CN220113538U - Bamboo board side pressure splicing device - Google Patents

Abstract

The utility model relates to a side pressure splicing device for bamboo boards, which comprises a conveying belt, wherein the conveying belt is used for conveying a plurality of bamboo strips which are distributed at intervals along the longitudinal direction and face upwards along the longitudinal direction and the width direction, a bamboo strip jacking mechanism is arranged on the left side of the conveying belt, and a pushing mechanism for pushing the bamboo strips to the right is arranged above the left side of the bamboo strip jacking mechanism; the upper side of conveyer belt is equipped with spouts gluey mechanism, and the right-hand member of conveyer belt links up and is equipped with the concatenation workstation, and the top of concatenation workstation is equipped with the bamboo strip rotary mechanism who rotates a plurality of bamboo strips to long to narrow face upwards, and bamboo strip rotary mechanism all is equipped with the side clamp plate in front of, back, the side clamp plate is driven along longitudinal forward, back by the side pressure cylinder of vertical setting. The utility model has reasonable structural design, integrates the feeding, glue spraying, overturning and side pressing of the bamboo strips, realizes the automation of the splicing of the bamboo boards, effectively improves the splicing efficiency of the bamboo boards, is beneficial to the continuous implementation of the splicing of the bamboo boards, and is orderly arranged during the side pressing splicing of the bamboo strips, thereby effectively improving the splicing quality.

Description

Bamboo board side pressure splicing device

Technical field:

the utility model relates to a side pressure splicing device for a bamboo board.

The background technology is as follows:

in the processing and manufacturing of the bamboo board, firstly, cutting, knot removing, splitting, polishing and other working procedures are carried out on bamboo to obtain bamboo strips meeting requirements, then the bamboo strips are subjected to glue spraying and splicing to form the bamboo board, and then the bamboo board is manufactured into the required bamboo product.

The bamboo boards can be divided into two kinds of flat pressing bamboo boards and side pressing bamboo boards according to the arrangement structure of the bamboo strips, the side pressing bamboo boards are formed by pressing the bamboo strips on the side, only one layer is arranged on the whole, the long-direction narrow-side surfaces of the bamboo strips face upwards during manufacturing, and the bamboo boards are extruded from two sides to manufacture the bamboo boards. The flat pressing bamboo board is a transverse combination mode, and is formed by pressing the long and wide sides of bamboo strips upwards and the front side in a side pressing way. The thickness of the single bamboo strip cannot reach the thickness of the single board, so that the single bamboo strip is formed by laminating three layers.

At present, when adopting the mode of side pressure concatenation to prepare the bamboo board, glue to the long wide face of bamboo strip through rubberizing equipment at first, later artifical manual with the long wide face mutual concatenation laminating of many bamboo strips together, finally manually send into side pressure equipment into, owing to splice the process and adopt the manual completion, not only inefficiency is unfavorable for continuous production, and the quality of the bamboo board of making is uneven moreover, can not fine satisfy the needs of production.

The utility model comprises the following steps:

the utility model aims at improving the problems existing in the prior art, namely the technical problem to be solved by the utility model is to provide the side pressure splicing device for the bamboo boards, which is reasonable in design and effectively improves the production efficiency and the quality of the manufactured bamboo boards.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the side pressure splicing device for the bamboo boards comprises a conveying belt, wherein the conveying belt is used for conveying a plurality of bamboo strips which are longitudinally distributed at intervals and face upwards along the length direction and the width direction along the transverse direction from left to right, a bamboo strip jacking mechanism is arranged on the left side of the conveying belt and used for jacking the bamboo strips from bottom to top, and a pushing mechanism is arranged above the left side of the bamboo strip jacking mechanism and used for pushing the bamboo strips on the top of the bamboo strip jacking mechanism to the right side of the conveying belt; the top of conveyer belt is equipped with the mechanism of spouting that is used for spouting the top surface of bamboo strip and glues, and the right-hand member of conveyer belt links up and is equipped with the concatenation workstation, the top of concatenation workstation is equipped with and is used for rotating a plurality of bamboo strips to the bamboo strip rotary mechanism that long to narrow face upwards, bamboo strip rotary mechanism's front, back all are equipped with the side clamp plate, the side clamp plate is driven along longitudinal direction and back removal by the side pressure cylinder of vertical setting.

Further, the bamboo strip climbing mechanism comprises a bamboo strip placing groove, a plurality of bamboo strip climbing cavities distributed at intervals longitudinally are formed in the bamboo strip placing groove, the tops of the bamboo strip climbing cavities are open, bamboo strip climbing plates are arranged in the bamboo strip climbing cavities and driven to lift by climbing cylinders vertically arranged at the bottoms of the bamboo strip climbing cavities.

Further, the pushing mechanism comprises a pushing plate longitudinally arranged above the left side of the bamboo strip placing groove, and the pushing plate is driven by a pushing cylinder transversely arranged on the left side of the pushing plate to move left and right along the transverse direction so as to push the bamboo strips at the tops of the plurality of bamboo strip jacking cavities to the right on the conveying belt.

Further, a plurality of bamboo strip conveying channels are arranged above the conveying belt and distributed at intervals in the longitudinal direction, the positions of the bamboo strip conveying channels correspond to the positions of the bamboo strip jacking cavities, and the bamboo strip conveying channels are transversely communicated.

Further, the glue spraying mechanism comprises glue spraying pipes longitudinally arranged above the plurality of bamboo strip conveying channels, a pair of glue spraying heads are arranged at the bottoms of the glue spraying pipes right above each bamboo strip conveying channel, and the glue spraying pipes are connected with the glue storage tank through pipelines.

Further, bamboo strip rotary mechanism includes the level setting and is in concatenation workstation top and by the lift bedplate of first lift cylinder drive lift, the bottom of lift bedplate is fixed with a plurality of vertical connecting rods of a plurality of pairs of along vertical interval distribution, a plurality of pairs of vertical connecting rods are corresponding with a plurality of bamboo strip positions on the conveyer belt, every pair of vertical connecting rod distributes in the bottom left and right sides of lift bedplate both ends, is equipped with a pair of left and right distribution and is used for the rotatory splint with the left and right terminal surface of bamboo strip contact respectively between the lower extreme of every pair of vertical connecting rod, rotatory splint's axis transversely sets up, and rotatory splint is rotatory by the revolving cylinder drive, revolving cylinder installs on the tight seat of clamp of L shape, the tight seat of clamp is kept away from the tight cylinder drive left and right movement of clamp of a side at vertical connecting rod.

Further, a microwave pressing plate which is used for being in contact with the long narrow surfaces of the bamboo strips is arranged in parallel under the lifting seat plate, the microwave pressing plate is located above the rotary clamping plate, and the microwave pressing plate is driven by a plurality of second lifting cylinders arranged at the top of the lifting seat plate.

Further, a vertical through longitudinal groove is formed in the left end of the splicing workbench, a shaping baffle is arranged in the longitudinal groove, and the shaping baffle is driven by a third lifting cylinder positioned below the shaping baffle to extend out of the longitudinal groove; the right-hand member top of concatenation workstation is equipped with the plastic push pedal, the plastic push pedal parallels with the plastic baffle, and the plastic push pedal is by transversely setting up the plastic cylinder drive left and right movement in its right side, plastic baffle and plastic push pedal distribute in the left and right both sides of side pressure board.

Compared with the prior art, the utility model has the following effects: the utility model has reasonable structural design, integrates the feeding, glue spraying, overturning and side pressing of the bamboo strips, realizes the automation of the splicing of the bamboo boards, effectively improves the splicing efficiency of the bamboo boards, is beneficial to the continuous implementation of the splicing of the bamboo boards, and meanwhile, compared with the traditional manual splicing mode, the bamboo strip side-pressing splicing is orderly arranged, and effectively improves the splicing quality.

Description of the drawings:

FIG. 1 is a schematic diagram of a front view configuration of an embodiment of the present utility model;

FIG. 2 is a schematic top view of an embodiment of the present utility model;

FIG. 3 is a schematic view of the cross-sectional configuration of section A-A in FIG. 1;

FIG. 4 is a schematic view of the sectional B-B configuration of FIG. 1;

FIG. 5 is a schematic view of a bamboo strip rotating mechanism according to an embodiment of the present utility model;

FIG. 6 is a schematic view of the bamboo strip rotating mechanism of FIG. 5 in operation when clamping bamboo strips;

FIG. 7 is a schematic view of the bamboo strips of FIG. 6 after being moved upward;

FIG. 8 is a schematic view of the bamboo strip of FIG. 7 rotated to a long narrow side up;

fig. 9 is a schematic view of the rotated bamboo strips in fig. 8 placed on a splicing table and a microwave pressing plate pressing the bamboo strips.

The specific embodiment is as follows:

the utility model will be described in further detail with reference to the drawings and the detailed description.

In the description of the present utility model, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 5, the bamboo board side pressure splicing device comprises a conveying belt 1 for conveying a plurality of bamboo strips 2 which are longitudinally distributed at intervals and face upwards in length and width along the transverse direction from left to right, wherein a bamboo strip jacking mechanism 3 for jacking the bamboo strips from bottom to top is arranged on the left side of the conveying belt 1, and a pushing mechanism 4 for pushing the bamboo strips 2 on the top of the bamboo strip jacking mechanism 3 from left to right to the conveying belt is arranged above the left side of the bamboo strip jacking mechanism 3; the upper side of the conveying belt 1 is provided with a glue spraying mechanism 5 for spraying glue to the top surface (namely, the long-direction wide surface) of the bamboo strips, the right end of the conveying belt 1 is connected with a splicing workbench 6, the conveying belt 1 conveys a plurality of bamboo strips to the splicing workbench 1, the upper side of the splicing workbench 1 is provided with a bamboo strip rotating mechanism 7 for rotating a plurality of bamboo strips to the long-direction narrow surface upwards, the front and the rear of the bamboo strip rotating mechanism 7 are respectively provided with a side pressing plate 8, and the side pressing plates 8 are driven by a side pressing cylinder 9 arranged longitudinally to move longitudinally forwards and backwards.

The working method of the bamboo board splicing device comprises the following steps: the method comprises the following steps: (1) The bamboo strip jacking mechanism 3 jacks up a plurality of bamboo strips 2 which are transversely arranged and face upwards in length and width to the top and correspond to the pushing mechanism 4, and then the pushing mechanism 4 pushes the bamboo strips at the top of the bamboo strip jacking mechanism 3 onto the conveying belt 1 from left to right; (2) The conveyor belt 1 conveys a plurality of bamboo strips to the splicing workbench 6 from left to right, and the glue spraying mechanism 5 sprays glue on the long-direction wide surfaces of the bamboo strips in the conveying process; (3) The bamboo strip rotating mechanism 7 descends to be close to the splicing workbench 6, the bamboo strip rotating mechanism 7 clamps a plurality of bamboo strips 2 on the splicing workbench 6 from the left end and the right end (as shown in fig. 6), then the bamboo strips are moved upwards to be above the side pressing plate 8 (as shown in fig. 7), then the bamboo strip rotating mechanism 7 rotates the bamboo strips in the same direction by 90 degrees to enable the long direction and the narrow direction of the bamboo strips to be upwards (as shown in fig. 8), finally the bamboo strip rotating mechanism 7 moves the rotated bamboo strips downwards and places the bamboo strips on the splicing workbench 6, and the bamboo strip rotating mechanism 7 resets upwards (as shown in fig. 9); (4) The shaping mechanism sorts the rotated bamboo strips from the left side and the right side so that the end surfaces of the bamboo strips are flush; (5) The side pressing plates 8 on the front side and the rear side of the bamboo strip rotating mechanism 6 move in opposite directions, clamp a plurality of bamboo strips in the front-rear direction and keep pressure, so that a plurality of bamboo strips are spliced together. The device has assembled bamboo strip pay-off, has spouted gluey, upset and side pressure in an organic whole, realizes the automation of bamboo board concatenation, effectively improves the concatenation efficiency of bamboo board, is favorable to the serialization of bamboo board concatenation to go on, compares simultaneously with traditional manual concatenation mode, and the alignment is neat when bamboo strip side pressure concatenation, effectively improves the concatenation quality.

In another embodiment, the bamboo strip jacking mechanism 3 includes a bamboo strip placing groove 10 with an open top, a plurality of bamboo strip jacking cavities 11 are arranged in the bamboo strip placing groove 10 at intervals along the longitudinal direction, and the bamboo strip jacking cavities 11 are of a strip-shaped structure along the transverse direction and are rectangular; the top of the bamboo strip jacking cavity 11 is open, a bamboo strip jacking plate 12 is arranged in the bamboo strip jacking cavity 11, and the bamboo strip jacking plate 12 is vertically arranged at the bottom of the bamboo strip jacking cavity 11 and driven by a jacking air cylinder to lift. During operation, a plurality of bamboo strips vertically stacked along are placed in the bamboo strip jacking cavity, the bamboo strip jacking plates support the bamboo strips, the jacking air cylinders sequentially jack the bamboo strips upwards through the bamboo strip jacking plates, and the uppermost bamboo strip is located above the bamboo strip placing cavity so as to facilitate pushing of the pushing mechanism from left to right.

In another embodiment, the pushing mechanism 4 includes a pushing plate 14 longitudinally disposed above the left side of the bamboo strip placement slot 10, and the pushing plate 14 is driven by a pushing cylinder 15 transversely disposed on the left side of the pushing plate to move left and right along the transverse direction, so as to push the bamboo strips on the tops of the plurality of bamboo strip jacking cavities to the right on the conveying belt. During operation, the pushing cylinder drives the pushing plate to move from left to right, and the pushing plate once only promotes the bamboo strip that a plurality of bamboo strip jacking chamber jack-up out, improves pushing efficiency.

In another embodiment, a plurality of bamboo strip conveying channels 16 are arranged above the conveying belt 1 and distributed at intervals along the longitudinal direction, the positions of the bamboo strip conveying channels 16 correspond to the positions of the bamboo strip jacking cavities 11, and the bamboo strip conveying channels are penetrated along the transverse direction. Through setting up the bamboo strip conveying channel to the conveyer belt plays certain guide effect when carrying the bamboo strip.

In another embodiment, the glue spraying mechanism 5 includes glue spraying pipes 17 longitudinally disposed above the plurality of bamboo strip conveying channels 16, a pair of glue spraying heads 18 are disposed at the bottom of the glue spraying pipes 17 directly above each bamboo strip conveying channel, and the glue spraying pipes are connected with the glue storage tank through pipelines. During operation, in the process of conveying the bamboo strips from left to right, a pair of glue spraying heads downwards spray glue, so that long-direction wide-surface glue spraying of the bamboo strips is sequentially realized.

In another embodiment, the bamboo strip rotating mechanism 7 includes a lifting seat board 20 horizontally disposed above the splicing table 6 and driven to lift by a first lifting cylinder 19, a plurality of pairs of vertical connecting rods 21 distributed along a longitudinal interval are fixed at the bottom of the lifting seat board 20, the positions of the plurality of vertical connecting rods 21 and the plurality of bamboo strips on the conveying belt 1 correspond to each other, each pair of vertical connecting rods 21 (i.e. two vertical connecting rods) is distributed at left and right ends of the bottom of the lifting seat board 20, a pair of rotating clamping plates 22 distributed left and right and used for respectively contacting with left and right end surfaces of the bamboo strips are disposed between the lower ends of each pair of vertical connecting rods 21, the axes of the rotating clamping plates 22 are transversely disposed, the rotating clamping plates 22 are driven to rotate by a rotating cylinder 23, the rotating cylinder 23 is mounted on an L-shaped clamping seat 24, and the clamping seat 24 is driven to move left and right by a clamping cylinder 25 mounted on one side surface of the vertical connecting rods 21 away from the rotating clamping plates 22. When the bamboo strip splicing machine works, when the conveyor belt conveys a plurality of bamboo strips to the splicing workbench, the first lifting cylinder drives the lifting seat plate to move downwards, so that a pair of rotating clamping plates are distributed on the left side and the right side of the bamboo strips, and then the clamping cylinder drives the clamping seat to move towards the bamboo strips, so that the rotating clamping plates clamp the end faces of the bamboo strips; then the first lifting cylinder drives the lifting seat plate to move upwards, the rotary cylinder drives the rotary clamping plates to rotate, and the bamboo strips are clamped between the pair of rotary clamping plates, so that the bamboo strips are driven to rotate when the rotary clamping plates rotate, and then the bamboo strips rotate to face upwards in the length direction and the width direction.

In another embodiment, a microwave pressing plate 26 for contacting with the long narrow surfaces of the bamboo strips is arranged in parallel under the lifting seat plate 20, the microwave pressing plate 26 is located above the rotating clamping plate 22, and the microwave pressing plate is driven by a plurality of second lifting cylinders 32 installed on the top of the lifting seat plate. When the bamboo strip is rotated to the long direction with the narrow surface upwards and placed on the splicing workbench, and after the side pressure plate clamps a plurality of bamboo strips together from the front and back directions, the second lifting cylinder drives the microwave pressing plate to move downwards, the bottom surface of the microwave pressing plate is contacted with the long direction with the narrow surface of the plurality of bamboo strips, and the microwave pressing plate heats the plurality of bamboo strips by microwaves so that the plurality of bamboo strips are adhered together more quickly.

In another embodiment, a longitudinal groove 27 penetrating vertically is provided at the left end of the splicing table 6, a shaping baffle 28 is provided in the longitudinal groove 27, and the shaping baffle 28 is driven by a third lifting cylinder 29 located below the shaping baffle to extend out of the longitudinal groove; the shaping push plate 30 is arranged above the right end of the splicing workbench 6, the shaping push plate 30 is parallel to the shaping baffle 28, the shaping push plate 30 is driven to move left and right by the shaping cylinder 31 transversely arranged on the right side of the shaping push plate 30, the shaping baffle 28 and the shaping push plate 30 are distributed on the left side and the right side of the side pressure plate 8, and the shaping push plate, the shaping baffle and the shaping cylinder form a shaping mechanism. When the bamboo strip overturning machine works, when the bamboo strip overturns to the long direction with the narrow surface upwards and is placed on the splicing workbench, the third lifting cylinder drives the shaping baffle to upwards extend out of the longitudinal groove, then the shaping cylinder pushes the shaping push plate to move towards the shaping baffle, the shaping push plate is contacted with the right side surface of the bamboo strip, the bamboo strip is pushed to the left end surface of the bamboo strip to be contacted with the shaping baffle, the shaping push plate is matched with the shaping baffle, shaping of a plurality of bamboo strips is achieved, and the end surfaces of the bamboo strips are guaranteed to be flush. It should be noted that, before the bamboo strips are turned over, the bamboo strips may also be shaped by using a shaping baffle and a shaping push plate, as shown in fig. 5.

If the utility model discloses or relates to components or structures fixedly connected with each other, then unless otherwise stated, the fixed connection is understood as: detachably fixed connection (e.g. using bolts or screws) can also be understood as: the non-detachable fixed connection (e.g. riveting, welding), of course, the mutual fixed connection may also be replaced by an integral structure (e.g. integrally formed using a casting process) (except for obviously being unable to use an integral forming process).

In addition, terms used in any of the above-described aspects of the present disclosure to express positional relationship or shape have meanings including a state or shape similar to, similar to or approaching thereto unless otherwise stated.

Any part provided by the utility model can be assembled by a plurality of independent components, or can be manufactured by an integral forming process.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same; while the utility model has been described in detail with reference to the preferred embodiments, those skilled in the art will appreciate that: modifications may be made to the specific embodiments of the present utility model or equivalents may be substituted for part of the technical features thereof; without departing from the spirit of the utility model, it is intended to cover the scope of the utility model as claimed.

Claims (8)

1. The utility model provides a bamboo clapper side pressure splicing apparatus which characterized in that: the bamboo strip lifting mechanism is arranged at the left side of the conveying belt and used for lifting the bamboo strips from bottom to top, and a pushing mechanism used for pushing the bamboo strips at the top of the bamboo strip lifting mechanism to the right side of the conveying belt is arranged above the left side of the bamboo strip lifting mechanism; the top of conveyer belt is equipped with the mechanism of spouting that is used for spouting the top surface of bamboo strip and glues, and the right-hand member of conveyer belt links up and is equipped with the concatenation workstation, the top of concatenation workstation is equipped with and is used for rotating a plurality of bamboo strips to the bamboo strip rotary mechanism that long to narrow face upwards, bamboo strip rotary mechanism's front, back all are equipped with the side clamp plate, the side clamp plate is driven along longitudinal direction and back removal by the side pressure cylinder of vertical setting.

2. The bamboo splint side pressure splicing apparatus according to claim 1, wherein: the bamboo strip jacking mechanism comprises a bamboo strip placing groove, a plurality of bamboo strip jacking cavities distributed at intervals longitudinally are formed in the bamboo strip placing groove, the tops of the bamboo strip jacking cavities are open, bamboo strip jacking plates are arranged in the bamboo strip jacking cavities and are driven to lift by jacking cylinders vertically arranged at the bottoms of the bamboo strip jacking cavities.

3. The bamboo splint side pressure splicing apparatus according to claim 2, wherein: the pushing mechanism comprises a pushing plate longitudinally arranged above the left side of the bamboo strip placing groove, and the pushing plate is driven by a pushing cylinder transversely arranged on the left side of the pushing plate to move left and right along the transverse direction so as to push the bamboo strips at the tops of the plurality of bamboo strip jacking cavities to the right on the conveying belt.

4. A bamboo splint side pressure splicing apparatus as claimed in claim 3, characterized in that: the bamboo strip conveying device is characterized in that a plurality of bamboo strip conveying channels are arranged above the conveying belt and distributed at intervals in the longitudinal direction, the bamboo strip conveying channels correspond to the positions of the bamboo strip jacking cavities, and the bamboo strip conveying channels are transversely communicated.

5. The bamboo splint side pressure splicing apparatus as defined in claim 4, wherein: the glue spraying mechanism comprises glue spraying pipes longitudinally arranged above the bamboo strip conveying channels, a pair of glue spraying heads are arranged at the bottoms of the glue spraying pipes right above each bamboo strip conveying channel, and the glue spraying pipes are connected with the glue storage tank through pipelines.

6. The bamboo splint side pressure splicing apparatus according to claim 1, wherein: the bamboo strip rotary mechanism comprises a lifting seat plate which is horizontally arranged above a splicing workbench and driven to lift by a first lifting cylinder, a plurality of pairs of vertical connecting rods which are distributed at intervals longitudinally are fixed at the bottom of the lifting seat plate, the positions of the plurality of pairs of vertical connecting rods correspond to the positions of the plurality of bamboo strips on the conveying belt, each pair of vertical connecting rods are distributed at the left end and the right end of the bottom of the lifting seat plate, a pair of rotary clamping plates which are distributed left and right and are used for being respectively contacted with the left end face and the right end face of the bamboo strip are arranged between the lower ends of each pair of vertical connecting rods, the axis of each rotary clamping plate is transversely arranged, each rotary clamping plate is driven to rotate by the corresponding rotary cylinder, and each rotary clamping plate is driven to move left and right by the corresponding clamping cylinder which is installed on one side of the vertical connecting rods far away from the rotary clamping plates.

7. The bamboo splint side pressure splicing apparatus as defined in claim 6, wherein: the microwave pressing plate is arranged below the lifting seat plate in parallel and is used for being contacted with the long narrow surfaces of the bamboo strips, the microwave pressing plate is positioned above the rotary clamping plate, and the microwave pressing plate is driven by a plurality of second lifting cylinders arranged at the top of the lifting seat plate.

8. The bamboo splint side pressure splicing apparatus according to claim 2, wherein: the left end of the splicing workbench is provided with a vertical through longitudinal groove, a shaping baffle is arranged in the longitudinal groove, and the shaping baffle is driven by a third lifting cylinder positioned below the shaping baffle to extend out of the longitudinal groove; the right-hand member top of concatenation workstation is equipped with the plastic push pedal, the plastic push pedal parallels with the plastic baffle, and the plastic push pedal is by transversely setting up the plastic cylinder drive left and right movement in its right side, plastic baffle and plastic push pedal distribute in the left and right both sides of side pressure board.