CN116653125A - Turnover machine and cement core board automatic engraving production line comprising same - Google Patents

Abstract

The invention discloses a turnover machine and an automatic engraving production line of a cement core board comprising the turnover machine, and the automatic engraving production line comprises an engraving feeding area, a first engraving area, a turnover area, a second engraving area and an engraving discharging area, wherein the first engraving area comprises at least one engraving machine, the second engraving area comprises engraving machines with the number and the positions matched with those of the engraving machines in the first engraving area, at least one turnover machine is arranged in the turnover area, the turnover machine comprises a turnover platform, at least one circular frame body capable of axially rotating and a driving assembly for driving the circular frame body to rotate are arranged on the turnover platform, a supporting assembly and a compacting assembly which are arranged in parallel are fixedly arranged in the middle of the circular frame body, and a driving piece for driving the compacting assembly to be close to or far away from the supporting assembly is arranged on the compacting assembly. The invention has the beneficial effects that: and the carving and processing automation of the cement core plate is realized.

Description

Turnover machine and cement core board automatic engraving production line comprising same

Technical Field

The invention relates to the field of cement core plate engraving, in particular to a turnover machine and an automatic cement core plate engraving production line comprising the turnover machine.

Background

In the engraving production of the cement core plate, engraving is required to be carried out on the front side and the back side of the cement core plate.

The existing cement core plate engraving tool can only engrave one side of the cement core plate, and can not engrave the front side and the back side of the cement core plate at the same time.

The prior solution adopted for realizing the engraving processing of the front and back sides of the cement core plate is that after the engraving processing of one side of the cement core plate by the cement core plate engraving tool is finished, the cement core plate is manually turned by a person, so that the engraving processing of the other side of the cement core plate by the cement core plate engraving tool is carried out. This results in great waste of human resources and low production efficiency.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a turnover machine and an automatic engraving production line for cement core plates comprising the turnover machine, so as to solve the problems.

The aim of the invention is realized by the following technical scheme: the utility model provides a turnover machine, includes the turnover platform, but be provided with at least one self axial pivoted circular support body and be used for driving circular support body pivoted drive assembly on the turnover platform, the fixed supporting component that is provided with mutual parallel arrangement in centre of circular support body and compress tightly the subassembly, be provided with on the subassembly that compresses tightly and be used for driving compressing tightly the subassembly and do the driving piece that is close to or keep away from the supporting component.

The turnover platform is provided with roller groups with the same number as the round frame bodies, each roller group comprises two rollers which are positioned on two sides of the round frame body and are connected with the round frame bodies in a sliding mode, and the rollers are rotatably arranged on the turnover platform.

The driving assembly comprises a first motor arranged on the overturning platform, a first toothed chain is connected with an output shaft of the first motor in a transmission manner, and the first toothed chain is connected with a circular frame in a transmission manner.

The utility model discloses a support assembly, including the backup pad that links to each other with circular support body, backup pad both ends rotate and are provided with the backing roll, two be provided with end to end on the backing roll, encircle the first conveyer belt of backing roll and backup pad, be provided with in the backup pad and be used for driving one of them backing roll pivoted second motor, the hold-down assembly includes the pressure strip, the pressure strip both ends rotate and are provided with the pressure roll, two be provided with end to end on the pressure roll, encircle the second conveyer belt of pressure roll and pressure strip, be provided with on the pressure strip and be used for driving one of them pressure roll pivoted third motor, be provided with the mount on the circular support body, the driving piece is the telescopic cylinder that sets up on the mount, two be connected with the depression bar on the support frame, the depression bar links to each other with the telescopic cylinder, the depression bar links to each other with the pressure strip both sides.

The number of the circular frames is two, the positions of the two circular frames are opposite, two bases are arranged on the fixing frame, the number of the telescopic cylinders is the same as that of the bases and are positioned on one side of the bases, a connecting rod is arranged between the two bases, a lantern ring is arranged on the connecting rod, the lantern ring is rotatably arranged relative to the bases, be provided with three cranks on the lantern ring, one of them the crank end rotates and is provided with the articulated lever, articulated lever keeps away from crank one end and links to each other with the depression bar rotation, two be provided with between the circular support body with base quantity assorted connecting rod, other two the crank links to each other with the connecting rod rotation.

The utility model provides an automatic carving production line of cement core, includes carving material loading district, first sculpture district, upset district, second sculpture district and sculpture unloading district, first sculpture district includes at least one engraver, the second sculpture district includes the engraver with engraver quantity, position assorted in the first sculpture district, be provided with at least one upset machine in the upset district.

The turnover device is characterized in that a turnover slideway is arranged on the turnover area, the turnover machine is arranged on the turnover slideway in a sliding mode, a pulley which is rotatably arranged on the turnover slideway is arranged on the lower side of the turnover platform, and a fourth motor which is used for driving the pulley to rotate is arranged on the turnover platform.

The engraving machine is characterized by further comprising a cloth bag dust collector, wherein a cover body with two open ends is arranged on the outer side of the engraving machine, and the cover bodies are communicated with the cloth bag dust collector.

The engraving feeding area comprises a feeding slide way, the engraving discharging area comprises a discharging slide way, and RGV shuttle vehicles are slidably arranged on the feeding slide way and the discharging slide way.

The feeding chute is characterized in that a plate turnover machine is arranged at the outlet end of the feeding chute and the inlet end of the feeding channel, the plate turnover machine comprises a supporting seat, a tray is rotatably arranged at one end of the supporting seat, and a supporting portion is arranged at one end of the tray.

The beneficial effects of the invention are as follows:

(1) According to the invention, the engraving feeding area, the first engraving area, the turning area, the second engraving area and the engraving blanking area are arranged, so that the whole engraving process automation of the front and back faces of the cement core plate is realized, the turning is not needed to be manually performed, the corresponding manpower is greatly saved, and the production efficiency is improved.

(2) The setting of the turnover machine realizes the automatic turnover of the cement core plate in situ, does not need redundant extra automatic turnover space, greatly saves the occupied area and improves the effective utilization rate of the space.

(3) The cement core board can be transported to the lower carving area while being always pressed up and down, so that the phenomenon of position deviation of the cement core board is avoided.

(4) According to the turnover machine, through the arrangement of the structures such as the connecting rod and the crank, the stress of each point is uniform when the pressing assembly presses, the pressing assembly does not incline when pressing down, and the pressing assembly is always pressed down horizontally.

Drawings

FIG. 1 is a top view of embodiment 1 of the present invention;

FIG. 2 is a first perspective view of the inverter;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is a side view of the inverter;

FIG. 5 is a second perspective view of the inverter;

FIG. 6 is a schematic view of a panel turnover machine;

in the figure, 1-engraving feeding area, 101-feeding slide, 2-first engraving area, 3-turning area, 301-turning slide, 4-second engraving area, 5-engraving discharging area, 501-discharging slide, 6-engraving machine, 7-turning machine, 701-turning platform, 702-round frame, 703-roller, 704-first motor, 705-first toothed chain, 707-support plate, 708-support roller, 709-first conveyor belt, 7010-second motor, 7011-compacting plate, 7012-compacting roller, 7013-second conveyor belt, 7014-third motor, 7015-fixing frame, 7016-telescopic cylinder, 7017-pressing rod, 7018-base, 7019-connecting rod, 7020-collar, 7021-crank, 7022-hinge rod, 7023-connecting rod, 1103-pulley, 7025-fourth motor, 8-bag dust collector, 9-cover, 10-v shuttle, 11-tilting plate, 1102-support bracket, 1101-support bracket, RG12-support plate, 1101-support plate, 12-support plate, RGdisk.

Detailed Description

The technical solutions of the present invention will be clearly and completely described below with reference to the embodiments, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present invention, based on the embodiments of the present invention.

In the following description, the terms "left", "right", "upper", "lower", "front", "rear", "inner" and "outer" are relative terms, and are not intended to be exhaustive.

An automatic engraving production line for cement core boards, referring to fig. 1, comprises an engraving feeding area 1, a first engraving area 2, a turnover area 3, a second engraving area 4 and an engraving discharging area 5 which are sequentially arranged. The engraved feeding section 1 includes a feeding path 101 extending back and forth. The charging channel 101 is provided with an RGV shuttle 10 in a sliding manner. Six engraving machines 6 are uniformly arranged in the first engraving area 2 from front to back. The turning zone 3 is located between the first engraving zone 2 and the second engraving zone 4. The flip zone 3 includes a flip slide 301 extending from front to back. Two turnover machines 7 are slidably arranged on the turnover slide rail 301. Six engraving machines 6 are uniformly arranged in the second engraving area 4 from front to back. The engraving machines 6 in the first engraving area 2 and the engraving machines 6 in the second engraving area 4 are in one-to-one correspondence. The inlet ends of the engraving machines 6 are all provided with plate chain machines. The engraved blanking area 5 is provided with a blanking chute 501 extending from front to back. The discharging channel 501 is provided with an RGV shuttle 10 in a sliding manner.

The operator places the cement core plate 12 in the RGV shuttle 10 at the engraving feeding area 1, and the RGV shuttle 10 conveys the cement core plate 12 to the inlet end of the engraving machine 6 which is idle at the engraving feeding area 1 to engrave the front surface of the cement core plate 12. After the front engraving process is finished, the turnover machine 7 moves to the corresponding engraving machine 6, the cement core plate 12 is conveyed to the turnover machine 7, the turnover machine 7 turns over the cement core plate 12, the reverse side of the cement core plate 12 faces upwards, and then the cement core plate 12 is conveyed to the second engraving area 4. The opposite side of the cement core plate 12 is engraved by the corresponding engraving machine 6 in the second engraving zone 4. After the back side engraving is completed, the cement core board 12 is transported away from this embodiment by the RGV shuttle 10 in the engraving and blanking area 5.

The outer side of the production line is also provided with a cloth bag dust collector 8. A cover body 9 with left and right openings is arranged on the outer side of each engraving machine 6. The bag-type dust collector 8 is communicated with all the cover bodies 9. Impurities are generated when the engraving machine 6 performs engraving processing and are all sucked away by the bag-type dust remover 8.

A turnover machine 7 in a cement core board automatic engraving production line, referring to fig. 2-5, comprises a turnover platform 701. Four pulleys 7024 are arranged on the lower side of the turnover platform 701. Pulley 7024 is slidably disposed at roller flip ramp 301. The flip platform 701 is provided with a fourth motor 7025 for driving the pulley 7024 to rotate.

The turnover platform 701 is provided with two sets of oppositely arranged roller sets. Each roller set includes two rollers 703 rotatably disposed on a flip platform 701. Two rollers 703 are positioned on both sides of the circular frame 702 and slidably connected to the circular frame 702. Two circular frames 702 are connected.

The flip platform 701 is provided with a first motor 704 and a first toothed chain 705. The output of the first motor 704 is meshed with a first toothed chain 705. The first toothed chain 705 is engaged with a rack (rack not shown). The racks are disposed around the circular frame 702 at the left end and the wheels on the vertical bars. The racks engage slots (not shown) on the outer wall of the circular frame 702. When the output end of the first motor 704 works, the first toothed chain 705 is driven to rotate, so that the rack is driven to rotate, and the circular frame 702 is further driven to axially rotate. For those skilled in the art, the structure is a very conventional existing driving rotation structure, similar to the structure of driving the roller to rotate, and realizes the rotation of the circular frame 702 itself, and is not limited to this structure, but the output end of the first motor 704 can be directly meshed with the tooth slot on the outer wall of the circular frame 702, and the output end of the first motor 704 can rotate to also enable the circular frame 702 to rotate axially.

A support plate 707 and a pressure plate 7011 are provided in both of the circular frames 702. The support plate 707 and the pressing plate 7011 are horizontally arranged in parallel, and the support plate 707 is placed under the pressing plate 7011. The support plate 707 is rotatably provided with support rollers 708 at both left and right ends. A first conveyor belt 709 is disposed end to end around two support rollers 708, support plates 707. The side wall of the support plate 707 is provided with a second motor 7010 for driving the support roller 708 to rotate. Pinch roller 7012 is rotatably provided at both right and left ends of the pinch plate 7011. A second conveyor belt 7013 is disposed end-to-end around the two pinch rollers 7012 and pinch plates 7011. The second conveyor belt 7013 has a width that is less than the width of the pinch plate 7011. The side wall of the pinch plate 7011 is provided with a third motor 7014 for driving the pinch roller 7012 to rotate.

A fixing frame 7015 is fixedly arranged on the circular frame body 702. Two telescopic cylinders 7016 and bases 7018 corresponding to the telescopic cylinders 7016 are arranged on the fixing frame 7015. The lower ends of the two telescopic cylinders 7016 are connected with compression rods 7017. The pressing bar 7017 is connected to both side walls of the pressing plate 7011 without contact with the second conveyor belt 7013. A connecting rod 7019 is rotatably provided between the two bases 7018. The connecting rod 7019 is fixedly sleeved with a sleeve 7020. Three cranks 7021 are provided on the collar 7020. For those skilled in the art, the connecting rod 7019 may be fixedly disposed between the two bases 7018, and the collar 7020 may be rotatably sleeved on the connecting rod 7019, so long as the rotation arrangement of the collar 7020 and the bases 7018 is achieved. Of course, it is preferable to rotate the connecting rod 7019 between the two bases 7018, so that the rotation angles of the four collars 7020 are always the same.

One of the crank 7021 ends is rotatably connected with a hinge rod 7022, and the hinge rod 7022 is rotatably connected with a compression bar 7017. Two connecting rods 7023 are arranged between the two circular frames 702. The two links 7023 are in one-to-one correspondence with the two base 7018 positions, respectively. The other two crank 7021 ends are rotatably arranged at the two ends of the connecting rod 7023.

When the cement core sheets 12 are brought between the compacting plates 7011 and the support plates 7012, the telescoping cylinders 7016 are extended, causing the compacting plates 7011 to be depressed and the support plates 7012 to cooperate to clamp the cement core sheets 12. Due to the existence of the connecting rods 7023 and 7019, the expansion cylinder 7016 is ensured to be expanded in synchronous length, so that all stores on the compacting plate 7011 are uniformly stressed and horizontally pressed down in parallel, and an inclined state can not occur. The first motor 704 works, and the circular frame 702 rotates 180 degrees in the axial direction, so that the front and back sides of the cement core plate 12 are turned over. The second motor 7010 and the third motor 7014 operate so that the cement core plate 12 can be conveyed to the second engraving area 4 in a clamped state, and the cement core plate 12 cannot be shifted in position in the conveying process.

Further developments of the invention can be further extended from the above-described embodiments, providing a plurality of novel embodiments.

As a second embodiment of the present invention, referring to fig. 6, both the inlet end of the engraving feeding area 1 and the outlet end of the engraving discharging area 5 are provided with a plate turnover machine 11. The panel turnover machine 11 comprises a support seat 1101. A tray 1102 is arranged in parallel on the upper side of the supporting seat 1101. The tray 1102 and the left end of the supporting seat 1101 are rotatably arranged. The left end of the tray 1102 is provided with a support portion 1103.

The cement core plates 12 are conveyed onto the tray 1102, and the tray 1102 rotates, so that the cement core plates 12 are changed from a parallel state to a vertical state, and the cement core plates are convenient to carry or feed manually without manual rotation angle.

The foregoing is merely a preferred embodiment of the invention, and it is to be understood that the invention is not limited to the form disclosed herein but is not to be construed as excluding other embodiments, but is capable of numerous other combinations, modifications and environments and is capable of modifications within the scope of the inventive concept, either as taught or as a matter of routine skill or knowledge in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims (10)

1. The utility model provides a turnover machine, includes upset platform (701), its characterized in that, be provided with at least one self axial pivoted circular support body (702) and be used for driving circular support body (702) pivoted drive assembly on upset platform (701), the fixed supporting component and the compressing tightly subassembly that are provided with mutual parallel arrangement in centre of circular support body (702), be provided with on the compressing tightly subassembly and be used for driving compressing tightly the subassembly and do the driving piece that is close to or keep away from supporting component.

2. A tilter as claimed in claim 1, wherein: the turnover platform (701) is provided with roller groups the same as the round frame bodies (702) in number, each roller group comprises two rollers (703) which are arranged on two sides of the round frame body (702) and are connected with the round frame bodies (702) in a sliding mode, and the rollers (703) are rotatably arranged on the turnover platform (701).

3. A tilter as claimed in claim 1, wherein: the driving assembly comprises a first motor (704) arranged on the overturning platform (701), a first toothed chain (705) is connected to an output shaft of the first motor (704) in a transmission mode, and the first toothed chain (705) is connected with the circular frame body (702) in a transmission mode.

4. A tilter as claimed in claim 1, wherein: the supporting component comprises a supporting plate (707) connected with a circular frame body (702), supporting rollers (708) are rotatably arranged at two ends of the supporting plate (707), first conveying belts (709) which are connected end to end and encircle the supporting rollers (708) and the supporting plate (707) are arranged on the supporting rollers (708), a second motor (7010) for driving one of the supporting rollers (708) to rotate is arranged on the supporting plate (707), the compressing component comprises a compressing plate (7011), compressing rollers (7012) are rotatably arranged at two ends of the compressing plate (7011), two be provided with end to end on pinch roller (7012), encircle second conveyer belt (7013) of pinch roller (7012) and pinch roller (7011), be provided with on pinch roller (7011) and be used for driving one of them pinch roller (7012) pivoted third motor (7014), be provided with mount (7015) on circular support body (702), the driving piece is telescopic cylinder (7016) of setting on mount (7015), two be connected with depression bar (7017) on support frame (7015), depression bar (7017) links to each other with telescopic cylinder (7016), depression bar (7017) links to each other with pinch roller (7011) both sides.

5. A tilter as claimed in claim 4, wherein: circular support body (702) quantity is two, two circular support body (702) position is relative, be provided with two bases (7018) on mount (7015), flexible jar (7016) quantity is the same and all is located base (7018) one side with base (7018) quantity, two be provided with connecting rod (7019) between base (7018), be provided with lantern ring (7020) on connecting rod (7019), lantern ring (7020) rotate setting for base (7019), be provided with three crank (7021) on lantern ring (7020), one of them crank (7021) end rotates and is provided with articulated lever (7022), articulated lever (7022) keep away from crank (7021) one end and rotate with depression bar (7017) and link, two be provided with between circular support body (702) connecting rod (7023) with base (7018) quantity assorted, two in addition crank (7021) rotate with connecting rod (7023) and link.

6. An automatic engraving production line for cement core boards comprising the turnover machine according to any one of claims 1 to 5, which is characterized by comprising an engraving feeding area (1), a first engraving area (2), a turnover area (3), a second engraving area (4) and an engraving discharging area (5), wherein the first engraving area (2) comprises at least one engraving machine (6), the second engraving area (4) comprises engraving machines (6) with the number and the positions of the engraving machines (6) in the first engraving area (2) which are matched, and at least one turnover machine (7) is arranged in the turnover area (3).

7. The automatic engraving line of claim 6, wherein: the turnover device is characterized in that a turnover slideway (301) is arranged on the turnover area (3), the turnover machine (7) is arranged on the turnover slideway (301) in a sliding mode, a pulley (7024) which is rotatably arranged on the turnover slideway (301) is arranged on the lower side of the turnover platform (701), and a fourth motor (7025) which is used for driving the pulley (7024) to rotate is arranged on the turnover platform (701).

8. The automatic engraving line of claim 6, wherein: the engraving machine is characterized by further comprising a cloth bag dust collector (8), a cover body (9) with two open ends is arranged on the outer side of the engraving machine (6), and the cover body (9) is communicated with the cloth bag dust collector (8).

9. The automatic engraving line of claim 6, wherein: the engraving feeding area (1) comprises a feeding slide way (101), the engraving discharging area (5) comprises a discharging slide way (501), and RGV shuttle vehicles (10) are slidably arranged on the feeding slide way (101) and the discharging slide way (501).

10. The automatic engraving line of claim 9, wherein: the blanking slideway (501) outlet end and the feeding channel (101) inlet end are provided with a plate turnover machine (11), the plate turnover machine (11) comprises a supporting seat (1101), one end of the supporting seat (1101) is rotatably provided with a tray (1102), and one end of the tray (1102) is provided with a supporting part (1103).