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CN112895023B - Auxiliary device for use in core-board processing - Google Patents

Auxiliary device for use in core-board processing Download PDF

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Publication number
CN112895023B
CN112895023B CN202110082284.3A CN202110082284A CN112895023B CN 112895023 B CN112895023 B CN 112895023B CN 202110082284 A CN202110082284 A CN 202110082284A CN 112895023 B CN112895023 B CN 112895023B
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wall
fixedly connected
air
pipe
cavity
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CN112895023A (en
Inventor
来滕飞
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Liaocheng Xingguang Wood Industry Co.,Ltd.
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Liaocheng Xingguang Wood Industry Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27CPLANING, DRILLING, MILLING, TURNING OR UNIVERSAL MACHINES FOR WOOD OR SIMILAR MATERIAL
    • B27C5/00Machines designed for producing special profiles or shaped work, e.g. by rotary cutters; Equipment therefor
    • B27C5/02Machines with table
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27CPLANING, DRILLING, MILLING, TURNING OR UNIVERSAL MACHINES FOR WOOD OR SIMILAR MATERIAL
    • B27C5/00Machines designed for producing special profiles or shaped work, e.g. by rotary cutters; Equipment therefor
    • B27C5/02Machines with table
    • B27C5/06Arrangements for clamping or feeding work
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27GACCESSORY MACHINES OR APPARATUS FOR WORKING WOOD OR SIMILAR MATERIALS; TOOLS FOR WORKING WOOD OR SIMILAR MATERIALS; SAFETY DEVICES FOR WOOD WORKING MACHINES OR TOOLS
    • B27G3/00Arrangements for removing bark-zones, chips, waste, or dust, specially designed for use in connection with wood-working machine or in wood-working plants

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  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Wood Science & Technology (AREA)
  • Forests & Forestry (AREA)
  • Jigs For Machine Tools (AREA)
  • Cleaning In General (AREA)

Abstract

The invention relates to the technical field of fine wood board processing, and discloses an auxiliary device for fine wood board processing, which comprises a base, a box body, a conveyor belt, a hob and a roller assembly, wherein the top end of the base is fixedly connected with the box body, the left side of the inner wall of the box body is movably connected with the conveyor belt, the back surface of the hob is movably connected with the inner wall of the box body, and the roller assembly is positioned on the left side of the hob and movably connected with the inner wall of the box body; the long trachea of gaseous admission that comes from the plenum chamber, get into the dysmorphism groove, later pass first mistake trachea again and get into the cylindricality air cavity, then during gaseous second mistake trachea gets into the ring chamber, gas passes right angle trachea and gets into the straight trachea, then the blowout, when gaseous blowout, produce thrust and make the ring piece rotate for the fore-set, through the pivoted blowout of gas of ring piece, when top and log section contact, a large amount of gases of straight trachea blowout, gas forms short-lived gas curtain at a centre gripping section of thick bamboo surface, and then prevent that the saw-dust adhesion from to a centre gripping section of thick bamboo.

Description

Auxiliary device for use in core-board processing
Technical Field
The invention relates to the technical field of core-board processing, in particular to an auxiliary device for core-board processing.
Background
A laminated wood board is a special laminated wood board produced by splicing wood laths or a hollow board as a core board on the basis of the production of a laminated wood board, wherein more than two layers (including two layers) are covered on the front surface and the bottom surface, the laminated wood board is manufactured by gluing, firstly, a log is manufactured into a wood board, then, a finished product is manufactured by the steps of splicing the wood board, gluing and the like, in the process of manufacturing the wood board by the log, the wood is cut into a section of log, then, the log is cut into the wood board by using a log multi-blade saw device, the next process is carried out, the existing log multi-blade saw device utilizes pairwise symmetrical rollers to rotate, conveys log sections, the log sections are clamped by the rollers to move towards a cutting hob for cutting, the outer surface of the rollers is provided with a plurality of lugs, the log sections are firmly clamped by the lugs, and because the log is filled with water and the bark on the surface is easy to loosen, a large amount of wood chips can be scraped down when the rollers clamp the log sections, these saw-dust mostly all drops inside the equipment, there are few part to glue on the cylinder surface, bond together with cylinder surface arch, when cylinder surface adhesion has a large amount of saw-dust, the frictional force of cylinder and log section can reduce or even disappear, make the cylinder still motionless in situ when rotating, thereby let the cutting hobbing cutter idle running, in addition respectively have two about the cylinder of carrying the log section, and leave half the space of cylinder diameter between two horizontal adjacent cylinders, make the log section in case motionless in situ, just block with the space easily, make whole equipment stop, therefore, we provide an auxiliary device who is used for in the laminated wood board processing who prevents cylinder surface adhesion saw-dust.
Disclosure of Invention
In order to achieve the purpose of preventing the sawdust on the surface of the roller from adhering, the invention provides the following technical scheme: the utility model provides an auxiliary device for in laminated wood board processing, includes base, box, conveyer belt, hobbing cutter and drum assembly, base top and box fixed connection, box inner wall left side and conveyer belt swing joint, the hobbing cutter back and box inner wall swing joint, drum assembly is located hobbing cutter left side and box inner wall swing joint.
As optimization, the roller assembly comprises an air pump, an air distribution pipe, a connecting air pipe, a roller, a clamping cylinder, an inflation cavity, a long air pipe, an air transmission assembly and an air injection assembly, the bottom end of the air pump is fixedly connected with the base, the output end of the air pump is fixedly connected with the air distribution pipe, the left side of the air distribution pipe is fixedly connected with the connecting air pipe, the outer wall of the connecting air pipe is fixedly connected with the right side of the inner wall of the box body, the roller is located on the right side of the connecting air pipe and rotatably connected with the right side of the inner wall of the box body, the left side of the roller is fixedly connected with the clamping cylinder, the inflation cavity is arranged on the inner wall of the clamping cylinder, and the roller clamping cylinder clamps the logs to be processed and conveys the logs to the hob for cutting.
As optimization, aerify intracavity wall top and long trachea fixed connection, the one end and the biography gas subassembly fixed connection that aerify the chamber are kept away from to long trachea, pass gas subassembly and jet-propelled subassembly fixed connection, the jet-propelled subassembly is used in preventing a large amount of saw-dusts of centre gripping section of thick bamboo surface adhesion.
As the optimization, pass the gas subassembly and constitute by first spring push rod, shrouding, ring post, roof, ejector pin, slide bar, bar slider and dysmorphism groove, first spring push rod top and dysmorphism inslot wall fixed connection, the dysmorphism groove is seted up at a centre gripping section of thick bamboo inner wall, dysmorphism groove top and long trachea fixed connection, first spring push rod bottom and shrouding fixed connection, the ring post is located shrouding bottom and dysmorphism inslot wall fixed connection, roof bottom and ejector pin fixed connection, ejector pin bottom and slide bar fixed connection, slide bar outer wall and dysmorphism inslot wall bottom sliding connection, slide bar bottom and bar slider fixed connection, bar slider outer wall and centre gripping section of thick bamboo inner wall sliding connection pass the gas delivery who comes from the air pump into jet-propelled subassembly.
Preferably, the air injection assembly comprises a second spring push rod, a top column, a cylindrical air cavity, a top head, a second air passing pipe, a ring block, a ring cavity, a convex block, a right-angle air pipe, a first air passing pipe and a straight air pipe, wherein the bottom end of the top column is fixedly connected with the top head, the top end of the second spring push rod is fixedly connected with the inner wall of the clamping barrel, the bottom end of the second spring push rod is fixedly connected with the top column, the outer wall of the top column is slidably connected with the inner wall of the clamping barrel, the cylindrical air cavity is arranged on the inner wall of the top column, the left side of the first air passing pipe is fixedly connected with the cylindrical air cavity, the bottom end of the cylindrical air cavity is fixedly connected with the second air passing pipe, the right side of the second air passing pipe is movably connected with the inner wall of the ring cavity, the ring cavity is arranged on the left side of the inner wall of the ring block, the left side of the convex block is fixedly connected with the ring block, the bottom end of the right-angle air pipe is fixedly connected with the inner wall of the ring cavity, and one end of the right-angle air pipe, which is far away from the ring cavity, is fixedly connected with the straight air pipe, the outer wall of the straight air pipe is fixedly connected with the inner wall of the lug, and air from the special-shaped groove enters the cylindrical air cavity through the first air passing pipe;
preferably, the inner wall of the ring block is rotationally connected with the top column.
Preferably, the right side of the top pillar is fixedly connected with the strip-shaped sliding block, and the extending end of the right side of the first air passing pipe is located on the inner wall of the special-shaped groove, so that when the top pillar moves towards the direction of the inflation cavity, air in the special-shaped groove can smoothly enter the cylindrical air cavity through the first air passing pipe.
Preferably, the bottom end of the inner wall of the ring block is fixedly provided with two balls, the balls are symmetrically arranged relative to the vertical center line of the ring block, and sliding friction generated when the ring block and the top head rotate is converted into rolling friction through the balls, so that friction force is reduced.
Preferably, the two second air passing pipes are symmetrically arranged about the vertical center line of the top column, so that the air from the cylindrical air cavity is divided into two air flows which enter the right-angle air pipes on two sides of the ring block simultaneously.
Preferably, the number of the lugs and the auxiliary assemblies thereof is two, and one lug and one auxiliary assembly thereof rotate by one hundred eighty degrees and are equal to the other lug and the other auxiliary assembly thereof, so that the straight air pipe drives the ring block to rotate by utilizing the thrust of air during air injection.
As optimization, the top end of the first spring push rod is fixedly connected with the fixed rod, and the fixed rod is fixedly connected with the inner wall of the special-shaped groove, so that gas from the inflation cavity smoothly enters the special-shaped groove without too much resistance.
The invention has the beneficial effects that: when the clamping cylinder is contacted with the log section, the top head is contacted with the log section, the log section extrudes the top head to enable the top head to drive the center of the top column clamping cylinder to move, the top column drives the sliding rod to move through the strip-shaped sliding block, the sliding rod drives the top plate to move through the ejector rod, the top plate applies thrust to the sealing plate, the sealing plate overcomes the thrust of the first spring push rod to move upwards to enable the sealing plate to be separated from the ring column, at the moment, gas from the inflation cavity enters the long gas pipe and enters the special-shaped groove, then the gas passes through the first gas passing pipe and enters the cylindrical gas cavity, then the gas passes through the second gas passing pipe and enters the straight gas pipe, then the gas is sprayed out, when the gas is sprayed out, the thrust is generated to enable the ring block to rotate relative to the top column, the gas is sprayed out through the rotation of the ring block, when the top head is separated from the log section, the straight gas pipe stops spraying, when the top head is contacted with the log section, a large amount of gas is spouted to straight trachea, and gas forms short-lived air curtain at the centre gripping section of thick bamboo surface, and then prevents that the saw-dust from adhering to the centre gripping section of thick bamboo.
Drawings
FIG. 1 is a schematic cross-sectional front view of the present invention;
FIG. 2 is a schematic right sectional view of the present invention;
FIG. 3 is a schematic view of a clamping cylinder according to the present invention;
FIG. 4 is a schematic view of the gas transfer assembly of the present invention;
FIG. 5 is an enlarged view of the structure at A in FIG. 4 according to the present invention;
FIG. 6 is an enlarged view of the structure at B in FIG. 4 according to the present invention;
FIG. 7 is a schematic top view of the ring block of the present invention;
FIG. 8 is a schematic cross-sectional view of a bump according to the present invention.
In the figure: 100. a base; 200. a box body; 300. a conveyor belt; 400. hobbing cutters; 500. a roller assembly; 501. an air pump; 502. a gas distributing pipe; 503. connecting an air pipe; 504. a roller; 505. a clamping cylinder; 506. An inflation cavity; 507. a long trachea; 508. a gas transfer assembly; 5080. a first spring push rod; 5081. closing the plate; 5082. a ring column; 5083. a top plate; 5084. a top rod; 5085. a slide bar; 5086. a bar-shaped slider; 5087. a special-shaped groove; 509. a gas injection assembly; 5090. a second spring push rod; 5091. a top pillar; 5092. a cylindrical air cavity; 5093. ejecting the head; 5094. a second air passing pipe; 5095. a ring block; 5096. an annular cavity; 5097. a bump; 5098. a right-angle trachea; 5099. a first gas passing pipe; 50990. a straight trachea.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-8, an auxiliary device for use in the core-board processing includes a base 100, a box 200, a conveyor 300, a roller 400 and a roller assembly 500, wherein the top end of the base 100 is fixedly connected to the box 200, the left side of the inner wall of the box 200 is movably connected to the conveyor 300, the back of the roller 400 is movably connected to the inner wall of the box 200, and the roller assembly 500 is located on the left side of the roller 400 and is movably connected to the inner wall of the box 200.
Referring to fig. 2-4, the roller assembly 500 comprises an air pump 501, an air distribution pipe 502, a connecting air pipe 503, a roller 504, a clamping cylinder 505, an air inflation cavity 506, a long air pipe 507, an air transmission assembly 508 and an air injection assembly 509, wherein the bottom end of the air pump 501 is fixedly connected with the base 100, the output end of the air pump 501 is fixedly connected with the air distribution pipe 502, the left side of the air distribution pipe 502 is fixedly connected with the connecting air pipe 503, the outer wall of the connecting air pipe 503 is fixedly connected with the right side of the inner wall of the box body 200, the roller 504 is positioned on the outer wall of the connecting air pipe 503 and rotatably connected with the right side of the inner wall of the box body 200, the left side of the roller 504 is fixedly connected with the clamping cylinder 505, the air inflation cavity 506 is arranged on the inner wall of the clamping cylinder 505, and the roller clamping cylinder 505 clamps the log to be processed and conveys the log to the hob 400 for cutting.
Referring to fig. 4-6, the top end of the inner wall of the air-filled cavity 506 is fixedly connected to the long air tube 507, the end of the long air tube 507 away from the air-filled cavity 506 is fixedly connected to the air-transferring component 508, the air-transferring component 508 is fixedly connected to the air-injecting component 509, and the air-injecting component 509 is used for preventing a large amount of wood chips from adhering to the surface of the clamping cylinder 505.
Referring to fig. 4-8, the air transfer assembly 508 includes a first spring push rod 5080, a sealing plate 5081, a ring post 5082, a top plate 5083, a push rod 5084, a sliding rod 5085, a bar-shaped slider 5086, and a profile groove 5087, wherein the top end of the first spring push rod 5080 is fixedly connected to the inner wall of the profile groove 5087, the profile groove 5087 is formed in the inner wall of the holding cylinder 505, the top end of the profile groove 5087 is fixedly connected to the elongated tube 507, the bottom end of the first spring push rod 5080 is fixedly connected to the sealing plate 5081, the ring post 5082 is fixedly connected to the inner wall of the profile groove 5087 at the bottom end of the sealing plate 5081, the bottom end of the top plate 5083 is fixedly connected to the push rod 5084, the bottom end of the push rod 5084 is fixedly connected to the sliding rod 5085, the outer wall of the sliding rod 5085 is slidably connected to the bottom end of the inner wall of the profile groove 5087, the outer wall of the bar-shaped slider 5086 is slidably connected to the inner wall of the holding cylinder 505, and the air transfer assembly 508 transfers air from the air pump 501 to the air injection assembly 509.
Referring to fig. 4-8, the air injection assembly 509 comprises a second spring push rod 5090, a top column 5091, a cylindrical air cavity 5092, a top 5093, a second air passing tube 5094, a ring 5095, a ring 5096, a bump 5097, a right angle air tube 5098, a first air passing tube 5099 and a straight air tube 50990, wherein the bottom end of the top column 5091 is fixedly connected with the top 5093, the top end of the second spring push rod 5090 is fixedly connected with the inner wall of the holding tube 505, the bottom end of the second spring push rod 5090 is fixedly connected with the top column 5091, the outer wall of the top column 5091 is slidably connected with the inner wall of the holding tube 505, the cylindrical air cavity 5092 is arranged on the inner wall of the top column 5091, the left side of the first air passing tube 5099 is fixedly connected with the cylindrical air cavity 5092, the bottom end of the cylindrical air cavity 5092 is fixedly connected with the second air passing tube 5094, the right side of the second air passing tube 5094 is movably connected with the inner wall of the ring 5096, the ring 5096 is arranged on the left side of the inner wall of the ring 5095, the bump 5097 is fixedly connected with the ring 5095, one end of the right-angle air pipe 5098, which is far away from the annular cavity 5096, is fixedly connected with a straight air pipe 50990, the outer wall of the straight air pipe 50990 is fixedly connected with the inner wall of the bump 5097, and air from the special-shaped groove 5087 enters the cylindrical air cavity 5092 through a first air passing pipe 5099;
referring to FIGS. 7-8, the inner wall of the ring 5095 is rotatably connected to the post 5091.
Referring to fig. 4-6, the right side of the top column 5091 is fixedly connected to the bar-shaped slider 5086, and the extended end of the right side of the first gas passing tube 5099 is located on the inner wall of the shaped groove 5087, so that when the top column 5091 moves toward the inflating chamber 506, the gas inside the shaped groove 5087 can smoothly enter the cylindrical gas cavity 5092 through the first gas passing tube 5099.
Referring to fig. 4 to 8, two balls are fixedly installed at the bottom end of the inner wall of the ring block 5095, and are symmetrically disposed about the vertical center line of the ring block 5095, so that sliding friction generated when the ring block 5095 and the plug 5093 rotate is converted into rolling friction by the balls, thereby reducing friction.
Referring to FIGS. 4-8, two second gas conduits 5094 are provided and are symmetrically disposed about the vertical center line of the top column 5091 such that gas from the cylindrical gas chamber 5092 is divided into two streams which simultaneously enter the right angle gas conduits 5098 on either side of the ring 5095.
Referring to fig. 7-8, there are two projections 5097 and their accessories, and one projection 5097 and its accessory rotate one hundred eighty degrees to be equal to the other projection 5097 and its accessory, so that the straight air pipe 50990 rotates with the ring 5095 by the thrust of air when spraying air.
Referring to fig. 4-5, the top end of the first spring push rod 5080 is fixedly connected to the fixing rod, and the fixing rod is fixedly connected to the inner wall of the shaped groove 5087, so that the gas from the gas-filling cavity 506 can smoothly enter the shaped groove 5087 without being subjected to too much resistance.
In use, referring to fig. 1-8, the log segment is conveyed to the middle of the clamping cylinder 505 by the conveyor belt 300, the clamping cylinder 505 conveys the log segment to the hob 400 for cutting, and then the log segment is conveyed to the conveyor belt 300 by the clamping cylinder 505 to be conveyed to the next process step, the air pump 501 operates, air from the air pump 501 passes through the air distribution pipe 502 to enter the connecting air pipe 503 and then enters the inflation cavity 506 through the connecting air pipe 503, when the clamping cylinder 505 contacts the log segment, the top 5093 contacts the log segment, the log segment presses the top 5093, so that the top 5093 drives the top 5091 to clamp the center of the clamping cylinder 505, the top 5091 drives the bar 5086, the bar 5086 drives the slide 5085 to move, the slide 5085 drives the top 5084 to move, the top 5083 drives the top 5083 to move upwards, the top 5083 drives the sealing plate 5081 to push the sealing plate 5081, the sealing plate 5081 overcomes the pushing force of the first spring push rod 5080 to move upwards, the closing plate 5081 is separated from the ring 5082, at this time, the gas from the gas filling cavity 506 enters the long gas tube 507 and further enters the special-shaped groove 5087, then passes through the first gas passing tube 5099 and enters the cylindrical gas cavity 5092, then the gas passes through the second gas passing tube 5094 and enters the ring 5096, the gas passes through the right angle gas tube 5098 and enters the straight gas tube 50990, then the gas is ejected, when the gas is ejected, the thrust is generated to rotate the ring 5095 relative to the top 5091, so that the wood chips are prevented from being adhered around the top 5093, the holding cylinder 505 continues to rotate until the top 5093 leaves the round wood segment, then the first spring push rod 5080 pushes the closing plate 5081 to move downwards, so that the gas is cut off, and then the next top 5093 is contacted with the round wood segment.
To sum up, when the clamping cylinder 505 is in contact with the log segment, the top 5093 is in contact with the log segment, the log segment presses the top 5093, so that the top 5093 moves with the top 5091 at the center of the clamping cylinder 505, the top 5091 moves with the slide 5085 by the strip-shaped slider 5086, the slide 5085 moves with the top 5083 by the top 5084, the top 5083 pushes the sealing plate 5081, the sealing plate 5081 moves upwards against the pushing force of the first spring push 5080, so that the sealing plate 5081 is separated from the ring 5082, at this time, the gas from the inflation cavity 506 enters the long gas pipe 507, enters the special-shaped groove 5087, then passes through the first gas passing pipe 5099 into the cylindrical gas cavity 5092, then passes through the second gas passing pipe 5094 into the ring cavity 5096, the gas passes through the right angle gas pipe 5098 into the straight gas pipe 50990, then is ejected, when the gas is ejected, the pushing force is generated, so that the ring 5095 rotates relative to the top 5091, and when the top 5093 is separated from the log section, the straight gas pipe 50990 stops gas injection, when the top 5093 is contacted with the log section, the straight gas pipe 50990 injects a large amount of gas, and the gas forms a short gas curtain on the surface of the clamping cylinder 505, so that wood chips are prevented from being adhered to the clamping cylinder 505.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (7)

1. An auxiliary device for use in the processing of core-board, comprising a base (100), a box (200), a conveyor belt (300), a hob (400) and a roller assembly (500), characterized in that: the top end of the base (100) is fixedly connected with the box body (200), the left side of the inner wall of the box body (200) is movably connected with the conveyor belt (300), the back surface of the hob (400) is movably connected with the inner wall of the box body (200), and the roller assembly (500) is positioned on the left side of the hob (400) and is movably connected with the inner wall of the box body (200);
the roller assembly (500) consists of an air pump (501), an air distribution pipe (502), a connecting air pipe (503), a roller (504), a clamping cylinder (505), an inflation cavity (506), a long air pipe (507), an air transmission assembly (508) and an air injection assembly (509), wherein the bottom end of the air pump (501) is fixedly connected with the base (100), the output end of the air pump (501) is fixedly connected with the air distribution pipe (502), the left side of the air distribution pipe (502) is fixedly connected with the connecting air pipe (503), the outer wall of the connecting air pipe (503) is fixedly connected with the right side of the inner wall of the box body (200), the roller (504) is positioned on the outer wall of the connecting air pipe (503) and rotatably connected with the right side of the inner wall of the box body (200), the left side of the roller (504) is fixedly connected with the clamping cylinder (505), and the inflation cavity (506) is arranged on the inner wall of the clamping cylinder (505);
the top end of the inner wall of the inflation cavity (506) is fixedly connected with a long air pipe (507), one end, far away from the inflation cavity (506), of the long air pipe (507) is fixedly connected with an air transmission assembly (508), and the air transmission assembly (508) is fixedly connected with an air injection assembly (509);
the gas transmission assembly (508) consists of a first spring push rod (5080), a sealing plate (5081), a ring column (5082), a top plate (5083), a push rod (5084), a sliding rod (5085), a strip-shaped sliding block (5086) and a special-shaped groove (5087), wherein the top end of the first spring push rod (5080) is fixedly connected with the inner wall of the special-shaped groove (5087), the special-shaped groove (5087) is arranged on the inner wall of a clamping cylinder (505), the top end of the special-shaped groove (5087) is fixedly connected with a long gas pipe (507), the bottom end of the first spring push rod (5080) is fixedly connected with the sealing plate (5081), the ring column (5082) is positioned at the bottom end of the sealing plate (5081) and fixedly connected with the inner wall of the special-shaped groove (5087), the bottom end of the top plate (5083) is fixedly connected with the push rod (5084), the bottom end of the push rod (5084) is fixedly connected with the sliding rod (5085), the outer wall of the sliding rod (5085) is slidably connected with the inner wall of the special-shaped groove (5087), and the bottom end of the strip-shaped sliding block (5086), the outer wall of the strip-shaped sliding block (5086) is in sliding connection with the inner wall of the clamping cylinder (505).
2. An auxiliary device for use in the manufacture of a core-board as claimed in claim 1, wherein: the air injection assembly (509) consists of a second spring push rod (5090), a top column (5091), a cylindrical air cavity (5092), a top head (5093), a second air passing pipe (5094), a ring block (5095), a ring cavity (5096), a convex block (5097), a right-angle air pipe (5098), a first air passing pipe (5099) and a straight air pipe (50990), the bottom end of the top column (5091) is fixedly connected with the top head (5093), the top end of the second spring push rod (5090) is fixedly connected with the inner wall of the clamping barrel (505), the bottom end of the second spring push rod (5090) is fixedly connected with the top column (5091), the outer wall of the top column (5091) is slidably connected with the inner wall of the clamping barrel (505), the cylindrical air cavity (5092) is arranged on the inner wall of the top column (5091), the left side of the first air passing pipe (5099) is fixedly connected with the cylindrical air cavity (5092), the bottom end of the cylindrical air cavity (5092) is fixedly connected with the second air passing pipe (5094), the right side of the second air passing pipe (5094) is movably connected with the inner wall of an annular cavity (5096), the annular cavity (5096) is formed in the left side of the inner wall of an annular block (5095), the left side of the lug (5097) is fixedly connected with the annular block (5095), the bottom end of the right-angle air pipe (5098) is fixedly connected with the inner wall of the annular cavity (5096), one end, far away from the annular cavity (5096), of the right-angle air pipe (5098) is fixedly connected with a straight air pipe (50990), and the outer wall of the straight air pipe (50990) is fixedly connected with the inner wall of the lug (5097);
the inner wall of the ring block (5095) is rotatably connected with the top column (5091).
3. An auxiliary device for use in the manufacture of a core-board as claimed in claim 2, wherein: the right side of the top column (5091) is fixedly connected with a strip-shaped sliding block (5086), and the extending end of the right side of the first air passing pipe (5099) is positioned on the inner wall of the special-shaped groove (5087).
4. An auxiliary device for use in the manufacture of a core-board as claimed in claim 2, wherein: ring piece (5095) inner wall bottom fixed mounting has the ball, and the ball has two, and sets up about ring piece (5095) perpendicular central line symmetry.
5. An auxiliary device for use in the manufacture of a core-board as claimed in claim 2, wherein: the second gas passing pipes (5094) are two and are symmetrically arranged about the vertical center line of the top pillar (5091).
6. An auxiliary device for use in the manufacture of a core-board as claimed in claim 2, wherein: the number of the lugs (5097) and the auxiliary components thereof is two, and one lug (5097) and the auxiliary components thereof rotate by one hundred eighty degrees to be equal to the other lug (5097) and the auxiliary components thereof.
7. An auxiliary device for use in the manufacture of a core-board as claimed in claim 1, wherein: the top end of the first spring push rod (5080) is fixedly connected with a fixed rod, and the fixed rod is fixedly connected with the inner wall of the special-shaped groove (5087).
CN202110082284.3A 2021-01-21 2021-01-21 Auxiliary device for use in core-board processing Active CN112895023B (en)

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