CN104261160B - Plank Automatic continuous layering conveyer - Google Patents

Abstract

A kind of plank Automatic continuous layering conveyer, belongs to sheet sheet material conveying machinery field. Comprise frame, it comprises first, second wallboard, panoramic table elevating mechanism connecting axle and bottom girder; A pair of panoramic table elevating mechanism; Swinging layering slab feeding mechanism, is bearing between first, second reversing frame central shaft; First, second reversing frame drives acting cylinder; A pair of panoramic table elevating mechanism comprises panoramic table lift action cylinder chain and sprocket wheel; Swinging layering slab feeding mechanism comprises first, second reversing frame, sheet timber transport platform panel, input roller, input pressure roller, outlet roller and output press roll, the front end of first, second reversing frame is respectively established sheet timber input pressure roller pressure-raising mechanism, on the first reversing frame, establish power drive mechanism, between first, second backbar holder, establish sheet timber running deviation preventing mechanism; The input of sheet timber, output press roll are rubber rollers. Alleviate operation intensity; Save manpower; Guarantee the friction effect between sheet timber, reduce the row of sheet timber to move resistance.

Description

Plank Automatic continuous layering conveyer

Technical field

The invention belongs to sheet sheet material technical field of conveying machinery, be specifically related to a kind of plank Automatic continuous layering conveyer.

Background technology

Above mentioned plank by preceding working procedure as saw plate operation or similarly operation obtain. Conventionally drying of wood treating apparatus is equipped with at wood working industry, woodwork production industry as furniture production firm, typical example cheap and drying of wood treating apparatus efficiently is as drying room, by drying room, plank is implemented to dry (industry custom claims drying), make that plank has that good stability and intensity, antiseptic are rotten, the serviceability that ensures goods and rational service life, etc.

As is known in the industry, for normally multiple field of the drying room of drying plank, be commonly the upper, middle and lower (also deserving to be called a layer drying tunnel, middle level drying tunnel and lower floor's drying tunnel), the drying room of this structure has the high and energy-conservation strong point of plank baking efficiency. And then as is known in the industry, because the temperature of the porch of drying room is higher, operating personnel are difficult to approach, otherwise can affect the healthy of online assignment personnel because of heat radiation, thereby be conventionally equipped with a timber in the porch of drying room and scoop out device, this timber scoops out device and is essentially a transition conveying device, and structure is conveyer belt structure for conveying, by workman, the plank that awaits the sheet of introducing drying room is delivered to timber and scoop out on device, and then just scoop out device by wood and sent into drying room. According to aforementioned known, because drying room has upper, middle and lower layer, therefore timber scoops out device also should upper, middle and lower conveyer belt or conveying roller mutually, so, workman, timber is carried and be placed in to sheet timber scooping out the process of device, must take into account simultaneously upper, middle and lower conveyer belt or conveying roller are fed to sheet timber. One of self-evident shortcoming of this operating type, workman's operation intensity is large; Two, drop into manpower many; Three, inefficiency.

In disclosed Chinese patent literature, can be seen in continous way and carry the technical information of sheet material class, " with the full-automatic continuous conveying mechanism of automatic compacting device " typically recommended as invention patent mandate notification number CN101624129B, this patent scheme objectively can embody the technique effect of the 0010th section, its description, but carry requirement because this patent can only meet plane, do not there is referential enlightenment for the upper, middle and lower conveying sheet-shaped timber of taking turns.

In addition, according to professional general knowledge, plank (refers to sheet timber, as follows) direction that need be under the state of seizing on both sides by the arms scoop out device to aforesaid timber carries, so need be to the supporting heel piece shape timber input pressure roller of sheet timber input roller, simultaneously to the supporting heel piece shape timber output press roll of sheet timber outlet roller, to sheet timber is entered between sheet timber input pressure roller and sheet timber input roller, and goes out and arrive timber to scoop out device from row between sheet timber output press roll and sheet timber outlet roller. Therefore, sheet timber input pressure roller and sheet timber output press roll should meet the requirement of the frictional force to sheet timber, meet and reduce as far as possible requirement to sheet timber running resistance again, scoop out towards timber the effect of advancing that the direction of device is advanced otherwise can affect sheet timber. For this type of technical problem, not being seen in equally the enlightenment being solved in disclosed document up to now.

Summary of the invention

Task of the present invention is to provide one to contribute to more than sheet timber, in, under evolution mode scoop out device to the timber that is arranged on drying room porch and feed and use and meet timber and scoop out the requirement that device is carried to each drying tunnel of drying room, be conducive to avoid workman that sheet timber is lifted and use significantly alleviate operation intensity, be of value to and improve operating efficiency and minimizing personnel and drop into and use to save valuable human resources and have and be convenient to make sheet timber input pressure roller and sheet timber output press roll to produce rational frictional force to sheet timber not show to advancing of sheet timber produced excessive resistance and use and guarantee steadily mobile plank Automatic continuous layering conveyer of direction that sheet timber scoops out from device to timber.

Task of the present invention completes like this, a kind of plank Automatic continuous layering conveyer, comprise a frame, this frame comprises the first wallboard, the second wallboard, panoramic table elevating mechanism connecting axle and bottom girder, first, the second wallboard is with the state setting facing each other and the structure that is all cuboid, be fixed with one first reversing frame central shaft at the first wallboard towards a side of the second wallboard, and be provided with an electric control box at the first wallboard back to a side of the second wallboard, at the second wallboard towards a side of the first wallboard and be fixed with one second reversing frame central shaft corresponding to the position of the first reversing frame central shaft, one end of panoramic table elevating mechanism connecting axle is bearing in the top of the first wallboard towards a side of the second wallboard rotationally, and the other end of panoramic table elevating mechanism connecting axle is bearing in the top of the second wallboard towards a side of the first wallboard rotationally, the shape of cross section of bottom girder is U font, one end of this bottom girder and the first wallboard are fixed and are provided with in this one end one first reversing frame and drive acting cylinder towards the bottom of a side of the second wallboard, the other end of bottom girder and the second wallboard are fixed towards the bottom of a side of the first wallboard and are provided with one second reversing frame at this other end and drive acting cylinder, wherein, be provided with the first wallboard fixed base plate in the bottom of the first wallboard, and be provided with the second wallboard fixed base plate in the bottom of the second wallboard, the a pair of panoramic table elevating mechanism corresponding to each other, this is arranged on described the first wallboard to one of them the panoramic table elevating mechanism in panoramic table elevating mechanism and is connected towards the bottom of a side of the second wallboard and with one end of described panoramic table elevating mechanism connecting axle, is connected towards the bottom of a side of the first wallboard and with the other end of panoramic table elevating mechanism connecting axle and another panoramic table elevating mechanism in a pair of panoramic table elevating mechanism is arranged on the second wallboard, single-revolution formula layering slab feeding mechanism, this swinging layering slab feeding mechanism is bearing between first, second described reversing frame central shaft rotationally, and drives acting cylinder and the second reversing frame to drive acting cylinder to be connected with described a pair of panoramic table elevating mechanism, the first reversing frame simultaneously, described the first reversing frame drive acting cylinder in the position of one end of described bottom girder corresponding to described the first wallboard the side towards the second wallboard, and described the second reversing frame drive acting cylinder in the position of the other end of described bottom girder corresponding to described the second wallboard the side towards the first wallboard, and this is first years old, the second reversing frame drives acting cylinder all with heeling condition setting, the first reversing frame drives the first reversing frame of acting cylinder to drive acting cylinder post towards described swinging layering slab feeding mechanism, the second reversing frame drives the second reversing frame of acting cylinder to drive acting cylinder post equally towards described swinging layering slab feeding mechanism, and the first reversing frame drives acting cylinder and the second reversing frame to drive acting cylinder corresponding with the position of described a pair of panoramic table elevating mechanism respectively, described the first reversing frame central shaft and the second reversing frame central shaft are all the level of state fixing, described a pair of panoramic table elevating mechanism respectively comprises panoramic table lift action cylinder, panoramic table elevating chain and panoramic table lifting sprocket wheel, panoramic table lift action cylinder is fixed on described first, a side in opposite directions of the second wallboard, and the panoramic table lift action cylinder post of this panoramic table lift action cylinder is towards upper, panoramic table lifting sprocket wheel is fixed on described panoramic table elevating mechanism connecting axle, the end of one end of panoramic table elevating chain and panoramic table lift action cylinder post is fixed, middle part is nested with on panoramic table lifting sprocket wheel, and the other end of panoramic table elevating chain is fixed with single-revolution platform attachment screw, described swinging layering slab feeding mechanism is simultaneously with described first, the second reversing frame drives acting cylinder post and panoramic table attachment screw to connect, the first described reversing frame central shaft and the second reversing frame central shaft are the semi-axis structure of horizontal boom state, Described rotary layered plate institutions including the first and second rotary frame, sheet, flake wood timber transportation panel type roller, roller, flake wood flake wood input output roller and sheet timber output roller;First, second, turning each other face to face in the state;In the first rotary rack back to the second rotary rack fixed on only one side of a first rotary rack central shaft and a first rotary carriage connecting screw;And fixed in the bottom of the first rotary rack has a first rotary rack drive cylinder connected with the ear;The location of the first rotary rack center shaft seat and described the first rotary frame corresponding to the center axis and pivotal to cooperate with the first rotary center axis;Described the first rotary rack connecting screw with a pair of rotary table in the lifting mechanism of a rotary table lifting mechanism described in the rotary table lifting chain on the other side of the rotary table connection screw connection;The first rotary rack driving action cylinder column connection ear and described the first rotary rack drive cylinder column at the end of the articulated;In the second rotary rack back to the first rotary rack fixed on only one side of a second central axis rotary frame and a second rotary carriage connecting screw;And at the bottom of the second rotary rack fixed role a second rotary rack driving cylinder connected with the ear;The second rotary rack center mentioned in the position of shaft seat and the second rotary frame corresponding to the center axis and the second central axis rotary frame pivot fit;The second rotary rack connecting screws and described a pair of rotary table in the lifting mechanism of lifting mechanism of a rotary table mentioned in the rotary table lifting chain on the other side of the rotary table connection screw connection;The second rotary rack driving action cylinder column connected to the ears and described in the second column cylinder hinged at the end of rotary rack drive action;Flake wood conveying stage face plate fixed to the panel on the supporting beam toward the side;The station panel support beam toward one end of the first rotary rack with the first rotary rack fixed;The panel support beam toward one end of the second rotary rack and the second rotary rack fixed;Flake wood type roller in corresponding to the length of the first rotary rack at the end of the direction of the position of the front turning to support in the side of the first rotary rack toward the second rotary rack;And flake wood type roller in corresponding to the second turning on the other side of the frame length direction of the position of the front end of the rotation to support at the second turning on one side of the rack toward the first rotary frame;Flake wood input roller pressure corresponds to flake wood above length direction of the input roller and to match the flake wood type roller;Flake wood output roller in corresponding to the length of the first rotary rack at the end of the direction of rotation to the backend position bearing in the side of the first rotary rack toward the second rotary rack;And flake wood output roller in corresponding to the second turning on the other side of the frame after the length of the direction of the position rotation to support at the second turning on one side of the rack toward the first rotary frame;Flake wood output roller pressure corresponds to flake wood above the length direction of the output roller and to match the flake wood output roller;Flake wood output roller flake wood output pressure roller bearing in the first sheet at the end of the wood output pressure roller seat;The first flake wood output pressure roller bridge with the first axis guide rail sliding fit;And the first shaft seat slideway is fixed above the top of the first rotary rack;And is located in the first rotary frame length direction of the backend;Flake wood output roller flake wood on the other side of the output pressure roller bearing in the second sheet timber output pressure roller seat;The second sheet of wood output pressure roller bridge and the second axis guide rail sliding fit;And the second axis seat slideway is fixed in the above the top of the second rotary rack;And in the second rotary frame length direction of the backend;Among them: it is the length of the first rotary rack and in the second rotation direction of the front length direction of the front and in the position of the corresponding to each other each set have a flake wood used to make stated input roller moving in the described flake wood roller in the direction of the displacement or displacement in a direction deviating from flake wood type roller of flake wood type roller press agencies;Flake wood type roller rotation bearing on flake wood input roller pressure institutions;And with the level state corresponds to shape the top of the wood type roller;It is the first rotary rack set a power transmission mechanism;And it is mentioned in Taiwan panel support beam toward one end of the first rotary rack fixed a first support beam fixed seat;Described in panel support beam toward one end of the second rotary rack fixed a second supporting beam fixed seat;The first support beam fixed seat and a second supporting beam fixed position on a panel support beam in Taiwan is located in Taiwan flake wood panel support beam toward stated on one side of the input roller;And between the first and second supporting beam fixed block set one used to prevent into flake wood conveyor table on the front panel flake wood flake wood against the run of partial body;The flake wood running deviation prevention institutions and flake wood conveyor corresponding the top of the panel, as described in the power transmission mechanism with the described flake wood type roller and flake wood output roller transmission connection; described sheet timber input pressure roller is rubber rollers, and the length direction at this sheet timber input pressure roller forms and has the surperficial sheet timber input pressure roller groove that is depressed in sheet timber input pressure roller with interval state, this sheet timber input pressure roller groove is the annular recess structure of the circumferencial direction that runs through sheet timber input pressure roller, described sheet timber output press roll is similarly rubber rollers, and the length direction at this sheet timber output press roll forms and has the surperficial sheet timber output press roll groove that is depressed in sheet timber output press roll with interval state, this sheet timber output press roll groove is the annular recess structure of the circumferencial direction that runs through sheet timber output press roll.

In a specific embodiment of the present invention, described frame also includes a hanging beam, the middle position at the top of one end of this hanging beam and described the first wallboard is fixed, and the middle position at the top of the other end of hanging beam and described the second wallboard is fixed, this hanging beam towards on a side form and have a hanger.

In another specific embodiment of the present invention, first, second described reversing frame drives acting cylinder and described panoramic table lift action cylinder to be cylinder or oil cylinder.

In another specific embodiment of the present invention, be fixed with a signal picker contact at described the second reversing frame back to a side of described the first reversing frame and the position that is positioned at the rear end of the length direction of the second reversing frame, on the described panoramic table elevating chain of another panoramic table elevating mechanism in described a pair of panoramic table elevating mechanism, be fixed with a signal picker installing rack, top, middle part and bottom in this signal picker installing rack short transverse are respectively provided with a signal picker, and this signal picker matches with described signal picker contact.

In another specific embodiment of the present invention, described signal picker is optoelectronic switch, microswitch, travel switch, position approach switch, tongue tube or hall sensing element.

Also have in a specific embodiment of the present invention, described swinging layering slab feeding mechanism also includes a pressing plate frame sprocket shaft, this pressing plate frame sprocket shaft is bearing in the top of the first reversing frame rotationally in the middle position corresponding to the first reversing frame length direction towards one end of described the first reversing frame, and this pressing plate frame sprocket shaft is bearing in the top of the second reversing frame rotationally in the middle position of the length direction corresponding to the second reversing frame towards one end of described the second reversing frame, and be set with a wallette plate stay pipe at the middle part of pressing plate frame sprocket shaft, the structure that is arranged on the described sheet timber input pressure roller pressure-raising mechanism of the front end of the length direction of the second reversing frame is identical with the structure of sheet timber input pressure roller pressure-raising mechanism of front end of length direction that is arranged on described the first reversing frame and position is mutually corresponding, and this sheet timber input pressure roller pressure-raising mechanism that is arranged on the front end of the first reversing frame comprises pressure-raising acting cylinder support, little wallboard, adjust screw rod, pressure-raising acting cylinder and spring, the lower end of pressure-raising acting cylinder support is fixed on the top of the front end of the length direction of described the first reversing frame, the upper end of pressure-raising acting cylinder support forms a horizontal arm, make the shape of pressure-raising acting cylinder support be configured to the structure of font by this horizontal arm, the upper end of adjusting screw rod is connected on described horizontal arm, and lower end is configured to vertical cantilever end, pressure-raising acting cylinder be fixed on adjust the lower end of screw rod and the pressure-raising acting cylinder post of this pressure-raising acting cylinder towards under, spring is nested with to be adjusted on screw rod, the upper end of this spring is bearing in the side of horizontal arm towards pressure-raising acting cylinder, and the lower end of spring is bearing on the cylinder body of pressure-raising acting cylinder, little wallboard is fixed towards one end of described wallette plate stay pipe and the end face of described wallette plate stay pipe, and little wallboard is connected with pressure-raising acting cylinder post towards one end of described sheet timber input pressure roller, and offer a sheet timber input pressure roller shaft slot to make way, described sheet timber input pressure roller has a sheet timber input pressure roller shaft, this sheet timber input pressure roller shaft is bearing on little wallboard rotationally by input pressure roller axle bed, and match with described sheet timber input pressure roller shaft slot to make way after leaning out input pressure roller axle bed, wherein: sheet timber input pressure roller shaft is towards one end of described the first reversing frame is stretched over little wallboard outside and form and have a transmission mechanism connection spindle nose, the described power drive mechanism being in transmission connection with described sheet timber input roller and sheet timber output shaft is connected with this transmission mechanism that spindle nose is in transmission connection and is in transmission connection with described pressing plate frame sprocket shaft.

More of the present invention and in a specific embodiment, described power drive mechanism comprises motor, motor shaft sprocket wheel, input roller sprocket wheel, outlet roller sprocket wheel, pressing plate frame sprocket shaft duplex chain wheel, input pressure roller shaft sprocket wheel, the first tensioner sprocket wheel, the second tensioner sprocket wheel, the 3rd tensioner sprocket wheel, the first driving chain and the second driving chain, motor is fixed on motor cabinet, motor cabinet is fixed on the bottom of described the first reversing frame, motor shaft sprocket wheel is fixed on the motor shaft of motor, input roller sprocket wheel is fixed on the sheet timber input roll shaft of described sheet timber input roller, outlet roller sprocket wheel is fixed on the sheet timber output roll shaft of described sheet timber outlet roller, pressing plate frame sprocket shaft duplex chain wheel is fixed on described pressing plate frame sprocket shaft, input pressure roller shaft sprocket wheel is fixed on described transmission mechanism and connects on spindle nose, be arranged on the first tensioner sprocket shaft to the first tensioner sprocket rotation, and this first tensioner sprocket shaft is fixed on the first tensioner sprocket shaft holder, the first tensioner sprocket shaft holder is fixed on the top of described the first reversing frame, be arranged on the second tensioner sprocket shaft to the second tensioner sprocket rotation, the second tensioner sprocket shaft is fixed on the second tensioner sprocket wheel axle bed, and this second tensioner sprocket wheel axle bed is fixed on the side of described little wallboard towards the first reversing frame, the 3rd tensioner sprocket wheel is arranged on depression bar rotationally by the 3rd tensioner sprocket shaft, and be positioned at the middle part of depression bar, and one end of this depression bar is connected with one end of an extension spring, the other end of extension spring and described motor cabinet are fixed, the other end of depression bar is hinged on depression bar seat, and depression bar seat is fixed on the bottom of the front end of the first reversing frame, the first driving chain is nested with at motor shaft sprocket wheel, input roller sprocket wheel, on outlet roller sprocket wheel and the first tensioner sprocket wheel, one of them sprocket wheel in pressing plate frame sprocket shaft duplex chain wheel and the first driving chain connect, the 3rd tensioner sprocket wheel and the first driving chain connect, one end of the second driving chain is nested with on another sprocket wheel in pressing plate frame sprocket shaft duplex chain wheel, the other end is nested with on described input pressure roller shaft sprocket wheel, the second tensioner sprocket wheel and the second driving chain connect.

In of the present invention and then a specific embodiment, described frame also includes a cylinder, this cylinder is fixed towards one end and first wallboard of described the first wallboard, and fix towards one end and second wallboard of described the second wallboard, respectively be provided with the intake interface and communicating with the gas storage tube chamber of the cylinder interface of giving vent to anger towards one end of the first wallboard and towards one end of the second wallboard at cylinder, first, a the second wallboard each other opposing side is respectively provided with a distributor, described intake interface is connected with aerogenesis apparatus by pipeline, and the described interface of giving vent to anger is connected with described distributor pipeline, on described cylinder and the bottom that is positioned at cylinder be equipped with a blowoff valve communicating with described gas storage tube chamber.

Of the present invention again more and in a specific embodiment, described sheet timber running deviation preventing mechanism comprises the first baffle tube support, second baffle pipe holder, baffle tube, the first baffle tube acting cylinder and second baffle pipe acting cylinder, the lower end of the first baffle tube support and described the first backbar holder are fixed, the lower end of second baffle pipe holder and described the second backbar holder are fixed, on the end face of one end of the first baffle tube support, be extended with one first baffle tube spindle nose at baffle tube, this the first baffle tube spindle nose is bearing on the first baffle tube spindle nose supporting base rotationally, and this first baffle tube spindle nose supporting base is fixed on the side of the first baffle tube support towards second baffle pipe holder, on the end face of one end of second baffle pipe holder, be extended with a second baffle tubular axis head at baffle tube, this second baffle tubular axis head is bearing on second baffle tubular axis head supporting base rotationally, and this second baffle tubular axis head supporting base is fixed on the side of the second gear pipe holder towards the first baffle tube support, the first baffle tube acting cylinder is connected with the upper end of the first baffle tube support by the first adjusting screw(rod), the first baffle tube acting cylinder post of this first baffle tube acting cylinder is towards lower and be connected towards one end of the first baffle tube support with baffle tube, second baffle pipe acting cylinder is connected with the upper end of second baffle pipe holder by the second adjusting screw(rod), the second baffle pipe acting cylinder post of this second baffle pipe acting cylinder is towards lower and be connected towards one end of second baffle pipe holder with baffle tube.

In again of the present invention and then a specific embodiment, form and have a baffle tube towing plate at the rear side of the length direction of described baffle tube, lean out the bottom surface of baffle tube and be configured to a sheet timber gear mouthful by the bottom of the length direction of baffle tube towing plate, the end of the end of described the first baffle tube acting cylinder post and described second baffle pipe acting cylinder post is all connected with described baffle tube towing plate.

Technical scheme provided by the invention drive the effect of acting cylinder and a pair of panoramic table elevating mechanism by first, second reversing frame and can make and swinging layering slab feeding mechanism that first, second reversing frame central shaft pivotable coordinates upper, swing between three stations under neutralizing, feed to sheet timber is scooped out to device in the evolution mode of upper, middle and lower to the timber that is arranged on drying room porch, scoop out device by each drying tunnel of sheet timber introducing drying room by timber; Owing to scooping out device and only sheet timber need be caused to swinging layering slab feeding mechanism without sheet timber being supplied with to timber in the mode of lifting by workman, thereby can significantly alleviate workman's operation intensity; Send plate efficiency because swinging layering slab feeding mechanism has higher automation, thereby can reduce the quantity of human input and use and save valuable human resources; Due in sheet timber input, go out to form respectively on pressure roller and have the input of sheet timber, go out pressure roller groove, thereby both can guarantee the friction effect between sheet timber, can reduce again the row of sheet timber to move resistance.

Brief description of the drawings

Fig. 1 is embodiments of the invention schematic diagram.

Fig. 2 is the detailed structure view of the frame shown in Fig. 1.

Fig. 3 is the detailed structure view of the swinging layering slab feeding mechanism shown in Fig. 1.

Detailed description of the invention

For the auditor that the makes Patent Office especially public can be well understood to technical spirit of the present invention and beneficial effect more, applicant elaborates the mode with embodiment below, but be not all the restriction to the present invention program to the description of embodiment, any done according to the present invention design only for pro forma but not substantial equivalent transformation all should be considered as technical scheme category of the present invention.

The concept of every directionality that relates to upper and lower, left and right, front and rear (or claiming directionality) is all for the residing location status of figure being described in the following description, object is to facilitate public understanding, thereby can not be understood as being particularly limited technical scheme provided by the invention.

Refer to Fig. 1 and Fig. 2, show a frame 1, this frame 1 comprises the first wallboard 11, the second wallboard 12, panoramic table elevating mechanism connecting axle 13 and bottom girder 14, first, the second wallboard 11, 12 are all the structure of cuboid, and be arranged at the state facing each other on the terrace of field of employment, be fixed with one first reversing frame central shaft 111 at the first wallboard 11 towards a side of the second wallboard 12, at the second wallboard 12 towards a side of the first wallboard 11 and be fixed with one second reversing frame central shaft 121 corresponding to the position of the first reversing frame central shaft 111, one end of panoramic table elevating mechanism connecting axle 13 is bearing in the top of the first wallboard 11 towards a side of the second wallboard 12 rotationally, and the other end of panoramic table elevating mechanism connecting axle 13 is bearing in the top of the second wallboard 12 towards a side of the first wallboard 11 rotationally. as preferred scheme, can on panoramic table elevating mechanism connecting axle 13, empty set one connect central siphon 131. the shape of cross section of bottom girder 14 is U font, that is to say and adopt U-lag steel to make bottom girder 14, one end of this bottom girder 14 is fixed and is provided with in this one end one first reversing frame towards one end of the first wallboard 11 and the first wallboard 11 and drive acting cylinder 141 towards the bottom of a side of the second wallboard 12, the other end of bottom girder 14 towards one end of the second wallboard 12 with the second wallboard 12 is fixed towards the bottom of a side of the first wallboard 11 and be provided with one second reversing frame driving acting cylinder 142 at this other end. as shown in Figure 2, adopt welding manner to be fixed with a pair of the first wallboard fixed base plate 113 in the bottom of aforementioned the first wallboard 11, and adopt equally welding manner to be fixed with a pair of the second wallboard fixed base plate 122 in the bottom of the second wallboard 12, first, second wallboard fixed base plate 113,122 and the pedestal being embedded in advance on terrace are fixed, fixed form can be welding, also can adopt securing member to fix as bolt. in the time using securing member to adopt bolt to fix, on first, second wallboard fixed base plate 113,122, respectively offer bolt hole so. from the location status of Fig. 2, aforesaid bottom girder 14 is positioned at the front side of frame 1, more particularly, this bottom girder 14 is fixed in the position of the bottom of the front side corresponding to first, second wallboard 11,12 and a side in opposite directions of first, second wallboard 11,12, makes first, second wallboard 11,12 connected to each other as a whole by bottom girder 14. the position of feeding sheet timber to the swinging layering slab feeding mechanism 3 that also will describe in detail below due to workman under use state is the position in bottom girder 14, the position of sheet material introducing port 18, also in first, the second wallboard 11, front side between 12, thereby in order to ensure safety, on bottom girder 14, arrange (being fixed with) guard rail 143, and in order to make first, the second wallboard 11, 12 have excellent integration connects effect, frame 1 is increased to a central sill 17, this central sill 17 is corresponding to the top of bottom girder 14, and this central sill 17 is fixing towards one end and first wallboard 11 of the first wallboard 11, and it is fixing towards one end and second wallboard 12 of the second wallboard 12, aforesaid guard rail 143(also can claim guard boom) simultaneously fixing with central sill 17.

Provide a pair of panoramic table elevating mechanism 2 corresponding to each other, this is arranged on aforementioned the first wallboard 11 to one of them the panoramic table elevating mechanism in panoramic table elevating mechanism 2 and is connected towards the bottom of a side of the second wallboard 12 and with one end of aforementioned panoramic table elevating mechanism connecting axle 13, is connected towards the bottom of a side of the first wallboard 11 and with the other end of panoramic table elevating mechanism connecting axle 13 and another panoramic table elevating mechanism in a pair of panoramic table elevating mechanism 2 is arranged on the second wallboard 12.

The swinging layering slab feeding mechanism 3 of having mentioned is above bearing between aforesaid first, second reversing frame central shaft 111,121 rotationally, and drives acting cylinder 141 and the second reversing frame to drive acting cylinder 142 to be connected with aforesaid a pair of panoramic table elevating mechanism 2, the first reversing frame simultaneously.

As preferred scheme, aforesaid frame 1 also includes a hanging beam 15, taking the location status shown in Fig. 2 as example, one end of this hanging beam 15 is fixed towards one end of the first wallboard 11 (left end) and the middle position at the top of the first wallboard 11, and the other end of hanging beam 15 is fixed towards the middle position at the top of one end of the second wallboard 12 (right-hand member) and the second wallboard 12, this hanging beam 15 towards on a side form and have hanger 151. As shown in Figure 2, be welded with one first hanging beam fixed head 152 towards one end of the first wallboard 11 at hanging beam 15, and hanging beam 15 is welded with one second hanging beam fixed head 153 towards one end of the second wallboard 12, the first hanging beam fixed head 152 is fixed by the footstock of the first hanging beam fixed head screw 1521 and the first wallboard 11, and the second hanging beam fixed head 153 is fixed by the top of the second hanging beam fixed head screw 1531 and the second wallboard 11. Aforesaid hanger 151 can be both one, also can be two, in the time that hanger 151 is one, this hanger 151 is positioned at the middle position of the length direction of hanging beam 15, in the time that hanger 151 is two, lay respectively at one end and the other end (left end and right-hand member) of hanging beam 15.

Aforesaid the first reversing frame drive acting cylinder 141 in the position of one end of aforementioned bottom girder 14 corresponding to the first wallboard 11 side towards the second wallboard 12, and aforesaid the second reversing frame drive acting cylinder 142 in the position of the other end of aforementioned bottom girder 14 corresponding to the second wallboard 12 side towards the first wallboard 11, and this is first years old, the second reversing frame drives acting cylinder 141, 142 all with heeling condition setting, the first reversing frame drives the first reversing frame of acting cylinder 141 to drive acting cylinder post 1411 towards aforesaid swinging layering slab feeding mechanism 3, the second reversing frame drives the second reversing frame of acting cylinder 142 to drive acting cylinder post 1421 equally towards swinging layering slab feeding mechanism 3, and the first reversing frame drives acting cylinder 141 and the second reversing frame to drive acting cylinder 142 corresponding with the position of a pair of panoramic table elevating mechanism 2 respectively, aforesaid the first reversing frame central shaft 111 and the second reversing frame central shaft 121 are all the level of state fixing. as shown in Figure 2, the first reversing frame drives acting cylinder 141 to be connected with bottom girder 14 by the first acting cylinder seat 1412, and the second reversing frame drives acting cylinder 142 to be connected with bottom girder 14 by the second acting cylinder seat 1422.

Aforesaid a pair of panoramic table elevating mechanism 2 respectively comprises panoramic table lift action cylinder 21, panoramic table elevating chain 22 and panoramic table lifting sprocket wheel 23, panoramic table lift action cylinder 21 is fixed on aforementioned first, the second wallboard 11, a side in opposite directions of 12, and the panoramic table lift action cylinder post 211 of this panoramic table lift action cylinder 21 is towards upper, panoramic table lifting sprocket wheel 23 is fixed on panoramic table elevating mechanism connecting axle 13, the end of one end of panoramic table elevating chain 22 and panoramic table lift action cylinder post 211 is fixed, middle part is nested with on panoramic table lifting sprocket wheel 23, and the other end of panoramic table elevating chain 22 is fixed with single-revolution platform attachment screw 221, aforesaid swinging layering slab feeding mechanism 3 is simultaneously with aforesaid first, the second reversing frame drives acting cylinder post 1411, 1421 and panoramic table attachment screw 221 connect, aforesaid the first reversing frame central shaft 111 and the second reversing frame central shaft 121 are the semi-axis structure of horizontal boom state. applicant it should be noted that: because the structure of a pair of panoramic table elevating mechanism 2 is identical, thereby in Fig. 2, only show the panoramic table elevating mechanism 2 arranging taking the second wallboard 2 as carrier, and so: there is shown and be fixed on the panoramic table lift action cylinder 21 of the second wallboard 12 towards the first wallboard 11 1 sides.

In the present embodiment, aforesaid first, second reversing frame drives acting cylinder 141,142 and panoramic table lift action cylinder 21 to be cylinder, but, if use oil cylinder instead, should be considered as equivalent substitution so and still belong to technology contents category disclosed by the invention.

Please see Fig. 3 and continue in conjunction with Fig. 1 and Fig. 2 by emphasis, above mentioned swinging layering slab feeding mechanism 3 comprises first, the second reversing frame 31, 32, sheet timber transport platform panel 33, sheet timber input roller 34, sheet timber input pressure roller 35, sheet timber outlet roller 36 and sheet timber output press roll 37, first, the second reversing frame 31, 32 each other with aspectant state setting, be fixed with one first reversing frame center axle bed 311 and one first reversing frame attachment screw seat 312 at the first reversing frame 31 back to a side of the second reversing frame 32, and be fixed with one first reversing frame in the bottom of the first reversing frame 31 and drive acting cylinder post engaging lug 313, the position of the first reversing frame center axle bed 311 is corresponding with aforementioned the first reversing frame central shaft 111 and coordinate with the first reversing frame central shaft 111 pivotables, the first reversing frame attachment screw seat 312 is fixedly connected with the panoramic table attachment screw 221 of the other end of the panoramic table elevating chain 221 of one of them the panoramic table elevating mechanism in aforesaid a pair of panoramic table elevating mechanism 2, the first reversing frame drives acting cylinder post engaging lug 313 and aforesaid the first reversing frame to drive the end of acting cylinder post 1411 hinged, be fixed with one second reversing frame center axle bed 321 and one second reversing frame attachment screw seat 322 at the second reversing frame 32 back to a side of the first reversing frame 31, and be fixed with one second reversing frame in the bottom of the second reversing frame 32 and drive acting cylinder post engaging lug 323, the position of the second reversing frame center axle bed 321 is corresponding with aforementioned the second reversing frame central shaft 121 and coordinate with the second reversing frame central shaft 121 pivotables, the second reversing frame attachment screw seat 322 is fixedly connected with the panoramic table attachment screw 221 of the other end of the panoramic table elevating chain 22 of another panoramic table elevating mechanism in aforesaid a pair of panoramic table elevating mechanism 2, the second reversing frame drives acting cylinder post engaging lug 323 and aforesaid the second reversing frame to drive the end of acting cylinder post 1421 hinged, sheet timber transport platform panel 33 is fixed on deck plate backbar 321 towards a upper side, this deck plate backbar 331 is fixing towards one end and first reversing frame 31 of the first reversing frame 31, and deck plate backbar 331 is fixing towards one end and second reversing frame 32 of the second reversing frame 32, one end of sheet timber input roller 34 is bearing in the side of the first reversing frame 31 towards the second reversing frame 32 rotationally in the position of the front end of the length direction corresponding to the first reversing frame 31, and the other end of sheet timber input roller 34 is bearing in the side of the second reversing frame 32 towards the first reversing frame 31 rotationally in the position of the front end of the length direction corresponding to the second reversing frame 32, sheet timber input pressure roller 35 matches corresponding to the top of the length direction of sheet timber input roller 34 and with sheet timber input roller 34, one end of sheet timber outlet roller 36 is bearing in the side of the first reversing frame 31 towards the second reversing frame 32 rotationally in the position of the rear end of the length direction corresponding to the first reversing frame 31, and the other end of sheet timber input roller 36 is bearing in the side of the second reversing frame 32 towards the first reversing frame 31 rotationally in the position of the rear end of the length direction corresponding to the second reversing frame 32, sheet timber output press roll 37 matches corresponding to the top of the length direction of sheet timber outlet roller 36 and with sheet timber outlet roller 36, one end of the sheet timber output press roll axle 371 of sheet timber output press roll 37 is bearing on the first sheet timber output press roll axle bed 3711, this the first sheet timber output press roll axle bed 3711 and the first axle bed guide rail 37111 are slidably matched, and this first axle bed guide rail 37111 is fixed on the top of aforementioned the first reversing frame 31, and be positioned at the rear end of the length direction of the first reversing frame 31, the other end of the sheet timber output press roll axle 371 of sheet timber output press roll 37 is bearing on the second sheet timber output press roll axle bed 3712, this the second sheet timber output press roll axle bed 3712 and the second axle bed guide rail 37121 are slidably matched, and this second axle bed guide rail 37121 is fixed on the top of aforementioned the second reversing frame 32, and be positioned at the rear end of the length direction of the second reversing frame 32. wherein: the front end of the length direction of aforesaid the first reversing frame 31 and the front end of the length direction of the second reversing frame 32 and be respectively provided with in position to correspond to each other one for make sheet timber input pressure roller 35 towards sheet timber input roller 34 direction displacement (to bottom offset) or towards the sheet timber input pressure roller pressure-raising mechanism 4 of direction displacement (to top offset) that deviates from sheet timber input roller 34. on aforesaid the first reversing frame 31, be provided with a power drive mechanism 5, and be fixed with one first backbar holder 3311 towards one end of the first reversing frame 31 at aforesaid deck plate backbar 331, and be fixed with one second backbar holder 3312 towards one end of the second reversing frame 32 at deck plate backbar 331, the first backbar holder 3311 and the second position of backbar holder 3312 on deck plate backbar 331 are positioned at the side of deck plate backbar 331 towards sheet timber input roller 34, and first, the second backbar holder 3311, between 3312, be provided with one for preventing from entering into the capable sheet timber running deviation preventing mechanism 6 of (sideslip) partially of sheet timber on sheet timber transport platform panel 33, this sheet timber running deviation preventing mechanism 6 is corresponding with the top of sheet timber transport platform panel 33, aforesaid power drive mechanism 5 is in transmission connection with sheet timber input roller 34 and sheet timber outlet roller 36.

One of them technical essential as technical scheme provided by the invention: aforesaid sheet timber input pressure roller 35 is rubber rollers, and the length direction at this sheet timber input pressure roller 35 forms and has the surperficial sheet timber input pressure roller groove 352 that is depressed in sheet timber input pressure roller 35 with interval state, this sheet timber input pressure roller groove 352 is the annular recess structure of the circumferencial direction that runs through sheet timber input pressure roller 35, aforesaid sheet timber output press roll 37 is similarly rubber rollers, and the length direction at this sheet timber output press roll 37 forms and has the surperficial sheet timber output press roll groove 372 that is depressed in sheet timber output press roll 37 with interval state, this sheet timber output press roll groove 372 is the annular recess structure of the circumferencial direction that runs through sheet timber output press roll 37.

Applicant it should be noted that: if input the surface of pressure roller 35 and all form the floating-point columnar structure with dense distribution on the surface of sheet timber output pressure roller 37 at sheet timber, and do not use the input of sheet timber, go out pressure roller groove 352,372, should be considered as so not departing from technology contents category disclosed by the invention.

In Fig. 3, the one end (towards one end of the first reversing frame 31) that shows the sheet timber input roll shaft 341 of sheet timber input roller 34 is bearing on the first input roller axle bed 3411 rotationally, and this first input roller axle bed 3411 is screwed at the first reversing frame 31 towards a side of the second reversing frame 32 and is positioned at the front end of the first reversing frame 31; The other end (towards one end of the second reversing frame 32) of the sheet timber input roll shaft 341 of sheet timber input roller 34 is bearing on the second input roller axle bed 3412 rotationally, and this second input roller axle bed 3412 is screwed the side towards the first reversing frame 31 at the second reversing frame 32, and be positioned at the front end of the second reversing frame 32. The sheet timber output roll shaft 361 of aforesaid sheet timber outlet roller 36 is bearing on the first outlet roller axle bed 3611 rotationally towards one end of the first reversing frame 31, and this first outlet roller axle bed 3611 is screwed at the first reversing frame 31 towards a side of the second reversing frame 32 and is positioned at the rear end of the first reversing frame 31; The sheet timber output roll shaft 361 of sheet timber outlet roller 36 is bearing on the second outlet roller axle bed 3612 rotationally towards one end of the second reversing frame 32, and this second outlet roller axle bed 3612 is screwed at the second reversing frame 32 towards a side of the first reversing frame 31 and is positioned at the rear end of the second reversing frame 32. Certainly, the position that roller 34,36 was inputted, gone out to sheet timber corresponds to each other, more particularly, sheet timber input roller 34 is corresponding to the front side of the length direction of aforementioned sheet timber transport platform panel 33, and sheet timber outlet roller 36 is corresponding to the rear side of the length direction of sheet timber transport platform panel 33. Same reason, the position that pressure roller 35,37 was inputted, gone out to aforesaid sheet timber is mutually corresponding. Aforesaid the first reversing frame center axle bed 311 is fixed on the front end of the first reversing frame 31, and the first reversing frame attachment screw seat 312 is fixed on the rear end of the first reversing frame 31; Aforesaid the second reversing frame center axle bed 321 is fixed on the front end of the second reversing frame 32, and the second reversing frame attachment screw seat 322 is fixed on the rear end of the second reversing frame 32. The position of first, second reversing frame center axle bed 311,321 corresponds to each other, and the position of first, second reversing frame attachment screw seat 312,322 is mutually corresponding.

Please continue to refer to Fig. 3, be fixed with a signal picker contact 324 at aforesaid the second reversing frame 32 back to a side (being the left side of location status shown in Fig. 3) of described the first reversing frame 31 and the position that is positioned at the rear end of the length direction of the second reversing frame 32, this signal picker contact 324 also can be called signal picker head response (as follows). As shown in Figure 2, on the panoramic table elevating chain 22 of another (be right side one) the panoramic table elevating mechanism in aforesaid a pair of panoramic table elevating mechanism 2, be fixed with a signal picker installing rack 222, respectively be provided with a signal picker 2221 in top, middle part and the bottom of the short transverse of this signal picker installing rack 222, this signal picker 2221 matches with aforesaid signal picker contact 324. In the present embodiment, signal picker adopts photoelectric sensor, but also can use microswitch, travel switch, position approach switch, tongue tube or hall sensing element.

When first, the second reversing frame drives acting cylinder 141, 142 and the panoramic table lift action cylinder 21 of a pair of panoramic table elevating mechanism 2 while working, for example the first reversing frame drives the first reversing frame of acting cylinder 141 to drive acting cylinder post 1411 and the second reversing frame to drive the second reversing frame of acting cylinder 142 to drive acting cylinder post 1421 to stretch out outside cylinder body, the panoramic table lift action cylinder post 211 of panoramic table lift action cylinder 21 is to cylinder body intrinsic displacement simultaneously, so, because driving acting cylinder post engaging lug 313 and the first reversing frame, the first reversing frame of the first reversing frame 31 drive the end of acting cylinder post 1411 hinged, the second reversing frame of the second reversing frame 32 drives acting cylinder post engaging lug 323 and the second reversing frame to drive the end of acting cylinder post 1421 hinged, the first reversing frame attachment screw seat 312 of the first reversing frame 31 is connected with the panoramic table attachment screw 221 of the panoramic table elevating chain 22 of one of them the panoramic table elevating mechanism in a pair of panoramic table elevating mechanism 2 and the second reversing frame attachment screw seat 322 of the second reversing frame 32 is connected with the panoramic table attachment screw 221 of the panoramic table elevating chain 22 of another panoramic table elevating mechanism in a pair of panoramic table elevating mechanism 2, thereby by first, the second reversing frame drives acting cylinder post 1411, 1421 simultaneously by aforesaid first, the second reversing frame 31, 32 upwards pass, simultaneously driving panoramic table elevating chain 22 to move to panoramic table lift action cylinder post 211 during to cylinder body intrinsic displacement, by being fixed on panoramic table attachment screw 221 on panoramic table elevating chain 22 by first, the second reversing frame 31, 32 upwards promote, until of the top in tri-signal pickers 2221 of aforesaid signal picker 1221() when corresponding with signal picker contact 324, by signal picker 2221 by signal feedback to electric control box 112, send instruction and make first by electric control box 112, the second reversing frame drives acting cylinder 141, 142 and the panoramic table lift action cylinder 21 of a pair of panoramic table elevating mechanism 2 quit work. sheet timber transport platform panel 33 now just scoops out device 8(Fig. 1 corresponding to timber and shows) bottom passage 81, that is to say that the space between sheet timber output press roll 37 and sheet timber outlet roller 36 is sheet material outlet 19(Fig. 1 mark) corresponding to bottom passage 81, then make sheet timber input roller 34 by the work of the power drive mechanism 5 that also will describe in detail below, sheet timber outlet roller 36, the pressing plate frame sprocket shaft 38 that also will illustrate below and sheet timber input pressure roller 35 move, making to be fed into sheet timber by workman carries the sheet timber on platen 33 to move towards sheet timber output press roll 37 and the direction row of sheet timber outlet roller 36 between sheet timber input pressure roller 35 and sheet timber input roller 34, until enter the wooden bottom passage 81 that just scoops out device 8 from aforesaid sheet material outlet 19, send into drying room bottom drying tunnel by the bottom passage convoying curtain on bottom passage 81. then, aforesaid first, second reversing frame drives panoramic table lift action cylinder 21 task again of acting cylinder 141,142 and a pair of panoramic table elevating mechanism 2, mode as hereinbefore and until make a signal picker 2221 of the centre on signal picker installing rack 222 corresponding with signal picker contact 324, sheet material outlet 19 now scoops out the middle level passage 82 of device 8 corresponding to timber, in current state as shown in Figure 1, by above-mentioned identical explanation until sheet timber enters the intermediate layer drying tunnel of drying room. follow again, aforesaid first, second reversing frame drives panoramic table lift action cylinder 21 task again of acting cylinder 141,142 and a pair of panoramic table elevating mechanism 2, mode as hereinbefore and until make a signal picker 2221 of the bottom on signal picker installing rack 222 corresponding with signal picker contact 324, the outlet 19 of sheet material now scoops out the upper strata passage 83 of device 8 corresponding to timber, by the superincumbent identical explanation of applicant until make sheet timber enter the top layer drying tunnel of drying room. then, first, second reversing frame drives panoramic table lift action cylinder 21 reverse operations of acting cylinder 141,142 and a pair of panoramic table elevating mechanism 2, sheet timber transport platform panel 33 is back to low level by a first aforesaid high position, namely make sheet material outlet 19 from dropping to the state corresponding to bottom passage 81 corresponding to upper strata passage 83, so again and again the sheet timber that awaits drying (baking) is sent in an alternating manner to bottom drying tunnel, intermediate layer drying tunnel and the top layer drying tunnel of drying room.

Above mentioned sheet timber output press roll 37 is not in transmission connection with the power drive mechanism 5 that will illustrate below, but matches with sheet timber outlet roller 36 with its deadweight. The specification of sheet timber is as width 122 ㎝ and length be 244 ㎝ and thickness is the sheet material of 0.15-1 ㎝, and particularly, sheet timber is the specification that decoration field, furniture are manufactured the being seen three-ply board in field, five-layer plywood and so on, but is not limited to this specification.

Please see Fig. 3 by emphasis, aforesaid swinging layering slab feeding mechanism 3 also includes a pressing plate frame sprocket shaft 38, this pressing plate frame sprocket shaft 38 is being bearing in corresponding to the middle position of the first reversing frame 31 length directions on the first pressing plate frame sprocket wheel axle bed 382 rotationally towards one end of aforementioned the first reversing frame 31, this the first pressing plate frame sprocket wheel axle bed 382 is fixed on the top of the middle position of the length direction of the first reversing frame 31, pressing chain wheel shaft 38 is bearing on the second pressing plate frame sprocket wheel axle bed 383 in the middle position of the length direction corresponding to the second reversing frame 32 rotationally towards one end of the second reversing frame 32, this the second pressing plate frame sprocket wheel axle bed 383 is fixed on the top of the middle position of the length direction of the second reversing frame 32, be set with a wallette plate stay pipe 381(at the middle part of pressing plate frame sprocket shaft 38 and also can claim wallette plate tube connector). mention above, the structure that is arranged on the aforementioned sheet timber input pressure roller pressure-raising mechanism 4 of the front end of the length direction of the second reversing frame 32 is identical with the structure of sheet timber input pressure roller pressure-raising mechanism 4 of front end of length direction that is arranged on aforementioned the first reversing frame 31 and position is mutually corresponding, and this sheet timber input pressure roller pressure-raising mechanism 4 that is arranged on the front end of the first reversing frame 31 comprises pressure-raising acting cylinder support 41, wallette plate 42, adjust screw rod 43, pressure-raising acting cylinder 44 and spring 45, the lower end of pressure-raising acting cylinder support 41 is fixed on the top of the front end of the length direction of the first reversing frame 31 with support hold-down screw 412, the upper end of pressure-raising acting cylinder support 41 forms a horizontal arm 411, make the shape of pressure-raising acting cylinder support 41 be configured to the structure of 7 fonts of Arabic numerals by this horizontal arm 411, the upper end of adjusting screw rod 43 is connected on horizontal arm 411 by adjusting bolt and nut 431, and lower end is configured to vertical cantilever end, pressure-raising acting cylinder 44 be fixed on adjust the lower end of screw rod 43 and the pressure-raising acting cylinder post 441 of this pressure-raising acting cylinder 44 towards under, spring 45 is nested with to be adjusted on screw rod 43, the upper end of this spring 45 is bearing in the side of horizontal arm 411 towards pressure-raising acting cylinder 44, and the lower end of spring 45 is bearing on the cylinder body of pressure-raising acting cylinder 44, wallette plate 42 is fixed towards one end of aforementioned wallette plate stay pipe 381 and the end face of wallette plate stay pipe 381, and wallette plate 42 is connected with pressure-raising acting cylinder post 441 towards one end of sheet timber input pressure roller 35, and offer a sheet timber input pressure roller shaft slot to make way 421, aforementioned sheet timber input pressure roller 35 has a sheet timber input pressure roller shaft 351, this sheet timber input pressure roller shaft 351 is bearing on wallette plate 42 rotationally by input pressure roller axle bed 3511, and match with aforementioned sheet timber input pressure roller shaft slot to make way 421 after leaning out input pressure roller axle bed 3511. wherein: sheet timber input pressure roller shaft 351 is towards one end of the first reversing frame 31 is stretched over wallette plate 42 outside and form and have a transmission mechanism connection spindle nose 3512, the described power drive mechanism 5 being in transmission connection with aforementioned sheet timber input roller 34 and sheet timber output shaft 36 is connected with this transmission mechanism that spindle nose 3512 is in transmission connection and is in transmission connection with described pressing plate frame sprocket shaft 38.

Because aforesaid sheet timber input roller pressure-raising mechanism 4 has a pair of, therefore aforesaid wallette plate 42 has and is correspond to each other a pair of, other parts are with example, the each formation in two ends of aforesaid wallette plate stay pipe 381 has a flange 3811, wallette plate 42 to adopt wallette plate hold-down screw 422 fixing with flange 3811.

The power drive mechanism 5 of repeatedly mentioning above preferably but not the structure being definitely limited to is as follows: comprise motor 51, motor shaft sprocket wheel 52a, input roller sprocket wheel 52b, outlet roller sprocket wheel 52c, pressing plate frame sprocket shaft duplex chain wheel 52d, input pressure roller shaft sprocket wheel 52e, the first tensioner sprocket wheel 53, the second tensioner sprocket wheel 54, the 3rd tensioner sprocket wheel 55, the first driving chain 56 and the second driving chain 57, motor 51 is fixed on motor cabinet 512, motor cabinet 512 is fixed on the bottom of aforementioned the first reversing frame 31, motor shaft sprocket wheel 52a is fixed on the motor shaft 511 of motor 51, input roller sprocket wheel 52b is fixed on the sheet timber input roll shaft 341 of aforementioned sheet timber input roller 34, outlet roller sprocket wheel 52c is fixed on the sheet timber output roll shaft 361 of aforementioned sheet timber outlet roller 36, pressing plate frame sprocket shaft duplex chain wheel 52d is fixed on aforementioned platens frame sprocket shaft 38. input pressure roller shaft sprocket wheel 52e is fixed on aforementioned transmission mechanism and connects on spindle nose 3512, the first tensioner sprocket wheel 53 is arranged on the first tensioner sprocket shaft 531 rotationally, and this first tensioner sprocket shaft 531 is fixed on the first tensioner sprocket shaft holder 5311, the first tensioner sprocket shaft holder 5311 is fixed on the top of described the first reversing frame 31, the second tensioner sprocket wheel 54 is arranged on the second tensioner sprocket shaft 541 rotationally, the second tensioner sprocket shaft 541 is fixed on the second tensioner sprocket wheel axle bed 5411, and this second tensioner sprocket wheel axle bed 5411 is fixed on the side of aforementioned wallette plate 42 towards the first reversing frame 31, the 3rd tensioner sprocket wheel 55 is arranged on depression bar 5511 rotationally by the 3rd tensioner sprocket shaft 551, and be positioned at the middle part of depression bar 5511, and one end of this depression bar 5511 is connected with one end of an extension spring 55111, the other end of extension spring 55111 and aforesaid motor cabinet 512 are fixing, the other end of depression bar 5511 is hinged on depression bar seat 55112, and depression bar seat 55112 is fixed on the bottom of the front end of the first reversing frame 31, the first driving chain 56 is nested with at motor shaft sprocket wheel 52a, input roller sprocket wheel 52b, on outlet roller sprocket wheel 52c and the first tensioner sprocket wheel 53, one of them sprocket wheel and the first driving chain 56 in pressing plate frame sprocket shaft duplex chain wheel 52d connect, the 3rd tensioner sprocket wheel 55 and the first driving chain 56 connect, one end of the second driving chain 57 is nested with on another sprocket wheel in pressing plate frame sprocket shaft duplex chain wheel 52d, the other end is nested with on described input pressure roller shaft sprocket wheel 52e, the second tensioner sprocket wheel 54 and the second driving chain 57 connect.

When when to corresponding push-botton operation on electric control box 112, power drive mechanism 5 enters duty, motor 51 is worked, by the motor shaft 511 drive motor axle sprocket wheel 52a of motor 51, because the first driving chain 56 is nested with at motor shaft chain 52a, input roller sprocket wheel 52b, on outlet roller sprocket wheel 52c and the first tensioner sprocket wheel 53, again due to one of them sprocket wheel in pressing plate frame sprocket shaft duplex chain wheel 52d and the first driving chain 56 connects and the 3rd tightening roller sprocket wheel 55 and the first driving chain 56 connect, also because one end of the second driving chain 57 is nested with on another sprocket wheel in pressing plate frame sprocket shaft duplex chain wheel 52d, the other end is nested with on input pressure roller shaft sprocket wheel 52e and the second tensioner chain 54 and the second driving chain 57 connect, therefore drive sheet timber input roller 34 by the first driving chain 56 by input roller sprocket wheel 52b, drive sheet timber outlet roller 36 and be with dynamic pressure plate frame sprocket shaft 38 by pressing plate frame sprocket shaft duplex chain wheel 52d by outlet roller sprocket wheel 52c, drive sheet timber input pressure roller 35 by the second driving chain 57 by input pressure roller shaft chain 52e simultaneously, thereby realize the direction motion that sheet timber is scooped out to device 8 towards timber.

Refer to Fig. 2, as a preferred scheme, aforesaid frame 1 also includes a cylinder 16, this cylinder 16 is fixing towards one end and first wallboard 11 of aforementioned the first wallboard 11, and it is fixing towards one end and second wallboard 12 of aforementioned the second wallboard 12, respectively be provided with the intake interface 162 and communicating with the gas storage tube chamber 161 of cylinder 16 interface 163 of giving vent to anger towards one end of the first wallboard 11 and towards one end of the second wallboard 12 at cylinder 16, first, the second wallboard 11, 12 each other an opposing side be respectively provided with a distributor 7, aforesaid intake interface 162 is connected as air compressor by pipeline and aerogenesis apparatus, and the aforesaid interface 163 of giving vent to anger is connected with described distributor 7 pipelines. the prerequisite of setting up cylinder 16 is that all acting cylinders of having mentioned above and first, second baffle tube acting cylinder 64,65 that also will relate to are below cylinder. that is to say if change all acting cylinders into oil cylinder, can abandon so this cylinder 16. preferably, on cylinder 16 and the bottom that is positioned at cylinder 16 be equipped with a blowoff valve 164 communicating with described gas storage tube chamber 161. and then preferably, a spacing column 165 also can be set on cylinder 16, this spacing column 165 is corresponding to the below of aforementioned sheet timber transport platform panel 33. above mentioned distributor 7 is for distributing to by the road each acting cylinder by the pressure air in gas storage tube chamber 161, the distributor control valve of distributor 7 be arranged on the first wallboard 11 and be connected back to electric control box 112 electrical controls of the second wallboard 12 1 sides, be controlled by the PLC(programmable controller of electric control box 112), aforesaid motor 51 is connected with electric control box 112 electrical controls equally.

Above mentioned sheet timber running deviation preventing mechanism 6 preferably but not the structure being definitely limited to is as follows: comprise the first baffle tube support 61, second baffle pipe holder 62, baffle tube 63, the first baffle tube acting cylinder 64 and second baffle pipe acting cylinder 65, the lower end of the first baffle tube support 61 and aforesaid the first backbar holder 3311 are fixing, the lower end of second baffle pipe holder 62 and aforementioned the second backbar holder 3312 are fixing, on the end face of one end of the first baffle tube support 61, be extended with one first baffle tube spindle nose 631 at baffle tube 63, this the first baffle tube spindle nose 631 is bearing on the first baffle tube spindle nose supporting base 6311 rotationally, and this first baffle tube spindle nose supporting base 6311 is fixed on the side of the first baffle tube support 61 towards second baffle pipe holder 62, on the end face of one end of second baffle pipe holder 62, be extended with a second baffle tubular axis head 632 at baffle tube 63, this second baffle tubular axis head 632 is bearing on second baffle tubular axis head supporting base 6321 rotationally, and this second baffle tubular axis head supporting base 6321 is fixed on the side of the second gear pipe holder 62 towards the first baffle tube support 61, the first baffle tube acting cylinder 64 is connected with the upper end of the first baffle tube support 61 by the first adjusting screw(rod) 642, the first baffle tube acting cylinder post 641 of this first baffle tube acting cylinder 64 is towards lower and be connected towards one end of the first baffle tube support 61 with baffle tube 63, second baffle pipe acting cylinder 65 is connected with the upper end of second baffle pipe holder 62 by the second adjusting screw(rod) 652, the second baffle pipe acting cylinder post 651 of this second baffle pipe acting cylinder 65 is towards lower and be connected towards one end of second baffle pipe holder 62 with baffle tube 63.

As shown in Figure 3, form and have a baffle tube towing plate 633 at the rear side of the length direction of aforesaid baffle tube 63, lean out the bottom surface of baffle tube 63 and be configured to a sheet timber gear mouthfuls 6331 by the bottom of the length direction of baffle tube towing plate 633, the end of the end of aforesaid the first baffle tube acting cylinder post 641 and aforesaid second baffle pipe acting cylinder post 651 is all connected with baffle tube towing plate 633.

In the present embodiment, aforesaid pressure-raising acting cylinder 44 and first, second baffle tube acting cylinder 64,65 are cylinder, specifically as the description that first, second reversing frame is driven to acting cylinder 141,142 and panoramic table lift action cylinder 21. These acting cylinders are connected with the distributor 7 of having mentioned in the above by corresponding pipeline.

When the pressure-raising acting cylinder post 441 of pressure-raising acting cylinder 44 is during to cylinder body intrinsic displacement, with the state shown in Fig. 3 during to top offset, driven so the front end of wallette plate 42 by pressure-raising acting cylinder post 441, because the sheet timber input pressure roller shaft 351 of sheet timber input pressure roller 35 is supported on the front end of wallette plate 42 by input pressure roller axle bed 3511, therefore in the time that pressure-raising acting cylinder post 441 is upwards mentioned the front end of wallette plate 42 (when wallette plate 42 turning anticlockwise), sheet timber input pressure roller 35 is also simultaneously to top offset, make to form opening between itself and sheet timber input roller 34, meanwhile, that is to say when pressure-raising acting cylinder post 441 drives the front end of wallette plate 42 upwards to lift, sheet timber running deviation preventing mechanism 6 is worked, first, second baffle pipe acting cylinder 64, 65 first, second baffle pipe acting cylinder post 641, 651 stretch simultaneously outside cylinder body, drive baffle tube 63 to turn round an angle through baffle tube towing plate 633, until make the sheet timber gear mouth 6331 of baffle tube towing plate 633 corresponding with the direct of travel of sheet timber. so by workman, the sheet timber that awaits baking being followed to sheet timber input roller 34 delivers on sheet timber transport platform panel 33, and the edge of sheet timber is contacted with baffle tube 63, ensure the degree of parallelism between edge and the sheet timber outlet roller 36 of direct of travel of sheet timber by baffle tube 63. and then, pressure-raising acting cylinder 44 reverse operations, pressure-raising acting cylinder post 441, to cylinder body outer displacement, drives the front end of wallette plate 42 to bottom offset (wallette plate 42 turns round clockwise), and sheet timber input pressure roller 35 is contacted with the upper surface of sheet timber. meanwhile, first, second baffle tube acting cylinder 64,65 reverse operations, first, second baffle tube acting cylinder post 641,651 is simultaneously to cylinder body intrinsic displacement to top offset, drive baffle tube 63, make angle of vehicle tailgate pipe 63 reversed turning, to make sheet timber gear mouthfuls 6331 leave stopping of edge to sheet timber, now, under the work of aforesaid power drive mechanism 5, the direction that makes sheet timber just scoop out device 8 towards wood is advanced.

Applicant sketches use of the present invention, press the signal of Fig. 1, the present invention follows in use in the timber of Fig. 1 signal and scoops out device 8, in the time that the sheet material introducing port 18 that sheet timber free graph 2 will be illustrated is delivered to swinging layering slab feeding mechanism 3, by workman, electric appliance control box 112 is operated, first make sheet timber input pressure roller pressure-raising mechanism 4 work, described and make sheet timber input pressure roller 35 up in the above by applicant, towards the direction displacement that deviates from sheet timber input roller 34, make sheet timber running deviation preventing mechanism 6 work simultaneously, until baffle tube 63 is contacted with sheet timber transport platform panel 3, then by workman, sheet timber being followed to sheet timber input roller 34 carries to sheet timber transport platform panel 33. again by the operation to electric control box 112, make sheet timber input pressure roller pressure-raising mechanism 4 and sheet timber running deviation preventing mechanism 6 reverse operations, make sheet timber input pressure roller 35 descending and contact with the upper surface of sheet timber, make sheet timber gear mouth 6331 block of exiting sheet timber path of travel for the baffle tube towing plate 633 of baffle tube 63 simultaneously. under the work of power drive mechanism 5, described and make sheet timber cause timber by sheet material outlet 19 to scoop out device 8 in the above by applicant.

As shown in the above description, above mentioned sheet timber is inputted pressure roller pressure-raising mechanism 4 and is essentially the sheet timber input pressure roller elevating mechanism for making 35 liftings of sheet timber input pressure roller.

In sum, technical scheme provided by the invention has overcome the shortcoming in prior art, has successfully completed invention task, has embodied objectively the technique effect referring in the superincumbent technique effect of applicant hurdle.

Claims (10)

1.A kind of plank Automatic continuous layering conveyer, it is characterized in that comprising a frame (1), this frame (1) comprises the first wallboard (11), the second wallboard (12), panoramic table elevating mechanism connecting axle (13) and bottom girder (14), first, the second wallboard (11, 12) with the state setting facing each other and the structure that is all cuboid, be fixed with one first reversing frame central shaft (111) at the first wallboard (11) towards a side of the second wallboard (12), and be provided with an electric control box (112) at the first wallboard (11) back to a side of the second wallboard (12), at the second wallboard (12) towards a side of the first wallboard (11) and be fixed with one second reversing frame central shaft (121) corresponding to the position of the first reversing frame central shaft (111), one end of panoramic table elevating mechanism connecting axle (13) is bearing in the top of the first wallboard (11) towards a side of the second wallboard (12) rotationally, and the other end of panoramic table elevating mechanism connecting axle (13) is bearing in the top of the second wallboard (12) towards a side of the first wallboard (11) rotationally, the shape of cross section of bottom girder (14) is U font, one end of this bottom girder (14) and the first wallboard (11) are fixed and are provided with in this one end one first reversing frame and drive acting cylinder (141) towards the bottom of a side of the second wallboard (12), the other end of bottom girder (14) and the second wallboard (12) are fixed towards the bottom of a side of the first wallboard (11) and are provided with one second reversing frame at this other end and drive acting cylinder (142), wherein, be provided with the first wallboard fixed base plate (113) in the bottom of the first wallboard (11), and be provided with the second wallboard fixed base plate (112) in the bottom of the second wallboard (12), the a pair of panoramic table elevating mechanism (2) corresponding to each other, this is arranged on described the first wallboard (11) to one of them the panoramic table elevating mechanism in panoramic table elevating mechanism (2) and is connected towards the bottom of a side of the second wallboard (12) and with one end of described panoramic table elevating mechanism connecting axle (13), is connected towards the bottom of a side of the first wallboard (11) and with the other end of panoramic table elevating mechanism connecting axle (13) and another panoramic table elevating mechanism in a pair of panoramic table elevating mechanism (2) is arranged on the second wallboard (12), single-revolution formula layering slab feeding mechanism (3), this swinging layering slab feeding mechanism (3) is bearing between described first, second reversing frame central shaft (111,121) rotationally, and drives acting cylinder (141) and the second reversing frame to drive acting cylinder (142) to be connected with described a pair of panoramic table elevating mechanism (2), the first reversing frame simultaneously, described the first reversing frame drive acting cylinder (141) in the position of one end of described bottom girder (14) corresponding to described the first wallboard (11) side towards the second wallboard (12), and described the second reversing frame drive acting cylinder (142) in the position of the other end of described bottom girder (14) corresponding to described the second wallboard (12) side towards the first wallboard (11), and this is first years old, the second reversing frame drives acting cylinder (141,142) all with heeling condition setting, the first reversing frame drives the first reversing frame of acting cylinder (141) to drive acting cylinder post (1411) towards described swinging layering slab feeding mechanism (3), the second reversing frame drives the second reversing frame of acting cylinder (142) to drive acting cylinder post (1421) same towards described swinging layering slab feeding mechanism (3), and the first reversing frame drives acting cylinder (141) and the second reversing frame to drive acting cylinder (142) corresponding with the position of described a pair of panoramic table elevating mechanism (2) respectively, described the first reversing frame central shaft (111) and the second reversing frame central shaft (121) are all the level of state fixing, described a pair of panoramic table elevating mechanism (2) respectively comprises panoramic table lift action cylinder (21), panoramic table elevating chain (22) and panoramic table lifting sprocket wheel (23), panoramic table lift action cylinder (21) is fixed on described first, the second wallboard (11, 12) a side in opposite directions, and the panoramic table lift action cylinder post (211) of this panoramic table lift action cylinder (21) is towards upper, panoramic table lifting sprocket wheel (23) is fixed on described panoramic table elevating mechanism connecting axle (13), the end of one end of panoramic table elevating chain (22) and panoramic table lift action cylinder post (211) is fixed, middle part is nested with on panoramic table lifting sprocket wheel (23), and the other end of panoramic table elevating chain (22) is fixed with single-revolution platform attachment screw (221), described swinging layering slab feeding mechanism (3) is simultaneously with described first, the second reversing frame drives acting cylinder post (1411, 1421) and panoramic table attachment screw (221) connect, the first described reversing frame central shaft (111) and the second reversing frame central shaft (121) are the semi-axis structure of horizontal boom state, Described rotary layer shall be submitted to the office of plate (3) including the first and second rotary rack (31, 32), flake wood conveying machine panel (33), flake wood type roller (34), flake wood input pressure roller (35), flake wood output roller (36) and flake wood output roller (37);First and second rotary rack (31, 32) with each other face to face of state;In the first rotary rack (31) back to the second turning (32) fixed a first rotary rack on one side of the center shaft (311) and a first rotary carriage connecting screw (312);And fixed in the bottom of the first rotary rack (31) has a first rotary rack drive action cylinder column connection ear (313);The first rotary rack center shaft seat described the position of (311) and the first rotary frame (111) corresponding to the center axis and central axis (111) and the first rotary rack pivotal to cooperate;First rotary rack connecting screw (312) and described in the lifting mechanism of a rotary table (2) one of the rotary table of lifting mechanism of rotary table lifting chain (221) stated at the other end of the rotary table connection screw (221) fixed connection;The first rotary rack driving action cylinder column connection ear (313) and described the first rotary rack drive cylinder end hinged column (1411);In the second rotary rack (32) back to the first rotary rack (31) on one side of the fixed a second central axis rotary frame (321) and a second rotary carriage connecting screw (322);And in the second rotary rack (32) at the bottom of the fixed role a second rotary rack driving cylinder column connection ear (323);The second central axis rotary frame bridge described the position of (321) and the second central axis rotary frame (121) and corresponding with the second rotary center axis (121) pivotal to cooperate;The second rotary rack connecting screw (322) and described a pair of rotating table lifting mechanism (2) another rotary table in the lifting mechanism of rotary table lifting chain described (22) on the other side of the rotary table to connect screw (221) fixed connection;The second rotary rack driving action cylinder column connection ear (323) and described the second rotary rack drive cylinder column (1421) at the end of the articulated;Flake wood conveying machine panel (33) fixed to the panel towards supporting beam (331) on one side;Station panel supporting beam (331) toward one end of the first rotary rack (31) and the first rotary rack (31) fixed;And panel supporting beam (331) towards the second one end of the rotary rack (32) and the second rotary rack (32) fixed;Flake wood one end of the input roller (34) in the corresponding to the first rotary rack (31) the length direction of the position of the front end of the rotation to support in the first rotary rack (31) towards the second rotary rack (32) side;And flake wood type roller (34) in the corresponding to the second turning on the other side of the frame (32) the length direction of the position of the front end of the rotation to support in the second rotary rack (32) toward the first on one side of the rotary rack (31);Flake wood type roller (35) corresponding to the flake wood above length direction of the input roller (34) and to match the flake wood type roller (34);One end of the flake wood output roller (36) in the corresponding to the first rotary rack (31) the length of the direction of rotation to the backend position supporting in the first rotary rack (31) toward the second rotary rack (32) side;And flake wood output roller (36) in the corresponding to the second turning on the other side of the frame (32) of the length of the direction of rotation to the backend position bearing in the second rotary rack (32) toward the first on one side of the rotary rack (31);Flake wood output roller (37) corresponding to the flake wood above length direction of the output roller (36) and to match the flake wood output roller (36);Flake wood output roller (37) flake wood output pressure roller (371) support in the first sheet at the end of the timber output pressure roller holder (3711);The first flake wood output pressure roller bridge (3711) and the first axis guide (37111) sliding fit;And the first shaft guide (37111) fixed in the above the top of the first rotary rack (31);And is located in the first rotary rack (31) the length direction of the backend;Flake wood output roller (37) flake wood output pressure roller (371) on the other side of the bearing in the second sheet of wood output pressure roller (3712);The second sheet of wood output pressure roller bridge (3712) and the second axis guide (37121) sliding fit;And the second axis guide (37121) fixed in above the top of the second rotary rack (32);And in the second rotary rack (32) the length direction of the backend;Among them:It is the length of the first rotary rack (31) and in the second rotation direction of the front (32) the length direction of the front and in the position of the corresponding to each other each set have a flake wood used to make stated input roller (35) moving in the described flake wood type roller (34) in the direction of the displacement or toward a departure from the flake wood displacement in the direction of the input roller (34) flake wood type roller press agency (4);Flake wood type roller (35) turn to support at flake wood input roller press agency (4);And with the level state corresponding to shape the top of the wood type roller (34);It is the first rotary rack (31) is set on a power transmission mechanism (5);And it is the stage face plate supporting beam (331) described toward one end of the first rotary rack (31) a first fixed support beam fixed seat (3311);And panel in Taiwan towards supporting beam (331) described the second rotary rack (32) a second supporting beam fixed at the end of the fixed seat (3312);First support beam fixed seat (3311), and the second supporting beam fixed seat (3312) panel support beam in Taiwan (331) position is located in the panel on the supporting beam (331) described toward flake wood on one side of the input roller (34);And in the first and second supporting beam between the fixed seat (3311, 3312) set up a used to prevent into flake wood conveyor panel (33) flake wood flake wood against the run of partial body (6);The flake wood running deviation prevention mechanism (6) and flake wood conveyor panel (33) corresponding to the above, the described power transmission mechanism (5) and described flake wood type roller (34) and flake wood output roller (36) driving connection; described sheet timber input pressure roller (35) is rubber rollers, and the length direction at this sheet timber input pressure roller (35) forms and has the surperficial sheet timber input pressure roller groove (352) that is depressed in sheet timber input pressure roller (35) with interval state, this sheet timber input pressure roller groove (352) is the annular recess structure of the circumferencial direction that runs through sheet timber input pressure roller (35), described sheet timber output press roll (37) is similarly rubber rollers, and the length direction at this sheet timber output press roll (37) forms and has the surperficial sheet timber output press roll groove (372) that is depressed in sheet timber output press roll (37) with interval state, this sheet timber output press roll groove (372) is the annular recess structure of the circumferencial direction that runs through sheet timber output press roll (37).

2.Plank Automatic continuous layering conveyer according to claim 1, it is characterized in that described frame (1) also includes a hanging beam (15), the middle position at the top of one end of this hanging beam (15) and described the first wallboard (11) is fixed, and the middle position at the top of the other end of hanging beam (15) and described the second wallboard (12) is fixed, form and have hanger (151) towards a upper side at this hanging beam (15).

3.Plank Automatic continuous layering conveyer according to claim 1, is characterized in that first, second described reversing frame drives acting cylinder (141,142) and described panoramic table lift action cylinder (21) to be cylinder or oil cylinder.

4.Plank Automatic continuous layering conveyer according to claim 1, it is characterized in that being fixed with a signal picker contact (324) at described the second reversing frame (32) back to a side of described the first reversing frame (31) and the position that is positioned at the rear end of the length direction of the second reversing frame (32), on the described panoramic table elevating chain (22) of another panoramic table elevating mechanism in described a pair of panoramic table elevating mechanism (2), be fixed with a signal picker installing rack (222), on the top of this signal picker installing rack (222) short transverse, middle part and bottom are respectively provided with a signal picker (2221), this signal picker (2221) matches with described signal picker contact (324).

5.Plank Automatic continuous layering conveyer according to claim 4, is characterized in that described signal picker (2221) is for optoelectronic switch, microswitch, travel switch, position approach switch, tongue tube or hall sensing element.

6.Plank Automatic continuous layering conveyer according to claim 1, it is characterized in that described swinging layering slab feeding mechanism (3) also includes a pressing plate frame sprocket shaft (38), this pressing plate frame sprocket shaft (38) towards one end of described the first reversing frame (31) on the top that is bearing in rotationally the first reversing frame (31) corresponding to the middle position of the first reversing frame (31) length direction, and this pressing plate frame sprocket shaft (38) is bearing in the top of the second reversing frame (32) rotationally in the middle position of the length direction corresponding to the second reversing frame (32) towards one end of described the second reversing frame (32), and be set with a wallette plate stay pipe (381) at the middle part of pressing plate frame sprocket shaft (38), the structure that is arranged on the described sheet timber input pressure roller pressure-raising mechanism (4) of the front end of the length direction of the second reversing frame (32) is identical with the structure of sheet timber input pressure roller pressure-raising mechanism (4) of front end of length direction that is arranged on described the first reversing frame 31 and position is mutually corresponding, and this sheet timber input pressure roller pressure-raising mechanism (4) that is arranged on the front end of the first reversing frame (31) comprises pressure-raising acting cylinder support (41), little wallboard (42), adjust screw rod (43), pressure-raising acting cylinder (44) and spring (45), the lower end of pressure-raising acting cylinder support (41) is fixed on the top of the front end of the length direction of described the first reversing frame (31), the upper end of pressure-raising acting cylinder support (41) forms a horizontal arm (411), make the shape of pressure-raising acting cylinder support (41) be configured to the structure of (7) font by this horizontal arm (411), the upper end of adjusting screw rod (43) is connected on described horizontal arm (411), and lower end is configured to vertical cantilever end, pressure-raising acting cylinder (44) be fixed on adjust the lower end of screw rod (43) and the pressure-raising acting cylinder post (441) of this pressure-raising acting cylinder (44) towards under, spring (45) is nested with to be adjusted on screw rod (43), the upper end of this spring (45) is bearing in the side of horizontal arm (411) towards pressure-raising acting cylinder (44), and the lower end of spring (45) is bearing on the cylinder body of pressure-raising acting cylinder (44), little wallboard (42) is fixed towards one end of described wallette plate stay pipe (381) and the end face of described wallette plate stay pipe (381), and little wallboard (42) is connected with pressure-raising acting cylinder post (441) towards one end of described sheet timber input pressure roller (35), and offer a sheet timber input pressure roller shaft slot to make way (421), described sheet timber input pressure roller (35) has a sheet timber input pressure roller shaft (351), this sheet timber input pressure roller shaft (351) is bearing on little wallboard (42) rotationally by input pressure roller axle bed (3511), and match with described sheet timber input pressure roller shaft slot to make way (421) after leaning out input pressure roller axle bed (3511), wherein: sheet timber input pressure roller shaft (351) is towards one end of described the first reversing frame (31) is stretched over little wallboard (42) outside and form and have a transmission mechanism connection spindle nose (3512), the described power drive mechanism (5) being in transmission connection with described sheet timber input roller (34) and sheet timber output shaft (36) is connected with this transmission mechanism that spindle nose (3512) is in transmission connection and is in transmission connection with described pressing plate frame sprocket shaft (38).

7.Plank Automatic continuous layering conveyer according to claim 6, it is characterized in that described power drive mechanism (5) comprises motor (51), motor shaft sprocket wheel (52a), input roller sprocket wheel (52b), outlet roller sprocket wheel (52c), pressing plate frame sprocket shaft duplex chain wheel (52d), input pressure roller shaft sprocket wheel (52e), the first tensioner sprocket wheel (53), the second tensioner sprocket wheel (54), the 3rd tensioner sprocket wheel (55), the first driving chain (56) and the second driving chain (57), motor (51) is fixed on motor cabinet (512), motor cabinet (512) is fixed on the bottom of described the first reversing frame (31), motor shaft sprocket wheel (52a) is fixed on the motor shaft (511) of motor (51), input roller sprocket wheel (52b) is fixed on the sheet timber input roll shaft (341) of described sheet timber input roller (34), outlet roller sprocket wheel (52c) is fixed on the sheet timber output roll shaft (361) of described sheet timber outlet roller (36), pressing plate frame sprocket shaft duplex chain wheel (52d) is fixed on described pressing plate frame sprocket shaft (38), input pressure roller shaft sprocket wheel (52e) is fixed on described transmission mechanism and connects on spindle nose (3512), the first tensioner sprocket wheel (53) is arranged on the first tensioner sprocket shaft (531) rotationally, and this first tensioner sprocket shaft (531) is fixed on the first tensioner sprocket shaft holder (5311), the first tensioner sprocket shaft holder (5311) is fixed on the top of described the first reversing frame (31), the second tensioner sprocket wheel (54) is arranged on the second tensioner sprocket shaft (541) rotationally, the second tensioner sprocket shaft (541) is fixed on the second tensioner sprocket wheel axle bed (5411), and this second tensioner sprocket wheel axle bed (5411) is fixed on the side of described little wallboard (42) towards the first reversing frame (31), the 3rd tensioner sprocket wheel (55) is arranged on depression bar (5511) rotationally by the 3rd tensioner sprocket shaft (551), and be positioned at the middle part of depression bar (5511), and one end of this depression bar (5511) is connected with one end of an extension spring (55111), the other end of extension spring (55111) and described motor cabinet (512) are fixing, the other end of depression bar (5511) is hinged on depression bar seat (55112), and depression bar seat (55112) is fixed on the bottom of the front end of the first reversing frame (31), the first driving chain (56) is nested with at motor shaft sprocket wheel (52a), input roller sprocket wheel (52b), on outlet roller sprocket wheel (52c) and the first tensioner sprocket wheel (53), one of them sprocket wheel in pressing plate frame sprocket shaft duplex chain wheel (52d) and the first driving chain (56) connect, the 3rd tensioner sprocket wheel (55) connects with the first driving chain (56), one end of the second driving chain (57) is nested with on another sprocket wheel in pressing plate frame sprocket shaft duplex chain wheel (52d), the other end is nested with on described input pressure roller shaft sprocket wheel (52e), the second tensioner sprocket wheel (54) connects with the second driving chain (57).

8.Plank Automatic continuous layering conveyer according to claim 1, it is characterized in that described frame (1) also includes a cylinder (16), this cylinder (16) is fixing towards one end and first wallboard (11) of described the first wallboard (11), and it is fixing towards one end and second wallboard (12) of described the second wallboard (12), respectively be provided with the intake interface (162) and communicating with the gas storage tube chamber (161) of cylinder (16) interface (163) of giving vent to anger towards one end of the first wallboard (11) and towards one end of the second wallboard (12) at cylinder (16), first, the second wallboard (11,12) an opposing side is respectively provided with a distributor (7) each other, described intake interface (162) is connected with aerogenesis apparatus by pipeline, and the described interface of giving vent to anger (163) is connected with described distributor (7) pipeline, bottom upper at described cylinder (16) and that be positioned at cylinder (16) is equipped with a blowoff valve (164) communicating with described gas storage tube chamber (161).

9.Plank Automatic continuous layering conveyer according to claim 1, it is characterized in that described sheet timber running deviation preventing mechanism (6) comprises the first baffle tube support (61), second baffle pipe holder (62), baffle tube (63), the first baffle tube acting cylinder (64) and second baffle pipe acting cylinder (65), the lower end of the first baffle tube support (61) and described the first backbar holder (3311) are fixing, the lower end of second baffle pipe holder (62) and described the second backbar holder (3312) are fixing, on the end face of one end of the first baffle tube support (61), be extended with one first baffle tube spindle nose (631) at baffle tube (63), this the first baffle tube spindle nose (631) is bearing on the first baffle tube spindle nose supporting base (6311) rotationally, and this first baffle tube spindle nose supporting base (6311) is fixed on the side of the first baffle tube support (61) towards second baffle pipe holder (62), on the end face of one end of second baffle pipe holder (62), be extended with a second baffle tubular axis head (632) at baffle tube (63), this second baffle tubular axis head (632) is bearing on second baffle tubular axis head supporting base (6321) rotationally, and this second baffle tubular axis head supporting base (6321) is fixed on the side of the second gear pipe holder (62) towards the first baffle tube support (61), the first baffle tube acting cylinder (64) is connected with the upper end of the first baffle tube support (61) by the first adjusting screw(rod) (642), the first baffle tube acting cylinder post (641) of this first baffle tube acting cylinder (64) is towards lower and be connected towards one end of the first baffle tube support (61) with baffle tube (63), second baffle pipe acting cylinder (65) is connected with the upper end of second baffle pipe holder (62) by the second adjusting screw(rod) (652), the second baffle pipe acting cylinder post (651) of this second baffle pipe acting cylinder (65) is towards lower and be connected towards one end of second baffle pipe holder (62) with baffle tube (63).

10.Plank Automatic continuous layering conveyer according to claim 9, it is characterized in that forming and having a baffle tube towing plate (633) at the rear side of the length direction of described baffle tube (63), lean out the bottom surface of baffle tube (63) and be configured to a sheet timber gear mouthful (6331) by the bottom of the length direction of baffle tube towing plate (633), the end of the end of described the first baffle tube acting cylinder post (641) and described second baffle pipe acting cylinder post (651) is all connected with described baffle tube towing plate (633)。