CN212736426U - Wood shaving processing device - Google Patents

Abstract

The invention discloses a wood shaving processing device, which comprises a rotary bin, a pressing bin, a cutter, a pressing device, a processing table and a processing table supporting seat, wherein the rotary bin is arranged on the rotary bin; the material pressing device is used for applying pressure to the material in the material pressing bin in the material processing process; the processing table is provided with a processing opening, the material pressing bin is arranged on the processing table and communicated with the processing opening, and the cutter is arranged below the processing table; the rotary bin enables materials to enter the pressing bin through butt joint with the pressing bin.

Description

Wood shaving processing device

Technical Field

The invention relates to the field of wood shaving machines, in particular to a wood shaving processing device.

Background

The wood shaving machine is mainly used for producing thin-sheet wood shavings, such as Chinese utility model patent with the application number of CN201920999436.4 and the name of a production device of long wood shavings for processing OSB shaving boards, such as Chinese utility model patent with the application number of CN201920773358.6 and the name of a board processing device, and such as Chinese invention patent with the application number of CN201810815968.8 and the name of a wood shaving machine. However, the cutting and feeding mode of the existing wood shaving machine has low efficiency and influences the production progress.

Disclosure of Invention

The invention aims to solve the problem that the existing wood shaving machine is low in processing efficiency.

The invention provides a wood shaving processing device capable of continuously feeding for the technical problems.

The technical scheme of the invention is as follows:

the wood shaving processing device comprises a rotary bin, a pressing bin, a cutter, a pressing device, a processing table and a processing table supporting seat; the material pressing device is used for applying pressure to the material in the material pressing bin in the material processing process; the processing table is provided with a processing opening, the material pressing bin is arranged on the processing table and communicated with the processing opening, and the cutter is arranged below the processing table; the rotary bin enables materials to enter the pressing bin through butt joint with the pressing bin.

Preferably, the rotary bin comprises a feeding bin and a rotary support, and the rotary support drives the feeding bin to rotate.

Preferably, the processing opening is provided with a baffle for opening or closing the processing opening.

Preferably, the width of the processing opening is slightly larger than or equal to the length of the materials, and the length of the processing opening is larger than or equal to the width of one material.

Preferably, the cutter comprises a cutter shaft and blades, and the number of the processing openings is odd or even when different from the number of the blades.

Preferably, the number of the pressing bins is at least two.

Preferably, the rotary bin is provided with a signal control device for controlling the rotary position.

Preferably, a feeding bin baffle is arranged at the outlet of the feeding bin, and the feeding bin baffle is used for opening or closing the outlet of the feeding bin.

Preferably, the rotary bin further comprises a motor, a synchronous belt and a belt wheel, the rotary support is mounted on the processing table or the ground, the motor is mounted on the rotary support, the belt wheel is mounted on the feeding bin, and the motor and the belt wheel are driven by the synchronous belt.

Preferably, the number of the feeding bins is at least two, and the vertical distance from the inlet of at least one feeding bin to the processing table is different from the vertical distance from the inlets of other feeding bins to the processing table.

Preferably, at least one of said pressing silos has a size different from the other pressing silos, said pressing silos of different size having a different distance from the rotation axis of the rotating silo.

Preferably, the distances between the material pressing bins with the same size and the rotating shaft of the rotating bin are the same, the material pressing bins with the same size are annularly arranged around the rotating shaft of the rotating bin, and the circle centers of all the rings are the same.

Preferably, the connecting lines of the center of the processing opening and the center of the annular circle are different.

Preferably, the processing opening is provided with a cutting edge, the pressing device comprises a pressing plate and a pressing plate driving device, the pressing plate driving device is installed on the pressing bin, and the pressing plate driving device drives the pressing plate to reciprocate.

Preferably, the material conveying device further comprises a material conveying machine, and the material conveying machine is used for conveying materials into the material conveying bin.

Compared with the prior art, the invention has the following advantages and effects:

the material enters the pressing bin through the rotating bin, and then pressure is applied to the material through the pressing device, so that the material is processed by the cutter to form wood shavings, continuous feeding can be formed, and the processing efficiency is greatly improved.

Drawings

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

FIG. 1 is a schematic sectional view of example 1 taken along line A-A in FIG. 3;

FIG. 2 is a schematic sectional view of embodiment 1 taken along the line A-C in the right half of FIG. 3;

FIG. 3 is a view showing a surface structure of a support base of the working table in embodiment 1;

FIG. 4 is a top view of the internal structure of the fixing bracket according to embodiment 1;

FIG. 5 shows a surface structure of a support base of the working table of example 2;

FIG. 6 is a top view of the apparatus of FIG. 5;

FIG. 7 is another surface structure of a support base of the processing table in accordance with embodiment 2;

FIG. 8 is an operating position diagram of the cutter head of the embodiment 5;

FIG. 9 is another operational position of the impeller of embodiment 5;

FIG. 10 is a cross-sectional view of the two-ring tooling opening of FIG. 3 taken along line B-B.

Description of reference numerals:

1-processing a platform supporting seat; 2-a processing table; 21-a cutter head; 22-a tool shaft; 23-angular contact roller bearing;

24-plain radial ball bearing; 3-a tool holder; 4-a tool holder connecting plate; 5-a cutter motor;

6-a slag discharge port; 72-two-ring pressing bin; 71-a ring pressing bin; 82-a two-ring feed bin;

81-one ring feeding bin; 9-a material pressing cylinder; 91-pressing a plate; 10-fixing a bracket; 11-a rotating bracket;

12-a rotating electrical machine; 131-a ring of machining openings; 132-a two-ring machining port; 133-three ring machining port;

14-a rotating pulley; 15-longitudinal connecting rod; 16-a transverse connecting rod; 17-a feeding bin baffle;

and 18-processing a port baffle.

Detailed Description

The present invention will be described in further detail with reference to examples, which are illustrative of the present invention and are not to be construed as being limited thereto.

Example 1: a wood shaving processing device comprises a rotary bin, a pressing bin, a cutter, a pressing device, a processing table supporting seat and a processing table; a processing table is arranged on the processing table supporting seat, a processing opening is formed in the processing table, a material pressing bin is arranged on the processing table and communicated with the processing opening, and a cutter is arranged below the processing table; the pressing device is arranged above the processing opening and used for applying pressure to the material in the processing process of the material; the rotary bin is in butt joint or separation with the pressing bin, and the rotary bin enables materials to enter the pressing bin through butt joint with the pressing bin.

The processing platform supporting seat is of a structure capable of supporting, the processing platform and the processing platform supporting seat can be fixedly connected, for example, welded and fixed or integrally cast, and the processing platform supporting seat are also detachably connected, for example, connected through bolts. The surface of the processing table is provided with at least one processing opening, the shape of the processing opening can be designed according to the external contour of the material, and the processing opening is preferably rectangular or square; the quantity of processing mouth can be adjusted according to the demand of processingquantity, and the position of processing mouth corresponds with the position of pressing feed bin, and the processing mouth is preferred to be distributed on the processing platform by the annular, and the number of turns of ring is preferred 1 to 5. The cutter comprises a cutter head and a cutter shaft, the cutter head is arranged on the cutter shaft, and at least 1 blade is arranged on the cutter head. The cutter shaft is preferably arranged at the center of the supporting seat of the processing table, the fixing mode of the cutter shaft is preferably fixed by bearings at two ends of the cutter shaft, the cutter head of the existing shaving machine can be selected, and the cutter blade with reinforcing ribs on the non-processing surface is preferably selected; the tool shaft is preferably driven by a belt pulley, but other driving means which can rotate the tool shaft may be used. The rotary bin is of a structure capable of generating rotary motion, and preferably adopts structures of a fixed support, a rotary support and a rotary motor. The fixed support can be arranged on the processing table or the ceiling or the ground or other fixed points, or any combination of the former four (for example, one fixed support is arranged on the processing table, and the other fixed support is arranged on the ceiling), and the rotating support is arranged on the fixed support; further, in order to save the floor space of the machine, 1 fixed bracket and 1 rotating bracket are preferably adopted, and the fixed bracket is arranged on the processing table. The pressing bin is of a structure capable of containing materials, the size of an outlet of the pressing bin is equal to or slightly larger than that of a processing opening connected with the pressing bin, and a Y-shaped upright post is preferably adopted and slightly larger than that of the processing opening. The feeding bin is of a structure capable of containing materials, and preferably adopts a funnel-shaped structure. The pressing device is of a reciprocating structure capable of applying pressure, and preferably adopts a cylinder. The structure and the components can adopt the structure and the components of the existing machine.

As shown in fig. 1 and 2, the processing table 2 is connected to the processing table support base 1 by bolts, and when parts in the processing table support base 1 need to be repaired, the processing table 2 is detached only, so that rapid repair can be realized. Processing platform supporting seat 1 is the square platform, the inside cavity of processing platform supporting seat 1, cutter motor 5 installs in 1 bottom of processing platform supporting seat, cutter motor 5 passes through the belt and links to each other with cutter shaft 22, cutter head 21 installs on cutter shaft 22, 5 blades are installed on cutter head 21, cutter shaft 22 passes through radial thrust roller bearing 23 and ordinary radial ball bearing 24 fixes in cutter frame 3, cutter frame 3 is inside hollow cylinder, radial thrust roller bearing 23 installs at 3 tops of cutter frame, ordinary radial ball bearing 24 installs in 3 bottoms of cutter frame, cutter frame 3 is located the axis department of processing platform supporting seat 1, cutter frame 3 is fixed through cutter frame connecting plate 4, cutter frame connecting plate 4 is the flat board. As shown in fig. 3, 2 circles of processing openings with different sizes are arranged on the upper surface of the supporting seat 1 of the processing table, the processing openings are arranged on the processing table 1 in a surrounding manner by taking the rotating shaft of the rotating bracket 11 as a rotating shaft, the processing openings are rectangular, the width of the processing openings is equal to the length of the bamboo tubes or longer than the length of the bamboo tubes by 1-5cm, the length of the processing openings is larger than the width of one bamboo tube and is the same as the length of a material pressing bin arranged above the processing openings, namely a ring processing opening 131 and a two ring processing opening 132, the length of the ring processing opening 131 is the width of 3 bamboo tubes, the length of the two ring processing opening 132 is the width of 4 bamboo tubes, the distance from the ring processing opening 131 to the central point of the supporting seat of the processing table is smaller than that from the two ring processing opening 132 to the central point of the supporting seat, the size of the one, and the one-ring processing opening 131 and the two-ring processing opening 132 are staggered with each other on different circular ring diameters. The first ring processing port 131 is provided with a ring pressing bin 71, and the second ring processing port 132 is provided with a second ring pressing bin 72. As shown in fig. 1, the first ring holding-down bin 71 and the second ring holding-down bin 72 are both Y-shaped, the first ring holding-down bin 71 is narrow and tall, and the second ring holding-down bin 72 is wide and short. The top parts of the first ring pressing bin 71 and the second ring pressing bin 72 are both provided with a pressing cylinder 9, a pressing plate 91 is arranged on a piston of the pressing cylinder 9, and the pressing plate 91 is used for pressing the bamboo tube. As shown in fig. 2, all of the two-ring ballast tanks 72 have the same structure. In the same way, the structure of the ring pressing bin 71 is the same. As shown in fig. 1 to 4, the fixed bracket 10 is fixed on the processing table 2 by a longitudinal connecting rod 15, and the fixed bracket 10, the first ring pressing bin 71 and the second ring pressing bin 72 are located on the same reference plane. The top of the fixed support 10 is provided with a rotating motor 12, the rotating motor 12 drives a rotating belt wheel 14 through a belt, and a rotating support 11 is arranged on the rotating belt wheel 14. The outer side surface of the rotating bracket 11 is provided with a feeding bin. The feeding bin is divided into a ring feeding bin 81 and a ring feeding bin 82, the vertical distance between the inlet of the ring feeding bin 81 and the processing table 2 is different from that between the inlet of the ring feeding bin 82 and the processing table 2, namely, the feeding belt line at the inlet of the ring feeding bin 81 and the feeding belt line at the inlet of the ring feeding bin 82 are at different heights, the feeding belt lines at different heights can be supplied to bamboo tubes with different sizes, and feeding errors are prevented. Further, as shown in fig. 1, the abutting surface of the one-ring feeding bin 81 and the one-ring pressing bin 71 and the abutting surface of the two-ring feeding bin 82 and the two-ring pressing bin 72 are also at different heights, so that when rotation is prevented, the one-ring feeding bin 81 and the two-ring pressing bin 72 or/and the two-ring feeding bin 82 and the one-ring pressing bin 71 interfere with each other. As shown in fig. 1 and 2, all of the one-ring and two- ring feed hoppers 81 and 82 have the same vertical distance from the rotation axis of the rotating frame 11. As shown in fig. 1, the outlet of the one-ring feeding bin 81 and the outlet of the two-ring feeding bin 82 are both provided with feeding bin baffles 17, and the feeding bin baffles 17 can be driven by electromagnets. The control is realized according to the loading signals of the one-ring feeding bin 81 and the two-ring feeding bin 82 and the position signal of the material pressing cylinder 9, the loading signals are obtained when the one-ring feeding bin 81 is in butt joint with the one-ring pressing bin 71, if the position signal of the material pressing cylinder 9 is in situ at the moment, the feeding bin baffle 17 of the one-ring feeding bin 81 is opened, and when the one-ring feeding bin 81 is separated from the one-ring pressing bin 71, the feeding bin baffle 17 of the one-ring feeding bin 81 is closed. Therefore, due to the fact that the plurality of the one-ring feeding bins 81 and the two-ring feeding bins 82 are installed, continuous material supplement is achieved, and the situation that all the one-ring pressing bins 71 and the two-ring pressing bins 72 are empty at the same time cannot be caused, and continuous automatic feeding is achieved. Because the datum planes of the fixed support 10, the first ring pressing bin 71 and the second ring pressing bin 72 are the same, the first ring feeding bin 81 and the second ring feeding bin 82 are installed on the fixed support 10, namely, the datum planes of the first ring feeding bin 81, the second ring feeding bin 82, the first ring pressing bin 71 and the second ring pressing bin 72 are the same, the position errors of the first ring feeding bin 81, the second ring feeding bin 82, the first ring pressing bin 71 and the second ring pressing bin 72 are calculated relative to the datum planes, the relative position errors among the first ring feeding bin 81, the second ring pressing bin 71 and the second ring pressing bin 82 cannot be accumulated, and therefore the butt joint of the first ring feeding bin 81, the first ring pressing bin.

The working principle is as follows: the feeding mode can adopt two manual or automatic modes, the automatic feeding can adopt a continuous feeding machine, a belt feeder is preferably selected, as shown in fig. 1-4, bamboo tubes are transversely arranged on feeding belt lines, the sizes of the bamboo tubes of the two feeding belt lines are different, the diameter difference of the bamboo tubes on the same feeding belt line is not large, one feeding belt line feeds the bamboo tubes to the one-ring feeding bin 81, the other feeding belt line feeds the bamboo tubes to the two-ring feeding bin 82, the diameter of the bamboo tubes feeding the one-ring feeding bin 81 is small, the diameter of the bamboo tubes feeding the two-ring feeding bin 82 is large, 8 bamboo tubes are fed at a time to enter the one- ring feeding bin 81, and 11 bamboo tubes are fed at a time to enter the two-ring feeding. The bamboo tubes enter the first ring feeding bin 81 and the second ring feeding bin 82, and the length of the bamboo tubes in the first ring feeding bin 81 is 1-5cm smaller than that of the first ring feeding bin 81, and the length of the bamboo tubes in the second ring feeding bin 82 is 1-5cm smaller than that of the second ring feeding bin 82, so that the bamboo tubes are limited in the length direction; then, the rotary motor 12 works to drive the one-ring feeding bin 81 and the two-ring feeding bin 82 to rotate, when the one-ring feeding bin 81 is in butt joint with the one-ring pressing bin 71, the feeding bin baffle 17 of the one-ring feeding bin 81 is opened, the cutter motor 5 works, the bamboo tube falls into the one-ring pressing bin 71, because the length of the bamboo tube is 1-5cm smaller than the size of the one-ring pressing bin 71, the one-ring pressing bin 71 can limit the bamboo tube, and the bamboo tube cannot vertically turn over and horizontally rotate in the process of falling into the bottom of the one-ring pressing bin 71 and can be stacked into an upper layer, a middle layer and a lower layer, specifically, 3 bamboo tubes of the lower layer, 2 bamboo tubes of the middle layer and 3 bamboo tubes of the upper layer. Similarly, the two-ring pressing bin 72 has 4 bamboo tubes at the lower layer, 3 middle layers and 4 upper layers. Because the width of a ring processing mouth 131 is roughly the same with thick bamboo tube length, a ring processing mouth 131 can be spacing to the thick bamboo tube, then press material cylinder 9, push down 8 thick bamboo tubes, 3 thick bamboo tubes of lower floor become the wood shavings through the cutting of blade disc 21 earlier, then cut middle level and upper strata in proper order, then press material cylinder 9 to return to the normal position, accomplish a processing in a ring pressing feed bin 71, press material cylinder 9 to send the signal for rotating electrical machines 12 this moment, with a ring feeding bin 81 and a butt joint of ring pressing feed bin 71, carry out automatic feed supplement. The technological process of the bamboo tube with the two ring feeding bins 82 is the same as that of the one ring feeding bin 81.

Example 2:

this embodiment is substantially the same as embodiment 1, except that: as shown in fig. 5 to 7, in example 2, the number of turns of the processing opening on the processing table 2 was 1 and 3, respectively. As shown in fig. 7, the first ring processing opening 131, the second ring processing opening 132 and the third ring processing opening 133 are staggered with each other, and the centers of the three (for example, the center of the rectangular or square processing opening is the center of the diagonal line, and the circle is the center of the circle) are on different circular ring radial lines, so that the same blade does not simultaneously cut bamboo tubes in the first ring processing opening 131, the second ring processing opening 132 and the third ring processing opening 133 during cutting, thereby avoiding excessive stress on the blade, preventing uneven shavings from being cut, and simultaneously increasing the service life of the blade. As shown in fig. 6, a ring feeding bin 81 is installed on a rotary bracket 11, the rotary bracket 11 is installed on a rotary belt wheel 14, the rotary belt wheel 14 is connected with a rotary motor 12 through a belt, the rotary motor 12 is installed on a fixed bracket 10, 4 longitudinal connecting rods 15 are arranged on the fixed bracket 10, and 6 transverse connecting rods 16 are arranged on the rotary bracket 11.

Example 3:

this embodiment is substantially the same as embodiment 1, except that: as shown in fig. 1 and 2, in example 3, the slag discharge port 6 is installed on the two-ring processing port 132, and the slag discharge port 6 adopts a conventional slag discharge structure. Similarly, the slag discharge port 6 may be installed at any one or more of the processing ports.

Example 4:

this embodiment is substantially the same as embodiment 1, except that: the processing platform is also provided with a processing port baffle which can cover the processing port and can select a driving structure capable of realizing reciprocating motion, as shown in fig. 2, in the embodiment 4, the processing opening baffle 18 is installed at one ring of the processing opening 131, the processing opening baffle 18 is driven by the cylinder installed in the processing table 2, the driving of the processing opening baffle 18 is controlled according to the position signal of the material pressing cylinder 9, when the position signal is in the original position, the processing opening baffle 18 covers a ring processing opening 131 to prevent the material from contacting with the cutter to cause the material to bounce, when the position signal is the material pressing position (the material pressing position can be adjusted according to the quantity of the materials to be filled in a material pressing bin), the processing opening baffle plate 18 moves transversely, an annular processing opening 131 is opened, the materials are cut, when the position signal is repositioned, the process port shield 18 is again moved laterally until it covers a ring of process ports 131.

Example 5:

this embodiment is substantially the same as embodiment 1, except that: the number of blades may be odd or even, but the number of blades is odd or even different from the number of machining ports, i.e. if the number of blades is even, the number of machining ports is odd, and vice versa. As shown in fig. 8 to 9, the number of the blades on the cutter head 21 is 4, and the number of the one-ring machining ports 131 is 11.

The working principle is as follows: all the blades are prevented from cutting at the same time and are vacant, so that the load fluctuation of equipment is reduced, the maximum cutting force is reduced, the noise and vibration of the equipment are reduced, the energy consumption is saved, and the service life of the equipment is prolonged.

Example 6:

this embodiment is substantially the same as embodiment 1, except that: as shown in fig. 10, in the present embodiment, the bottom surface of the two-ring processing opening 132 is a cutting edge, and the cutting edge is used for pressing the material by cooperating with the blade, so as to form more uniform shavings.

In addition, it should be noted that the specific embodiments described in the present specification may differ in the shape of the components, the names of the components, and the like. All equivalent or simple changes of the structure, the characteristics and the principle of the invention which are described in the patent conception of the invention are included in the protection scope of the patent of the invention. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (15)

1. A wood shaving processing device is characterized by comprising a rotary bin, a pressing bin, a cutter, a pressing device, a processing table and a processing table supporting seat; the material pressing device is used for applying pressure to the material in the material pressing bin in the material processing process; the processing table is provided with a processing opening, the material pressing bin is arranged on the processing table and communicated with the processing opening, and the cutter is arranged below the processing table; the rotary bin enables materials to enter the pressing bin through butt joint with the pressing bin.

2. The wood shaving processing apparatus of claim 1, wherein the rotary bin comprises a feed bin and a rotary support, the rotary support driving the feed bin to rotate.

3. Wood wool processing device according to claim 1, wherein the processing opening is provided with a flap for opening or closing the processing opening.

4. The wood shaving processing apparatus of claim 1, wherein the width of the processing opening is slightly greater than or equal to the length of the material, and the length of the processing opening is greater than or equal to the width of one material.

5. The wood shaving processing apparatus according to claim 1, wherein the cutter includes a cutter shaft and blades, and the number of processing openings is odd or even when different from the number of blades.

6. The wood shaving processing apparatus of claim 1, wherein the number of the pressing bins is at least two.

7. Wood wool processing device according to claim 1, wherein the rotary magazine is provided with a signal control device for controlling the rotational position.

8. The wood shaving processing apparatus according to claim 2, wherein a feed bin shutter is provided at the feed bin outlet for opening or closing the feed bin outlet.

9. The wood shaving processing device of claim 2, wherein the rotary bin further comprises a motor, a synchronous belt and a belt pulley, the rotary bracket is mounted on the processing table or the ground, the motor is mounted on the rotary bracket, the belt pulley is mounted on the feeding bin, and the motor and the belt pulley are driven by the synchronous belt.

10. The wood shaving processing apparatus of claim 2, wherein the number of the feed bins is at least two, and the vertical distance from the inlet of at least one feed bin to the processing station is different from the vertical distance from the inlet of the other feed bins to the processing station.

11. Wood wool processing apparatus according to claim 6 wherein at least one of said pressing silos has a dimension different from the dimensions of the other pressing silos, said differently sized pressing silos having a different distance from the axis of rotation of the rotating silo.

12. The wood shaving processing apparatus according to claim 6, wherein the pressing silos having the same distance from the rotation axis of the rotary silo have the same size, and the pressing silos having the same size are annularly arranged around the rotation axis of the rotary silo, and the centers of the circles of all the rings are the same.

13. The wood wool processing apparatus of claim 12 wherein the centers of said processing ports are all connected differently to the center of said ring.

14. The wood shaving processing apparatus according to any one of claims 1 to 13, wherein the processing port is provided with a cutting edge, the pressing device comprises a pressing plate and a pressing plate driving device, the pressing plate driving device is mounted on the pressing bin, and the pressing plate driving device drives the pressing plate to reciprocate.

15. A wood wool processing apparatus according to any one of claims 2 to 13 further comprising a feeder for feeding material into the feed bin.

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