CN117103014B - Wood artwork sanding device and method thereof - Google Patents

Abstract

The invention belongs to the technical field of sanding of wooden artware, and particularly relates to a sanding device and a sanding method for wooden artware; in the using process of the existing device, a large amount of wood powder is generated, part of wood powder is difficult to clean in a sander, if the inside is accumulated to a certain concentration for a long time, the wood powder explodes and burns when encountering the high temperature generated during sanding, thereby threatening the life safety and health of personnel, and simultaneously reducing the safety of the device in use; the wooden artwork sanding device comprises a braking transverse plate, wherein braking bases are symmetrically arranged on the braking transverse plate, braking clamping blocks are arranged on the braking bases and are connected with a power transmission motor; through the component is scraped to the same direction in the past, can avoid the long-term accumulation of wood flour inside the sanding box, move the cooperation of polishing unit and rotation angle system to the mechanism with sand simultaneously, avoided wood flour burning and explosion, ensured personnel's life safety simultaneously to the security of device when using has been promoted.

Description

Wood artwork sanding device and method thereof

Technical Field

The invention belongs to the technical field of sanding of wooden artware, and particularly relates to a sanding device and a sanding method for wooden artware.

Background

The broad-sense wood artware takes various kinds of wood (including various kinds of bamboo) as main raw materials, and the narrow-sense wood artware mainly takes various kinds of wood as raw materials, is manufactured by organic machines, is manufactured by pure hand, is manufactured by semi-machine and semi-hand, has fine manufacturing, simple design, various styles, natural color and luster, and is novel and unique. When the wooden artwork is manufactured, firstly, sanding treatment is needed to be carried out on the used raw material wood board, so that subsequent manufacturing is facilitated.

However, in the existing wooden artwork sanding device, a large amount of wood powder can be generated in the using process, part of wood powder can fall outside the device through a notch and other areas on the sanding machine, operators can clean the wood powder conveniently, part of wood powder still falls inside the sanding machine and is difficult to clean, the wood powder is accumulated in the sanding machine for a long time, when the wood powder reaches a certain concentration, the wood powder can be exploded and burnt when meeting the high temperature generated during sanding, the life safety and health of personnel are threatened, and meanwhile, the safety of the device in use is reduced.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects in the prior art, the invention provides a sanding device and a sanding method for wooden artware, which effectively solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the wooden artwork sanding device comprises a braking transverse plate, wherein braking bases are symmetrically arranged on the braking transverse plate, braking clamping blocks are arranged on the braking bases and are connected with a power transmission motor, and the power transmission motor is connected with a power transmission delivery assembly;

the transmission delivery assembly comprises a force transmission square block arranged at the output end of a force transmission motor, the force transmission square block is connected with a force transmission square groove arranged on a force transmission rotating shaft, two ends of the force transmission rotating shaft are in transmission connection with a brake base, a force transmission wheel is arranged on the force transmission rotating shaft and is connected with a brake wheel through a conveying belt, a brake rotating shaft is arranged on the brake wheel, and two ends of the brake rotating shaft are in transmission connection with the force transmission base arranged on a brake transverse plate; the conveying belt is provided with a T-shaped movable square plate which is connected with the distance-movement clamping mechanism; the conveying belt is connected with a plurality of supporting rollers, supporting rotating shafts are arranged on the supporting rollers, two ends of each supporting rotating shaft are connected with a supporting square plate arranged on a braking transverse plate, a connecting different block is arranged on each supporting square plate, the connecting different blocks are jointly connected with a sanding box body, and the sanding box bodies are connected with the mounting plates through bolts; the mounting plates are connected with a driving motor jointly, and the driving motor is connected with the sand polishing unit.

Preferably, the sand-driven polishing unit comprises a driving gear arranged at the output end of the driving motor, the driving gear is connected with the sand-driven gear through a driving toothed chain, a driving rotating shaft is arranged on the sand-driven gear, a linkage gear is arranged on the driving rotating shaft, and the linkage gear is connected with the forward same-direction scraping assembly; the driving rotating shaft penetrates through a bearing arranged on the sanding box body and then is connected with a driving bevel gear, and the driving bevel gear is meshed with the sanding bevel gear.

Preferably, the sand moving bevel gear is provided with a sand moving rotating shaft, one end of the sand moving rotating shaft is in transmission connection with the inner side surface of the sanding box body, the other end of the sand moving rotating shaft is connected with the double-layer pulley, the double-layer pulley is connected with the sand moving pulley through a plurality of transmission belts, a plurality of sand moving pulleys are provided with transmission rotating shafts, and the transmission rotating shafts are in transmission connection with the inner side surface of the sanding box body; and a plurality of auxiliary rotating shafts are arranged on the sand movable pulleys and the double-layer pulleys, and sand smooth rollers are arranged on the auxiliary rotating shafts.

Preferably, the distance movement clamping and stopping mechanism comprises distance movement L seats symmetrically arranged on a T-shaped movement square plate, distance movement square rods are slidably arranged on the distance movement L seats, rectangular movement square blocks are arranged at one ends of the distance movement square rods, the rectangular movement square blocks are connected with a static touch control module, a stop transverse plate is arranged at the other ends of the distance movement square blocks, stop rods are symmetrically arranged on the stop transverse plate, one ends of the stop rods are connected with a stop circular plate, the other ends of the stop transverse plates are connected with a fitting square plate, stop springs are sleeved on the stop rods, one ends of the stop springs are connected with the fitting square plate, and the other ends of the stop springs are connected with the stop transverse plate; the distance moving square rod is sleeved with a distance moving spring, one end of the distance moving spring is fixedly connected with the distance moving L seat, and the other end of the distance moving spring is fixedly connected with the moment moving square block.

Preferably, the forward same-direction scraping assembly comprises a forward moving gear which is meshed with the linkage gear, and the forward moving gear is connected with the sanding box body through a forward moving rotating shaft; the movable gear is provided with a movable rod which is in sliding connection with a rectangular square groove arranged on a rectangular transverse block, one side of the rectangular transverse block is symmetrically provided with a guide rod, and the guide rod is connected with a guide circular plate after passing through a guide base arranged on the sanding box body; the guide rod is sleeved with a guide spring, one end of the guide spring is connected with the guide circular plate, and the other end of the guide spring is connected with the guide base; the other side is provided with a different action square rod which is connected with two linkage long rods, the linkage long rods pass through a transverse groove on the sanding box body and are connected with the scraping plates, and a plurality of scraping plates are provided with fixed connecting seats which are connected with the rotation angle steering mechanism; and the sanding box body is symmetrically provided with a movable linkage groove.

Preferably, the rectangular moving square is provided with an extension rod, the extension rod is connected with an extension clamping seat, the extension clamping seat is provided with a touch round wheel, the touch round wheel is connected with a touch sloping plate in a matched manner, the touch sloping plate is symmetrically provided with a touch different rod, and the touch different rod is fixedly connected with the support square plate after passing through the sanding box body.

Preferably, the rotation angle steering mechanism comprises a rope arranged on the fixed linkage seat, and the rope is connected with the auxiliary linkage seat through a plurality of guide pulleys; the guiding pulleys are provided with guiding rotating shafts which are in transmission connection with a rotating base arranged in the sanding box body; the auxiliary linkage seat is connected with the auxiliary long rod, one end of the auxiliary long rod is connected with the spray head, the other end of the auxiliary long rod is connected with the auxiliary clamping block, the auxiliary clamping block is connected with the auxiliary rotating shaft, and the auxiliary rotating shaft is connected with the auxiliary base arranged in the sanding box body; the two ends of the coordination rotating shaft are connected with the coordination different blocks, the coordination different blocks are in sliding connection with the coordination different rods, and the coordination different rods are connected with a linkage base arranged on the coordination base; the automatic transmission device is characterized in that the matching different rod is sleeved with a matching spring, one end of the matching spring is connected with the linkage base, the other end of the matching spring is connected with the matching different block, one matching different block is provided with a matching tooth ring, and the matching tooth ring is connected with the collecting assembly.

Preferably, the static touch control module comprises a touch sleeve arranged on a distance L seat, the touch sleeve is connected with a touch loop bar arranged on a moment square, the touch loop bar and the touch sleeve are provided with touch pieces, and the touch of the two touch pieces is connected with a driving motor in a matched manner through a control board.

Preferably, the collection is gathered the subassembly and is included the collection gear that sets up with joining in marriage movable ring gear meshing connection, gathers and is installed on the collection gear and gathers the pivot, gathers the pivot and gather the square groove transmission that is equipped with on the sanding box and be connected the setting, gather and install in the pivot and gather the bevel gear, gather the bevel gear meshing connection driven bevel gear, be equipped with driven pivot on the driven bevel gear, driven pivot pass behind the gear accelerator who is equipped with on the sanding box with driven pulley connection setting, driven pulley passes through the connecting band and is connected with the driving pulley and set up, be equipped with the driving shaft on the driving pulley, the one end of driving shaft is connected the setting with the collection box transmission that is equipped with on the braking diaphragm, the other end is connected with a plurality of flabellums and is set up, is installed on the collection box and is deposited the case.

The invention also provides a sanding method of the wooden artwork, which comprises the following steps of:

step one, limiting a raw material wood board to be sanded in the sanding process by operating a distance-movement clamping mechanism, enabling a force transmission square block on the output end of the force transmission motor to rotate by starting the force transmission motor, and driving a force transmission rotating shaft to rotate by a force transmission square groove;

step two, the power transmission wheel starts to rotate, and the brake wheel rotates under the action of the conveying belt, so that the conveying belt stably moves through the cooperation of a plurality of supporting rollers;

And thirdly, automatically releasing the limit of the raw material wood board by a distance-moving clamping mechanism after sanding operation is performed on the raw material wood board on the conveyor belt through a sand-moving polishing unit in a sanding box body during movement, and then automatically discharging.

Compared with the prior art, the invention has the beneficial effects that:

(1) The linkage gear drives the movable gear to rotate when rotating, the movable gear rotates through the power of the driving motor, the rotating speed of the driving motor is faster, the size of the movable gear is larger than that of the linkage gear, so that the rotating speed of the movable gear is reduced, the movable gear is matched with the rectangular square groove through the movable connecting rod, the rectangular transverse block is enabled to reciprocate in the guide base through the guide rod, the guide spring is in a buffer and reset state continuously, the differential square rod drives the two linkage long rods to reciprocate in the transverse groove on the sanding box, the scraping plates reciprocate in the sanding box, wood powder falling in the sanding box is cleaned, the two scraping plates are staggered, the two scraping plates can be cleaned in the sanding box at the same time, the cleaning efficiency is improved, and meanwhile, the dust can fall on the braking transverse plate through the grooves in the middle of the movable connecting groove or the sanding box, so that the dust can be conveniently collected and collected through the collecting and collecting assembly, and accumulated in the sanding box for a long time can be avoided, and the safety of a user can be ensured by matching the rotary grinding unit with the movable connecting rod;

(2) An operator can set a distance-operated clamping mechanism with different distances on the conveyor belt according to the sanding frequency, so that the device is convenient for sanding operation in a large batch, and the sanding efficiency is improved; the raw material wood boards to be sanded are limited in the sanding process by operating the distance-moving clamping mechanism, the force-conveying square block on the output end of the sand-conveying motor is driven to rotate by starting the force-conveying motor, the force-conveying wheel starts to rotate by driving the force-conveying rotating shaft through the force-conveying square groove, and the brake wheel rotates under the action of the conveying belt, so that the conveying belt can stably move through the cooperation of the supporting rollers, the raw material wood boards on the conveying belt can be automatically released from the limit of the raw material wood boards through the distance-moving clamping mechanism after sanding operation by the sand-moving polishing unit in the sanding box body, and then the sand-conveying machine can automatically unload the raw material wood boards, so that the strength of workers is reduced, the sanding efficiency is improved, meanwhile, wood powder generated during sanding can be cleaned up by the same-direction scraping assembly, and the safety of the sand-conveying machine is improved during use;

(3) When the scraping plate moves reciprocally, the auxiliary long rod on the auxiliary connecting seat rotates in the auxiliary base through the auxiliary rotating shaft arranged on the auxiliary clamping block, the auxiliary rotating shaft moves reciprocally in the auxiliary different rod through the auxiliary different block, the auxiliary spring is in a buffer and reset state, so that the spraying head rotates up and down continuously by taking the auxiliary rotating shaft as the center of a circle, the spraying range of the spraying head is improved, meanwhile, the spraying head sprays water mist on the surface of a wood board, the cooling effect is achieved, meanwhile, the wood powder during sanding can be prevented from being lifted, the wood powder is gradually wetted and then deposited on the bottom surface of the sanding box body, the wood powder is convenient to clean up the sanding box body, the accumulated wood powder during sanding can be prevented from being exploded and burned due to high temperature generated during sanding, and the safety of the wood powder device during use is improved;

(4) After a driving motor starts working, the output end of the driving motor drives a driving gear to rotate, the driving rotating shaft on the sand driving gear is driven to rotate through the cooperation of a driving toothed chain, so that the driving bevel gear is driven to rotate and meshed with the sand driving bevel gear to rotate, a double-layer pulley on the sand driving rotating shaft starts rotating, two sand driving pulleys are driven to rotate through a driving belt, two sand driving pulleys and an auxiliary rotating shaft arranged on the double-layer pulley start rotating, meanwhile, the material types of sand roller arranged on three auxiliary rotating shafts are different, the type level sequentially becomes higher from the direction of a feeding hole, the sanding effect of different types is different, and therefore the low-to-high sanding technology can be realized, and the sanding effect is improved;

(5) The two scraping plates are provided with rotation angle direction-making mechanisms, the two scraping plates move in the same direction, so that one spray head rotates upwards, the other spray head rotates downwards, the two matched toothed rings rotate oppositely to enable the two matched toothed rings to engage with the aggregation gears to rotate, the driven rotating shafts on the driven bevel gears start to rotate, meanwhile, the driven rotating shafts do some acceleration movements in the gear accelerator, the driven pulleys rotate at a high speed, the driving rotating shafts on the driving pulleys rotate rapidly through the connecting belt, a plurality of fan blades rotate rapidly in the collecting boxes, the fan blades on the driving rotating shafts on the two sides rotate oppositely, the collecting boxes on one side generate strong suction force, the collecting boxes on the other side generate strong blowing force, the wood powder falling onto the braking transverse plates enter into the storage boxes on the two sides through the description, the device on the braking transverse plates can be made into a closed mode, the aggregation collecting assembly is convenient to clean dust, and the dust collecting assembly is prevented from being cleaned manually, and therefore the working strength of the device is reduced, and the safety of the device is safe in use;

(6) Placing a raw wood board to be sanded on a T-shaped movable square plate, so that the raw wood board moves along with the movement of the T-shaped movable square plate, when the T-shaped movable square plate is about to move to the inlet of a sanding box body, a touch round wheel contacts with the inclined surface of the touch inclined plate, then the touch round wheel moves in a spacing L-shaped seat through a spacing square rod, a spacing spring is in a buffer state, two stop transverse plates move in opposite directions, and therefore the two attaching square plates contact with the bottommost surface of the raw wood board placed on the T-shaped movable square plate, and a stop spring is in a buffer state, so that the attaching square plates do not influence the device to sand the board when the wood board is limited, and meanwhile, when the touch round wheel moves to the plane of the touch inclined plate, the spacing effect of the spacing clamp mechanism is not influenced when the wood board moves through a transmission and delivery assembly, the sanding unit does not shake when the wood board is subjected to sanding operation, and the sanding effect is improved; when the operation is finished, the touch round wheel is reset through the other inclined plane of the touch inclined plate, so that the two attaching square plates are reset and relatively move, the limiting arrangement of the wood plates is avoided, the wood plates can be automatically unloaded, and the working intensity of operators is reduced;

(7) When the square rod is moved in the L seat in a spacing mode, the touch transmission loop rod arranged on the square rod enters the touch transmission sleeve, the guide effect is achieved, the distance transmission loop rod and the two contact pieces on the touch transmission sleeve are contacted when the distance transmission clamping mechanism moves, signals are sent out to the control board, a central processing unit in the control board carries out research and judgment on the transmitted signals, the distance transmission clamping mechanism is used for limiting a wood board, meanwhile, the wood board is moved to the feeding port of the sanding box body, the wood board is indicated to be subjected to sanding operation, the control board sends out signals to the driving motor, the driving motor is prevented from being in a driving state all the time, nonsensical energy consumption is generated, the energy consumption is reduced, meanwhile, the starting and the closing of the spray head in the rotation angle steering mechanism are controlled through the description, and the environment-friendly effect is achieved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a touch swash plate according to the present invention;

FIG. 3 is a schematic view of a sanding roller according to the present invention;

FIG. 4 is a schematic diagram of a driving gear structure according to the present invention;

FIG. 5 is a schematic illustration of a brake wheel configuration in accordance with the present invention;

FIG. 6 is a schematic view of the storage case according to the present invention;

FIG. 7 is a schematic view of a partial enlarged structure at A in FIG. 6;

FIG. 8 is a schematic view of a partial enlarged structure at B in FIG. 6;

FIG. 9 is a schematic view of a bonded panel structure according to the present invention;

FIG. 10 is a schematic diagram of a structure of a poly square groove in the present invention;

FIG. 11 is a schematic view of the structure of the cam linkage groove in the present invention;

FIG. 12 is a schematic view of a sprinkler head according to the present invention;

FIG. 13 is a schematic view of a structure of a fixing base according to the present invention;

fig. 14 is a schematic view of a linkage base structure in the present invention.

In the figure: 1. a brake cross plate; 2. a brake base; 3. a brake clamp block; 4. a force transmission motor; 5. force transmission blocks; 6. a force transmission rotating shaft; 7. a force transmission square groove; 8. a force transmission wheel; 9. a conveyor belt; 10. a brake wheel; 11. braking the rotating shaft; 12. a force transmission base; 13. a T-shaped movable square plate; 14. a support roller; 15. supporting a rotating shaft; 16. supporting the square plate; 17. connecting different blocks; 18. sanding the box body; 19. a mounting plate; 20. a driving motor; 21. a drive gear; 22. a drive toothed chain; 23. a sand-driven gear; 24. driving the rotating shaft; 25. a linkage gear; 26. driving a bevel gear; 27. a sand-driven bevel gear; 28. a sand-driven rotating shaft; 29. a double layer pulley; 30. a transmission belt; 31. a sand movable pulley; 32. a transmission rotating shaft; 33. an auxiliary rotating shaft; 34. a sanding roller; 35. distance L seat; 36. a distance-moving square rod; 37. rectangular square blocks; 38. a stop cross plate; 39. a stop rod; 40. a stop circular plate; 41. attaching a square plate; 42. a stop spring; 43. a distance spring; 44. a forward-moving gear; 45. a forward rotating shaft; 46. a positioning rod; 47. rectangular transverse blocks; 48. rectangular square grooves; 49. a guide rod; 50. a guide base; 51. a guide circular plate; 52. a guide spring; 53. a transaction square rod; 54. a linkage long rod; 55. a scraping plate; 56. a fixed connecting seat; 57. a moving linkage groove is formed; 58. an extension rod; 59. extending the clamping seat; 60. touching the round wheel; 61. touching the sloping plate; 62. touching the different rod; 63. a rope; 64. a guide pulley; 65. an auxiliary linkage seat; 66. a guide rotating shaft; 67. rotating the base; 68. auxiliary moving long rod; 69. a spray head; 70. auxiliary clamping blocks; 71. a rotating shaft is matched; 72. a motion base; 73. matching the different blocks; 74. a different rod is matched; 75. a linkage base; 76. a mating spring; 77. a toothed ring is matched; 78. a touch transmission sleeve; 79. a touch transmission loop bar; 80. a contact; 81. a cluster gear; 82. a poly-linked rotating shaft; 83. a poly square groove; 84. a bevel gear assembly; 85. a driven bevel gear; 86. a driven rotating shaft; 87. a gear accelerator; 88. a driven pulley; 89. a connecting belt; 90. a driving pulley; 91. a driving rotating shaft; 92. a collection box; 93. a fan blade; 94. a storage box.

Detailed Description

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

The embodiment is given by fig. 1 to 14, the wooden artwork sanding device comprises a braking transverse plate 1, wherein braking bases 2 are symmetrically arranged on the braking transverse plate 1, braking clamping blocks 3 are arranged on the braking bases 2, the braking clamping blocks 3 are connected with a power transmission motor 4, and the power transmission motor 4 is connected with a power transmission delivery assembly; the transmission delivery assembly comprises a force transmission square 5 arranged at the output end of a force transmission motor 4, the force transmission square 5 is connected with a force transmission square groove 7 arranged on a force transmission rotating shaft 6, two ends of the force transmission rotating shaft 6 are in transmission connection with a brake base 2, a force transmission wheel 8 is arranged on the force transmission rotating shaft 6, the force transmission wheel 8 is connected with a brake wheel 10 through a conveying belt 9, a brake rotating shaft 11 is arranged on the brake wheel 10, and two ends of the brake rotating shaft 11 are in transmission connection with a force transmission base 12 arranged on a brake transverse plate 1; the conveying belt 9 is provided with a T-shaped movable square plate 13, and the T-shaped movable square plate 13 is connected with a distance-movement clamping mechanism; the conveyer belt 9 is connected with a plurality of support rollers 14, support rotating shafts 15 are arranged on the support rollers 14, two ends of each support rotating shaft 15 are connected with a support square plate 16 arranged on the brake transverse plate 1, a connecting different block 17 is arranged on each support square plate 16, the plurality of connecting different blocks 17 are jointly connected with a sanding box 18, and the sanding box 18 is connected with a mounting plate 19 through bolts; the mounting plates 19 are connected with a driving motor 20, and the driving motor 20 is connected with the sand polishing unit.

An operator can set distance-movement clamping mechanisms with different distances on the conveying belt 9 according to sanding frequency, so that the device is convenient for sanding operation in a large batch, and sanding efficiency is improved; through operating the spacing mechanism that holds up that moves to move, the raw materials plank that will sand at the in-process of sanding, through starting the power transmission motor 4, make the power transmission square 5 on its output, drive the power transmission pivot 6 through power transmission square groove 7 and rotate, make power transmission wheel 8 begin to rotate, make braking wheel 10 rotate through the effect of conveyer belt 9, thereby simultaneously through the cooperation of a plurality of backing rolls 14, make conveyer belt 9 can stable motion, make the raw materials plank on the conveyer belt 9 when the motion, after the sand moves the polishing unit and carries out the sanding operation through sand in the sanding box 18, through moving the mechanism that holds up, automatically make it remove the spacing to the raw materials plank, then can independently unload, the operation is automatic, thereby staff's intensity has been reduced, thereby the efficiency of sanding is promoted, simultaneously through the same direction scraping the subassembly can be with the produced clean up when the sand, the device security when using.

The sand-driven polishing unit of the embodiment comprises a driving gear 21 arranged at the output end of a driving motor 20, wherein the driving gear 21 is connected with a sand-driven gear 23 through a driving toothed chain 22, a driving rotating shaft 24 is arranged on the sand-driven gear 23, a linkage gear 25 is arranged on the driving rotating shaft 24, and the linkage gear 25 is connected with a forward same-direction scraping assembly; the driving rotating shaft 24 passes through a bearing arranged on the sanding box body 18 and then is connected with a driving bevel gear 26, and the driving bevel gear 26 is meshed with a sanding bevel gear 27; the sand-driven bevel gear 27 is provided with a sand-driven rotating shaft 28, one end of the sand-driven rotating shaft 28 is in transmission connection with the inner side surface of the sanding box 18, the other end of the sand-driven rotating shaft is connected with a double-layer pulley 29, the double-layer pulley 29 is connected with a sand-driven pulley 31 through a plurality of transmission belts 30, a plurality of sand-driven pulleys 31 are provided with transmission rotating shafts 32, and the transmission rotating shafts 32 are in transmission connection with the inner side surface of the sanding box 18; the sand movable pulleys 31 and the double-layer pulleys 29 are provided with auxiliary rotating shafts 33, and the sand smooth rollers 34 are arranged on the auxiliary rotating shafts 33.

When the driving motor 20 starts working through the static touch control module, the output end of the driving motor 20 drives the driving gear 21 to rotate, the driving rotating shaft 24 on the sand driving gear 23 rotates through the cooperation of the driving toothed chain 22, thereby driving the driving bevel gear 26 to rotate and enabling the driving bevel gear 27 to be meshed with the sand driving bevel gear 27 to rotate, the double-layer pulley 29 on the sand driving rotating shaft 28 starts rotating, the driving belt 30 drives the two sand driving pulleys 31 to rotate, the two sand driving pulleys 31 and the auxiliary rotating shaft 33 arranged on the double-layer pulley 29 start rotating, meanwhile, the material types of the sand roller 34 arranged on the three auxiliary rotating shafts 33 are different, the type grades are sequentially higher from the direction of the feeding hole, and the sand polishing effects of different types are different, so that the sand polishing technology from low to high can be realized, and the sand polishing effect is improved.

The distance movement clamping and stopping mechanism of the embodiment comprises distance movement L seats 35 symmetrically arranged on a T movement square plate 13, distance movement square rods 36 are slidably arranged on the distance movement L seats 35, moment movement square blocks 37 are arranged at one ends of the distance movement square rods 36, the moment movement square blocks 37 are connected with a static touch control module, a stop transverse plate 38 is arranged at the other ends of the distance movement square blocks 37, stop rods 39 are symmetrically arranged on the stop transverse plate 38, one ends of the stop rods 39 are connected with a stop circular plate 40, the other ends of the stop rods 39 are connected with a fitting square plate 41, stop springs 42 are sleeved on the stop rods 39, one ends of the stop springs 42 are connected with the fitting square plate 41, and the other ends of the stop springs 42 are connected with the stop transverse plate 38; the distance square rod 36 is sleeved with a distance spring 43, one end of the distance spring 43 is fixedly connected with the distance L seat 35, and the other end of the distance spring is fixedly connected with the square block 37; the rectangular moving block 37 is provided with an extension rod 58, the extension rod 58 is connected with an extension clamping seat 59, the extension clamping seat 59 is provided with a touch round wheel 60, the touch round wheel 60 is connected with a touch inclined plate 61 in a matched manner, the touch inclined plate 61 is symmetrically provided with a touch different rod 62, and the touch different rod 62 is fixedly connected with the supporting square plate 16 after passing through the sanding box 18.

By placing the raw wood board to be sanded on the T-shaped movable square plate 13, the raw wood board moves along with the movement of the T-shaped movable square plate 13, when the T-shaped movable square plate 13 is about to move to the inlet of the sanding box 18, the touch round wheel 60 contacts the inclined surface of the touch inclined plate 61, then the touch round wheel 60 moves in the distance L-shaped seat 35 in a limiting manner through the distance square rod 36, the distance spring 43 is in a buffering state, the two stop transverse plates 38 move in opposite directions, the two attaching square plates 41 contact the bottommost surface of the raw wood board placed on the T-shaped movable square plate 13, the stop spring 42 is in a buffering state, the attaching square plates 41 do not influence the sanding device to the wood board when the wood board is limited, meanwhile, when the touch round wheel 60 moves to the plane of the inclined plate 61, the spacing effect of the distance clamping mechanism to the wood board is not influenced when the wood board moves through the transmission assembly, the sanding operation is not generated, and the sanding unit is not rocked when the sanding operation is carried out, so that the sanding effect is improved; when the operation is completed, the distance spring 43 is reset when the touch round wheel 60 passes through the other inclined plane of the touch inclined plate 61, so that the two attaching square plates 41 are reset to move relatively, the limiting arrangement of the wood plates is avoided, the wood plates can be automatically unloaded, and the working strength of operators is reduced.

The forward and same-direction scraping assembly of the embodiment comprises a forward gear 44 which is meshed with the linkage gear 25, and the forward gear 44 is connected with the sanding box 18 through a forward rotating shaft 45; the movable gear 44 is provided with a movable rod 46, the movable rod 46 is in sliding connection with a rectangular square groove 48 arranged on a rectangular transverse block 47, one side of the rectangular transverse block 47 is symmetrically provided with a guide rod 49, and the guide rod 49 passes through a guide base 50 arranged on the sanding box 18 and is connected with a guide circular plate 51; a guide spring 52 is sleeved on the guide rod 49, one end of the guide spring 52 is connected with the guide circular plate 51, and the other end of the guide spring 52 is connected with the guide base 50; the other side is provided with a different action square rod 53, the different action square rod 53 is connected with two linkage long rods 54, the linkage long rods 54 pass through a transverse groove on the sanding box 18 and are connected with a scraping plate 55, a plurality of scraping plates 55 are provided with fixed connecting seats 56, and the fixed connecting seats 56 are connected with a rotation angle steering mechanism; the sanding box 18 is symmetrically provided with a movable linkage groove 57;

the linkage gear 25 drives the forward moving gear 44 to rotate when rotating, because the linkage gear 25 rotates through the power of the driving motor 20, and the rotating speed of the driving motor 20 is faster, the size of the forward moving gear 44 is larger than that of the linkage gear 25, thereby reducing the rotating speed of the forward moving gear 44, the forward moving gear 44 is matched with the rectangular square groove 48 through the position moving rod 46, the rectangular transverse block 47 is enabled to reciprocate in the guide base 50 through the guide rod 49, the guide spring 52 is constantly in a buffering and resetting state, the abnormal moving square rod 53 drives the two linkage long rods 54 to reciprocate in the transverse groove on the sanding box 18, thereby enabling the scraping plates 55 to reciprocate in the sanding box 18, cleaning the wood powder falling in the sanding box 18, and meanwhile, the two scraping plates 55 are staggered, so that the two scraping plates 55 can clean in the sanding box 18 at the same time, the cleaning efficiency is improved, the rectangular transverse block 47 can reciprocate in the guide base 50 through the guide rod 49, the guide rod 52 is in a buffering and resetting state, the abnormal moving square rod 53 drives the two linkage long rods 54 to reciprocate in the transverse grooves on the sanding box 18, the sliding assembly is convenient for collecting wood powder through the sliding assembly, the sliding assembly is prevented from being burnt by the sliding assembly, and the explosion of the sanding assembly is prevented from being accumulated in the sanding box 18, and the explosion is safe and the safe device is guaranteed.

The rotation angle steering mechanism of the embodiment comprises a rope 63 arranged on a fixed linkage seat 56, and the rope 63 is connected with an auxiliary linkage seat 65 through a plurality of guide pulleys 64; the guide pulley 64 is provided with a guide rotating shaft 66, and a plurality of guide rotating shafts 66 are in transmission connection with a rotating base 67 arranged in the sanding box 18; the auxiliary linkage seat 65 is connected with the auxiliary long rod 68, one end of the auxiliary long rod 68 is connected with the spray head 69, the other end of the auxiliary long rod is connected with the auxiliary clamping block 70, the auxiliary clamping block 70 is connected with the auxiliary rotating shaft 71, and the auxiliary rotating shaft 71 is connected with the auxiliary base 72 arranged in the sanding box 18; the two ends of the coordination rotating shaft 71 are connected with the coordination different blocks 73, the coordination different blocks 73 are in sliding connection with the coordination different rods 74, and the coordination different rods 74 are connected with a linkage base 75 arranged on the coordination base 72; the different piece 73 is equipped with the ring 77 that moves, moves the ring 77 and gathers the subassembly and be connected the setting with the collection to move to be equipped with on the different piece 74 that moves and move the spring 76, move the one end of spring 76 and be connected with the linkage base 75, the other end is connected with and is set up with moving the different piece 73.

When the scraping plate 55 moves reciprocally, the auxiliary long rod 68 on the auxiliary connecting seat 65 is made to rotate in the auxiliary base 72 through the auxiliary rotating shaft 71 arranged on the auxiliary clamping block 70, the auxiliary rotating shaft 71 moves reciprocally in the auxiliary different rod 74 through the auxiliary different block 73, the auxiliary spring 76 is made to be in a buffer and reset state, the spraying head 69 is made to rotate up and down with the auxiliary rotating shaft 71 as the center of a circle continuously, the spraying range of the spraying head 69 is improved, meanwhile, the spraying head 69 sprays water mist on the surface of a wood board, the cooling effect is achieved, meanwhile, the wood powder during sanding is prevented from being lifted, the wood powder is gradually wetted and then slowly deposited on the bottom surface of the sanding box 18, the wood powder is convenient to clean up by the same-direction scraping assembly, the wood powder accumulated during sanding is prevented from being exploded and burned due to the generated high temperature, and the safety of the device during use is improved.

The static touch module of this embodiment includes a touch sleeve 78 disposed on the distance L seat 35, the touch sleeve 78 is connected with a touch rod 79 disposed on the square block 37 in a matched manner, the touch rod 79 and the touch sleeve 78 are provided with touch pieces 80, and the two touch pieces 80 are connected with the driving motor 20 in a matched manner by a control board.

When the square block 37 moves in the distance L seat 35 in a limiting manner through the distance square rod 36, the touch transmission sleeve rod 79 arranged on the square block 37 enters the touch transmission sleeve 78, the guiding effect is achieved, the distance transmission sleeve rod 79 and the two contact pieces 80 on the touch transmission sleeve 78 are enabled to be more stable in moving, signals are sent to the control board, the central processing unit in the control board carries out grinding judgment on the transmitted signals, the distance transmission sleeve rod 79 and the two contact pieces 80 indicate that the distance transmission sleeve rod 79 and the two contact pieces are good in limiting effect, meanwhile, the distance transmission sleeve rod 79 and the two contact pieces are moved to the feeding port of the sanding box 18, the sanding operation is about to be carried out on the wood board, the control board sends signals to the driving motor 20, the driving motor 20 is enabled to work, the driving motor 20 is prevented from being in a driving state all the time, nonsensical energy consumption is avoided, the consumption of energy is reduced, and meanwhile, the starting and the spraying heads 69 in the rotating angle steering mechanism are controlled through the description, and the environment protection effect is achieved.

The collection of this embodiment gathers the subassembly and includes gathering gear 81 that is connected with joining in marriage movable ring gear 77 meshing and sets up, gathers and installs on the gear 81 and gathers the pivot 82 that gathers, gathers and gathers the pivot 82 and be equipped with on the sanding box 18 and gather square groove 83 transmission and connect the setting, gather and install in the pivot 82 and gather allies oneself with bevel gear 84, gather and link bevel gear 84 meshing and connect driven bevel gear 85, be equipped with driven pivot 86 on the driven bevel gear 85, driven pivot 86 passes behind the gear accelerator 87 that is equipped with on the sanding box 18 and is connected with driven pulley 88 and set up, driven pulley 88 is connected with driving pulley 90 through connecting band 89 and sets up, is equipped with driving pivot 91 on the driving pulley 90, and the one end of driving pivot 91 is connected with the collection box 92 transmission that is equipped with on the braking diaphragm 1 and is connected and is set up, and the other end is connected with a plurality of flabellum 93 and is connected and set up, installs case 94 on the collection box 92.

Both scraping plates 55 are provided with a rotation angle steering mechanism, and the movement of both scraping plates 55 is in the same direction, so that one spraying head 69 rotates upwards, the other spraying head 69 rotates downwards, the two matched toothed rings 77 rotate reversely, the matched toothed rings are meshed with the aggregation gear 81 to rotate, the driven rotating shafts 86 on the driven bevel gears 85 start to rotate, meanwhile, the driven rotating shafts 86 do some acceleration movement in the gear accelerator 87, the driven pulleys 88 rotate at a high speed, the driving rotating shafts 91 on the driving pulleys 90 rotate rapidly through the connecting belts 89, a plurality of fan blades 93 rotate rapidly in the collecting boxes 92, the fan blades 93 on the driving rotating shafts 91 on the two sides rotate reversely, the collecting boxes 92 on one side generate strong suction force, the collecting boxes 92 on the other side generate strong blowing force and are matched with each other, wood powder falling on the braking transverse plates 1 enters the storage boxes 94 on the two sides through the description, and the device on the braking transverse plates 1 can be manufactured into a closed form (the manual dust collecting assembly is convenient to collect dust in a closed form), and the dust collecting assembly is convenient to clean, and the dust collecting assembly is not convenient to use, and the dust cleaning performance is reduced when the dust collecting assembly is displayed.

The invention also provides a sanding method of the wooden artwork, which comprises the following steps of:

step one, limiting a raw material wood board to be sanded in the sanding process by operating a distance-movement clamping mechanism, starting a force transmission square 5 on the output end of a force transmission motor 4, and driving a force transmission rotating shaft 6 to rotate by a force transmission square groove 7;

step two, the power transmission wheel 8 starts to rotate, and the brake wheel 10 rotates under the action of the conveying belt 9, so that the conveying belt 9 stably moves through the cooperation of a plurality of support rollers 14;

and thirdly, when the raw material wood board on the conveyer belt 9 moves, the spacing of the raw material wood board is automatically relieved through a distance-moving clamping mechanism after sanding operation is carried out by a sand-moving polishing unit in the sanding box 18, and then the raw material wood board is automatically discharged.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a wooden handicraft sand light device which characterized in that: the brake system comprises a brake transverse plate (1), wherein a brake base (2) is symmetrically arranged on the brake transverse plate (1), a brake clamping block (3) is arranged on the brake base (2), the brake clamping block (3) is connected with a power transmission motor (4), and the power transmission motor (4) is connected with a power transmission delivery assembly;

the transmission delivery assembly comprises a force transmission square block (5) arranged at the output end of a force transmission motor (4), the force transmission square block (5) is connected with a force transmission square groove (7) arranged on a force transmission rotating shaft (6), two ends of the force transmission rotating shaft (6) are in transmission connection with a brake base (2), a force transmission wheel (8) is arranged on the force transmission rotating shaft (6), the force transmission wheel (8) is connected with a brake wheel (10) through a conveying belt (9), a brake rotating shaft (11) is arranged on the brake wheel (10), and two ends of the brake rotating shaft (11) are in transmission connection with a force transmission base (12) arranged on a brake transverse plate (1); a T-shaped movable square plate (13) is arranged on the conveying belt (9), and the T-shaped movable square plate (13) is connected with the distance-movement clamping mechanism; the conveying belt (9) is connected with a plurality of supporting rollers (14), supporting rotating shafts (15) are arranged on the supporting rollers (14), two ends of each supporting rotating shaft (15) are connected with supporting square plates (16) arranged on the braking transverse plates (1), connecting different blocks (17) are arranged on the supporting square plates (16), the connecting different blocks (17) are jointly connected with a sanding box body (18), and the sanding box body (18) and the mounting plates (19) are connected through bolts; the mounting plates (19) are commonly connected with a driving motor (20), and the driving motor (20) is connected with the sand-driven polishing unit;

The sand-driven polishing unit comprises a driving gear (21) arranged at the output end of a driving motor (20), the driving gear (21) is connected with a sand-driven gear (23) through a driving toothed chain (22), a driving rotating shaft (24) is arranged on the sand-driven gear (23), a linkage gear (25) is arranged on the driving rotating shaft (24), and the linkage gear (25) is connected with a forward same-direction scraping assembly; the driving rotating shaft (24) passes through a bearing arranged on the sanding box body (18) and then is connected with the driving bevel gear (26), and the driving bevel gear (26) is meshed with the sanding bevel gear (27);

the distance movement clamping and stopping mechanism comprises distance movement L seats (35) symmetrically arranged on a T-shaped movement square plate (13), distance movement square rods (36) are slidably arranged on the distance movement L seats (35), moment movement square blocks (37) are arranged at one ends of the distance movement square rods (36), the moment movement square blocks (37) are connected with a static touch control module, stop position transverse plates (38) are arranged at the other ends of the distance movement square blocks, stop position rods (39) are symmetrically arranged on the stop position transverse plates (38), one ends of the stop position rods (39) are connected with stop position circular plates (40), the other ends of the stop position rods are connected with a joint square plate (41), stop position springs (42) are sleeved on the stop position rods (39), one ends of the stop position springs (42) are connected with the joint square plate (41), and the other ends of the stop position springs are connected with the stop position transverse plates (38); a distance moving spring (43) is sleeved on the distance moving square rod (36), one end of the distance moving spring (43) is fixedly connected with the distance moving L seat (35), and the other end of the distance moving spring is fixedly connected with the moment moving square block (37);

The forward and same-direction scraping assembly comprises a forward gear (44) which is meshed with the linkage gear (25), and the forward gear (44) is connected with the sanding box body (18) through a forward rotating shaft (45); a positioning moving rod (46) is arranged on the forward moving gear (44), the positioning moving rod (46) is connected with a rectangular square groove (48) arranged on a rectangular transverse block (47) in a sliding mode, guide rods (49) are symmetrically arranged on one side of the rectangular transverse block (47), and the guide rods (49) penetrate through a guide base (50) arranged on the sanding box body (18) and are connected with a guide circular plate (51); a guide spring (52) is sleeved on the guide rod (49), one end of the guide spring (52) is connected with the guide circular plate (51), and the other end of the guide spring is connected with the guide base (50); a special square rod (53) is arranged on the other side of the rectangular transverse block (47), the special square rod (53) is connected with two linkage long rods (54), the linkage long rods (54) are connected with a scraping plate (55) after penetrating through transverse grooves on the sanding box body (18), a plurality of scraping plates (55) are provided with fixed connecting seats (56), and the fixed connecting seats (56) are connected with a rotation angle steering mechanism; the sanding box body (18) is symmetrically provided with a moving linkage groove (57);

The rotation angle steering mechanism comprises a rope (63) arranged on the fixed linkage seat (56), and the rope (63) is connected with the auxiliary linkage seat (65) through a plurality of guide pulleys (64); a guide rotating shaft (66) is arranged on the guide pulley (64), and a plurality of guide rotating shafts (66) are in transmission connection with a rotating base (67) arranged in the sanding box body (18); the auxiliary linkage seat (65) is connected with the auxiliary long rod (68), one end of the auxiliary long rod (68) is connected with the spray head (69), the other end of the auxiliary long rod is connected with the auxiliary clamping block (70), the auxiliary clamping block (70) is connected with the auxiliary rotating shaft (71), and the auxiliary rotating shaft (71) is connected with the auxiliary base (72) arranged in the sanding box body (18); the two ends of the coordination rotating shaft (71) are connected with the coordination different blocks (73), the coordination different blocks (73) are in sliding connection with the coordination different rods (74), and the coordination different rods (74) are connected with a linkage base (75) arranged on the coordination base (72); a matching spring (76) is sleeved on the matching different rod (74), one end of the matching spring (76) is connected with the linkage base (75), the other end of the matching spring is connected with the matching different block (73), a matching toothed ring (77) is arranged on one matching different block (73), and the matching toothed ring (77) is connected with the collecting assembly;

The static touch control module comprises a touch control sleeve (78) arranged on a distance L seat (35), the touch control sleeve (78) is connected with a touch control sleeve rod (79) arranged on a moment moving square block (37) in a matched mode, touch pieces (80) are arranged on the touch control sleeve rod (79) and the touch control sleeve (78), and the two touch pieces (80) are connected with a driving motor (20) in a matched mode through a control board;

the assembly is gathered to collection includes and joins in marriage and gathers gear (81) that moves ring gear (77) meshing connection setting, gathers and install on gear (81) and gather and link pivot (82), gathers and link pivot (82) and sand and be equipped with on box (18) and gather square groove (83) transmission connection setting, gather and be equipped with on pivot (82) and gather and link bevel gear (84), gather and link bevel gear (84) meshing connection driven bevel gear (85), be equipped with driven pivot (86) on driven bevel gear (85), be connected with driven pulley (88) after driven pivot (86) pass gear accelerator (87) that are equipped with on sand and light box (18) and set up, driven pulley (88) are connected through connecting band (89) and driving pulley (90) and are set up, are equipped with driving pivot (91) on driving pulley (90), and the one end of driving pivot (91) is connected with the transmission of collecting box (92) that are equipped with on braking diaphragm (1) and are connected with a plurality of flabellum (93), installs on collecting box (92).

2. A wooden artwork sanding device as defined in claim 1, wherein: the sand-driven bevel gear (27) is provided with a sand-driven rotating shaft (28), one end of the sand-driven rotating shaft (28) is in transmission connection with the inner side surface of the sanding box body (18), the other end of the sand-driven rotating shaft is connected with the double-layer pulley (29), the double-layer pulley (29) is connected with the sand-driven pulley (31) through a plurality of transmission belts (30), a plurality of sand-driven pulleys (31) are provided with transmission rotating shafts (32), and the transmission rotating shafts (32) are in transmission connection with the inner side surface of the sanding box body (18); the sand movable pulleys (31) and the double-layer pulleys (29) are provided with auxiliary rotating shafts (33), and sand smooth rollers (34) are arranged on the auxiliary rotating shafts (33).

3. A wooden artwork sanding device as defined in claim 1, wherein: the square block (37) is provided with an extension rod (58), the extension rod (58) is connected with an extension clamping seat (59), a touch round wheel (60) is arranged on the extension clamping seat (59), the touch round wheel (60) is connected with a touch inclined plate (61) in a matched mode, the touch inclined plate (61) is symmetrically provided with a touch different rod (62), and the touch different rod (62) is fixedly connected with the support square plate (16) after penetrating through the sanding box body (18).

4. A method of sanding a wooden artwork using a wooden artwork sanding device as defined in any one of claims 1 to 3 comprising the steps of:

firstly, operating a distance-motion clamping mechanism, limiting a raw wood board to be sanded, and starting a force transmission motor (4) to enable a force transmission square block (5) at the output end to drive a force transmission rotating shaft (6) to rotate through a force transmission square groove (7);

step two, the power transmission wheel (8) starts to rotate, and the brake wheel (10) rotates under the action of the conveying belt (9), so that the conveying belt (9) moves stably through the cooperation of a plurality of support rollers (14);

step three, when the raw material wood board on the conveyer belt (9) moves, the spacing of the raw material wood board is automatically relieved through the distance-moving clamping mechanism after sanding operation is carried out by the sand-moving polishing unit in the sanding box body (18), and then the raw material wood board is automatically discharged.