CN112809849A - Timber plate processing system and method - Google Patents
Timber plate processing system and method Download PDFInfo
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- CN112809849A CN112809849A CN202110024036.3A CN202110024036A CN112809849A CN 112809849 A CN112809849 A CN 112809849A CN 202110024036 A CN202110024036 A CN 202110024036A CN 112809849 A CN112809849 A CN 112809849A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27C—PLANING, DRILLING, MILLING, TURNING OR UNIVERSAL MACHINES FOR WOOD OR SIMILAR MATERIAL
- B27C9/00—Multi-purpose machines; Universal machines; Equipment therefor
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Abstract
The invention discloses a timber plate processing system and a method, the structure of which comprises a hydraulic moving device, a buckle plate, a decompression knob, a case shell, a main switch, a control button, a control box, a fixed head, a fixed end, a fixed plate, a slag containing disc, a rotating motor and a bearing platform, the invention relates to the timber plate processing system and the method, a manual rotating rod is rotated by hands, a moving block is driven by a connecting rod to move finally, the plate is fixed under the stable movement of the motor, the oil is stably transmitted in the hydraulic transmission device, because the compression amount of the oil is very small, the oil is transmitted by the continuous flow of the oil, the oil has the shock absorption capacity, a hydraulic buffer device can be arranged in an oil path, the shock of a vibration buckle can be reduced, the transmission is very stable, the hydraulic moving device is a fixed plate with accurate and stable hydraulic transmission and slow speed regulation, the fixed plate is naturally and well processed later, the defects of the finished product are greatly reduced, and the value and the appearance are naturally and greatly improved.
Description
The application is a divisional application of timber plate processing equipment, wherein the application date is 2017, 11 and 26, and the application number is CN 201711199736.6.
Technical Field
The invention discloses a wood plate processing system and a method, and belongs to the field of plate processing equipment.
Background
Sheet material (sheet material) is a flat rectangular building material sheet of standard size, used in the building industry as a wall, ceiling or floor element, and is also referred to as forged, rolled or cast sheet metal.
The wood processing technology comprises basic processing technologies such as wood cutting, wood drying, wood gluing and wood surface decoration, and functional processing technologies such as wood protection and wood modification. Cutting includes sawing, planing, milling, drilling, sanding, and the like. 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.
Wood processing, which is processing mainly by mechanical or chemical methods using wood as a raw material, still maintains the basic characteristics of wood. In the forest industry, the wood processing industry and the chemical processing of forest products are the subsequent industries of forest felling and transportation, are important departments for comprehensive utilization of wood resources, the processing is that the plate material is generally called as the plate material in the process of converting raw materials and semi-finished products into target requirements through a certain process and a certain mode and is rolled out by using a flat roller, so that the change of the specification of the product is simple and easy, the adjustment and the operation are convenient, the comprehensive computer control and the automatic production are easy to realize, the shape of the plate material is simple, can be produced in coils, has the largest dosage in national economy, and can realize high-speed continuous rolling production, because the width-thickness ratio and the surface area are both large, the rolling pressure in production is large and can reach millions to tens of millions of newtons, so the rolling mill equipment is complicated and huge, and control of the width, thickness dimensional accuracy and shape of the product and surface quality becomes difficult and complicated.
However, when the prior art is used, the plate can be processed into a spherical shape (used for manufacturing Buddha beads, camphor balls and the like), the plate needs to be stably and slowly fixed before processing, if the plate is not stably fixed, the finished product is easy to have flaws, and the value and the attractiveness are greatly reduced.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a wood plate processing system and a wood plate processing method, so as to solve the problems that when the wood plate is used in the prior art, the wood plate can be processed into a spherical shape (used for manufacturing Buddha beads, camphor balls and the like), the wood plate needs to be stably and slowly fixed before processing, if the wood plate is not stably fixed, the finished product is easy to have flaws, and the value and the attractiveness are greatly reduced.
In order to achieve the purpose, the invention is realized by the following technical scheme: a timber plate processing system and a method thereof structurally comprise a hydraulic moving device, a pinch plate, a decompression knob, a case shell, a main switch, a control button, a control box, a fixed head, a fixed end, a fixed plate, a slag containing disc, a rotating motor and a bearing platform, wherein the hydraulic moving device is arranged on the case shell, the upper left end surface of the case shell is connected with the lower end surface of the control box, the upper left end surface of the case shell is mutually vertical to the control box, the control box is provided with the control button and the control box, the control buttons are mutually parallel, the right end of the control box is connected with the left end of the fixed head and mutually vertical to the left end of the fixed head, the slag containing disc is arranged above the hydraulic moving device, the fixed end is arranged on the front end surface of the fixed plate, the fixed end is mutually vertical to the front end surface of the fixed plate, the lower end of the fixed end is, the lower end of the rotating motor is connected with the upper end face of the bearing table, the fixing plate is perpendicular to the upper end face of the case shell, the lower end of the bearing table is connected with the upper end face of the hydraulic moving device, the pressing moving device is composed of a manual rotating rod, a conveying belt, a matching block, a composite spiral bevel gear, a spiral bevel gear rod, a spiral bevel gear, a rotating shaft rod, a sealing block, an oil outlet pipeline, a pressure relief valve, an extrusion oil liquid cavity, a rotating rod gear, a moving block, a connecting rod, a matching rod fixing plate, a matching gear, a rotating rod gear, a fixing head, an oil inlet cavity, a trapezoidal disc, a twisting block, an oil pressure rod, an oil liquid extrusion structure, a matching rubber block, an oil outlet cavity, a bearing, an oil liquid cavity and a hydraulic shell, the manual rotating rod is connected with the central shaft of the rotating rod gear, a gear on the rotating rod gear is meshed with a gear on, the matching block is arranged on a spiral bevel gear rod, a spiral bevel gear is arranged in the middle of the spiral bevel gear rod, the upper end of the fixing head is connected with the spiral bevel gear rod through a rotary bearing, the spiral bevel gear is meshed with a gear on the front end face of the composite spiral bevel gear, the gear on the composite spiral bevel gear is meshed with a rotary rod gear, the left end of the rotary shaft rod is connected with the rotary rod gear, the left end of the rotary shaft rod is connected with a bearing, the bearing is connected with the inside of a hydraulic shell, the rotary rod gear is matched with the hydraulic shell, the hydraulic shell is of an integrated structure, an oil inlet cavity, an oil liquid cavity and an oil outlet cavity are arranged in the hydraulic shell, the upper end of the oil inlet cavity is connected with the oil liquid cavity, the right end of the oil outlet cavity is connected with the oil inlet cavity, the rotary shaft rod part, the rotating shaft rod penetrates through the trapezoidal disk and is connected with the trapezoidal disk, the upper end and the lower end of the inclined plane of the trapezoidal disk are provided with twisting blocks, the right end of the twisting block is connected with an oil pressure rod, the oil pressure rod is arranged with an oil inlet cavity, an oil liquid extruding structure is arranged inside the oil pressure rod, the matching rubber block is arranged in the oil outlet cavity and connected with the oil outlet cavity, the matching rubber block is connected with the interior of the hydraulic shell, the right end of the matching rubber block is in clearance fit with the oil liquid extrusion structure, the right end of the oil liquid extrusion structure is connected with the inner wall of the oil outlet cavity, the oil outlet cavity is connected with the extrusion oil cavity through an oil outlet pipeline, the pressure relief valve is connected with the extrusion oil cavity through one end of the oil pipeline and the other end of the oil pipeline, the connecting rod is connected with an oil cavity block arranged in the oil pressing oil cavity, the upper end of the connecting rod is connected with the lower end of the moving block, and a track arranged on the trapezoidal disc 121 is matched with the twisting block 122.
Further, fluid extrusion structure comprises rubber ball, cooperation spring, cooperation pole, the rubber ball right-hand member is connected with the cooperation spring left end, the cooperation spring left end is connected with the cooperation pole left end, the cooperation pole cooperatees with the cooperation spring.
Furthermore, the threaded notch formed in the moving block is in clearance fit with the matching rod, and the matching rod is parallel to the moving block.
Furthermore, the lower end of the matching rod fixing plate is connected with the upper end face of the case shell, the upper end face of the case shell is perpendicular to the matching rod fixing plate, and the number of the matching rod fixing plates is two and perpendicular to each other.
Furthermore, the spiral bevel gear rod, the matching block and the spiral bevel gear are distributed on the same central shaft.
Furthermore, chassis exterior and control box are the metal material, and the easy moulding and the intensity hardness of metal material are good.
Furthermore, fixed head, fixed end, rotating electrical machines structure cooperate, can be used to form wooden ball to panel processing and be used for beads, cinnamomum camphora ball etc..
Advantageous effects
The invention relates to a wood plate processing system and a method, wherein a manual rotary rod is rotated by hand, at the moment, the internal structure of a hydraulic shell starts to do piston motion, oil is conveyed into an extrusion oil cavity from an oil outlet pipeline, the extrusion oil cavity extrudes an internal extrusion block to push a connecting rod, finally, the connecting rod drives a moving block to move, a motor is arranged on a moving block, a plate is fixed under the stable movement of the motor, the oil transmission is stable in a hydraulic transmission device, the oil is considered to be incompressible under the normal pressure due to the very small compression amount of the oil, the transmission is carried out by the continuous flow of the oil, the oil has the vibration absorption capacity, a hydraulic buffer device can be arranged in an oil circuit, so that the wood plate processing system is not influenced by the vibration fastener impact caused by the processing and assembling errors of a mechanical mechanism, the transmission is very stable, and the hydraulic transmission device is widely applied to, The fixed plate is stable and slow in speed regulation, the fixed plate is naturally and well processed later, flaws of finished products are greatly reduced, and the value and the appearance are naturally and greatly improved.
Drawings
Other features, objects and advantages of the invention 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 structural view of a wood panel processing system and method of the present invention;
FIG. 2 is a schematic diagram of the moving block movement structure of the present invention;
FIG. 3 is a schematic view of the decompression valve of the present invention in an open configuration;
FIG. 4 is a schematic view of the trapezoidal disk of the present invention;
FIG. 5 is a schematic structural view of a plane of an oil extrusion structure according to the present invention;
fig. 6 is a perspective structural view of the compound spiral bevel gear of the present invention.
In the figure: a hydraulic moving device-1, a buckle-2, a decompression knob-3, a case shell-4, a main switch-5, a control button-6, a control box-7, a fixed head-8, a fixed end-9, a fixed plate-10, a slag containing disc-11, a rotating motor-12, a receiving table-13, a manual rotating rod-101, a conveyor belt-102, a matching block-103, a composite spiral bevel gear-104, a spiral bevel gear rod-105, a spiral bevel gear-106, a rotating shaft rod-107, a sealing block-108, an oil outlet pipeline-109, a decompression valve-110, an extrusion oil liquid cavity-111, a rotating rod gear-112, a moving block-113, a connecting rod-114, a matching rod-115, a matching rod fixed plate-116, a matching rod fixing plate-116, a main switch-7, a matching, A mating gear-117, a rotary rod gear-118, a fixed head-119, an oil inlet cavity-120, a trapezoidal disc-121, a twisting block-122, an oil pressure rod-123, an oil liquid extrusion structure-124, a mating rubber block-125, an oil outlet cavity-126, a bearing-127, an oil liquid cavity-128, a hydraulic shell-129, a spiral bevel gear rod-105, a mating block-103 and a spiral bevel gear-106.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Referring to fig. 1-6, the present invention provides a wood board processing system and method, which comprises the following steps: the structure of the device comprises a hydraulic moving device 1, a pinch plate 2, a decompression knob 3, a case shell 4, a main switch 5, a control button 6, a control box 7, a fixed head 8, a fixed end 9, a fixed plate 10, a slag containing disc 11, a rotating motor 12 and a carrying table 13, wherein the hydraulic moving device 1 is arranged on the case shell 4, the upper left end surface of the case shell 4 is connected with the lower end surface of the control box 7, the upper left end surface of the case shell 4 is vertical to the control box 7, the control box 7 is provided with the control button 6 and the control box 7, the control buttons 6 are multiple and parallel to each other, the right end of the control box 7 is connected with the left end of the fixed head 8 and vertical to each other, the slag containing disc 11 is arranged above the hydraulic moving device 1, the fixed end 9 is arranged on the front end surface of the fixed plate 10, the fixed end 9 is vertical to the front end surface of the, the lower end of the fixed end 9 is connected with the upper end of the chassis housing 4, the lower end of the rotating motor 12 is connected with the upper end face of the receiving table 13, the fixed plate 10 is perpendicular to the upper end face of the chassis housing 4, the lower end of the receiving table 13 is connected with the upper end face of the hydraulic mobile device 1, and the hydraulic mobile device 1 is composed of a manual rotating rod 101, a conveyor belt 102, a matching block 103, a composite spiral bevel gear 104, a spiral bevel gear rod 105, a spiral bevel gear 106, a rotating shaft 107, a sealing block 108, an oil outlet pipeline 109, a pressure relief valve 110, an extrusion oil cavity 111, a rotating rod gear 112, a moving block 113, a connecting rod 114, a matching rod 115, a matching rod fixing plate 116, a matching gear 117, a rotating rod gear 118, a fixed head 119, an oil inlet cavity 120, a trapezoidal disc 121, a twisting block 122, an oil pressure rods 123, an oil extrusion structure 124, a matching rubber block 125, an oil outlet cavity, A hydraulic shell 129, wherein the manual rotating rod 101 is connected with the central shaft of a rotating rod gear 118, the gear on the rotating rod gear 118 is meshed with the gear on a matching gear 117, a transmission wheel on the matching gear 117 is matched with a matching block 103 through a transmission belt 102, the matching block 103 is arranged on a spiral bevel gear rod 105, a spiral bevel gear 106 is arranged in the middle of the spiral bevel gear rod 105, the upper end of the fixing head 119 is connected with the spiral bevel gear rod 105 through a rotating bearing, the spiral bevel gear 106 is meshed with the gear on the front end surface of a composite spiral bevel gear 104, the gear on the composite spiral bevel gear 104 is meshed with a rotating rod gear 112, the left end of the rotating rod 107 is connected with the rotating rod gear 112 and the left end is connected with a bearing 127, the bearing 127 is connected with the inside of the hydraulic shell 129, and the rotating rod gear 112 is matched with the hydraulic shell 129, the hydraulic shell 129 is of an integrated structure, an oil inlet cavity 120, an oil cavity 128 and an oil outlet cavity 126 are arranged in the hydraulic shell 129, the upper end of the oil inlet cavity 120 is connected with the oil cavity 128, the right end of the oil outlet cavity 126 is connected with the oil inlet cavity 120, the part of the rotating shaft rod 107 is located in the oil inlet cavity 120, the rotating shaft rod 107 is in clearance fit with the sealing block 108, the rotating shaft rod 107 penetrates through the trapezoidal disc 121 and is connected with the trapezoidal disc 121, the upper end and the lower end of the inclined plane of the trapezoidal disc 121 are provided with the twisting block 122, the right end of the twisting block 122 is connected with the oil pressure rod 123, the oil pressure rod 123 is arranged in the oil inlet cavity 120, the oil pressure extrusion structure 124 is arranged in the oil pressure rod 123, the matching rubber block 125 is arranged in the oil outlet cavity 126 and is connected with the oil outlet cavity, the matching rubber block 125 is connected with the interior of, the right end of the oil extrusion structure 124 is connected with the inner wall of an oil outlet cavity 126, the oil outlet cavity 126 is connected with an extrusion oil cavity 111 through an oil outlet pipeline 109, the pressure relief valve 110 is connected with the extrusion oil cavity 111 through one end of the oil pipeline and the other end is connected with an oil cavity 128, the connecting rod 114 is connected with an oil cavity block arranged inside the extrusion oil cavity 111, the upper end of the connecting rod 114 is connected with the lower end of a moving block 113, a track arranged on the trapezoidal disc 121 is matched with the twisting block 122, the oil extrusion structure 124 is composed of a rubber ball 12401, a matching spring 12402 and a matching rod 12403, the right end of the rubber ball 12401 is connected with the left end of the matching spring 12402, the left end of the matching spring 12402 is connected with the left end of the matching rod 12403, the matching rod 12403 is matched with the matching spring 12402, threads arranged on the moving block 113 are in clearance fit with the matching rod 115, and the matching rod 115 is, cooperation pole fixed plate 116 lower extreme links to each other with 4 up ends of chassis housing, 4 up ends of chassis housing are mutually perpendicular with cooperation pole fixed plate 116, cooperation pole fixed plate 116 is total two and mutually perpendicular between, be same center pin distribution between spiral bevel gear pole 105, cooperation piece 103, the spiral bevel gear 106, chassis housing 4 and control box 7 are the metal material, and the metal material is easily moulding and intensity hardness is good, fixed head 8, fixed end 9, rotating electrical machines 12 structure cooperate, can be used to form wooden ball to panel processing and be used for beads, cinnamomum camphora ball etc..
In the 17 th century, the conveyor belt 102 of this patent began to use aerial cableways to convey bulk materials; in the middle of the 19 th century, various modern-structured belt conveyors have been developed in succession. In 1868, belt conveyor conveyors emerged in the uk; in 1887, screw conveyors appeared in the united states; in 1905, steel belt conveyors appeared in switzerland; in 1906, inertial conveyors appeared in uk and germany. After that, the conveyor belt is influenced by the technical progress of mechanical manufacturing, motors, chemical industry and metallurgical industry, is continuously perfect, gradually develops from the completion of the conveying inside a workshop to the completion of the material handling inside an enterprise, between enterprises and even between cities, and becomes an indispensable component part of the mechanization and automation of a material handling system.
When the wood plate processing device is used, firstly, the wood plate processing device is installed on a plate through the pinch plate 2, the main switch 5 is opened, then the plate is placed on the fixed head 8, the manual rotating rod 101 is rotated by hands (the manual rotating rod 101 rotates to drive the rotating rod gear 118 and the matching gear 117, the matching gear 117 drives the matching block 103 through the conveyor belt 102, the spiral bevel gear 106 on the matching block 103 drives the spiral bevel gear 104, and finally the spiral bevel gear 104 drives the rotating rod gear 112 and the rotating shaft rod 107 to rotate), at the moment, the internal structure of the hydraulic shell 129 starts to perform piston motion (the rotating shaft rod 107 rotates to drive the trapezoidal disk 121 to rotate the trapezoidal disk 121 to drive the two twisting blocks 122 to shift left and right, so that the oil path of the oil hydraulic rod 123 moving left and right at the left end of the oil extrusion structure 124 is closed, the oil extrusion structure 124 at the, the oil is conveyed into the extrusion oil cavity 111 from the oil outlet pipeline 109, the extrusion oil cavity 111 extrudes the internal extrusion block to push the connecting rod 114, finally the connecting rod 114 drives the moving block 113 to move, the motor 12 is arranged on the moving block 113, the plate is fixed under the stable movement of the motor 12, the pressure relief valve 110 is rotated, the pressure relief knob relieves the oil, and the moving block 113 restores to the original position.
The oil transmission is stable in the hydraulic transmission device, and the oil can be considered to be incompressible under the normal pressure due to the very small compression amount of the oil, and the transmission is carried out by the continuous flow of the oil. The oil has the vibration absorption capacity, and a hydraulic buffer device can be arranged in the oil path, so that the vibration fastener is not impacted due to processing and assembling errors of a mechanical mechanism, the transmission is very stable, and frequent reversing is convenient to realize; therefore, the hydraulic transmission device is widely applied to machinery requiring stable transmission, for example, a grinding machine almost completely adopts hydraulic transmission, stepless speed regulation can be easily realized in the hydraulic transmission, the flow of liquid is regulated, the stepless speed regulation can be realized, the speed regulation range is very wide and can reach 2000:1, the extremely low speed can be easily obtained, a hydraulic element can be automatically lubricated, the hydraulic transmission device can be automatically lubricated due to the fact that hydraulic oil is adopted as a working medium, the service life of the element is long, the pressure, the flow and the direction of the liquid in an automatic hydraulic system can be easily controlled, and complex automatic working circulation can be easily realized due to the cooperation of an electric device, so that the production rate can be improved, the product quality can be improved, and the cost can be reduced.
The invention solves the problem that when the prior art is used, the plate can be processed into a spherical shape (used for manufacturing Buddha beads, camphor balls and the like), the plate needs to be stably and slowly fixed before processing, if the plate is not stably fixed, the finished product is easy to have flaws, and the value and the beauty are greatly reduced, the invention combines the components mutually, the invention discloses a wood plate processing system and a method, a manual rotating rod 101 is rotated by hand, at the moment, the internal structure of a hydraulic shell 129 starts to do piston motion, oil is conveyed into an extrusion oil cavity 111 from an oil outlet pipeline 109, the extrusion oil cavity 111 extrudes an internal extrusion block to push a connecting rod 114, finally, the connecting rod 114 drives a moving block 113 to move, a motor 12 is arranged on the moving block 113, the plate is fixed under the stable movement of the motor 12, the oil transmission is stable in a hydraulic transmission device, and the oil can be considered to be incompressible under the normal pressure because the compression amount of the oil is, the hydraulic moving device 1 is a fixed plate which is accurate and stable in hydraulic transmission and slow in speed regulation, the fixed plate is naturally and well processed later, finished flaws are greatly reduced, and the hydraulic moving device is valuable and naturally and greatly improved in appearance.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.
Claims (5)
1. The utility model provides a timber panel processing equipment, its structure includes hydraulic pressure mobile device (1), buckle (2), decompresses knob (3), chassis exterior (4), master switch (5), control button (6), control box (7), fixed head (8), fixed end (9), fixed plate (10), flourishing slag pan (11), rotating electrical machines (12), accepting table (13), on chassis exterior (4) was located in hydraulic pressure mobile device (1), its characterized in that:
the left upper end face of the case shell (4) is connected with the lower end face of a control box (7), the left upper end face of the case shell (4) is perpendicular to the control box (7), the control box (7) is provided with a control button (6) and a control box (7), the control buttons (6) are parallel to each other, the right end of the control box (7) is connected with the left end of a fixed head (8) and perpendicular to each other, a slag containing disc (11) is arranged above the hydraulic moving device (1), the fixed end (9) is arranged on the front end face of a fixed plate (10), the fixed end (9) is perpendicular to the front end face of the fixed plate (10), the lower end of the fixed end (9) is connected with the upper end of the case shell (4), the lower end of a rotating motor (12) is connected with the upper end face of a bearing table (13), and the fixed plate (10) is perpendicular to the upper end face of the case shell (4), the lower end of the bearing table (13) is connected with the upper end surface of the hydraulic moving device (1);
the pressing moving device (1) consists of a manual rotating rod (101), a conveyor belt (102), a matching block (103), a composite spiral bevel gear (104), a spiral bevel gear rod (105), a spiral bevel gear (106), a rotating shaft rod (107), a sealing block (108), an oil outlet pipeline (109), a decompression valve (110), an extrusion oil cavity (111), a rotating rod gear (112), a moving block (113), a connecting rod (114), a matching rod (115), a matching rod fixing plate (116), a matching gear (117), a rotating rod gear (118), a fixing head (119), an oil inlet cavity (120), a trapezoidal disc (121), a twisting block (122), an oil pressure rod (123), an oil liquid extrusion structure (124), a matching rubber block (125), an oil outlet cavity (126), a bearing (127), an oil liquid cavity (128) and a hydraulic shell (129), wherein the manual rotating rod (101) is connected with the central shaft of the rotating rod gear (118), the gear on the rotary rod gear (118) is meshed with the gear on the matching gear (117), the transmission wheel on the matching gear (117) is matched with the matching block (103) through the transmission belt (102), the matching block (103) is arranged on the spiral bevel gear rod (105), the spiral bevel gear (106) is arranged in the middle of the spiral bevel gear rod (105), the upper end of the fixing head (119) is connected with the spiral bevel gear rod (105) through a rotary bearing, the spiral bevel gear (106) is meshed with the gear on the front end face of the composite spiral bevel gear (104), the gear on the composite spiral bevel gear (104) is meshed with the rotary rod gear (112), the left end of the rotary rod (107) is connected with the rotary rod gear (112) and the left end is connected with the bearing (127), the bearing (127) is connected with the inside of the hydraulic shell (129), and the rotary rod gear (112) is matched with the hydraulic shell (129), the hydraulic shell (129) is of an integrated structure, an oil inlet cavity (120), an oil cavity (128) and an oil outlet cavity (126) are arranged in the hydraulic shell (129), the upper end of the oil inlet cavity (120) is connected with the oil cavity (128), the right end of the oil outlet cavity (126) is connected with the oil inlet cavity (120), a part of a rotating shaft rod (107) is located in the oil inlet cavity (120), the rotating shaft rod (107) is in clearance fit with a sealing block (108), the rotating shaft rod (107) penetrates through a trapezoidal disc (121) and is connected with the trapezoidal disc (121), a twisting block (122) is arranged at the upper end and the lower end of the inclined plane of the trapezoidal disc (121), the right end of the twisting block (122) is connected with an oil pressure rod (123), the oil pressure rod (123) is arranged with the oil inlet cavity (120), an oil extrusion structure (124) is arranged in the oil pressure rod (123), and a matching rubber block (125) is arranged in the oil outlet cavity (, the hydraulic oil pressure relief valve is characterized in that the matching rubber block (125) is connected with the inside of the hydraulic shell (129), the right end of the matching rubber block (125) is in clearance fit with the oil liquid extrusion structure (124), the right end of the oil liquid extrusion structure (124) is connected with the inner wall of an oil outlet cavity (126), the oil outlet cavity (126) is connected with the extrusion oil liquid cavity (111) through an oil outlet pipeline (109), the pressure relief valve (110) is connected with the extrusion oil liquid cavity (111) through one end of the oil liquid pipeline and the other end of the oil liquid cavity (128), the connecting rod (114) is connected with the oil cavity block arranged inside the extrusion oil liquid cavity (111), the upper end of the connecting rod (114) is connected with the lower end of the moving block (113), and a track arranged on the trapezoidal disc (121) is matched with the twisting block (122);
the oil extrusion structure (124) is composed of a rubber ball (12401), a matching spring (12402) and a matching rod (12403), the right end of the rubber ball (12401) is connected with the left end of the matching spring (12402), the left end of the matching spring (12402) is connected with the left end of the matching rod (12403), and the matching rod (12403) is matched with the matching spring (12402).
2. A timber panel processing apparatus according to claim 1 wherein: the threaded notch formed in the moving block (113) is in clearance fit with the matching rod (115), and the matching rod (115) is parallel to the moving block (113).
3. A timber panel processing apparatus according to claim 1 wherein: the lower end of the matching rod fixing plate (116) is connected with the upper end face of the case shell (4), the upper end face of the case shell (4) is perpendicular to the matching rod fixing plate (116), and the number of the matching rod fixing plates (116) is two and perpendicular to each other.
4. A timber panel processing apparatus according to claim 1 wherein: the spiral bevel gear rod (105), the matching block (103) and the spiral bevel gear (106) are distributed on the same central shaft.
5. A timber sheet processing system and method according to any one of claims 1 to 4 wherein:
when the wood plate processing device is used, firstly, the wood plate processing device is installed on a plate through a pinch plate (2), a main switch (5) is turned on, then, the plate is placed on a fixing head (8), a manual rotating rod (101) is rotated by hands (the manual rotating rod (101) rotates to drive a rotating rod gear (118) and a matching gear (117), the matching gear (117) drives a matching block (103) through a conveyor belt (102), and then a spiral bevel gear (106) on the matching block (103) drives a spiral bevel gear (104);
finally, a spiral bevel gear (104) drives a rotating rod gear (112) and a rotating shaft rod (107) to rotate, at the moment, the internal structure of a hydraulic shell (129) starts to do piston motion (the rotating shaft rod (107) rotates to drive a trapezoidal disc (121) to rotate the trapezoidal disc (121) to drive two twisting blocks (122) to deflect left and right, so that an oil way of an oil liquid extrusion structure (124) at the left end is closed when an oil liquid extrusion structure (124) at the left end moves left and right, the oil liquid extrusion structure (124) at the right end is opened, oil liquid is circularly conveyed to an oil outlet cavity (126)), oil is conveyed into an extrusion oil liquid cavity (111) from an oil outlet pipeline (109), and the extrusion block in the extrusion liquid cavity (111) is extruded to push a;
and finally, the connecting rod (114) drives the moving block (113) to move, the motor (12) is arranged on the moving block (113), the plate is fixed under the stable movement of the motor (12), the decompression valve (110) is rotated, the decompression knob decompresses oil, and the moving block (113) returns to the original position.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202110024036.3A CN112809849A (en) | 2017-11-26 | 2017-11-26 | Timber plate processing system and method |
Applications Claiming Priority (2)
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CN202110024036.3A CN112809849A (en) | 2017-11-26 | 2017-11-26 | Timber plate processing system and method |
CN201711199736.6A CN107984558B (en) | 2017-11-26 | 2017-11-26 | Timber panel processing equipment |
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CN202110024036.3A Withdrawn CN112809849A (en) | 2017-11-26 | 2017-11-26 | Timber plate processing system and method |
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CN107984558A (en) | 2018-05-04 |
CN107984558B (en) | 2021-03-30 |
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