CN203877517U - Cooling and stacking device for artificial plate blanks - Google Patents

Abstract

The utility model discloses a cooling and stacking device for artificial plate blanks. The cooling and stacking device comprises a frame, a cooling plate-turning mechanism arranged on the frame, a stacking device and a plate-pushing mechanism. The cooling plate-turning mechanism is used for receiving the plate blanks conveyed from a plate-feeding conveyor, carrying out plate-turning and cooling operation to the plate blanks and conveying the plate blanks subjected to cooling operation. The stacking device, arranged at a conveying side for the plate blanks of the cooling plate-turning mechanism is used for receiving the plate blanks conveyed by the cooling plate-turning mechanism and subjected to cooling operation and stacking the plate blanks. The plate-pushing mechanism, arranged on the frame, is capable of elevating based on stacking heights and used for pushing the plate blanks subjected to cooling operation out of the cooling plate-turning mechanism to the stacking device. The cooling and stacking device for the artificial plate blanks has following beneficial effects: requirements for different stacking heights are widely satisfied; plate-cooling and plate-stacking functions are integrally combined; according to cooling duration and a production period, effective number of lattices of the plate-turning mechanism is determined; the cooling and stacking device occupies small area due to low number of equipment; high stacking height of plates is acquired; when plate piles are moved, plate-feeding operation is not affected; and therefore the requirement for actual production technology is met.

Description

Cooling and the bunching device of a kind of artificial board blank

Technical field:

The utility model relates to a kind of wood-based plate manufacturing equipment technical field, particularly cooling the and bunching device of a kind of artificial board blank.

Background technology:

Piler is a kind of slab stacking apparatus of industry of artificial boards widespread use, also be one of major equipment on the artificial board product lines such as thick china, medium density fibre board (MDF), particieboard, for piling one by one a neat buttress by completing cooling slab, be transported to and on fork truck roller platform, wait for that fork truck transports.At present in production-line arrangement, multiplex 2 hydaulic lift platforms coordinate 2 stacking transducers and a transition transport plane to complete slab stacking task, in the time that a hydaulic lift platform reaches range and piles with slab, by transition transport plane, ensuing plate is transported on a rear bay-lift and continues stacking, last hydaulic lift platform that piles with slab starts to export slab, moves in circles with this.This now conventional way of stacking is because the range of hydaulic lift platform is limited, and it is high that slab cannot further be piled, again because needs 2 complete equipments carry out one after the other work, so floor area is larger, in addition, when stacking, slab is directly piled into buttress, cannot carry out further cooling, cause the turnover panel hardening time that needs before stacking operation more, need the board cooler that dispensing is larger.Therefore urgently invent a kind of stacking height higher, floor area is less, enters plate beat and is not subject to straight sheet pile to shift out action to affect, and can complete cooling novel piler at stacking procedure simultaneously.

Utility model content:

Technical problem to be solved in the utility model is for existing bunching device heap not high, take up an area larger, separate unit piler is because ejecting plate rhythm cannot meet separately production requirement, and the necessary problem that configures the other further cooling plank of board cooler, and a kind of novel wood-based plate processing equipment is provided, and this device stacking height is higher, and floor area is less, and can in stacking procedure, allow slab further cooling, meet the needs of manufacturing line production technology.

Technical problem to be solved in the utility model can be achieved through the following technical solutions:

Cooling and the bunching device of a kind of artificial board blank, comprising:

Support the frame of whole device;

Board cooler structure in described frame is set; This board cooler structure has that slab is admitted to side and slab is sent side, and described board cooler structure is admitted to side at slab and accepts the slab brought by infeed conveyor and slab is carried out to turnover panel cooling, sends side send cooled slab at slab;

The slab that is arranged on board cooler structure is sent the bunching device of side, and this bunching device is accepted the cooled slab of being sent by board cooler structure and can be carried out stacking for slab;

The rushing board mechanism that is arranged in described frame and can follows stacking height and carry out lifting, this rushing board mechanism is released board cooler structure to bunching device by cooled slab on described board cooler structure.

In a preferred embodiment of the present utility model, described board cooler structure comprises:

Be located at the upper sprocket wheel on the axle of described upper rack;

Be located at the lower sprocket on the axle of described frame lower;

Be looped around the ring chain on described upper sprocket wheel, lower sprocket;

Be arranged on the panel turnover mechanism drive motor in described frame lower, this panel turnover mechanism drive motor drives described lower sprocket to rotate;

Interval is arranged in the some pressure pins on described ring chain, and described pressure pin holds up slab, under the drive of described ring chain, slab is admitted to side from slab and delivers to slab and send side.

In a preferred embodiment of the present utility model, described rushing board mechanism comprises:

Vertical rack-mounted line slideway;

Adopt plain bearing to be arranged on upper push pedal cylinder line and the lower push pedal cylinder line on line slideway, on the piston rod of push pedal cylinder line, push pedal on is installed on described, push pedal is once installed on the piston rod of described lower push pedal cylinder line;

Be arranged on the cylinder lift drive mechanism that drives described upper push pedal cylinder line and lower push pedal cylinder line to follow stacking height and carry out lifting along described line slideway in frame.

In a preferred embodiment of the present utility model, described bunching device comprises:

The slab that is arranged on the ejecting plate side both sides of described board cooler structure and board cooler structure ejecting plate side is wanted to send carries out some guiding centering bars of centering;

Be arranged on outside the ejecting plate side of described board cooler structure in order to realize the straight sheet pile cage of slab stacking, this straight sheet pile cage has relative slab entrance and straight sheet pile outlet, wherein slab entrance docks described board cooler structure ejecting plate side;

Be arranged on described straight sheet pile cage and can be by the straight sheet pile port closing on straight sheet pile cage and the baffle mechanism of opening;

The straight sheet pile roller platform that is arranged on straight sheet pile cage bottom, this straight sheet pile roller platform can be sent straight sheet pile cage by the straight sheet pile of having piled.

In a preferred embodiment of the present utility model, described baffle mechanism is two groups, is separately positioned on the straight sheet pile cage of straight sheet pile outlet both sides, and each baffle mechanism comprises:

One is hinged on the upper connecting rod at described straight sheet pile cage top;

One is hinged on the lower connecting lever of described straight sheet pile cage bottom,

One upper end and described upper rod hinge connection, the hinged damper rod in one end of lower end and described lower connecting lever;

One installs the driving cylinder of described straight sheet pile cage midway location, the piston rod of described driving cylinder is to downward-extension hinged with the other end of described lower connecting lever, and this driving cylinder is driven described damper rod by the straight sheet pile port closing on straight sheet pile cage and opened by described lower connecting lever.

The utility model can adapt to the requirement of various stacking heights more widely, integrate cooling plank and stacking plank, and can adjust effective lattice number of determining panel turnover mechanism by hardening time and production cycle, number of devices is few, floor area is little, can pile straight sheet pile high, and in the time going out straight sheet pile, can not affect the beat into plate, meet the requirement of actual production technique.

Brief description of the drawings

Fig. 1 is the structural representation of the cooling and bunching device of the utility model artificial board blank.

Fig. 2 is that the A of Fig. 1 is to view.

Fig. 3 is that the B of Fig. 1 is to view.

Fig. 4 is that the C of Fig. 1 is to view.

Fig. 5 is the Z place enlarged diagram of Fig. 1.

Fig. 6 is that the D of Fig. 5 is to view.

Fig. 7 is the working state schematic representation of the cooling and bunching device of the utility model artificial board blank.

Fig. 8 is the view that the cooling and bunching device stacking of the utility model artificial board blank approaches highest point.

Fig. 9 is the view that the straight sheet pile piled is sent the cooling and bunching device of artificial board blank of the present utility model.

Detailed description of the invention

Further describe the utility model below in conjunction with the drawings and specific embodiments.

Referring to Fig. 1, the cooling and bunching device of a kind of artificial board blank of providing in figure, comprises a frame 100 that supports whole device.

A set of board cooler structure 200 is installed in frame 100, this board cooler structure 200 comprises a pair of lower sprocket 210 and a pair of upper sprocket wheel 220, a pair of lower sprocket 210 is connected in series by a lower sprocket axle, the two ends of lower sprocket axle are located at the bottom of frame 100 by bearing axle, a pair of upper sprocket wheel 210 is connected in series by a cochain wheel shaft, the two ends of cochain wheel shaft are located at the top of frame 100 by bearing axle, the spacing distance of a pair of lower sprocket 210 on lower sprocket axle equates with the spacing distance of a pair of upper sprocket wheel 220 on cochain wheel shaft.

Two ring chains 230 are enclosed within respectively on a pair of lower sprocket 210 and a pair of upper sprocket wheel 220.On two ring chains 230, be just fixed with a pressure pin group 240 at interval of 200-300mm, referring to Fig. 5 and Fig. 6, each pressure pin group 240 comprises the cross bar 241 that two ends are connected with two ring chains 230, and on cross bar 241, compartment of terrain adopts fastener to be fixed with three pressure pins 242.The length of every pressure pin 242 approximates greatly the width 2/3rds of slab 400.

These board cooler structure 200 1 panel turnover mechanism drive motor 250, thus this panel turnover mechanism drive motor 250 drives lower sprocket axle to drive lower sprocket 210 to rotate by transmission device, and lower sprocket 210 drives ring chain 230 revolution that circulates by upper sprocket wheel 220.

In conjunction with referring to Fig. 2, ring chain 230, in continuous circulation turning course, is delivered to infeed conveyor 500 slab that slab 400 on pressure pin group 240 fronts sends board cooler structure 200 in streams to a place and is sent side (position 3 shown in Fig. 1) by the side (position 1 shown in figure) that is admitted to of this board cooler structure 200 by pressure pin group 240.Following ring chain 230 when pressure pin group 250 moves to after the vertex of whole board cooler structure 200, the top of slab 400 is due to the relation upset downwards of gravity, lean against the back side of next pressure pin group 250, along with the motion of ring chain 230, whole slab 400 in the position shown in the figure 13 place can drop on down on the back side of putting forward pressure pin group 250, and slab 400 has just been turned over by whole like this.

For the slab in pressure pin group 250 400 is pushed into and carries out stacking in bunching device 600 in 3 place in the position shown in the figure 1, the rushing board mechanism 700 that can follow stacking height and carry out lifting is installed in frame 100, and this rushing board mechanism 700 is pushed into and in bunching device 600, carries out stacking moving to slab 400 in the pressure pin group 250 at 3 places, position shown in Fig. 1.

This rushing board mechanism 700 comprises a pair of line slideway 710 being vertically arranged in frame 100, on each line slideway 710, adopt plain bearing that push pedal cylinder 720 on two is installed, with employing plain bearing, two lower push pedal cylinders 730 are installed, push pedal 721 on one is installed on the piston rod of push pedal cylinder 720 on two, push pedal once 731 is installed on the piston rod of two lower push pedal cylinders 730.

For make two upper push pedal cylinders 720 in push pedal process, can follow pressure pin group 250 with two lower push pedal cylinders 730 together with motion, one cylinder lift drive mechanism 740 (this cylinder lifting mechanism can adopt motor and synchronous belt drive mechanism to realize) is installed in frame 100, and cylinder lift drive mechanism 740 drives push pedal cylinder 720 up-and-down movements.

For slab 400 in pressure pin group 250 is moved to by the position 2 shown in Fig. 1 in the process of position 3 as a result, in bunching device 600, carry out stacking to facilitate to push.Slab 400 both sides of sending side (position 3 shown in Fig. 1) at the slab of board cooler structure 200 are arranged at intervals with some guiding centering bars 611, referring to Fig. 3, the upper end of these guiding centering bars 611 outwards turns down, and is convenient to like this slab 400 automatic centerings.

These guiding centering bars 611 form a part for the straight sheet pile cage 610 in bunching device 600 in addition.

Referring to Fig. 4, whole bunching device 600 comprises a straight sheet pile cage 610, this straight sheet pile cage 610 has two cage walls 612, width between two cage walls 612 equals or is slightly larger than the length of slab 400, like this slab 400 just in time stacking to wherein, passage between one side of two cage wall 612 contiguous board cooler structures 200 forms slab entrance, the ejecting plate side of this slab entrance docking board cooler structure 200, two cage walls 612 form straight sheet pile outlet away from the passage between a side of board cooler structure 200.One side of two cage wall 612 contiguous board cooler structures 200 is provided with aforesaid guiding centering bar 611.

Be provided with straight sheet pile roller platform 620 in the bottom of straight sheet pile cage 610, after straight sheet pile 800 heaps are good, can send bunching device 600 (referring to Fig. 9) by straight sheet pile roller platform 620.

For slab 400 is fitly carried out to stacking at bunching device 600, away from a side of board cooler structure 200, a set of baffle mechanism 630 is respectively installed at two cage walls 612, each baffle mechanism 630 comprises: it is hinged that upper connecting rod 631 that is hinged on cage wall 612 tops and one are hinged on the lower connecting lever 632 of cage wall 612 bottoms and upper end and upper connecting rod 631, the hinged damper rod 633 in one end of lower end and lower connecting lever 632, each baffle mechanism 630 also comprises that one is arranged on the driving cylinder 634 of cage wall 612 midways location, drive the piston rod of cylinder 634 to downward-extension hinged with the other end of lower connecting lever 632, this driving cylinder is driven damper rod 633 by the straight sheet pile port closing on straight sheet pile cage 600 and is opened by lower connecting lever 632.

Principle of work of the present utility model is as follows:

As shown in Figure 1, need the plate of stacking when infeed conveyor 500 ships when having, panel turnover mechanism drive motor 250 in board cooler structure 200 drives lower sprocket axle to drive lower sprocket 210 to rotate by transmission device, the lower sprocket 210 rotating drives ring chain 230 circular flows, the ring chain 230 of motion drives the pressure pin group 240 on it that slab 400 of position 1 end is lifted and raise lattice, simultaneously the slab 400 of position 2 in decline process by the led centering of length direction of the gradient of guiding centering bar 611 upper ends, the simultaneously slab 400 of the position 3 ends lattice that decline, in the off time arriving at next slab 400, two lower push pedal cylinders 730 move simultaneously, by lower push pedal 731, the plate of position 3 is pushed and is arranged in bunching device 600, the centering that jointly completes plate Width with push pedal at present 731 and plate washer mechanism 630, circulate with this.

As shown in Figure 7, when buttress stacking height uprises while being about to exceed two lower push pedals 731 height in lower push pedal cylinder 730 gradually, in the time of upper once push pedal action, two upper push pedal cylinders 720 and two lower push pedal cylinders 720 move simultaneously, upper push pedal 721 and lower push pedal 731 push pedals simultaneously, once by upper, lower two slabs push among the straight sheet pile 800 in bunching device 600, and in after having pushed away, ring chain 230 rotates lattice again, by cylinder lift drive mechanism 740 drive two upper push pedal cylinders 720 together with two lower push pedal cylinders 720 along the line slideway 710 guide rails lattice that move up, then continue the circulation of Fig. 1.

As shown in Figure 8, when straight sheet pile 800 be highly about to reach appointment go out plate height time, in the time of upper once push pedal action, two upper push pedal cylinders 720 and two lower push pedal cylinders 720 move simultaneously, upper push pedal 721 and lower push pedal 731 push pedals simultaneously, once upper and lower two slabs 400 are pushed among the straight sheet pile 800 of bunching device 600, and push pedal cylinder 720 is slowly mobile downwards along line slideway 710 together with two lower push pedal cylinders 720 on driving two by cylinder lift drive mechanism 740 is synchronous after having pushed away, until arrive the position that next stamps straight sheet pile 800 bottom level.

As shown in Figure 9, in Fig. 8, on two, push pedal cylinder 720 and two lower push pedal cylinders 720 move simultaneously, upper push pedal 721 and lower push pedal 731 push pedals simultaneously, after once upper and lower two slabs 400 being pushed among the straight sheet pile 800 of bunching device 600, two in plate washer mechanism 630 drive cylinder 634 to move simultaneously, the axis of the piston stretches out downwards simultaneously, drive damper rod 633 to move upwardly and outwardly by lower connecting lever 632, open the straight sheet pile outlet of bunching device 600, by straight sheet pile roller platform machine 620, straight sheet pile 800 is transported to and on fork truck roller platform 630, waits for that fork truck transports, after this plate washer mechanism 630 closes.

Claims (5)

1. the cooling and bunching device of artificial board blank, is characterized in that, comprising:

Support the frame of whole device;

Board cooler structure in described frame is set; This board cooler structure has that slab is admitted to side and slab is sent side, and described board cooler structure is admitted to side at slab and accepts the slab brought by infeed conveyor and slab is carried out to turnover panel cooling, sends side send cooled slab at slab;

The slab that is arranged on board cooler structure is sent the bunching device of side, and this bunching device is accepted the cooled slab of being sent by board cooler structure and can be carried out stacking for slab;

The rushing board mechanism that is arranged in described frame and can follows stacking height and carry out lifting, this rushing board mechanism is released board cooler structure to bunching device by cooled slab on described board cooler structure.

2. the cooling and bunching device of artificial board blank as claimed in claim 1, is characterized in that, described board cooler structure comprises:

Be located at the upper sprocket wheel on described upper rack axle;

Be located at the lower sprocket on described frame lower axle;

Be looped around the ring chain on described upper sprocket wheel, lower sprocket;

Be arranged on the panel turnover mechanism drive motor in described frame lower, this panel turnover mechanism drive motor drives described lower sprocket to rotate;

Interval is arranged in the some pressure pins on described ring chain, and described pressure pin holds up slab, under the drive of described ring chain, slab is admitted to side from slab and delivers to slab and send side.

3. the cooling and bunching device of artificial board blank as claimed in claim 1, is characterized in that, described rushing board mechanism comprises:

Vertical rack-mounted line slideway;

Adopt plain bearing to be arranged on upper push pedal cylinder line and the lower push pedal cylinder line on line slideway, on the piston rod of push pedal cylinder line, push pedal on is installed on described, push pedal is once installed on the piston rod of described lower push pedal cylinder line;

Be arranged on the cylinder lift drive mechanism that drives described upper push pedal cylinder line and lower push pedal cylinder line to follow stacking height and carry out lifting along described line slideway in frame.

4. the cooling and bunching device of artificial board blank as claimed in claim 1, is characterized in that, described bunching device comprises:

The slab that is arranged on the ejecting plate side both sides of described board cooler structure and board cooler structure ejecting plate side is wanted to send carries out some guiding centering bars of centering;

Be arranged on outside the ejecting plate side of described board cooler structure in order to realize the straight sheet pile cage of slab stacking, this straight sheet pile cage has relative slab entrance and straight sheet pile outlet, wherein slab entrance docks described board cooler structure ejecting plate side;

Be arranged on described straight sheet pile cage and can be by the straight sheet pile port closing on straight sheet pile cage and the baffle mechanism of opening;

The straight sheet pile roller platform that is arranged on straight sheet pile cage bottom, this straight sheet pile roller platform can be sent straight sheet pile cage by the straight sheet pile of having piled.

5. the cooling and bunching device of artificial board blank as claimed in claim 4, is characterized in that, described baffle mechanism is two groups, is separately positioned on the straight sheet pile cage of straight sheet pile outlet both sides, and each baffle mechanism comprises:

One is hinged on the upper connecting rod at described straight sheet pile cage top;

One is hinged on the lower connecting lever of described straight sheet pile cage bottom,

One upper end and described upper rod hinge connection, the hinged damper rod in one end of lower end and described lower connecting lever;

One installs the driving cylinder of described straight sheet pile cage midway location, the piston rod of described driving cylinder is to downward-extension hinged with the other end of described lower connecting lever, and this driving cylinder is driven described damper rod by the straight sheet pile port closing on straight sheet pile cage and opened by described lower connecting lever.