CN215471675U - Numerical control optimization saw for wood product processing - Google Patents

Abstract

The utility model discloses a numerical control optimization saw for processing wooden products, which relates to the field of wooden products and comprises a bottom box body, wherein a collecting box is inlaid on one side edge of the bottom box body, a top box body is connected with the top surface of the bottom box body through bolts, a control panel is inlaid on one side edge of the top box body, a fixed supporting plate is horizontally welded on one side edge of the bottom box body, a transmission plate is connected with the top surface of the fixed supporting plate through bolts, through-slot holes are symmetrically formed in two side edges of the top box body, a bottom supporting plate is connected with one side edge of the top box body through bolts, a telescopic supporting plate is horizontally welded on one side edge of the bottom box body far away from the fixed supporting plate, and a fixed plate is connected with the top surface of one end of the telescopic supporting plate far away from the bottom box body through bolts. The device has a simple design structure, is simple and convenient to operate, is more environment-friendly and sanitary due to the adoption of a sealed cutting structure, and is more accurate and efficient in wood treatment under an intelligent measurement structure.

Description

Numerical control optimization saw for wood product processing

Technical Field

The utility model relates to the technical field of wood product processing, in particular to a numerical control optimization saw for wood product processing.

Background

The method of cutting differs from other materials due to the effects of wood texture, grain, etc. The moisture content of wood also affects the cutting process, for example, the veneer making method and wood chip production require wet material cutting, and most of the workpieces require dry material cutting. Drying is generally referred to exclusively as drying of the finished material. Drying of other wood materials, such as veneers, shavings, wood fibers, etc., are part of the manufacturing process of plywood, particle board, fiberboard, respectively. The emergence and development of wood adhesives and gluing techniques are not only the main factor for improving the technical level of wood processing, but also the prerequisite for the production of reconstituted wood and improved wood, such as various laminated bricks, glued wood and other products. Wood surface finishing is initially aimed at protecting the wood, such as traditional tung oil and raw lacquer painting; later, the development was based on decoration, and virtually any surface decoration has a protective effect. The surface decoration of the artificial board can be simultaneously carried out in the slab manufacturing process.

Adding man-hour to present timber, need cut off the both ends unevenness of the timber of felling, subsequent processing of being convenient for, it also needs the standardization to handle length to timber simultaneously, the tradition has just adopted the pollution of naked formula to make the powder cause personnel can't work, the injury to personnel simultaneously also is comparatively serious, and still adopted manual measurement's mode to ligneous measurement, still let measured data not accurate enough when making to waste time and energy, cause certain influence to subsequent use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a numerical control optimizing saw for processing wood products, which aims to solve the problems that the conventional wood needs to be cut off due to the fact that two ends of felled wood are uneven when being processed, the subsequent processing is convenient, the length processing of the wood needs to be standardized, the traditional mode that an exposed cutting mode is adopted to cause pollution of powder to cause incapability of working of personnel, the personnel are seriously injured, and the mode that manual measurement is adopted to measure the wood is time-consuming and labor-consuming, meanwhile, the measured data is not accurate enough, and certain influence is caused on the subsequent use.

In order to achieve the purpose, the utility model provides the following technical scheme:

a numerical control optimization saw for processing wooden products comprises a bottom box body, wherein a collecting box is inlaid on one side edge of the bottom box body, a top surface of the bottom box body is in bolted connection with a top box body, a control panel is inlaid on one side edge of the top box body, a fixed supporting plate is horizontally welded on one side edge of the bottom box body, a transmission plate is bolted connected on the top surface of the fixed supporting plate, through-slot holes are symmetrically formed in two side edges of the top box body, a side edge of the top box body is in bolted connection with a bottom supporting plate, a telescopic supporting plate is horizontally welded on one side edge far away from the fixed supporting plate, a fixed plate is bolted connected on the top surface of one end far away from the bottom box body, a socket pipe is horizontally welded on one side edge close to the top box body, a clamping motor is bolted on one side edge far away from the socket pipe, a limiting groove is vertically formed in one side edge far away from the control panel of the top box body, the inboard side joint of spacing groove has the stopper, a side bolted connection of stopper has the electric saw body, the output level of the electric saw body is provided with the electric saw board, a side bolted connection of end box has the cylinder that bulldozes, the blanking hole has been seted up to the inboard bottom surface of top box, the inboard side oblique welding of end box has the swash plate, the discharge gate has been seted up to the side of end box, the inboard side bolted connection of end box has the dust absorption pump, the even joint in inboard side of transmission board and bottom plate is provided with the drive wheel, the interior channel has been seted up to the inboard side symmetry of flexible layer board, the welding of grafting end both sides limit symmetry of flexible layer board has the drive block, a side of fixed plate is inlayed and is had the contact plate, the inboard side of cup jointing pipe is provided with the locking plate.

As a preferred embodiment of the present invention: the top surface opening butt joint of collecting the box is in the bottom surface position of swash plate, and the one end vertical welding of fixed layer board is in a side top surface position of end box, and the number of transmission board is the polylith, and polylith transmission board parallel arrangement each other is in the top surface position of fixed layer board, and the side transmission hole of transmission board all keeps same horizontal plane position with leading to the slot hole each other.

As a preferred embodiment of the present invention: the through groove holes are symmetrically formed in the center positions of two side edges of the top box body respectively, the inner side edges of the through groove holes are fixedly clamped and provided with the colloid blocks, the bottom supporting plate is horizontally and fixedly arranged at a position of one side edge far away from the fixed supporting plate, and one end of the telescopic supporting plate is vertically welded at a position, close to the top surface, of one side edge of the bottom box body.

As a preferred embodiment of the present invention: the fixed plate and the transmission plate are arranged in parallel, the sleeve pipe and the through groove hole are kept at the same horizontal plane position, the output end of the clamping motor horizontally extends to the inner side position of the fixed plate, the output end of the clamping motor is vertically welded to the center of the inner side locking disc arranged on the fixed plate, the limiting groove is vertically arranged at the center of the side edge of the top box body, the output end of the electric saw body is vertically fixed to the center of the side edge of the limiting block, and one end of the electric saw plate horizontally penetrates through the limiting block to extend to the inner side position of the top box body.

As a preferred embodiment of the present invention: bulldoze the cylinder and vertically to fixed a side central point that sets up and keep away from the collection box at the bottom box body put, and the output that bulldozes the cylinder is fixed setting in the bottom surface position of electric saw body perpendicularly upwards, and the blanking hole keeps leading to with the inside of bottom box body and connects the setting, and the small opening has been seted up to the top surface of swash plate, and the bottom of swash plate docks in the opening end position of discharge gate to one side.

As a preferred embodiment of the present invention: the inboard side position of channel including the drive block joint setting respectively, the number of locking plate is the polylith, and polylith locking plate annular joint setting respectively is in the inboard side position of bell and spigot joint pipe, and the one end body of rod of polylith locking plate runs through the arc groove and extends the side position of pegging graft at the locking dish.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model drives the limiting block and the electric saw body to move downwards under the contraction of the pushing cylinder, so that the electric saw plate moves downwards in the top box, the electric saw plate performs cutting action on the rod body end extending into the electric saw plate, the cut rod body head falls into the top surface position of the inclined plate from the blanking hole, powder is sucked into the collecting box under the suction of the dust suction pump for collection, the rod body head is discharged from the discharge hole for collection, the rod body horizontally moves under the continuous rolling of the driving wheel, the contraction treatment is performed under the movement of the driving block in the telescopic supporting plate, the sleeve pipe is sleeved at the end position of the extending rod, after the contact plate contacts one end of the rod body, the locking plate locks the rod body end under the rotation of the clamping motor while the telescopic supporting plate extends, the locking plate stops after the locking plate is stretched to a specified length, and the wood treatment tool is completed by performing cutting treatment on the other end of the rod body under the same cutting mode Do, device design simple structure is easy and simple to handle, has adopted sealed cutting structure to make more environmental protection health, makes the more accurate high efficiency to the processing of timber under intelligent measurement structure simultaneously.

Drawings

Other features, objects and advantages of the utility model will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of a numerically controlled optimized saw for wood processing;

FIG. 2 is a schematic structural diagram of a bottom case side view section connection detail of a numerical control optimized saw for wood product processing;

FIG. 3 is a schematic structural diagram of a side view section connection detail of a transmission plate of a numerical control optimized saw for wood product processing;

FIG. 4 is a schematic structural diagram of a top cross-sectional connection detail of a telescopic supporting plate of a numerical control optimized saw for wood processing;

fig. 5 is a schematic structural diagram of the side view connection details of the socket of the numerical control optimized saw for wood processing.

In the figure: 1. a bottom box body; 2. a collection box; 3. a box body is pushed; 4. a control panel; 5. fixing the supporting plate; 6. a transmission plate; 7. a through slot hole; 8. a bottom pallet; 9. a telescopic supporting plate; 10. a fixing plate; 11. sleeving a pipe; 12. clamping the motor; 13. a limiting groove; 14. a limiting block; 15. an electric saw body; 16. an electric saw board; 17. a pushing cylinder; 18. a blanking hole; 19. a sloping plate; 20. a discharge port; 21. a dust suction pump; 22. a drive wheel; 23. an inner channel; 24. a drive block; 25. a contact plate; 26. and (5) locking the plate.

Detailed Description

Referring to fig. 1, in the embodiment of the present invention, a digital control optimizing saw for processing wooden products includes a bottom case 1, a collecting box 2 is embedded on one side of the bottom case 1, a top case 3 is bolted on the top surface of the bottom case 1, a control panel 4 is embedded on one side of the top case 3, a fixing support plate 5 is welded horizontally on one side of the bottom case 1, a transmission plate 6 is bolted on the top surface of the fixing support plate 5, the top opening of the collecting box 2 is butted on the bottom surface of a sloping plate 19, one end of the fixing support plate 5 is vertically welded on the top surface of one side of the bottom case 1, the number of the transmission plates 6 is multiple, the multiple transmission plates 6 are arranged in parallel on the top surface of the fixing support plate 5, the transmission holes on the sides of the transmission plates 6 and the through slots 7 are all kept at the same horizontal plane position, through slots 7 are symmetrically arranged on two sides of the top case 3, a side of the top case 3 is bolted on the bottom support plate 8, the bottom box body 1 is horizontally welded with a telescopic supporting plate 9 at one side far away from a fixed supporting plate 5, through slot holes 7 are respectively symmetrically arranged at the center positions of two side edges of a top box body 3, the inner side edge of the through slot hole 7 is fixedly clamped with a colloid block, the bottom supporting plate 8 is horizontally fixedly arranged at one side edge far away from the fixed supporting plate 5, one end of the telescopic supporting plate 9 is vertically welded at a position close to the top surface of one side edge of the bottom box body 1, the telescopic supporting plate 9 is connected with a fixed plate 10 at one end far away from the bottom box body 1 through a top surface bolt, a sleeve pipe 11 is horizontally welded at one side edge close to the top box body 3 through the fixed plate 10, a clamping motor 12 is connected to one side edge of the fixed plate 10 far away from the sleeve pipe 11 through a bolt, the fixed plate 10 and a transmission plate 6 are arranged in parallel, the sleeve pipe 11 and the through slot holes 7 are both kept at the same horizontal plane position, and the output end of the clamping motor 12 horizontally extends to the inner side edge of the fixed plate 10, the output end is vertically welded at the central position of the inner locking disc of the fixed plate 10;

referring to fig. 2-5, in the embodiment of the present invention, a numerically controlled optimization saw for processing wooden products is provided, wherein a top case 3 is vertically provided with a limiting groove 13 at a side edge far away from a control panel 4, an inner side edge of the limiting groove 13 is clamped with a limiting block 14, a side edge of the limiting block 14 is connected with an electric saw body 15 by a bolt, an output end of the electric saw body 15 is horizontally provided with an electric saw plate 16, the limiting groove 13 is vertically provided at a side edge center position of the top case 3, an output end of the electric saw body 15 is vertically and fixedly provided at a side edge center position of the limiting block 14, one end of the electric saw plate 16 horizontally penetrates through the limiting block 14 and extends to the inner side edge position of the top case 3, a side edge of the bottom case 1 is connected with a pushing cylinder 17 by a bolt, a blanking hole 18 is provided at an inner side bottom surface of the top case 3, an inner side edge of the bottom case 1 is welded with an inclined plate 19, a side edge of the bottom case 1 is provided with a discharge hole 20, the pushing cylinder 17 is vertically and fixedly arranged at the central position of one side of the bottom box body 1 far away from the collecting box 2, the output end of the pushing cylinder 17 is vertically and upwardly and fixedly arranged at the bottom position of the electric saw body 15, the blanking hole 18 is communicated with the inside of the bottom box body 1, the top surface of the inclined plate 19 is provided with a leak groove, the bottom end of the inclined plate 19 is obliquely butted at the opening end position of the discharge hole 20, the inner side edge of the bottom box body 1 is in bolted connection with a dust suction pump 21, the inner side edges of the transmission plate 6 and the bottom supporting plate 8 are uniformly clamped and provided with driving wheels 22, the inner side edge of the telescopic supporting plate 9 is symmetrically provided with inner channel channels 23, the two sides of the plugging end of the telescopic supporting plate 9 are symmetrically welded with driving blocks 24, one side edge of the fixing plate 10 is inlaid with a contact plate 25, the inner side edge of the sleeve pipe 11 is provided with a locking plate 26, the driving blocks 24 are respectively clamped and arranged at the inner side edge positions of the inner channel channels 23, the locking plates 26 are multiple blocks, and polylith locking plate 26 annular joint respectively sets up the inboard side position at bell and spigot pipe 11, and the one end body of rod of polylith locking plate 26 runs through the arc groove and extends the side position of pegging graft at the locking dish.

The utility model relates to a wood dust recovery device for a wooden door frame polisher, which comprises a bottom box body and a wood dust recovery device, wherein the bottom box body is provided with a bottom box body; 2. a collection box; 3. a box body is pushed; 4. a control panel; 5. fixing the supporting plate; 6. a transmission plate; 7. a through slot hole; 8. a bottom pallet; 9. a telescopic supporting plate; 10. a fixing plate; 11. sleeving a pipe; 12. clamping the motor; 13. a limiting groove; 14. a limiting block; 15. an electric saw body; 16. an electric saw board; 17. a pushing cylinder; 18. a blanking hole; 19. a sloping plate; 20. a discharge port; 21. a dust suction pump; 22. a drive wheel; 23. an inner channel; 24. a drive block; 25. a contact plate; 26. the locking plate, the components are all universal standard parts or components known to those skilled in the art, the structure and principle of which are known to those skilled in the art through technical manuals or through routine experimentation.

The working principle of the utility model is as follows: when in use, the rod body is horizontally inserted into the central through hole of the transmission plate 6, the driving wheel 22 is rotated after the control panel 4 is arranged, so that one end of the rod body is driven to horizontally penetrate through the slotted hole 7 and extend to the inside of the top box body 3, then the limiting block 14 and the electric saw body 15 are driven to move downwards under the contraction of the pushing cylinder 17, so that the electric saw plate 16 moves downwards in the top box body 3, the electric saw plate 16 performs cutting action on the end of the rod body extending into, the cut rod body head falls into the top surface position of the inclined plate 19 from the blanking hole 18, powder is sucked into the collecting box 2 under the suction of the dust suction pump 21 for collection treatment, the rod body head is discharged from the discharge hole 20 for collection treatment, the rod body horizontally moves under the continuous rolling of the driving wheel 22, and the contraction treatment is performed under the movement of the driving block 24 in the telescopic supporting plate 9, let the bell and spigot joint pipe 11 cup joint in extension rod end position, contact the back at the one end of the contact plate 25 to the body of rod, make locking plate 26 lock the processing to the body of rod end under the rotation of chucking motor 12 in the extension of flexible layer board 9, then stop after tensile appointed length, make under the same cutting mode cut the processing completion to ligneous processing work to the other end of the body of rod.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.

Claims (6)

1. The utility model provides a woodwork processing is with preferred saw of numerical control, includes end box (1), its characterized in that, one side of end box (1) is inlayed and is had collection box (2), the top surface bolted connection of end box (1) has top box (3), one side of top box (3) is inlayed and is had control panel (4), one side horizontally welded of end box (1) has fixed layer board (5), the top surface bolted connection of fixed layer board (5) has transmission plate (6), logical slotted hole (7) have been seted up to the both sides limit symmetry of top box (3), one side bolted connection of top box (3) has bottom plate (8), one side horizontally welded of keeping away from fixed layer board (5) of end box (1) has flexible layer board (9), flexible layer board (9) have fixed plate (10) at the one end top surface bolted connection of keeping away from end box (1), the device is characterized in that a sleeve pipe (11) is horizontally welded on one side edge of the fixed plate (10) close to the top box body (3), a clamping motor (12) is connected to one side edge of the fixed plate (10) far away from the sleeve pipe (11) through a bolt, a limiting groove (13) is vertically formed in one side edge of the top box body (3) far away from the control panel (4), a limiting block (14) is clamped on the inner side edge of the limiting groove (13), an electric saw body (15) is connected to one side edge of the limiting block (14) through a bolt, an electric saw plate (16) is horizontally arranged at the output end of the electric saw body (15), a pushing cylinder (17) is connected to one side edge of the bottom box body (1) through a bolt, a blanking hole (18) is formed in the inner bottom surface of the top box body (3), an inclined plate (19) is obliquely welded on the inner side edge of the bottom box body (1), and a discharge hole (20) is formed in the side edge of the bottom box body (1), the inboard side bolted connection of end box (1) has dust absorption pump (21), the even joint in inboard side of transmission board (6) and bottom plate (8) is provided with drive wheel (22), inner channel (23) have been seted up to the inboard side symmetry of flexible layer board (9), the grafting end both sides limit symmetric welding of flexible layer board (9) has drive block (24), one side of fixed plate (10) is inlayed and is had contact plate (25), the inboard side of bell and spigot joint pipe (11) is provided with locking plate (26).

2. The numerical control optimizing saw for processing the wood products according to the claim 1 is characterized in that the top surface opening of the collecting box (2) is butted at the bottom surface position of the inclined plate (19), one end of the fixed supporting plate (5) is vertically welded at the top surface position of one side edge of the bottom box body (1), the number of the transmission plates (6) is multiple, the transmission plates (6) are arranged at the top surface position of the fixed supporting plate (5) in parallel, and the side edge transmission holes and the through slot holes (7) of the transmission plates (6) are all kept at the same horizontal plane position.

3. The numerical control optimization saw for wood product processing according to claim 1, characterized in that the through-slot holes (7) are symmetrically formed in the center of two side edges of the top box body (3), the inner side edges of the through-slot holes (7) are fixedly clamped with the rubber blocks, the bottom supporting plate (8) is horizontally and fixedly arranged at a position of one side edge far away from the fixed supporting plate (5), and one end of the telescopic supporting plate (9) is vertically welded at a position of one side edge of the bottom box body (1) close to the top surface.

4. The numerical control optimizing saw for processing the wood products according to claim 1, wherein the fixing plate (10) and the transmission plate (6) are arranged in parallel, the sleeve (11) and the through slot (7) are kept at the same horizontal plane position, the output end of the clamping motor (12) horizontally extends to the inner side position of the fixing plate (10), the output end of the clamping motor is vertically welded to the center position of the inner side locking disc of the fixing plate (10), the limiting slot (13) is vertically arranged at the center position of the side edge of the top box body (3), the output end of the electric saw body (15) is vertically fixed to the center position of one side edge of the limiting block (14), and one end of the electric saw plate (16) horizontally penetrates through the limiting block (14) and extends to the inner side position of the top box body (3).

5. The numerical control optimization saw for wood product processing according to claim 1, wherein the pushing cylinder (17) is vertically and fixedly arranged at the center of one side of the bottom box body (1) far away from the collecting box (2), the output end of the pushing cylinder (17) is vertically and upwardly and fixedly arranged at the bottom position of the electric saw body (15), the blanking hole (18) is communicated with the inside of the bottom box body (1), the top surface of the inclined plate (19) is provided with a leakage groove, and the bottom end of the inclined plate (19) is obliquely butted at the opening end position of the discharge hole (20).

6. The numerical control optimizing saw for processing the wooden products is characterized in that the driving blocks (24) are respectively clamped and arranged at the inner side positions of the inner channel (23), the number of the locking plates (26) is multiple, the multiple locking plates (26) are respectively clamped and arranged at the inner side positions of the sleeve pipe (11) in an annular mode, and one end rod bodies of the multiple locking plates (26) penetrate through the arc grooves and extend to be inserted into the side positions of the locking discs.

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