 10, the screening mechanism 10 comprises a first shield 101, a reversing bevel gear 102, a first reversing short column 103, a first transmission assembly 104, a second reversing short column 105, a positioning cover 106, a one-way rotating wheel 107, a positioning disc 108, a positioning roller 109, a feeding roller 1010, a screening roller 1011, a magnetic sieve plate 1012, a material guiding square tube 1013, a storage box 1014, a cleaning brush 1015, a third reversing short column 1016 and a second transmission assembly 1017, the first shield 101 is fixedly connected to the left portion of the front side of the limiting bottom box 1, the first reversing short column 103 is rotatably connected to the lower portion of the first shield 101, the reversing bevel gear 102 is fixedly connected to the left portion of the rotating shaft 82 at the rear portion of the first reversing short column 103, the two reversing bevel gears 102 are mutually engaged, the second reversing short column 105 is rotatably connected to the upper portion of the first shield 101, the first reversing short column 103 is rotatably connected to the front portion of the second reversing short column 105, the first shield 104 is composed of two pulleys 103 and a pulley 103, a pulley 103 is mounted on the first pulley 103, the positioning short column 108 is rotatably connected to the positioning roller 107, the positioning roller 107 is rotatably connected to the front portion of the positioning box via the positioning roller 107, the positioning roller 107 and the positioning disc 109, the positioning disc 107, the positioning disc 109, the upper right side of the charging box 3 is rotatably provided with a screening roller 1011, the inside of the screening roller 1011 is rotatably provided with a magnetic screen plate 1012, the magnetic screen plate 1012 can absorb iron, the upper right side of the charging box 3 is connected with a material guiding square tube 1013, the lower part of the right side of the charging box 3 is fixedly connected with a material storage box 1014, the material guiding square tube 1013 is communicated with the material storage box 1014, the left side of the upper part of the material guiding square tube 1013 is fixedly connected with a cleaning brush 1015, the center of a circle of the rear end of the screening roller 1011 is fixedly connected with a third short reversing column 1016, a second transmission component 1017 is connected between the front part of the third short reversing column 1016 and the rear part of the positioning roller 109, the second transmission component 1017 consists of two belt pulleys and a belt, one belt pulley is mounted at the front part of the third short reversing column 1016, the other belt pulley is mounted at the rear part of the positioning roller 109, and the belt is wound between the two belt pulleys.

As shown in fig. 8, a lid 1018 is further included, and the lower right portion of the magazine 1014 is rotatably provided with the lid 1018.

As shown in fig. 5, 10, and 11, the material blocking device 11 further includes a material blocking mechanism 11, the material blocking mechanism 11 includes an L-shaped positioning frame 111, a positioning vertical plate 112, a positioning roller 113, a second reset guide rod 114, a second reset spring 115, a material blocking plate 116, and a connecting horizontal shaft 117, the L-shaped positioning frame 111 is fixedly connected to both the front and rear sides of the material pressing plate 7, the second reset guide rods 114 are fixedly connected to both the front and rear sides of the lower portion of the feeding inclined tube 5, the positioning vertical plates 112 are slidably connected to both the front and rear second reset guide rods 114, the positioning roller 113 is rotatably connected to both the front and rear positioning vertical plates 112, the second reset spring 115 is sleeved to both the front and rear second reset guide rods 114, one end of the second reset spring 115 is connected to the positioning vertical plate 112, the other end of the second reset spring 115 is connected to the feeding inclined tube 5, the connecting horizontal shaft 117 is fixedly connected to the left side of the lower portion of the feeding inclined tube 5, the material blocking plate 116 is rotatably connected to the middle portion of the connecting horizontal shaft 117, the material blocking plate 116 can block the feeding inclined tube 5, and the front and rear positioning roller 113 are slidably connected to both the front and rear material blocking plate 116.

As shown in fig. 12-16, the material removing device further comprises a material removing mechanism 12, the material removing mechanism 12 comprises a positioning transverse shaft 121, a second protective cover 122, a third transmission assembly 123, a fourth reversing short column 124, a driven gear 125, a positioning transverse plate 126, a driving rack 127, a limiting vertical plate 128, a third return guide rod 129, a third return spring 1210, a connecting short rod 1211, a positioning rope pulley 1212 and a material removing short block 1213, the positioning transverse shaft 121 is rotatably arranged between the right parts of the front and rear side supporting underframe 2, the second protective cover 122 is fixedly connected between the right part of the rear supporting underframe 2 and the rear side surface of the limiting bottom case 1, the fourth reversing short column 124 is rotatably arranged in the middle of the rear part of the limiting bottom case 1, the third transmission assembly 123 is connected between the middle part of the fourth reversing short column 124 and the rear part of the positioning transverse shaft 121, the third transmission assembly 123 is composed of two belt pulleys and a belt, one belt pulley is installed in the middle part of the fourth reversing short column 124, the other belt pulley is arranged at the rear part of the positioning transverse shaft 121, the belt is wound between the two belt pulleys, the third transmission assembly 123 is positioned in the second protective cover 122, the driven gear 125 is fixedly connected at the front part of the fourth reversing short column 124, the positioning transverse plate 126 is slidably arranged at the upper side of the rear part of the limiting bottom box 1, the driving rack 127 is fixedly connected at the bottom of the positioning transverse plate 126, the driving rack 127 is meshed with the driven gear 125, the third reset guide rod 129 is fixedly connected at the middle part of the positioning transverse plate 126, the limiting vertical plate 128 is slidably arranged on the third reset guide rod 129, the third reset spring 1210 is sleeved on the third reset guide rod 129, one end of the third reset spring 1210 is connected with the limiting vertical plate 128, the other end of the third reset spring 1210 is connected with the positioning transverse plate 126, the connecting short rod 1211 is fixedly connected at the upper side of the rear part of the material pressing plate 7, the connecting short rod 1211 is fixedly connected with the limiting vertical plate 128, and the positioning rope pulleys 1212 are symmetrically fixedly connected at the front and back on the positioning transverse shaft 121, the front and the back of the top of the shaping bottom plate 91 are symmetrically and fixedly connected with stripping short blocks 1213, the stripping short blocks 1213 can realize convenient discharging, steel ropes 1214 are wound on the front and the back side positioning rope wheels 1212, and the tail ends of the steel ropes 1214 on the front and the back sides are fixedly connected with the shaping bottom plate 91.

When the servo motor 81 rotates forwards, the slotted rotating shaft 82 rotates forwards to drive the first short reversing column 103 to rotate backwards through the reversing bevel gear 102, the first short reversing column 103 rotates backwards to drive the first transmission assembly 104 to rotate backwards, the first transmission assembly 104 rotates backwards to drive the second short reversing column 105 to rotate backwards, the second short reversing column 105 rotates backwards to drive the one-way rotating wheel 107 to rotate backwards, the one-way rotating wheel 107 rotates backwards to rotate idly on the positioning disc 108, when the servo motor 81 rotates backwards, people can pour a proper amount of wood waste into the charging box 3, the wood waste is contacted with the feeding roller 1010, then the slotted rotating shaft 82 rotates backwards to drive the first short reversing column 103 to rotate forwards through the reversing bevel gear 102, the first short reversing column 103 rotates forwards to drive the first transmission assembly 104 to rotate forwards, the first transmission assembly 104 rotates forwards to drive the second short reversing column 105 to rotate forwards, the second short reversing column 105 rotates forwards to drive the one-way rotating wheel 107 to rotate forwards, the one-way rotating wheel 107 drives the positioning disc 108 to rotate forwards, the positioning disc 108 positively rotates to drive the positioning roller 109 positively rotates, the positioning roller 109 positively rotates to drive the feeding roller 1010 positively rotates, the feeding roller 1010 positively rotates to stir wood chips downwards, residual iron in wood scraps is adsorbed on the screening roller 1011 by the magnetic screen plate 1012, meanwhile, the positioning roller 109 positively rotates to drive the second transmission component 1017 positively rotates, the second transmission component 1017 positively rotates to drive the screening roller 1011 positively rotates, the screening roller 1011 positively rotates to drive iron positively rotates, when the iron positively rotates to the right side, the magnetic screen plate 1012 does not adsorb the iron, the iron falls into the storage box 1014 through the guide square tube 1013, the cleaning brush 1015 can avoid dust rising, when the servo motor 81 is closed, the slotting rotating shaft 82 stops driving the first reversing 103 short column positively rotates, the screening roller 1011 positively rotates to stop, then the cover 1018 of the storage box is opened to take out the iron for subsequent treatment, then the cover 1018 is covered, so that the iron in the wood scraps can be conveniently screened out.

When the pressure plate 7 moves rightwards, the pressure plate 7 moves rightwards to drive the L-shaped positioning frame 111 to move rightwards, the L-shaped positioning frame 111 moves rightwards to drive the positioning vertical plate 112 to move rightwards, the second return spring 115 is compressed, the positioning vertical plate 112 moves rightwards to drive the positioning roller 113 to move rightwards, the positioning roller 113 moves rightwards to drive the material baffle 116 to swing upwards, the material baffle 116 swings upwards to block the inclined feeding pipe 5, and similarly, when the pressure plate 7 moves leftwards, the pressure plate 7 drives the positioning vertical plate 112 to move leftwards to reset through the L-shaped positioning frame 111, the second return spring 115 plays a role of assisting, the positioning roller 113 also moves leftwards to reset, and under the action of gravity, the material baffle 116 swings downwards to reset and does not block the inclined feeding pipe 5 any more, so that the inclined feeding pipe 5 can be conveniently blocked.

Initially, the first return spring 93 is in a compressed state, when the pressure plate 7 moves rightwards, the pressure plate 7 moves rightwards to drive the connecting short rod 1211 to move rightwards, the connecting short rod 1211 moves rightwards to drive the limiting vertical plate 128 to move rightwards, the limiting vertical plate 128 moves rightwards to drive the positioning transverse plate 126 to move rightwards, the third return spring 1210 plays a role in buffering, the positioning transverse plate 126 moves rightwards to drive the driving rack 127 to move rightwards, the driving rack 127 moves rightwards to drive the driven gear 125 to rotate positively, the driven gear 125 rotates positively to drive the fourth short reversing column 124 to rotate positively, the fourth short reversing column 124 rotates positively to drive the third transmission assembly 123 to rotate positively, the third transmission assembly 123 rotates positively to drive the positioning transverse shaft 121, the positioning transverse shaft 121 rotates positively to drive the positioning rope pulley 1212 to rotate positively, the positioning rope pulley 1212 rotates positively to loosen the steel rope 1214, due to the action of the first return spring 93, the first reset guide rod 92 drives the shaping bottom plate 91 to move upwards for resetting, then after the positioning transverse plate 126 moves rightwards for the maximum stroke, the pressure plate 7 continues to drive the limiting vertical plate 128 to move rightwards through the connecting short rod 1211, the third reset spring 1210 is continuously compressed, after wood waste is compressed into blocks, the pressure plate 7 moves leftwards through the connecting short rod 1211 to drive the limiting vertical plate 128 to move leftwards, the third reset spring 1210 continuously stretches for resetting, and after the third reset spring 1210 completes resetting, the limiting vertical plate 128 continues to move leftwards to drive the positioning transverse plate 126 to move leftwards for resetting, the positioning transverse plate 126 moves leftwards to drive the driving rack 127, the driving rack 127 moves leftwards to drive the driven gear 125 to rotate reversely, so that the positioning transverse shaft 121 rotates reversely to drive the positioning rope pulley 1212 to rotate reversely, the positioning rope pulley 1212 drives the shaping bottom plate 91 to move downwards through the reverse steel rope 1214, and the first reset spring 93 is compressed, the sizing bottom plate 91 moves downwards to drive the stripping short block 1213 to move downwards, the stripping short block 1213 moves downwards to drive the waste chip block to move downwards, and then the waste chip block is taken down to be subjected to subsequent treatment, so that people can take out the compressed waste chip block conveniently.

Example 3

On the basis of embodiment 1 and embodiment 2, as shown in fig. 12 and fig. 17, the ejection mechanism 13 is further included, the ejection mechanism 13 includes a positioning wedge block 131, a positioning guide frame 132 and a positioning spring 133, the positioning guide frame 132 is arranged on the upper side of the right portion of the limiting bottom case 1 in a front-back symmetrical sliding manner, the positioning wedge block 131 is fixedly connected to the bottom of the positioning guide frame 132, the positioning wedge block 131 can eject the formed waste bits, the waste bits are prevented from being attached to the limiting bottom case 1, and the positioning springs 133 are fixedly connected to the front-back two positioning guide frames 132 and the inside of the limiting bottom case 1 in a left-right symmetrical manner.

When the pressure plate 7 moves rightwards to compress wood scraps into blocks, the scraps blocks enable the positioning wedge-shaped block 131 to move upwards for a certain distance, the positioning spring 133 is compressed, and then after the pressure plate 7 moves leftwards to reset, the positioning guide frame 132 drives the positioning wedge-shaped block 131 to move downwards to reset and push out the scraps downwards due to the action of the positioning spring 133, so that the scraps can be prevented from being attached to the limiting bottom box 1.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (5)

1. The compression treatment device for the wood waste on the building site comprises a limiting bottom box (1), a supporting bottom frame (2), a charging box (3), supporting vertical plates (4), feeding inclined pipes (5), atomizing spray pipes (6) and a pressure plate (7), wherein the supporting bottom frame (2) is symmetrically and fixedly connected to the front and the back of the bottom of the limiting bottom box (1), the supporting vertical plates (4) are symmetrically and fixedly connected to the front and the back of the left side of the top of the limiting bottom box (1), the charging box (3) is fixedly connected between the tops of the supporting vertical plates (4), the feeding inclined pipes (5) are connected to the lower side of the right part of the charging box (3), the atomizing spray pipes (6) are connected to the upper part of the feeding inclined pipes (5), and the pressure plate (7) is used for compressing the wood waste into blocks; the driving mechanism (8) comprises a servo motor (81), a slotted rotating shaft (82), a connecting bottom block (83), a sliding sleeve (84) and fixing guide pillars (85), the servo motor (81) is connected to the left side of the front portion of the limiting bottom box (1), an output shaft of the servo motor (81) is connected with the slotted rotating shaft (82), the fixing guide pillars (85) are symmetrically fixedly connected to the front portion and the rear portion of the upper portion of the limiting bottom box (1), the sliding sleeves (84) are arranged on the fixing guide pillars (85) on the front side and the rear side in a sliding mode, the sliding sleeves (84) are fixedly connected with the pressure plate (7), the connecting bottom block (83) is arranged on the front portion of the limiting bottom box (1) in a sliding mode, the connecting bottom block (83) is fixedly connected with the pressure plate (7), and the connecting bottom block (83) is further in threaded connection with the slotted rotating shaft (82); the shaping mechanism (9) comprises a shaping bottom plate (91), first reset guide rods (92) and first reset springs (93), the first reset guide rods (92) are symmetrically arranged at the front and back of the right part of the limiting bottom box (1) in a sliding mode, the shaping bottom plate (91) is fixedly connected between the bottom ends of the first reset guide rods (92) at the front side and the rear side, and the first reset springs (93) are connected between the upper parts of the first reset guide rods (92) at the front side and the rear side and the limiting bottom box (1); the screening device also comprises a screening mechanism (10) for screening out iron, the screening mechanism (10) comprises a first protective cover (101), a reversing bevel gear (102), a first reversing short column (103), a first transmission assembly (104), a second reversing short column (105), a positioning cover (106), a one-way rotating wheel (107), a positioning disc (108), a positioning roller (109), a feeding roller (1010), a screening roller (1011), a magnetic sieve plate (1012), a material guiding square tube (1013), a storage box (1014), a cleaning brush (1015), a third reversing short column (1016) and a second transmission assembly (1017), the left part of the front side of the limiting bottom box (1) is fixedly connected with the first protective cover (101), the lower part of the first protective cover (101) is rotatably provided with the first reversing short column (103), the rear part of the first reversing short column (103) and the left part of the slotted rotating shaft (82) are fixedly connected with the reversing bevel gear (102), the two reversing bevel gears (102) are mutually meshed, the upper part of the first protective cover (101) is provided with the second reversing short column (105), the front part of the first reversing short column (103) is fixedly connected with the front positioning cover (106), one-way rotating wheel (107) and second reversing short column (105) fixed connection, charging box (3) front portion upper left side rotary type is equipped with positioning disc (108), one-way rotating wheel (107) is located positioning disc (108), one-way rotating wheel (107) corotation can contact with positioning disc (108), charging box (3) left portion upside rotary type is equipped with positioning roller (109), positioning roller (109) front end and positioning disc (108) fixed connection, positioning roller (113) middle part rigid coupling has feed roller (1010), charging box (3) right side upside rotary type is equipped with screening roller (1011), screening roller (1011) inside rotary type is equipped with takes magnetism sieve board (1012) that is used for sieving out iron, charging box (3) right side upside is connected with storage bin (1013), charging box (3) right side lower part rigid coupling has guide box (1013), 1014 square pipe (1014) and 101box (1014) intercommunication, there is clearance brush (1015) screening roller (1013) upper portion left side, storage roller (1011) rear end centre of a circle position rigid coupling has third reversing short column (105), the front portion transmission short column (1016) is connected with second reversing short column (109) transmission subassembly (1016).

2. The compression treatment device for the wood scraps in the construction site according to claim 1, further comprising a material blocking mechanism (11) for blocking the feeding inclined tube (5), wherein the material blocking mechanism (11) comprises an L-shaped positioning frame (111), a positioning vertical plate (112) and a positioning roller (113), the feeding inclined tube device comprises a second reset guide rod (114), a second reset spring (115), a material baffle plate (116) and a connecting transverse shaft (117), L-shaped positioning frames (111) are fixedly connected to the front side and the rear side of a material pressing plate (7), the front side and the rear side of the lower portion of a feeding inclined tube (5) are fixedly connected to the front side and the rear side of the second reset guide rod (114), positioning vertical plates (112) are arranged on the second reset guide rods (114) on the front side and the rear side in a sliding mode, positioning idler wheels (113) are arranged on the lower portions of the positioning vertical plates (112) on the front side and the rear side in a rotating mode, second reset springs (115) are sleeved on the second reset guide rods (114) on the front side and the rear side in a rotating mode, one end of each second reset spring (115) is connected with the corresponding positioning vertical plate (112), the other end of each second reset spring (115) is connected with the feeding inclined tube (5), the connecting transverse shaft (117) is fixedly connected to the left side of the lower portion of the corresponding transverse shaft (117), and the middle of the connecting transverse shaft (117) is rotatably provided with the material baffle plate (116) used for blocking the feeding inclined tube (5), and the front side and the rear side and the material baffle plate (113) are respectively connected with the front side and the rear side.

3. The compression treatment device for the wood scraps in the construction site according to claim 2, further comprising a stripping mechanism (12) for facilitating discharging, wherein the stripping mechanism (12) comprises a positioning transverse shaft (121), a second protective cover (122), a third transmission assembly (123), a fourth reversing short column (124), a driven gear (125), a positioning transverse plate (126), a driving rack (127), a limiting vertical plate (128), a third reset guide rod (129), a third reset spring (1210), a connecting short rod (1211), a positioning rope pulley (1212) and a stripping short block (1213), the positioning transverse shaft (121) is rotatably arranged between the right parts of the front and rear side supporting chassis (2), the second protective cover (122) is fixedly connected between the right part of the rear supporting chassis (2) and the rear side surface of the limiting bottom box (1), a fourth reversing short column (124) is rotatably arranged in the middle of the rear part of the limiting bottom box (1), the third transmission assembly (123) is rotatably connected between the middle part of the fourth reversing short column (124) and the rear part of the positioning transverse shaft (121), the third transmission assembly (123) is positioned in the second transmission assembly (122), the upper side of the fourth transmission assembly (125), the front positioning transverse plate (126) is fixedly connected to the front side positioning transverse plate (126) and the rear side supporting chassis (126), a third reset guide rod (129) is fixedly connected to the middle of the positioning transverse plate (126), a limiting vertical plate (128) is arranged on the third reset guide rod (129) in a sliding mode, a third reset spring (1210) is sleeved on the third reset guide rod (129), one end of the third reset spring (1210) is connected with the limiting vertical plate (128), the other end of the third reset spring (1210) is connected with the positioning transverse plate (126), a connecting short rod (1211) is fixedly connected to the upper side of the rear portion of the material pressing plate (7), the connecting short rod (1211) is fixedly connected with the limiting vertical plate (128), positioning rope wheels (1212) are symmetrically and fixedly connected to the front and the back of the positioning transverse shaft (121), material removing short blocks (1213) convenient for discharging are symmetrically and fixedly connected to the front and the back of the top of the shaping bottom plate (91), steel ropes (1214) are wound on the front and the back of the positioning rope wheels (1212) on the front and the two sides, and the tail ends of the steel ropes (1214) on the front and the back are fixedly connected with the shaping bottom plate (91).

4. The compression treatment device for the wood scraps in the construction site according to claim 3, further comprising an ejection mechanism (13) for ejecting materials, wherein the ejection mechanism (13) comprises a positioning wedge block (131), a positioning guide frame (132) and a positioning spring (133), the positioning guide frames (132) for ejecting the materials are symmetrically arranged on the upper side of the right part of the limiting bottom box (1) in a front-back sliding manner, the positioning wedge blocks (131) for ejecting the materials are fixedly connected to the bottoms of the positioning guide frames (132), and the positioning springs (133) are symmetrically fixedly connected to the left and right inside the front-back positioning guide frames (132) and the limiting bottom box (1).

5. The construction site wood waste compressing device as claimed in claim 1, further comprising a cover (1018), wherein the storage tank (1014) is rotatably provided with the cover (1018) at a lower right portion thereof.

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