CN210369916U - Compound flitch production line - Google Patents

Abstract

The utility model discloses a compound flitch production line, including stuff conveyor, flitch body forced lubrication device, glass fiber silk set composite, flitch body rubberizing device, glass fiber cloth set composite, hot briquetting device, draw gear, cutting device. The utility model has the advantages of it is following and effect: according to the composite batten produced by the device, the battens in the batten body are tightly overlapped, the end parts of two adjacent overlapped battens are not aligned in the overlapping process, and the battens in the length directions are distributed in a staggered mode during overlapping, so that the purpose that the length of the batten is not limited is achieved; meanwhile, the battens are bonded by glue, and the glass fiber cloth is bonded and wrapped on the surfaces of the battens, so that the strength of the composite battens can be improved.

Description

Compound flitch production line

Technical Field

The utility model relates to a building material technical field, in particular to compound flitch production line.

Background

At present, methods such as bamboo plywood or large formworks are commonly adopted in the forming of cast reinforced concrete members in domestic building construction, and a large amount of battens are required for supporting and fixing the formworks in the formwork assembly construction. But most building battens are often broken, corroded and the like in the using process, so that the battens are difficult to recycle, and a large amount of wood resources are consumed and wasted; and because the quality of the wood beam is unstable, the strength and the rigidity can not be accurately measured, and great inconvenience is brought to standardization, standardization and safe construction management.

The Chinese patent with the application publication number of CN109093785A and the application publication date of 2018, 12 and 28 discloses a composite batten, which comprises a batten body, wherein a wrapping layer is arranged outside the batten body; the batten body comprises a plurality of layers of batten groups which are closely arranged, each batten group is formed by arranging a plurality of battens with the same width and height in parallel, and the arrangement directions of two adjacent batten groups are mutually vertical; the material of the wrapping layer is glass fiber cloth. However, the length of the batten is fixed due to the cutting of the batten from the waste template, and the composite batten with the length larger than that of the waste template cannot be processed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a compound flitch for a plurality of battens are the alternating expression and distribute, reach the unrestricted purpose of flitch length.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a compound flitch, includes the flitch body, the flitch body includes a plurality of battens that closely overlap, has a plurality of mutual concatenations on the same length direction the batten, adjacent two overlap the tip of batten is unaligned, and is a plurality of bond mutually through glue between the batten, the side bonding parcel of week of flitch body has glass fiber cloth.

By adopting the scheme, the battens in the batten body are tightly overlapped, and the end parts of two adjacent overlapped battens are not aligned in the overlapping process, so that the battens in the length directions are distributed in a staggered manner in the overlapping process, and the purpose that the length of the batten is not limited is achieved; meanwhile, the glass fiber cloth is bonded and wrapped on the surfaces of the battens through glue water among the battens, so that the strength of the composite battens can be improved.

The utility model discloses a further set up to: the side face of the periphery of the batten body is bonded with a plurality of strands of glass fiber yarns extending along the length direction of the batten body, and the glass fiber cloth covers the plurality of strands of glass fiber yarns.

Through adopting above-mentioned scheme, the glass fiber silk extends along flitch body length direction, and the tensile strength of flitch body can be improved to the stranded glass fiber silk homoenergetic of flitch body every side this moment, plays the reinforcing effect.

The utility model aims at providing a compound flitch production line realizes producing compound flitch.

The above technical purpose of the present invention can be achieved by the following technical solutions: a composite batten production line comprises a batten conveying device, a batten body pressing and conveying device, a glass fiber yarn compounding device, a batten body gluing device, a glass fiber cloth compounding device, a hot press forming device, a traction device and a cutting device; the batten conveying device comprises a conveying rack, a dividing and combining groove assembly and a batten conveying mechanism, wherein the dividing and combining groove assembly is arranged on the conveying rack and enables a plurality of battens to form a batten body in the moving process after the battens are embedded, and the batten conveying mechanism is arranged on the conveying rack and is used for driving the battens to move; the wood block body pressure feeding device comprises a pressure feeding rack and a plurality of wood block body pressure feeding mechanisms which are tightly pressed on the upper surface and the lower surface of the wood block body and are used for pressure feeding the wood block body; the batten body gluing device comprises a gluing rack, a lower glue box, an upper glue box and a glue dropping funnel, wherein the lower glue box is arranged on the gluing rack and is used for gluing when a batten body passes through the lower glue box; the glass fiber composite device comprises an unreeling frame for unreeling a plurality of reeled glass fiber yarns, a glass fiber deviation preventing plate which is arranged at one end, close to a pressure feeding frame, of an upper glue machine frame and is used for allowing a batten body to penetrate through, and a wire guide mechanism which is arranged between a conveying frame and the pressure feeding frame and is used for conveying the glass fiber yarns to the glass fiber deviation preventing plate, wherein a plurality of deviation preventing holes for allowing the glass fiber yarns to penetrate through are formed in the glass fiber deviation preventing plate around the upper side, the lower side, the left side and the right side of the batten body; the hot-press molding device comprises a molding frame, a hot-press mold and an electric heating plate, wherein the hot-press mold is arranged on the molding frame and is used for the composite battens to penetrate through, and the electric heating plate is arranged on the hot-press mold; the glass fiber cloth composite device comprises an unreeling support used for unreeling glass fiber cloth of a roll, a cloth wrapping piece arranged on the gluing rack and used for wrapping the glass fiber cloth on the periphery of the batten body, and the cloth wrapping piece is located between the lower glue box and the hot pressing die.

By adopting the technical scheme, battens are placed in the split-combined groove assembly in a staggered mode, the battens are driven to move forwards under the transportation of the batten conveying mechanism, and the battens form a batten body in the moving process of the battens in the split-combined groove; the batten body pressure feeding mechanism in the pressure feeding frame is used for improving the main power of batten transportation; glue in the upper glue box flows into the lower glue box to realize gluing among the battens and on the peripheral sides of the battens; the glass fiber yarns are conveyed by the wire guide mechanism, penetrate through the deviation preventing holes on the upper, lower, left and right sides of the glass fiber deviation preventing plate and then are bonded on the surface of the batten body, and the glass fiber yarns are driven to be gradually attached to the surface of the batten body in the conveying process of the batten body; wrapping the glass fiber cloth on the surface of the batten body through the cloth wrapping piece and adhering the glass fiber cloth through glue on the surface of the batten body; when the composite batten passes through the hot-press forming device, the glue is solidified through heating; the traction device is used for assisting the transportation and traction of the battens; the cutting device is used for cutting the composite wood strips into required lengths.

The utility model discloses a further set up to: the batten conveying mechanism is provided with a split-combination groove assembly for forming batten bodies in the embedded moving process of battens of two groups of composite battens, and the glass fiber deviation preventing plates are provided with two groups of composite battens and are used for the two batten bodies to penetrate through; the wood beam body pressing and conveying mechanism comprises a plurality of lower pressing and conveying wheels which are rotatably connected with the two sides of the pressing and conveying frame and are respectively used for placing two groups of wood beam bodies, upper pressing and conveying wheels which are arranged on the two sides of the pressing and conveying frame in a lifting way and are respectively used for pressing the upper surfaces of the two groups of wood beam bodies, a lower linkage assembly arranged between the lower pressing and conveying wheels on the same side, an upper linkage assembly arranged between the upper pressing and conveying wheels on the same side, and a lower transmission shaft which is rotatably connected with one end of the pressing and conveying frame, the lower clutch assembly is arranged at the two ends of the lower transmission shaft and used for realizing linkage or separation with the lower pressure feeding wheels at the two sides, the upper transmission shaft is rotatably connected to the other end of the pressure feeding frame, the upper driving member is arranged on the pressure feeding frame and used for driving the upper transmission shaft to rotate, and the upper clutch assembly is arranged at the two ends of the upper transmission shaft and used for realizing linkage or separation with the pressure feeding wheels at the two sides.

By adopting the technical scheme, two groups of composite battens can be processed simultaneously by arranging the two split-combination groove assemblies, so that the production efficiency is improved; meanwhile, in the wood beam body pressure feeding mechanism, two lower clutch assemblies are used for realizing linkage or separation with lower pressure feeding wheels on two sides, and two upper clutch assemblies are used for realizing linkage or separation with upper pressure feeding wheels on two sides; when the composite batten on one side is processed to be in a problem, the lower clutch component and the lower pressure feeding wheel on the side are separated, the upper clutch component and the upper pressure feeding wheel are separated, and the composite batten on the other side can be processed normally.

The utility model discloses a further set up to: the lower clutch assembly comprises a first driving gear arranged at the end part of the lower transmission shaft, a first driven gear arranged at one end of the lower pressure feeding wheel, a first swing arm rotationally connected to the end part of the lower transmission shaft, a first intermediate gear arranged on the first swing arm and used for linking the first driving gear and the first driven gear, and a first adjusting piece arranged between the first swing arm and the pressure feeding rack and used for adjusting the angle of the first swing arm; the upper clutch assembly comprises a second driving gear arranged at the end part of the upper transmission shaft, a second driven gear arranged at one end of the upper pressure feeding wheel, a second swing arm rotationally connected to the end part of the upper transmission shaft, a second intermediate gear arranged on the second swing arm and used for linking the second driving gear and the second driven gear, and a second adjusting piece arranged between the second swing arm and the pressure feeding rack and used for adjusting the angle of the second swing arm.

By adopting the technical scheme, the angle of the first swing arm is adjusted through the first adjusting piece, and at the moment, the first intermediate gear on the first swing arm can be meshed between the first driving gear and the first driven gear or is far away from the first driving gear and the first driven gear, so that the linkage or separation with downward pressure transmission is realized; similarly, the angle of the second swing arm is adjusted through the second adjusting piece, and the second intermediate gear on the second swing arm can be meshed between the second driving gear and the second driven gear or is far away from the second driving gear and the second driven gear, so that the linkage or the separation of the upper pressure conveying is realized.

The utility model discloses a further set up to: the wire guiding mechanism comprises a first threading support arranged on the conveying rack, a second threading support arranged on the pressure feeding rack, a first upper threading plate arranged on the first threading support, a second upper threading plate arranged on the second threading support, a third lower threading plate arranged below the conveying rack and a fourth lower threading plate arranged below the upper threading rack; the process a plurality of glass fiber silks of threading board on first last threading board, the second are through the last, left and right three sides of glass fiber deviation prevention board prevent the deviation hole conflict at the upper, left and right three sides of flitch body, the process a plurality of glass fiber raw water of threading board under third, fourth are through the glass fiber deviation prevention board downside prevent the deviation hole and support the downside at the flitch body.

Through adopting above-mentioned technical scheme, through first last threading board, on a plurality of glass fiber silk of threading board on the second prevents inclined to one side board through glass fiber, on the hole of preventing inclined to one side of left and right three sides contradicted at the flitch body, left and right three sides, threading board under the third, a plurality of glass fiber raw water of threading board support the downside at the flitch body through the hole of preventing inclined to one side of glass fiber below preventing inclined to one side under the fourth, thereby realize four sides bonding glass fiber silk about the flitch body, thereby improve the tensile strength of compound flitch, play the reinforcement effect.

The utility model discloses a further set up to: the hot-press forming device also comprises a cooling die which is arranged at one end of the forming frame far away from the gluing frame and is used for the composite battens to pass through.

Through adopting above-mentioned technical scheme, glue among the compound flitch passes through the hot briquetting device and realizes the solidification, appears easily because of the not complete solidification of glue and leads to the problem that compound flitch rises, this moment through making compound flitch pass the cooling mould can form the constraining force to the week side of compound flitch, prevent that compound flitch from rising because of glue is not complete solidification, at the in-process that compound flitch is passing from the cooling mould, the curing time of inside glue has been prolonged for glue can further solidify and solve the problem that compound flitch rises.

The utility model discloses a further set up to: wrap up in the throat end that the cloth spare supplied the flitch body to pass, set up and be close to rubberizing frame one side reason at the throat end and make glass fiber cloth compress tightly the guide curved surface end between throat end inner wall and flitch body, guide curved surface end is close to the expansion portion that unreels support one side and be used for launching glass fiber cloth, sets up at throat end upside and keep away from the first guide portion of expansion portion one side, sets up at throat end downside and keep away from the second guide portion of expansion portion one side including being provided with the throat end.

Through adopting above-mentioned technical scheme, can expand glass fiber cloth through expansion portion, then under the guide of first guide portion, second guide portion, glass fiber cloth is along with the in-process parcel of flitch body transmission to the throat end on the surface of flitch body, and bonds mutually with the glue on flitch body surface.

The utility model discloses a further set up to: the traction device comprises a traction frame, a lower chain support arranged on the traction frame, a lower main chain wheel rotatably connected to one end of the lower chain support, a lower driven chain wheel rotatably connected to the other end of the lower chain support, a lower chain wheel linked with the lower main chain wheel and a lower driven chain wheel, a plurality of lower pressing blocks arranged on the upper chain and used for placing composite battens, an upper chain support arranged on the traction frame in a lifting mode, a lifting cylinder arranged between the upper chain support and the traction frame, an upper main chain wheel rotatably connected to one end of the upper chain support, an upper driven chain wheel rotatably connected to the other end of the upper chain support, an upper chain bar linked between the upper main chain wheel and the upper driven chain wheel, a plurality of upper pressing blocks arranged on the lower chain and used for pressing the upper surface of the composite battens, and a power mechanism arranged on the frame and used for driving the lower main chain wheel and the upper main chain wheel.

By adopting the technical scheme, the power mechanism drives the lower main chain wheel and the upper main chain wheel to rotate in the same direction, so that the lower chain and the upper chain are driven to rotate in the same direction, and at the moment, the lower pressure and the upper pressing block are abutted against the upper surface and the lower surface of the composite batten to realize traction; simultaneously because of the cochain support sets up on drawing the frame through the lift cylinder lift to the height of adjustable cochain support, thereby the flitch body of the different thickness of adaptation realizes drawing.

The utility model discloses a further set up to: the power mechanism comprises a power motor arranged on the traction frame, a first gear arranged on an output shaft of the power motor, a second gear linked with the lower main chain wheel, a third gear linked with the upper main chain wheel, a rotating arm hinged on the traction frame, a swinging gear rotationally connected to the rotating arm and a linkage chain, wherein the linkage chain is meshed with the first gear, the second gear, the third gear and the swinging gear, the first gear, the third gear and the swinging gear are meshed on the inner side of the linkage chain, and the second gear is meshed on the outer side of the linkage chain.

Through adopting above-mentioned technical scheme, at the in-process of adjusting cochain support height through the lift cylinder, along with the rotation of rotor arm, the position of swing gear is adjustable to make in the tensioning degree of first gear, second gear, third gear and the linkage chain that swing gear meshed mutually can adjust along with cochain support's height.

Drawings

FIG. 1 is a sectional view along a vertical plane of embodiment 1;

FIG. 2 is a sectional view taken along the horizontal plane of embodiment 1;

FIG. 3 is a schematic structural view of example 2;

FIG. 4 is a schematic view of the structure of the stick conveyor according to example 2;

FIG. 5 is a first schematic view showing the construction of a square wood body press-feeding device according to embodiment 2;

FIG. 6 is a second schematic view showing the construction of a square body press-feed device according to embodiment 2;

FIG. 7 is an enlarged view of a portion of FIG. 6 at A;

FIG. 8 is a schematic view showing the structure of a glue applying apparatus for a wood cube in example 2;

FIG. 9 is a schematic view showing the structure of a glass fiber yarn composite apparatus according to example 2;

FIG. 10 is a schematic structural view of a glass fiber composite apparatus used in example 2;

FIG. 11 is an enlarged partial view at B of FIG. 11;

FIG. 12 is a first schematic view of the structure of a traction apparatus in the embodiment 2;

FIG. 13 is a second schematic view of the structure of a traction apparatus in embodiment 2;

fig. 14 is a partial enlarged view at C in fig. 13.

Reference numerals: 11. a batten body; 111. wood strips; 12. glass fiber cloth; 13. glass fiber yarns;

2. a batten transport device; 21. a conveyor frame; 22. a cell dividing and combining component; 221. a spacer; 23. a batten conveying mechanism; 231. a conveying gear; 232. coating the rubber pressing wheel; 233. a conveying motor;

3. a wood block body pressure feeding device; 31. a pressure feed frame; 311; a first compression riser; 3111. a first arc-shaped guide groove; 312. a second compression riser; 3121. a second arc-shaped guide groove; 313. a lifting seat; 314. a lifting screw; 32. a wood beam body pressing and conveying mechanism; 321. a lower pressure feed wheel; 322. an upper pressure feed wheel; 323. a lower linkage assembly; 3231. a lower linkage gear; 3232. A lower link chain; 324. an upper linkage assembly; 3241. an upper linkage gear; 3242. an upper linkage chain; 325. a lower transmission shaft; 326. a lower driving member; 327. a lower clutch assembly; 3271. a first drive gear; 3272. a first driven gear; 3273. A first swing arm; 3274. a first intermediate gear; 3275. a first adjustment member; 32751. a first adjustment shaft; 32752. a first adjustable locking handle; 328. an upper transmission shaft; 329. an upper drive member; 3210. an upper clutch assembly; 32101. a second driving gear; 32102. a second driven gear; 32103. a second swing arm; 32104. a second intermediate gear; 32105. a second adjustment member; 321051, a second adjustment shaft; 321052, a second adjustable fastening handle;

4. a glass fiber yarn compounding device; 41. unwinding the frame; 42. a glass fiber deviation preventing plate; 421. preventing deviation holes; 43. a wire guide mechanism; 431. a first threading bracket; 432. a second threading bracket; 433. a first upper threading plate; 434. a second upper threading plate; 434. A third lower threading plate; 435. a fourth lower threading plate;

5. a batten body gluing device; 51. a gluing frame; 52. a glue discharging box; 53. gluing a box; 54. a glue dropping funnel;

6. a glass fiber cloth compounding device; 61. unwinding the support; 62. wrapping the cloth; 621. a necking end; 622. a leading curve end; 6221. a development section; 6222. a first guide portion; 6223. a second guide portion;

7. a hot press molding device; 71. forming a frame; 72. hot pressing the mold; 73. an electrical heating plate; 74. cooling the mold;

8. a traction device; 81. a tractor frame; 82. a lower chain support; 83. a lower main sprocket; 84. a lower driven sprocket; 85. a lower chain; 86. pressing the block; 87. a winding bracket; 88. a lifting cylinder; 89. an upper main sprocket; 810. an upper driven sprocket; 811. chain feeding; 812. pressing the blocks; 813. a power mechanism; 8131. a power motor; 8132. a first gear; 8133. a second gear; 8134. a third gear; 8135. a rotating arm; 8136. a swing gear; 8137. a linkage chain; 814. a lower driving shaft; 815. an upper driving shaft;

9. and a cutting device.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1: a composite batten, as shown in fig. 1 and 2, comprises a batten body 11, wherein the batten body 11 comprises a plurality of tightly overlapped battens 111, and the plurality of battens 111 spliced with each other are arranged in the same length direction; when overlapping, the ends of two adjacent overlapping wood strips 111 are not aligned, and the end of one wood strip 111 is located in the middle of the adjacent overlapping wood strips 111 in the length direction. And simultaneously, the contact surfaces of the battens are bonded and fixed through glue.

As shown in fig. 1, glue is provided on the upper, lower, left, and right sides of the wood main body 11, and a plurality of glass fiber strands 13 extending along the length direction of the wood main body 11 are bonded to the upper, lower, left, and right sides of the wood main body 11, each glass fiber strand 13 is composed of a plurality of glass fiber strands, and the plurality of glass fiber strands 13 on each side of the wood main body 11 are arranged and distributed. Meanwhile, the upper side, the lower side, the left side and the right side of the batten body 11 are respectively bonded and wrapped with glass fiber cloth 12, and the glass fiber cloth 12 is made of multi-strand glass fiber yarns 13.

The implementation effect is as follows: the battens 111 in the batten body 11 are tightly overlapped, and in the overlapping process, the end parts of two adjacent overlapped battens 111 are not aligned, so that the battens 111 in the length directions are distributed in a staggered manner during overlapping, and the purpose that the length of the batten is not limited is achieved; meanwhile, the glass fiber cloth 12 is bonded and wrapped on the surfaces of the battens through glue water among the battens, so that the strength of the composite battens can be improved. The glass fiber yarns 13 extend along the length direction of the batten body 11, and at the moment, the tensile strength of the batten body 11 can be improved by the multiple strands of glass fiber yarns 13 on each side of the batten body 11, so that a reinforcing effect is achieved.

Example 2: a composite batten production line is shown in fig. 3 and comprises a batten conveying device 2, a batten body pressing and conveying device 3, a glass fiber filament compounding device 4, a batten body gluing device 5, a glass fiber cloth compounding device 6, a hot press forming device 7, a traction device 8 and a cutting device 9.

As shown in fig. 3 and 4, the batten conveying device 2 includes a conveying frame 21, two dividing and combining groove assemblies 22 respectively fixedly disposed on two sides of the conveying frame 21, and a plurality of batten conveying mechanisms 23 respectively disposed on two sides of the conveying frame 21. Divide and shut groove subassembly 22 is inside to have a plurality of spacers 221 for a plurality of stuff are put into, and the quantity of spacer 221 reduces along with stuff transportation in-process subassembly, and divide and shut groove subassembly 22 width also dwindle gradually, finally makes a plurality of stuff realize forming the flitch body after overlapping. Two through grooves are formed in the middle of the splitting and combining groove component 22, and the batten conveying mechanism 23 comprises a conveying gear 231 which is rotatably connected to the conveying rack 21 and is located at the through grooves, a rubber coating pressure wheel 232 which is rotatably connected to the conveying rack 21 and is located above the straight gear, and a conveying motor 233 which is linked with the conveying gear 231 through chain transmission. The uppermost end of the conveying gear 231 props against the lower surface of the batten to realize conveying, and the rubber-coated pressure wheel 232 is used for propping against the upper part of the batten.

As shown in fig. 3 and 5, the square body press-feeding device 3 includes a press-feeding frame 31, and a plurality of square body press-feeding mechanisms 32 which are pressed against both upper and lower surfaces of the square body and press-feed the square body.

As shown in fig. 5 and 6, the compressing and feeding mechanism 32 for the wood block includes a plurality of lower compressing wheels 321 rotatably connected to two sides of the compressing frame and respectively used for two sets of wood block to rest, upper compressing wheels 322 arranged on two sides of the compressing frame 31 in a lifting manner and respectively used for compressing the upper surfaces of two sets of wood block, a lower linkage assembly 323 arranged between the lower compressing wheels 321 on the same side, an upper linkage assembly 324 arranged between the upper compressing wheels 322 on the same side, a lower transmission shaft 325 with two ends rotatably connected to one end of the compressing frame 31 through bearings, a lower driving member 326 arranged on the compressing frame 31 and used for driving the lower transmission shaft 325 to rotate, lower clutch assemblies 327 respectively arranged at two ends of the lower transmission shaft 325 and used for realizing linkage or separation with the lower compressing wheels 321 on two sides, an upper transmission shaft 328 rotatably connected to the other end of the compressing frame 31, an upper driving member 329 arranged on the compressing frame 31 and used for driving the upper transmission shaft 328 to rotate, a driving member 329, And the upper clutch assemblies 3210 are respectively arranged at two ends of the upper transmission shaft 328 and are used for realizing linkage or separation with the pressure feed wheels 322 on two sides.

As shown in fig. 5 and 6, the pumping frame 31 is provided with a lifting base 313 which is lifted and lowered at a position close to both ends of the upper pumping wheel 322, a lifting screw 314 (surface thread is not shown) whose lower end is rotatably connected to the lifting base 313 and which adjusts the height of the lifting base 313 is screwed to the pumping frame 31, and a part of the upper pumping wheel 322 close to both ends is rotatably connected to the lifting base 313 through a bearing. Meanwhile, the lower linkage assembly 323 comprises two lower linkage gears 3231 fixedly connected to the side surfaces of the lower pressure feeding wheels 321 close to the pressure feeding rack 31 and a lower linkage chain 3232 engaged between the lower linkage gears 3231 aligned with the two adjacent lower pressure feeding wheels 321; the upper linkage assembly 324 includes two upper linkage gears 3241 fixedly connected to the upper pinch rollers 322 near the side of the pinch frame 31, and an upper linkage chain 3242 engaged between the aligned upper linkage gears 3241 of two adjacent upper pinch rollers 322. The lower driving member 326 and the upper driving member 329 are speed reduction motors fixedly installed on the pressure feed frame 31, the lower driving member 326 is linked with the lower transmission shaft 325 through chain wheel transmission, and the upper driving member 329 is linked with the upper transmission shaft 328 through chain wheel transmission.

As shown in fig. 6 and 7, the lower clutch assembly 327 includes a first driving gear 3271 fixedly disposed at an end portion of the lower transmission shaft 325, a first driven gear 3272 fixedly disposed at an end portion of the lower pressure-feed roller 321, a first swing arm 3273 rotatably coupled to an end portion of the lower transmission shaft 325 by a pin, a first intermediate gear 3274 rotatably coupled to the first swing arm 3273 and configured to link the first driving gear 3271 and the first driven gear 3272, and a first adjusting member 3275 disposed between the first swing arm 3273 and the pressure-feed frame 31 and configured to adjust an angle of the first swing arm 3273. A first pressing vertical plate 311 is fixedly arranged at two sides of the pressure-feed frame 31, and a first arc-shaped guide groove 3111 with the circle center positioned on the axis of the lower transmission shaft 325 is formed on the first pressing vertical plate 311; the first adjustment member 3275 includes a first adjustment shaft 32751 (surface threads not shown) disposed on the first swing arm 3273 and passing through the first arcuate guide slot 3111, and a first adjustable locking handle 32752 threadedly coupled to one end of the first adjustment shaft 32751 passing through the first arcuate guide slot 3111 and adapted to be pressed against the first pressing riser 311.

As shown in fig. 6 and 7, the upper clutch assembly 3210 includes a second driving gear 32101 fixedly disposed at an end of the upper transmission shaft 328, a second driven gear 32102 fixedly disposed at an end of the upper pressure-feed roller 322, a second swing arm 32103 rotatably coupled to the end of the upper transmission shaft 328 by a pin, a second intermediate gear 32104 rotatably coupled to the second swing arm 32103 and configured to link the second driving gear 32101 and the second driven gear 32102, and a second adjusting member 32105 disposed between the second swing arm 32103 and the pressure-feed frame 31 and configured to adjust an angle of the second swing arm 32103. The two sides of the pressure-feed machine frame 31 are fixedly provided with second pressing risers 312, second arc-shaped guide grooves 3121 with the circle centers located on the axes of the upper transmission shafts 328 are formed on the second pressing risers 312, and the second adjusting piece 32105 comprises a second adjusting shaft 321051 (surface threads are not shown) which is arranged on the second swing arm 32103 and passes through the second arc-shaped guide grooves 3121, and a second adjustable tightening handle 321052 which is screwed on the second adjusting shaft 321051 and passes through one end of the second arc-shaped guide grooves 3121 and is used for pressing on the second pressing risers 312.

As shown in fig. 3 and 8, the flitch body gluing device 5 comprises a gluing frame 51, two lower gluing boxes 52 fixedly installed on the gluing frame 51 and respectively allowing two flitch bodies to pass through, a gluing box 53 fixedly arranged on the two lower gluing boxes 52 and used for supplying glue to the two lower gluing boxes 52, and a glue dropping funnel 54 fixedly arranged below the gluing frame 51 and used for collecting glue dropping from the lower gluing boxes 52; the glue hopper 54 extends obliquely downwards towards its outlet side, which facilitates the collection of the glue falling from the glue hopper 54 by means of an external collecting cylinder.

As shown in fig. 3 and 9, the glass fiber filament combining device 4 includes an unwinding frame 41 for unwinding a plurality of rolled glass fiber filaments, two glass fiber deflection preventing plates 42 fixed at one end of the gluing frame 51 close to the pressing and feeding frame 31 and respectively for two wood bodies to pass through, and a wire guiding mechanism 43 disposed between the conveying frame 21 and the pressing and feeding frame 31 and used for conveying the plurality of glass fiber filaments to the glass fiber deflection preventing plates 42. The glass fiber deviation preventing plate 42 is provided with a plurality of deviation preventing holes 421 for the glass fiber to pass through around the upper, lower, left and right sides of the wood body.

As shown in fig. 3 and 9, the thread guiding mechanism 43 includes a first thread support 431 fixedly disposed on the conveyor frame 21, a second thread support 432 fixedly disposed on the press-feed frame 31, a first upper thread plate 433 fixedly disposed on the first thread support 431, a second upper thread plate 434 fixedly disposed on the second thread support 432, a third lower thread plate 435 fixedly disposed below the conveyor frame 21, and a fourth lower thread plate 436 fixedly disposed below the upper thread support 51 (see fig. 8). The plurality of glass fiber yarns passing through the first upper threading plate 433 and the second upper threading plate 434 are butted against the upper, left and right sides of the batten body through the deviation-preventing holes 421 on the upper, left and right sides of the glass fiber deviation-preventing plate 42, and the plurality of glass fiber yarns passing through the third lower threading plate 435 and the fourth lower threading plate 436 are butted against the lower side of the batten body through the deviation-preventing holes 421 on the lower side of the glass fiber deviation-preventing plate 42.

As shown in fig. 3 and 10, the hot press forming device 7 includes a forming frame 71, hot press molds 72 fixedly installed on both sides of the forming frame 71 and through which the two composite battens pass, an electric heating plate 73 fixedly installed on the hot press molds 72, and cooling molds 74 fixed on both sides of the forming frame 71 and through which the two composite battens pass after passing through the hot press molds 72. A plurality of hot press molds 72 are installed at each side of the molding frame 71 so as to cure the glue in the composite flitch several times.

As shown in fig. 3, 10 and 11, the glass fiber cloth combining device 6 includes two unreeling supports 61 fixed on two sides of the forming frame 71 close to the gluing frame 51 and used for unreeling the rolled glass fiber cloth, two cloth wrapping pieces 62 fixedly arranged on the gluing frame 51 and respectively used for wrapping the glass fiber cloth on the peripheral sides of the two wood cube bodies, the cloth wrapping pieces 62 are located between the lower glue box 52 and the hot pressing mold 72, each cloth wrapping piece 62 includes a necking end 621 fixedly connected to the gluing frame 51 and allowing the wood cube body to pass through, and a guiding curved surface end 622 integrally arranged on one side edge of the necking end 621 close to the middle of the gluing frame 51 and allowing the glass fiber cloth to be compressed between the inner wall of the necking end 621 and the wood cube body. The guiding curved surface end 622 includes an unfolding portion 6221 integrally provided with a reduced end 621 close to one side of the unwinding bracket 61 and used for unfolding the glass fiber cloth, a first guiding portion 6222 integrally provided on the upper side of the reduced end 621 and far from one side of the unfolding portion 6221, and a second guiding portion 6223 integrally provided on the lower side of the reduced end 621 and far from one side of the unfolding portion 6221. While the guiding curve end 622 extends above the glue dropping funnel 54 so that the glue attached to the wood cube body row falls onto the glue dropping funnel 54 when the glue falls off after being extruded by the cloth wrapping member 62.

As shown in fig. 3, 12 to 14, the towing apparatus 8 includes a towing frame 81, a lower chain support 82 provided on the towing frame 81, two lower main sprockets 83 rotatably connected to both sides of one end of the lower chain support 82, two lower sub sprockets 84 rotatably connected to both sides of the other end of the lower chain support 82, two lower chains 85 respectively interlocking the lower main sprockets 83 and the lower sub sprockets 84, a plurality of lower press blocks 86 fixedly provided on an upper chain 811 and adapted to be placed on a strand, an upper chain support 87 provided on the towing frame 81 in a lifting manner, a plurality of lifting cylinders 88 provided between the upper chain support 87 and the towing frame 81, two upper main sprockets 89 rotatably connected to both sides of one end of the upper chain support 87, two upper sub sprockets 810 rotatably connected to both sides of the other end of the upper chain support 87, two upper chains 811 respectively interlocking between the upper main sprockets 89 and the upper sub sprockets 810, A plurality of upper pressing blocks 812 which are fixedly arranged on the lower chain 85 and used for pressing the upper surface of the composite batten, and a power mechanism 813 which is arranged on the frame and used for driving the lower main chain wheel 83 and the upper main chain wheel 89 to rotate in the same direction.

As shown in fig. 13 and 14, a lower rotating shaft 814 is fixedly connected between the two lower main sprockets 83, and an upper drive shaft 815 is fixedly connected between the two upper main sprockets 89. The power mechanism 813 comprises a power motor 8131 fixedly arranged on the traction frame 81, a first gear 8132 fixedly arranged on an output shaft of the power motor 8131, a second gear 8133 fixedly arranged on the lower driving shaft 814, a third gear 8134 fixedly arranged on the upper driving shaft 815, a rotating arm 8135 hinged on the traction frame 81 through a pin shaft, a swinging gear 8136 rotatably connected on the rotating arm 8135 through a bearing, and a linkage chain 8137. The linkage chain 8137 is engaged with a first gear 8132, a second gear 8133, a third gear 8134 and a swinging gear 8136, the first gear 8132, the third gear 8134 and the swinging gear 8136 are engaged at the inner side of the linkage chain 8137, and the second gear 8133 is engaged at the outer side of the linkage chain 8137.

The implementation process comprises the following steps: battens are placed in the opening and closing groove component 22 in a staggered mode, the battens are driven to move forward under the transportation of the batten conveying mechanism 23, and the battens form a batten body in the moving process of the battens in the opening and closing groove; the batten body pressing and conveying mechanism 32 in the pressing and conveying frame 31 is used for improving the main power of batten transportation; glue in the upper glue box 53 flows into the lower glue box 52, so that glue is applied between the battens and on the peripheral sides of the battens; the glass fiber yarns are conveyed by the wire guiding mechanism 43, then pass through the deviation preventing holes 421 on the upper, lower, left and right sides of the glass fiber deviation preventing plate 42, and then are bonded on the surface of the batten body, and the glass fiber yarns are driven to be gradually attached to the surface of the batten body in the conveying process of the batten body; wrapping the glass fiber cloth on the surface of the batten body through the cloth wrapping piece 62 and bonding the glass fiber cloth through glue on the surface of the batten body; when the composite batten passes through the hot-press forming device 7, the glue is solidified through heating; the traction device 8 is used for assisting the transportation and traction of the battens; the cutting device 9 is used to cut the composite strips to the desired length.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a compound flitch production line which characterized in that: the device comprises a batten conveying device (2), a batten body pressing and conveying device (3), a glass fiber filament compounding device (4), a batten body gluing device (5), a glass fiber cloth compounding device (6), a hot-press forming device (7), a traction device (8) and a cutting device (9);

the batten conveying device (2) comprises a conveying rack (21), a dividing and combining groove assembly (22) which is arranged on the conveying rack (21) and enables a plurality of battens to form a batten body in the moving process after embedding, and a batten conveying mechanism (23) which is arranged on the conveying rack (21) and is used for driving the battens to move;

the batten body pressing and conveying device (3) comprises a pressing and conveying rack (31) and a plurality of batten body pressing and conveying mechanisms (32) which are tightly pressed on the upper surface and the lower surface of the batten body and are used for pressing and conveying the batten body;

the batten body gluing device (5) comprises a gluing rack (51), a lower gluing box (52) which is arranged on the gluing rack (51) and is used for gluing when a batten body passes through, a gluing box (53) which is arranged on the lower gluing box (52) and is communicated with the lower gluing box (52), and a glue dropping funnel (54) which is arranged on the gluing rack (51) and is communicated with the lower gluing box (52);

the glass fiber filament compounding device (4) comprises a unreeling frame (41) for unreeling a plurality of coiled glass fiber filaments, a glass fiber deviation preventing plate (42) which is arranged at one end, close to the pressing and conveying frame (31), of the gluing frame (51) and is used for allowing the batten body to penetrate through, and a wire guide mechanism (43) which is arranged between the conveying frame (21) and the pressing and conveying frame (31) and is used for conveying the glass fiber filaments to the glass fiber deviation preventing plate (42), wherein a plurality of deviation preventing holes (421) for allowing the glass fiber filaments to penetrate through are formed in the glass fiber deviation preventing plate (42) around the upper side, the lower side, the left side and the right side of the batten body;

the hot-press molding device (7) comprises a molding frame (71), a hot-press mold (72) which is arranged on the molding frame (71) and is used for the composite battens to pass through, and an electric heating plate (73) arranged on the hot-press mold (72);

glass fiber cloth set composite (6) including be used for unreeling the glass fiber cloth of lapping unreel support (61), set up on rubberizing frame (51) and be used for wrapping up in piece of cloth (62) of wrapping up in the all sides of flitch body with glass fiber cloth, it is located down between gluey case (52) and hot pressing die (72) to wrap up in piece of cloth (62).

2. The composite flitch production line according to claim 1, wherein: the batten conveying mechanism (23) is provided with a dividing and combining groove assembly (22) for forming batten bodies in the embedded moving process of two groups of battens, and the glass fiber deviation preventing plate (42) is provided with two battens for the two batten bodies to pass through; the wood square body pressing and conveying mechanism (32) comprises a plurality of lower pressing and conveying wheels (321) which are rotatably connected to two sides of the pressing and conveying rack (31) and are used for placing two groups of wood square bodies respectively, upper pressing and conveying wheels (322) which are arranged on two sides of the pressing and conveying rack (31) in a lifting mode and are used for pressing the upper surfaces of the two groups of wood square bodies respectively, a lower linkage assembly (323) which is arranged between the lower pressing and conveying wheels (321) on the same side, an upper linkage assembly (324) which is arranged between the upper pressing and conveying wheels (322) on the same side, a lower transmission shaft (325) which is rotatably connected to one end of the pressing and conveying rack (31), a lower driving piece (326) which is arranged on the pressing and conveying rack (31) and is used for driving the lower transmission shaft (325) to rotate, lower clutch assemblies (327) which are arranged at two ends of the lower transmission shaft (325) respectively and are used for realizing linkage or separation with the lower pressing and conveying wheels (321, The upper clutch component (3210) is arranged at two ends of the upper transmission shaft (328) and is used for realizing linkage or separation with the pressure feeding wheels (322) on two sides.

3. The composite flitch production line according to claim 2, wherein: the lower clutch assembly (327) comprises a first driving gear (3271) arranged at the end part of the lower transmission shaft (325), a first driven gear (3272) arranged at one end of the lower pressure feeding wheel (321), a first swing arm (3273) rotatably connected to the end part of the lower transmission shaft (325), a first intermediate gear (3274) arranged on the first swing arm (3273) and used for linking the first driving gear (3271) and the first driven gear (3272), and a first adjusting piece (3275) arranged between the first swing arm (3273) and the pressure feeding rack (31) and used for adjusting the angle of the first swing arm (3273); the upper clutch component (3210) comprises a second driving gear (32101) arranged at the end of the upper transmission shaft (328), a second driven gear (32102) arranged at one end of the upper pressure feeding wheel (322), a second swing arm (32103) rotatably connected at the end of the upper transmission shaft (328), a second intermediate gear (32104) arranged on the second swing arm (32103) and used for linking the second driving gear (32101) and the second driven gear (32102), and a second adjusting piece (32105) arranged between the second swing arm (32103) and the pressure feeding rack (31) and used for adjusting the angle of the second swing arm (32103).

4. The composite flitch production line according to claim 1, wherein: the wire guiding mechanism (43) comprises a first threading support (431) arranged on the conveying rack (21), a second threading support (432) arranged on the pressure conveying rack (31), a first upper threading plate (433) arranged on the first threading support (431), a second upper threading plate (434) arranged on the second threading support (432), a third lower threading plate (435) arranged below the conveying rack (21) and a fourth lower threading plate (436) arranged below the upper threading rack (51); a plurality of glass fiber silks passing through the first upper threading plate (433) and the second upper threading plate (434) are abutted against the upper, left and right sides of the batten body through deviation-preventing holes (421) in the upper, left and right sides of the glass fiber deviation-preventing plate (42), and a plurality of glass fiber raw water passing through the third lower threading plate (435) and the fourth lower threading plate (436) is abutted against the lower side of the batten body through deviation-preventing holes (421) in the lower side of the glass fiber deviation-preventing plate (42).

5. The composite flitch production line according to claim 1, wherein: the hot-press forming device (7) further comprises a cooling mold (74) which is arranged at one end, far away from the gluing rack (51), of the forming rack (71) and is used for composite battens to penetrate through.

6. The composite flitch production line according to claim 1, wherein: wrap up in throat end (621) that cloth spare (62) confession flitch body passed, set up and be close to rubberizing frame (51) one side edge at throat end (621) and make glass fiber cloth compress tightly guide curved surface end (622) between throat end (621) inner wall and flitch body, guide curved surface end (622) including being provided with throat end (621) and being close to the portion (6221) that expand that unreels support (61) one side and be used for expanding glass fiber cloth, set up in throat end (621) upside and keep away from first guide portion (6222) of the portion (6221) one side of expanding, set up in throat end (621) downside and keep away from second guide portion (6223) of the portion (6221) one side of expanding.

7. The composite flitch production line according to claim 1, wherein: the traction device (8) comprises a traction rack (81), a lower chain support (82) arranged on the traction rack (81), a lower main chain wheel (83) rotatably connected to one end of the lower chain support (82), a lower driven chain wheel (84) rotatably connected to the other end of the lower chain support (82), a lower chain (85) linked between the lower main chain wheel (83) and the lower driven chain wheel (84), a plurality of lower press blocks (86) arranged on the upper chain (811) and used for placing composite wood, an upper chain support (87) arranged on the traction rack (81) in a lifting way, a lifting cylinder (88) arranged between the upper chain support (87) and the traction rack (81), an upper main chain wheel (89) rotatably connected to one end of the upper chain support (87), an upper driven chain wheel (810) rotatably connected to the other end of the upper chain support (87), an upper chain (811) linked between the upper main chain wheel (89) and the upper driven chain wheel (810), a chain, A plurality of upper pressing blocks (812) which are arranged on the lower chain (85) and used for pressing the upper surface of the composite batten, and a power mechanism (813) which is arranged on the frame and used for driving the lower main chain wheel (83) and the upper main chain wheel (89) to rotate in the same direction.

8. The composite flitch production line according to claim 7, wherein: the power mechanism (813) comprises a power motor (8131) arranged on a traction rack (81), a first gear (8132) arranged on an output shaft of the power motor (8131), a second gear (8133) linked with a lower main chain wheel (83), a third gear (8134) linked with an upper main chain wheel (89), a rotating arm (8135) hinged on the traction rack (81), a swinging gear (8136) rotatably connected to the rotating arm (8135), and a linkage chain (8137), wherein the linkage chain (8137) is meshed with the first gear (8132), the second gear (8133), the third gear (8134) and the swinging gear (8136), the first gear (8132), the third gear (8134) and the swinging gear (8136) are meshed with the inner side of the linkage chain (8137), and the second gear (8133) is meshed with the outer side of the linkage chain (8137).

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