CN215241473U - Artificial board automatic taking device for multilayer hot press - Google Patents

Abstract

The artificial board automatic fetching device for the multilayer hot press comprises a board discharging frame, wherein a plurality of interlayers for horizontally standing boards are stacked in the vertical direction of the board discharging frame; still get the trigger, get and be equipped with in the trigger: the frame is arranged on the left side of the plate outlet frame and is of a hollow frame structure; the lifting platform is arranged in the rack and is driven by a servo to vertically lift in the rack; the translation carrying platform is arranged on the top surface of the lifting platform and is driven to switch between the left end and the right end of the lifting platform in a horizontal displacement mode; the conveying belt is arranged on the top surface of the translation carrying platform and is provided with a plurality of conveying belts which are arranged side by side at intervals in the horizontal direction, and the conveying belts are horizontally conveyed from right to left on the top surface of the translation carrying platform; the translation microscope carrier is stretched out to the right-hand member of conveyer belt to be equipped with first micro-gap switch at the end, first micro-gap switch's actuating lever is higher than the top surface of conveyer belt. And after the plate on the plate frame is kept still, the plate is transferred to the next procedure by an automatic mechanical device for subsequent processing.

Description

Artificial board automatic taking device for multilayer hot press

Technical Field

The utility model relates to an artificial board production technical field, specific be an automatic board device of getting of artificial board for multilayer hot press.

Background

The hot pressing equipment commonly used in the artificial board industry is mainly a multilayer hot press, and a plurality of plates are processed by hot pressing simultaneously so as to improve the productivity. After the plate is discharged from the multilayer hot press, the plate is still required to be kept still to realize cooling and moisture content balance, and then edge sawing and sanding can be performed. For the multilayer hot press, the prior art is mostly a plate discharging frame which is provided with a plurality of interlayer in the vertical direction in a stacking way, and the plates are temporarily stored on the plate discharging frame one by one after being discharged.

The applicant finds in production practice that after the plate on the plate discharging frame is placed still, the plate is generally manually transferred to the next procedure for subsequent processing, so that the labor intensity is high, the production efficiency is difficult to improve, and potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a great deal of not enough to above-mentioned prior art provides an automatic board device of getting for wood-based plate of multilayer hot press, technical scheme as follows.

The artificial board automatic taking device for the multilayer hot press comprises a board discharging frame, wherein a plurality of interlayer for horizontally standing boards are stacked in the vertical direction of the board discharging frame, and the left end and the right end of each interlayer are communicated for the boards to enter and exit;

still get the trigger, get and be equipped with in the trigger:

the frame is arranged on the left side of the plate outlet frame and is of a hollow frame structure;

the lifting platform is arranged in the rack and is driven by a servo to vertically lift in the rack;

the translation carrying platform is arranged on the top surface of the lifting platform and is driven to switch between the left end and the right end of the lifting platform in a horizontal displacement mode;

the conveying belt is arranged on the top surface of the translation carrying platform and is provided with a plurality of conveying belts which are arranged side by side at intervals in the horizontal direction, and the conveying belts are horizontally conveyed from right to left on the top surface of the translation carrying platform; the translation microscope carrier is stretched out to the right-hand member of conveyer belt to be equipped with first micro-gap switch at the end, first micro-gap switch's actuating lever is higher than the top surface of conveyer belt.

As an improvement of the technical scheme, the bottom end of the frame is installed in a sinking mode relative to the bottom end of the plate outlet frame, so that the stroke bottom end of the lifting platform is lower than the interlayer located at the lowest layer.

As an improvement of the technical scheme, a plurality of rollers for supporting the plate are arranged in the interlayer, and the axial direction of the rollers is parallel to the front and back direction of the plate discharging frame; a driving roller is arranged at the right end of the interlayer, the axial direction of the driving roller is parallel to the front and back direction of the plate discharging frame, and the upper edge of the driving roller is flush with the upper edge of the roller; and the plate outlet frame is provided with a second servo motor in transmission fit with the driving roller in each interlayer, and the second servo motor drives the driving roller to transfer the plates in the interlayers leftwards.

In above-mentioned technical scheme, get the trigger and cooperate out the interlayer of grillage from bottom to top through lift platform drive translation microscope carrier, again through translation microscope carrier drive conveyer belt probe into the panel below in the interlayer, the rethread conveyer belt pulls out the interlayer with panel left, has realized getting the board automatically, can also dock the follow-up processing line of panel through translation microscope carrier and conveyer belt.

In the technical scheme, the interlayer of the plate outlet frame is provided with the drive roller driven by the servo at the right end, so that the plate can be automatically extended out from the left end of the interlayer, sufficient contact area and friction force are provided for the conveying belt and the plate, and the plate can be pulled by the conveying belt.

Compared with the prior art, the beneficial effects of the utility model reside in that:

after the plate on the plate frame is kept stand, the plate is transferred to the next procedure by an automatic mechanical device for subsequent processing, so that the labor is saved, the labor intensity is greatly reduced, the production efficiency is improved, and the potential safety hazard is eliminated.

The present invention will be further described with reference to the drawings and the detailed description.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the plate discharging frame of the present invention.

Fig. 3 is a schematic structural view of the plate taking machine of the present invention.

Fig. 4 is a schematic structural view of the middle lifting platform of the present invention.

Detailed Description

As shown in fig. 1 to 4, the present invention can adopt the following embodiments.

The artificial board automatic taking device for the multilayer hot press comprises a board discharging frame 1, wherein a plurality of interlayers 11 for allowing boards 9 to horizontally stand are stacked on the board discharging frame 1 in the vertical direction, and the left end and the right end of each interlayer 11 are communicated for allowing the boards 9 to enter and exit;

still get trigger 2, get and be equipped with in the trigger 2:

a frame 21, which is arranged on the left side of the plate discharging frame 1 and is of a hollow frame structure;

a lifting platform 22 which is arranged in the frame 21 and is driven by a servo to vertically lift in the frame 21;

a translation stage 23 disposed on the top surface of the elevating platform 22 and driven to be switched between the left and right ends of the elevating platform 22 in a horizontally displaced manner;

a plurality of conveyor belts 24 arranged on the top surface of the translation stage 23 and arranged at intervals in a horizontal direction, the conveyor belts 24 being horizontally conveyed from right to left on the top surface of the translation stage 23; the right end of the conveyor belt 24 extends out of the translation stage 23, and a first microswitch 241 is arranged at the tail end, and a driving rod of the first microswitch 241 is higher than the top surface of the conveyor belt 24.

In above-mentioned technical scheme, get trigger 2 and cooperate out the interlayer 11 of grillage 1 from bottom to top layer by layer through lift platform 22 drive translation microscope stage 23, again through translation microscope stage 23 drive conveyer belt 24 probe into panel 9 below in interlayer 11, concrete process is:

(1) the translation stage 23 is driven to the left end of the lifting platform 22 so that the right end of the conveyor belt 24 does not overlap the sheet 9 in the interlayer 11;

(2) the lifting platform 22 is driven to move downwards to match with the interlayer 11 positioned at the bottommost layer in the plate frame 1;

(3) the translation stage 23 is driven to the right end of the lifting platform 22 so that the right end of the conveyor belt 24 overlaps the sheet 9 in the compartment 11;

(4) the lifting platform 22 is driven to move upwards, so that the driving rod of the first microswitch 241 is triggered by the sheet material 9, so as to ensure that the conveyor belt 24 contacts the bottom surface of the sheet material 9;

(5) the conveyor belt 24 is started to pull the plate 9 out of the interlayer 11 leftwards, so that the plate 9 is transferred to the translation carrying platform 23;

(6) the translation carrying platform 23 is driven to the right end of the lifting platform 22, the lifting platform 22 is driven to be in butt joint with a subsequent processing line of the plate 9, and the plate 9 can be transferred from the translation carrying platform 23 to the subsequent processing line by starting the conveyor belt 24 again;

(7) the steps are repeatedly executed until all the plate materials 9 on the plate discharging frame 1 are taken out.

In the preferred embodiment, the bottom end of the frame 21 is mounted lowered relative to the bottom end of the pallet 1 so that the bottom end of travel of the lift platform 22 is below the lowermost compartment 11. The arrangement considers that the existing plate discharging frame in the artificial board industry is not provided with an automatic plate taking mechanism, so that the interlayer at the bottom layer in the existing plate discharging frame is usually close to the ground, which leads the lifting platform 22 in the utility model not to be directly matched with the interlayer 11 at the bottom layer in the plate discharging frame 1; and the bottom end of the frame 21 is installed in a sinking way relative to the bottom end of the plate outlet frame 1, so that the interlayer 11 at the bottommost layer in the plate outlet frame 1 has enough height difference relative to the bottom end of the frame 21 so as to be matched with the lifting platform 22.

In a preferred embodiment, the side of the frame 21 is provided with photoelectric switches 211 corresponding to two ends of the stroke of the lifting platform 22, and the lifting platform 22 triggers the corresponding photoelectric switches 211 when moving to the two ends of the stroke. The photoelectric switch 211 is used for providing a stroke limit switch for the lifting platform 22, and when the production line is debugged, the stroke range of the lifting platform 22 can be set by adjusting the height of the photoelectric switch 211 without debugging the code parameters of the automatic control host.

In a preferred embodiment, a first servo motor 212 and a transmission shaft 213 driven by the first servo motor 212 are disposed on the top surface of the frame 21, a driving gear 214 is coaxially disposed at each end of the transmission shaft 213, and a driven gear 215 opposite to the driving gear 214 is disposed at the bottom of the frame 21; a transmission chain 216 forming a chain transmission with the driving gear 214 and the driven gear 215 is provided, the head end of the transmission chain 216 is wound around the driving gear 214 and then fixedly connected to the lifting platform 22, and the tail end of the transmission chain 216 is wound around the driven gear 215 and then fixedly connected to the lifting platform 22.

In a preferred embodiment, the frame 21 is provided with a hook 3, and the lifting platform 22 is detachably connected with the hook 3. When the system is stopped for a long time or the plate taking machine 2 is hoisted and transported, the lifting platform 22 can be reliably suspended and fixed through the hook 3, and the accidental falling is prevented.

In the preferred embodiment, translation stage 23 and lift platform 22 cooperate to form a slide pair, and first air cylinder 221 for driving translation stage 23 is disposed on lift platform 22.

In a preferred embodiment, a pair of vertically arranged balustrades 4 is arranged on the right side of the frame 21, and the balustrades 4 are symmetrically arranged relative to the vertical center line of the frame 21; the upper end and the lower end of the handrail 4 are respectively provided with a second cylinder 41 which is arranged on the rack 21, and the second cylinder 41 drives the handrail 4 to move along the front-back direction of the rack 21; the end points of the travel of the balustrade 4 relative to the sheet material 9 on the carriage 1 are respectively located within and outside the width of the sheet material 9. This arrangement is used to achieve pre-positioning of the sheet material 9 to ensure that the sheet material 9 on the exit plate frame 1 is initially positioned and aligned in the vertical direction, while ensuring that the sheet material 9 provides sufficient contact area for the conveyor belt 24. Specifically, the working mode is as follows:

(1) the second cylinder 41 drives the railings 4 to move oppositely to the width range of the plate 9, and a blocking mechanism is provided for the plate 9 on the plate discharging frame 1 through the railings 4;

(2) the plate 9 on the plate outlet frame 1 is horizontally moved leftwards to abut against the railing 4, so that the plate 9 on the plate outlet frame 1 is ensured to be preliminarily positioned and aligned in the vertical direction;

(3) the second cylinder 41 drives the rail 4 to move back and forth to the outside of the width range of the plate 9, so that the plate 9 on the plate frame is unblocked, and the plate taking operation is realized.

In the preferred embodiment, a plurality of rollers 111 are provided in the partition 11 for supporting the sheet material 9, and the axial direction of the rollers 111 is parallel to the front-back direction of the rack 1, so that the sheet material 9 can be smoothly displaced horizontally in the partition 11.

In a preferred embodiment, a second micro switch 112 is disposed at the left end of the partition 11, a driving rod of the second micro switch 112 is triggered by the pressing of the plate 9 in the partition 11, and the second micro switch 112 provides an electrical signal for the automation control host as a logic parameter, so as to determine whether the plate 9 is placed in the partition 11.

In a preferred embodiment, a driving roller 113 is arranged at the right end of the interlayer 11, the axial direction of the driving roller 113 is parallel to the front-back direction of the plate discharging frame 1, and the upper edge of the driving roller 113 is flush with the upper edge of the roller 111; the plate outlet frame 1 is provided with a second servo motor 12 in transmission fit with the driving roller 113 in each interlayer 11, and the second servo motor 12 drives the driving roller 113 to transfer the plates in the interlayers to the left, so that the plates 9 in the interlayers 11 can be translated to the left without human intervention, and the plates 9 can be ensured to provide enough contact area for the conveyor belt 24.

For those skilled in the art, the protection scope of the present invention is not limited to the details of the above-described exemplary embodiments, and all the embodiments with variations within the scope and meaning equivalent to the elements of the present invention should be included in the present invention without departing from the spirit or essential characteristics of the present invention.

Claims (10)

1. The artificial board automatic taking device for the multilayer hot press comprises a board discharging frame, wherein a plurality of interlayer for horizontally standing boards are stacked in the vertical direction of the board discharging frame, and the left end and the right end of each interlayer are communicated for the boards to enter and exit;

its characterized in that still gets the trigger, gets to be equipped with in the trigger:

the frame is arranged on the left side of the plate outlet frame and is of a hollow frame structure;

the lifting platform is arranged in the rack and is driven by a servo to vertically lift in the rack;

the translation carrying platform is arranged on the top surface of the lifting platform and is driven to switch between the left end and the right end of the lifting platform in a horizontal displacement mode;

the conveying belt is arranged on the top surface of the translation carrying platform and is provided with a plurality of conveying belts which are arranged side by side at intervals in the horizontal direction, and the conveying belts are horizontally conveyed from right to left on the top surface of the translation carrying platform; the translation microscope carrier is stretched out to the right-hand member of conveyer belt to be equipped with first micro-gap switch at the end, first micro-gap switch's actuating lever is higher than the top surface of conveyer belt.

2. An automatic artificial board taking device for a multilayer hot press as claimed in claim 1, wherein the bottom end of the frame is installed to be lowered relative to the bottom end of the outgoing frame so that the bottom end of the stroke of the lifting platform is lower than the interlayer at the lowest layer.

3. An artificial board automatic fetching device for a multilayer hot press as claimed in claim 1, wherein the side of the frame is provided with photoelectric switches corresponding to the two ends of the stroke of the lifting platform, respectively, and the lifting platform is moved to the two ends of the stroke to trigger the corresponding photoelectric switches, respectively.

4. An artificial board automatic fetching device for a multilayer hot press as claimed in claim 1, wherein the top surface of the frame is provided with a first servo motor and a transmission shaft driven by the first servo motor, the two ends of the transmission shaft are respectively and coaxially provided with a driving gear, and the bottom of the frame is provided with a driven gear right below the driving gear; and providing a transmission chain which forms chain transmission with the driving gear and the driven gear, wherein the head end of the transmission chain is fixedly connected to the lifting platform after passing through the driving gear, and the tail end of the transmission chain is also fixedly connected to the lifting platform after passing through the driven gear.

5. An artificial board automatic fetching device for a multilayer hot press as claimed in claim 1, wherein the frame is provided with a hook, and the lifting platform is detachably connected with the hook.

6. An artificial board automatic fetching device for a multilayer hot press as claimed in claim 1, wherein the translation carrying platform and the lifting platform cooperate to form a sliding pair, and the lifting platform is provided with a first cylinder for driving the translation carrying platform.

7. An artificial board automatic fetching device for a multilayer hot press as claimed in claim 1, wherein a pair of vertically arranged rails are provided on the right side of the frame, the rails being symmetrically arranged with respect to the vertical center line of the frame; the upper end and the lower end of the handrail are respectively provided with a second cylinder which is arranged on the rack, and the second cylinder drives the handrail to move along the front-back direction of the rack; for the plate on the plate discharging frame, the moving stroke end points of the railings are respectively positioned in and out of the width range of the plate.

8. An automatic board picking device for artificial boards of multi-layer thermal presses as claimed in any of claims 1 to 7 wherein the interlayer is provided with a plurality of rollers for supporting the boards, the axial direction of the rollers being parallel to the front and back direction of the board rack.

9. An artificial board automatic fetching device for a multilayer hot press as claimed in claim 8, wherein the left end of the interlayer is provided with a second microswitch, and a driving rod of the second microswitch is triggered by the pressing of the board in the interlayer.

10. An artificial board automatic fetching device for a multilayer hot press as claimed in claim 8, wherein the right end of the interlayer is provided with a driving roller, the axial direction of the driving roller is parallel to the front and rear direction of the board discharging frame, and the upper edge of the driving roller is flush with the upper edge of the roller; and the plate outlet frame is provided with a second servo motor in transmission fit with the driving roller in each interlayer, and the second servo motor drives the driving roller to transfer the plates in the interlayers leftwards.

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