CN114606610B - Coir mat manufacturing process - Google Patents

Abstract

The invention relates to the technical field of coir mat production, and particularly discloses a coir mat manufacturing process, which comprises the steps of opening, carding, lapping and needling to form a net by utilizing an opener, a carding machine, a lapping machine and a needle machine in sequence, wherein after the needling of the needle machine to form the net, the edge materials on two sides of a coir mat are cut off by using a cutting knife arranged on a rack; the needle punching machine further comprises a first conveying line below the needle punching machine and the cutting knife, the output end of the first conveying line is connected with a second conveying line, and the output end of the second conveying line is provided with a recovery box; the process also comprises the following recovery steps: and the powder produced by needling and the cut scraps fall onto the first conveying line, the scraps and the powder are conveyed to the second conveying line by the first conveying line, and the scraps and the powder are conveyed to the recovery box by the second conveying line, so that the scraps and the powder are recovered. This scheme is used for solving among the prior art rim charge that produces and powder need artifical the problem with high costs of the manual labor who handles existence alone in the palm pad production process.

Description

Coir mat manufacturing process

Technical Field

The invention relates to the technical field of coir mat production, in particular to a coir mat manufacturing process.

Background

In the production process of the palm mat, opening processes, scattering processes, lapping processes, net forming processes, glue spraying processes, drying processes and shaping processes are sequentially completed by utilizing a carding machine, a lapping machine, a needle machine, a glue spraying machine, a drying machine and a shaping machine, palm fibers are conveyed between the opening machine and the carding machine through a conveying line, specifically palm mat raw materials are opened by using the opening machine, then the palm fibers are carded by utilizing the carding machine, the palm mat is lapped by utilizing the lapping machine after carding, then the palm mat is subjected to net forming by utilizing the needle machine, because the needling process of the needle machine is that a plurality of palm fibers shuttle up and down on the net by self to form a net-formed palm mat with a certain compactness by self-weaving, because the palm fibers at the edge position of the net-formed palm mat are relatively fewer, the palm fibers cannot complete the net forming at the edge even though needle teeth, the edge materials are cut off by utilizing a cutting knife after the palm mat is formed into the net, and the cut off materials are called as edge materials; after the coir mat is formed into a net, in order to enable the coir mat to be more compact, glue is sprayed on the coir mat, then the coir mat is dried, and then hot-press forming is carried out, so that the obtained coir mat is compact.

In the prior art, after being cut off, the edge material needs to be recovered and then is carded with the raw material again for recycling, but in the prior art, after being recovered, the edge material needs to be manually fed again, so that the labor cost is increased; and the palm is at the felting needle meshwork in-process, though drive the palm and realize shuttling back and forth from top to bottom, nevertheless the in-process of shuttling back and forth, because of the felting needle is densely covered, and the felting needle weaves the net with higher frequency to the palm, lead to partial palm to be cut off and produce the powder, these powders are piled up in the needle loom below in a large number, need the manual work to clear up alone, the cost of labor has been increased, and the composition of powder is the fibre, so can regard as fertilizer to use, when the manual work cleared up the powder, still can have other materials on the powder, and then reduced the quality of fertilizer.

Disclosure of Invention

The invention aims to provide a coir mat manufacturing process to solve the problem that in the prior art, leftover materials and powder materials generated in the coir mat production process need to be treated independently by manpower, so that the labor cost is high.

In order to achieve the purpose, the invention adopts the following technical scheme:

the palm cushion manufacturing process comprises the steps of opening, carding, lapping and needling to form a net by utilizing an opener, a carding machine, a lapping machine and a needle machine in sequence, wherein after the needling of the needle machine to form the net, the edge materials on two sides of the palm cushion are cut off by using a cutting knife arranged on a rack; the needle punching machine further comprises a first conveying line below the needle punching machine and the cutting knife, the output end of the first conveying line is connected with a second conveying line, and the output end of the second conveying line is provided with a recovery box; the process also comprises a recovery step: and the powder produced by needling and the cut scraps fall onto the first conveying line, the scraps and the powder are conveyed to the second conveying line by the first conveying line, and the scraps and the powder are conveyed to the recovery box by the second conveying line, so that the scraps and the powder are recovered.

The principle and the advantages of the scheme are as follows:

when adopting this technology to carry out palm pad production, put into the palm to the opener, the palm is after preliminary scattering the opening, it combs in entering into the carding machine along the transmission line, the palm after the carding utilizes the lapping machine to realize the lapping, utilize the needle loom to realize the palm pad into the net after that, then utilize the needle loom to carry out the palm pad of net into weaving by oneself, form tight palm pad, the palm pad edge fails tight part of reality and utilizes the cutting knife excision, the leftover bits that the excision got off and the powder that the acupuncture process produced fall on the transfer chain one and are caught by transfer chain one, and then transport border material and powder together to transfer chain two through transfer chain one, utilize transfer chain two to retrieve powder and border material to the collection box, avoided the artifical independent clearance that goes on border material and powder alone, the cost of labor has been reduced.

Preferably, as an improvement, the output end of the second conveying line is higher than the input end, a separation conveying line is arranged between the top end of the recycling bin and the output end of the conveying line, the separation conveying line adopts a conveying net or a conveying roller, an inclined material returning plate is arranged on one side of the output end of the separation conveying line, and the bottom end of the material returning plate is far away from the separation conveying line and is positioned above a conveying line arranged between the opener and the carding machine; the recovery step also comprises the primary separation of the rim charge and the powder: the leftover materials and the powder materials are sent out by the second conveying line to a separation conveying line for separation, the separated powder materials fall into a recycling box, and the separated leftover materials enter a conveying line between the opener and the carding machine again through a material return plate.

Has the advantages that: after the powder and the rim charge are output from the tail end of the conveying line II through the separating conveying line provided with the conveying net or the conveying roller, the powder and the rim charge both fall onto the separating conveying line, the powder falls into the recovery box through the latticed shape of the conveying net or the gaps existing on the conveying roller, the rim charge falls onto the material return plate from the separating conveying line and is conveyed to the conveying line between the opener and the carding machine along the material return plate, and the rim charge can be directly recovered and reused; the scheme realizes the automatic separation of the rim charge and the powder, automatically sends the rim charge to the carding machine for secondary processing in the separation process, completely does not need manual intervention in the whole process, improves the automation degree and completely saves the manual labor.

Preferably, as an improvement, the side wall of the recycling bin is provided with a plurality of discharge holes, a plurality of guide groups are fixed on the recycling bin, the number of the guide groups is equal to that of the discharge holes, each guide group comprises a left guide plate and a right guide plate, and the left guide plate and the right guide plate are positioned on two sides of the discharge holes; the left guide plate and the right guide plate of the adjacent guide groups are fixedly connected with one end of the right guide plate far away from the discharge hole, and the guide groups divide the recovery box into a plurality of cavities with large top and small bottom; further comprises the step of powder split charging: and placing a recovery container below each discharge hole to receive the powder.

Has the beneficial effects that: through the setting of direction group and discharge opening for the direction group is cut apart into a plurality of big-end-up's cavities with the collection box, so that the powder removes and can not remain in the collection box to the discharge opening automatically. And the quantity of discharge opening has a plurality ofly for a plurality of recovery containers can carry out the partial shipment to the powder simultaneously, so that the powder is many by the container of partial shipment, reduces the frequency of powder packing, and then improves coir mat production efficiency relatively.

Preferably, as an improvement, it is connected with conical dispersion board to rotate on the collection box, is equipped with the guide board on the dispersion board, and the guide board is the heliciform, and on the one end of guide board extended to the profile of dispersion board, the dispersion board was used for scattering the powder of whereabouts to the collection box inner wall all around.

Has the advantages that: when this scheme of adoption, through the setting of pivoted toper dispersion plate, make the powder that falls on the dispersion plate all need remove along the guide board and along guide board landing to the collection box inner wall all around, because of the production of powder is comparatively even, and the existence of dispersion plate, make the powder that produces all acupuncture and rim charge cutting all fall on the dispersion plate, and be sent to between a plurality of direction groups in proper order at the rotation in-process by the dispersion plate, so that the volume of the powder that gets into the different direction groups of collection box is the same basically, and then make things convenient for the workman to set up corresponding recovery container (like recycling bin or recovery bag) below every discharge opening, all the same recovery container will accomplish the barreled in the time of the same basically, and then make things convenient for the workman to once only handle a plurality of recycling bins, reduce the time that the workman handled the powder.

Preferably, as an improvement, the collection box is cylindrical, and the outer wall of collection box rotates and is connected with annular shielding plate, is equipped with the relief hole that corresponds with the discharge opening on the shielding plate.

Has the beneficial effects that: when powder in the collection box needs to be discharged, the baffle plate is rotated, so that the discharge hole and the discharge hole are aligned to facilitate the discharge of the powder, and when the powder does not need to be discharged, the baffle plate is rotated, so that the discharge hole and the discharge hole are staggered, the baffle plate completes the blockage of the discharge hole, the powder cannot be discharged, and the powder recovery box is simple and convenient to operate.

Preferably, as an improvement, a beating plate is vertically and slidably connected to the rack, a conveying roller is adopted in the separation conveying line, the conveying roller comprises a plurality of roller bodies, the beating plate is located between adjacent roller bodies, and the beating plate can protrude out of the top of each roller body after rising; the recovery step also comprises secondary separation of the rim charge and the powder: after the rim charge is separated from the powder once, the rim charge is beaten by the ascending beating plate to beat the powder on the rim charge.

Has the beneficial effects that: because of rim charge and powder transport when entering into the separation conveying line together, so can be mingled with partial powder on the rim charge, and this scheme is through the setting of clapper for the powder is realizing once separating the back with the rim charge, and the rim charge will continue to move on the separation conveying line, and pat the rim charge through the clapper that can rise so that the powder can be patted off, realizes the secondary separation of rim charge and powder.

Preferably, as an improvement, the feed back plate is provided with a through hole.

Has the beneficial effects that: if the edge material entering the return plate still contains powder, the powder falls from the through hole, which is equivalent to three times of separation of the edge material and the powder.

Preferably, as an improvement, the frame is last to rotate and to be connected with the separation board of taking a plurality of separation hole, and the separation board is located separation transfer chain below, and the separation board is located the collection box top, is equipped with the elastic component between separation board and the frame, and the coaxial cam that is fixed with on the roller body, cam can press the separation board downwards, and the one end that the separation board position is low is equipped with the bar through hole, and the size of bar through hole is greater than the separation hole size.

Has the advantages that: when this scheme of adoption, the separation transfer chain is when carrying the opposite side material, and the rotation of roller body drives the cam and rotates thereupon, rotates the in-process, and the separator is pressed in the cam clearance, and then makes the ground separator constantly shake from top to bottom (also swing around the rotation center) under the cooperation of elastic component. In the vibration process, short palm fiber generated in the rim charge cutting process and short fiber clamped in powder can fall onto the separation plate from gaps between the roller bodies, continuously approach the strip-shaped through holes under the vibration of the separation plate, and finally are discharged from the strip-shaped through holes; the powder falls into the recovery box from the separation hole; also in this scheme, utilize roller body to realize the separation of rim charge and powder, recycle the separation board and realize the separation of powder and short fibril for the separation is more meticulous.

Preferably, as an improvement, the clapper is located above the separation plate, and the bottom of the clapper can contact with the separation plate.

Has the advantages that: through the swing of separation plate to realize beating the constantly by the lifting of board, and then realize beating the function of rim charge, realized the recycling of the energy.

Preferably, as an improvement, a U-shaped discharge chute inclined relative to the separation plate is fixedly connected to the separation plate, and the free end of the discharge chute extends out of the recovery box.

Has the advantages that: short palm fiber is conveniently and independently recovered through the arrangement of the discharge chute.

Drawings

FIG. 1 is an isometric view of an embodiment of the invention;

FIG. 2 is a schematic diagram of the three-dimensional structure of FIG. 1 from another perspective;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a partial isometric view of a retrieval device with portions of the frame removed in accordance with an embodiment of the present invention;

FIG. 5 is a left side view of FIG. 4;

FIG. 6 is a schematic diagram of a roller body and a separating plate of a separating conveyor line according to an embodiment of the present invention;

FIG. 7 is a left side sectional view of FIG. 4;

FIG. 8 is a schematic view of the connection between the recycling bin and the dispersing plate according to the embodiment of the present invention;

FIG. 9 is a schematic three-dimensional structure diagram of a recycling bin, a shielding ring and a recycling bin according to an embodiment of the invention;

fig. 10 is a top view of fig. 9.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: opener 100, carding machine 200, lapping machine 300, needle loom 400, cutting knife 500, frame 10, collection box 1, discharge opening 11, left deflector 12, right deflector 13, shielding plate 14, transfer chain one 2, transfer chain two 3, straight conveying section 31, slope conveying section 32, separation transfer chain 4, conveying roller 41, cam 42, feed back board 5, through-hole 51, separation board 6, separation hole 61, bar through hole 62, blown down tank 63, spring 7, clap board 8, dispersion board 9, guide board 91, carousel 92, driving shaft 20, driven shaft 30, recycling bin 40.

The embodiment is substantially as shown in figures 1 to 10 of the accompanying drawings.

Combine fig. 1 to 3, coir mat manufacturing process, coir mat production line need be utilized, coir mat production line includes frame 10 and the opener 100 that sets gradually, carding machine 200, lapping machine 300 and needle loom 400, install cutting knife 500 in the frame 10, cutting knife 500 is located needle loom 400's output one side, realize the conveying through the conveyer line of installing between opener 100 and the carding machine 200, still include recovery unit, recovery unit includes the passback conveyer line, frame 10 and collection box 1, frame 10 passes through the bolt fastening subaerial, collection box 1 passes through bolted connection mode or welded mode and fixes in frame 10.

With reference to fig. 4 to 7, the return conveying line includes a first conveying line 2 and a second conveying line 3, both the first conveying line 2 and the second conveying line 3 adopt belt lines with power, the first conveying line 2 is located below the needling machine 400 and the scrap cutting knife 500, the second conveying line 3 is located at the output end of the first conveying line 2, and the recycling bin 1 is located below the output end of the second conveying line 3. The first conveying line 2 is used for conveying powder generated in the process of needling the palm fibers by the needling machine 400 to the second conveying line 3, and meanwhile, the first conveying line 2 also conveys palm mat edge materials cut by the edge material cutting knife 500 to the second conveying line 3.

The second 3 transfer chain is including straight transport section 31 and slope transport section 32, straight transport section 31 is located between slope transport section 32 and the transfer chain 2, straight transport section 31 is perpendicular with the direction of transmission of transfer chain 2, straight transfer chain is used for transporting powder and rim charge to the position of keeping away from needle loom 400, the input (bottom) of slope transport section 32 is located the below of straight transport section 31, the top of slope transport section 32 is the output, and the top of this slope transport section 32 is located 1 tops of collection box.

The output of transfer chain two 3 is higher than the input, be equipped with separation transfer chain 4 between the output of the top of collection box 1 and transfer chain, separation transfer chain 4 is fixed in frame 10, separation transfer chain 4 adopts the transport roller 41 of power in this embodiment, transport roller 41 includes the roller body of a plurality of chain drive, the output one side of separation transfer chain 4 is fixed with the feed back board 5 of slope (also be the left side of fig. 5-7), feed back board 5 fixed connection is in frame 10, the separation transfer chain 4 is kept away from to the bottom of feed back board 5 and is located the transmission line top between opener 100 and carding machine 200. The return plate 5 is provided with a through hole 51 near the bottom end.

The direction of delivery of transfer chain 2 and transfer chain two 3, the direction of delivery that is located the transmission line between opener 100 and carding machine 200 are all perpendicular, and the direction of delivery of transfer chain two 3 is perpendicular with the 4 directions of delivery of separation transfer chain for carding machine 200, lapping machine 300 and recovery unit form a closed loop, so that make the mechanical installation of whole palm pad production compact, area is little, and make things convenient for direct recovery again after the separation of rim charge and powder.

The separation conveying line 4 is obliquely arranged, the output end of the separation conveying line 4 is lower than the input end, and a cam 42 is coaxially fixed on one of the roller bodies of the separation conveying line 4. A separating plate 6 with a plurality of separating holes 61 is arranged between the separating conveying line 4 and the recycling box 1, the separating plate 6 is rotatably connected to the rack 10, an elastic piece is arranged between the separating plate 6 and the rack 10, the elastic piece is a spring 7 in the embodiment, the rotating center of the separating plate 6 is positioned below the input end of the separating conveying line 4, the separating plate 6 tilts upwards in a free state, the cam 42 can press the separating plate 6 downwards, a strip-shaped through hole 62 is formed in the lower end of the separating plate 6 when tilting (namely, the strip-shaped through hole 62 is formed in the position, close to the rotating center, of the separating plate 6), and the size of the strip-shaped through hole 62 is larger than that of the separating hole 61; the separation holes 61 are used for allowing powder to fall into the recovery box 1 through the lower part, and the strip-shaped through holes 62 are used for short fibers to pass through. The U-shaped discharge chute 63 inclined relative to the separation plate 6 is welded on the separation plate 6, and the free end of the discharge chute 63 extends out of the recycling box 1, so that short and small fibers discharged from the discharge chute 63 can be conveniently recycled outside the recycling box 1.

It is preferable that the cam 42 is close to the output end of the separation feed line 4 so that the cam 42 is as far as possible from the rotation center of the separation plate 6 to reduce the difficulty of rotation of the separation plate 6. In this embodiment, a cam 42 is coaxially fixed to the roller body of the separation line 4 closest to the output end thereof.

Still vertical sliding connection has clapper board 8 on the frame 10, and in clapper board 8 inserted the clearance between the adjacent roller body, clapper board 8 bottom can contact with separation plate 6, and the welding of clapper board 8 bottom has the connecting rod of L type in this embodiment, through connecting rod and separation plate 6 contact to it goes up and down to be convenient for clapper board 8 realizes.

Combine fig. 8 to 10, collection box 1 is cylindrical, collection box 1 bottom is middle height low all around, it has a plurality of discharge opening 11 of circumference equipartition to open on collection box 1's the lateral wall, be fixed with multiunit direction group on collection box 1, the quantity of direction group equals the quantity of discharge opening 11, every group direction group all includes left deflector 12 and right deflector 13, left deflector 12 and right deflector 13 are located the left and right sides of discharge opening 11, the left deflector 12 of adjacent direction group and the top fixed connection of right deflector 13, setting through the direction group, make the direction group cut apart into a plurality of big-end-up's cavity with collection box 1, so that the powder is automatic to discharge opening 11 remove and can not remain in collection box 1.

An annular baffle plate 14 is rotatably connected to the outer wall of the recovery box 1, and a discharge hole corresponding to the discharge hole 11 is formed in the baffle plate 14.

The last rotation of collection box 1 is connected with carousel 92, and carousel 92 is fixed with conical dispersion board 9 through the connecting rod that has welded, and the welding has guide plate 91 on the conical surface of dispersion board 9, and guide plate 91 is the heliciform, and guide plate 91's bottom extends to on the profile of dispersion board 9.

Be fixed with the driver on the frame 10, the driver adopts servo motor, servo motor drives slope transport section 32 and carousel 92 and rotates, specifically do, it is connected with driving shaft 20 and driven shaft 30 to rotate on the frame 10, the driver drives the transmission of slope transport section 32, the belt pulley of slope transport section 32 is connected with the belt drive between the driving shaft 20, driving shaft 20 is connected with the belt drive of driven shaft 30, the shaping has the toper tooth on the carousel 92, fixedly connected with bevel gear on the driven shaft 30, bevel gear and the meshing of the toper tooth on the carousel 92, so that the driver passes through driving shaft 20, driven shaft 30 and bevel gear drive carousel 92 rotate, and then drive conical dispersion board 9 and rotate.

The coir mat manufacturing process by using the coir mat production line comprises the following steps:

s1, palm fiber opening: the palm fibers are opened and broken up by an opener 100.

S2, palm fiber carding: the opened palm fibers enter a carding machine 200 for carding.

S3, lapping: flocculent palm fibers are formed after carding, and the flocculent palm fibers are drawn by an exhaust fan and are sprayed out to the lapping machine 300.

S4, needling a mesh: the needle head of the needle machine 400 is used for driving the palm fiber to shuttle up and down, so that the paved palm fiber is self-woven, and a relatively compact net-formed palm pad is formed after the self-weaving is finished.

S5, cutting the rim charge: the edge part of the net-formed coir mat is cut off by a cutting knife 500, and the cut edge is rim charge.

S6, recovery: the leftover materials and the powder materials are sent to a conveying line II 3 through a conveying line I2 and sent to a separating conveying line 4 through the conveying line II 3, the separating conveying line 4 realizes primary separation of the leftover materials and the powder materials, a beating plate 8 on the separating conveying line 4 realizes secondary separation of the leftover materials and the powder materials, and the leftover materials fall into a conveying line between an opener 100 and a carding machine 200 along a material return plate 5 after secondary separation to realize recovery; the powder is separated and then enters the recovery box 1.

The specific one-time separation of the rim charge and the powder is as follows:

after the needling to the palm pad is accomplished at needle loom 400, the powder that the needling produced falls on transfer chain one 2, and the palm pad after the needling is accomplished leaves the rim charge after being cut by rim charge cutting knife 500, and the rim charge falls to transfer chain one 2, and transfer chain one 2 is all carried to the straight transport section 31 of transfer chain two 3 with the powder and the rim charge of receiving to the slope of conveying line two 3 is carried the section 32 under the transport of straight transport section 31.

After the rim charge and the powder fall down from the top end of the inclined conveying section 32, the rim charge and the powder fall down to the roller bodies of the separation conveying line 4 at the same time, and the powder falls down from the gap between the adjacent roller bodies, so that the powder and the rim charge are separated once.

Because the leftover materials are positioned on one side of the output end of the needle machine 400 when being cut, the leftover materials pass below the needle machine 400 again when moving along the conveyor line I2, so that partial powder generated by needling falls on the leftover materials, and the powder on the leftover materials is difficult to fall in the separation, so that the powder still exists on the leftover materials; at the same time, when the rim charge is cut, part of the palm fibers are cut into short palm fibers, and part of the short fibers can also fall onto the separating plate 6 on the gaps between the adjacent roller bodies.

As the cam 42 is coaxially fixed on one of the roller bodies of the separation conveying line 4, the separation plate 6 rotates on the rack 10, the separation plate 6 is provided with the separation hole 61 and the strip-shaped through hole 62, the cam 42 continuously rotates along with the roller bodies, and then the cam 42 intermittently presses the separation plate 6, so that the separation plate 6 can vibrate back and forth under the action of the spring 7 and the cam 42, in the vibration process of the separation plate 6, powder falling on the separation plate 6 falls to the recycling box 1 from the separation hole 61, and short fibers falling on the separation plate 6 gradually approach the strip-shaped through hole 62 under the vibration of the separation plate 6, finally fall to the discharge chute 63 from the strip-shaped through hole 62 and are discharged from the discharge chute 63, in the process, the separation of rim charge, the powder and the short fibers is completed, the obtained powder is purer, separation treatment is not needed again, the labor cost is saved, and automation is realized.

The secondary separation of the rim charge and the powder is as follows:

in the vibration process of the separation plate 6, the separation plate 6 continuously pushes the beating plate 8 to move upwards, and the beating plate 8 also moves downwards under the self gravity, so that the beating plate 8 is continuously jacked upwards to act on the rim charge, the rim charge is beaten, the falling of the powder which is not separated in time on the rim charge is facilitated, and the secondary separation of the rim charge and the powder is realized; also be convenient for beat short fiber that presss from both sides on the rim charge, reduce the content of short fiber on the rim charge, be favorable to improving the quality of the rim charge of retrieving.

After the process, the rim charge falls onto the return plate 5 from the output end of the separation conveying line 4, if the rim charge still has a small amount of powder, the powder is discharged from the through hole 51 on the return plate 5 in the process of falling along the return plate 5, which is equivalent to realizing the three-time separation of the rim charge and the powder, further reducing the content of the powder sent to the carding machine 200, being beneficial to improving the quality of palm cushions and reducing the dust amount generated in the carding process.

S7, powder split charging: through opening discharge opening 11 for the powder in the collection box 1 falls to placing in the recycling bin 40 of collection box 1 below from discharge opening 11, accomplishes the powder partial shipment.

This in-process is after the powder falls to toper dispersion board 9 from separator 6, powder on the dispersion board 9 all need remove along guide board 91 and along guide board 91 landing around collection box 1 inner wall, and the production of powder is comparatively even, make the powder that produces all acupuncture and rim charge cutting all fall on dispersion board 9, and by dispersion board 9 in the rotation in-process in proper order between a plurality of direction groups, so that the volume of the powder that gets into the different direction groups of collection box 1 is the same basically, and then make things convenient for the workman to set up corresponding recycling bin 40 (or recovery bag) below every discharge opening, all recycling bins 40 will accomplish the barrelling in the same time basically, and then make things convenient for the workman to once only handle a plurality of recycling bins 40, reduce the time that the workman handled the powder.

The foregoing is merely an example of the present invention and common general knowledge in the art of designing and/or characterizing particular aspects and/or features is not described in any greater detail herein. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several variations and modifications can be made, and these should also be considered as the protection scope of the present invention, which will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (7)

1. The palm cushion manufacturing process comprises the steps of opening, carding, lapping and needling to form a net by utilizing an opener, a carding machine, a lapping machine and a needle machine in sequence, wherein after the needling of the needle machine to form the net, the edge materials on two sides of the palm cushion are cut off by using a cutting knife arranged on a rack; the needle punching machine is characterized by further comprising a first conveying line below the needle punching machine and the cutting knife, wherein the output end of the first conveying line is connected with a second conveying line, and the output end of the second conveying line is provided with a recovery box;

the process also comprises a recovery step: the powder produced by needling and the cut scrap fall on the first conveying line, the scrap and the powder are conveyed to the second conveying line by the first conveying line, and the scrap and the powder are conveyed to the recovery box by the second conveying line to realize the recovery of the scrap and the powder;

the output end of the second conveying line is higher than the input end, a separation conveying line is arranged between the top end of the recovery box and the output end of the conveying line, an inclined material returning plate is arranged on one side of the output end of the separation conveying line, and the bottom end of the material returning plate is far away from the separation conveying line and is positioned above the conveying line arranged between the opener and the carding machine;

the recovery step also comprises the primary separation of the rim charge and the powder: the leftover materials and the powder materials are sent out by the second conveying line to a separation conveying line for separation, the separated powder materials fall into a recovery box, and the separated leftover materials enter a conveying line between the opener and the carding machine again through a material return plate;

the rack is vertically and slidably connected with a beating plate, the separation conveying line adopts a conveying roller, the conveying roller comprises a plurality of roller bodies, the beating plate is positioned between adjacent roller bodies, and the beating plate can protrude out of the top of the roller bodies after rising;

the recovery step also comprises secondary separation of the rim charge and the powder: after the rim charge is separated from the powder once, the rim charge is beaten by the ascending beating plate to beat the powder on the rim charge;

the separation board of taking a plurality of separation hole is connected in the rotation in the frame, and the separation board is located separation transfer chain below, and the separation board is located the collection box top, is equipped with the elastic component between separation board and the frame, and the last coaxial fixed of roller body has the cam, and the cam can press the separation board downwards, and the one end that the separation board position is low is equipped with the bar through hole, and the size of bar through hole is greater than the separation hole size.

2. The coir mat manufacturing process of claim 1, characterized in that: the side wall of the recovery box is provided with a plurality of discharge holes, a plurality of guide groups are fixed on the recovery box, the number of the guide groups is equal to that of the discharge holes, each guide group comprises a left guide plate and a right guide plate, and the left guide plate and the right guide plate are positioned on two sides of the discharge holes; the left guide plate and the right guide plate of the adjacent guide groups are fixedly connected with one end of the right guide plate far away from the discharge hole, and the guide groups divide the recovery box into a plurality of cavities with large top and small bottom;

further comprises the step of powder split charging: and placing a recovery container below each discharge hole to receive the powder.

3. The coir mat manufacturing process of claim 2, characterized in that: the last rotation of collection box is connected with conical dispersion board, is equipped with the guide board on the dispersion board, and the guide board is the heliciform, and on the one end of guide board extended to the profile of dispersion board, the dispersion board was used for dispersing the powder of whereabouts to the collection box inner wall all around.

4. The coir mat manufacturing process of claim 3, characterized in that: the recycling bin is cylindrical, an annular shielding plate is rotatably connected to the outer wall of the recycling bin, and a discharge hole corresponding to the discharge hole is formed in the shielding plate.

5. The coir mat manufacturing process of claim 1, characterized in that: and the feed back plate is provided with a through hole.

6. The coir mat manufacturing process of claim 1, characterized in that: the beating plate is positioned above the separating plate, and the bottom of the beating plate can be contacted with the separating plate.

7. The coir mat manufacturing process of claim 1, characterized in that: the U-shaped discharge chute which is inclined relative to the separation plate is fixedly connected to the separation plate, and the free end of the discharge chute extends out of the recovery box.

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