CN218431898U - Stepping device for artificial plate stack bundling machine - Google Patents

Abstract

The utility model relates to an artificial board buttress equipment for packing technical field specifically is a device of stepping down about artificial board buttress bundling machine. The structure includes: synchronous belt, skid, conveying trough, cylinder, guide rail slide block pair, trough frame, motor, crossbeam, gallows, bundle head, lift groove are constituteed. The technical scheme is as follows: when the groove frame is in an ejecting state, the motor drives the beam connecting frame to enable the beam to move; the lower end of the cross beam is connected with a hanging bracket, and the hanging brackets on the left side and the right side are respectively provided with the same support plate and a guide rail sliding block pair; the motor drives the synchronous belt to move, so that the skid moves into the lifting groove from the conveying groove, and the air cylinders and the guide rail sliding block pairs are arranged on the left side and the right side of the lifting groove; the guide rail sliding block pair is driven by the cylinder to move, so that the groove frames are in a withdrawing state, and all the groove frames form a passage. The utility model discloses can satisfy two processes of beating bundle packing and accomplish on a bundling machine, two guide rail slide pair improve advantages such as motion stationarity in lift groove.

Description

Stepping device for artificial plate stack bundling machine

Technical Field

The utility model relates to an artificial board buttress equipment for packing technical field specifically is a device of stepping down about artificial board buttress bundling machine.

Background

The artificial board finished product bundling is the last process of the artificial board production line, and after the artificial board is processed, the artificial board needs to be bundled for storage, transportation and sale, and the bundling of the packaging needs to meet the international or national standard. At present, in domestic enterprises, artificial boards are mostly bundled manually, the labor intensity of workers is high, the working environment is severe, the bundling effect is poor, the production efficiency is low, the improvement of the yield and the packaging quality of the artificial boards is severely restricted, and the domestic artificial board enterprises can not compete with the foreign excellent artificial board enterprises.

At present, a semi-automatic bundling machine is basically adopted by the artificial board stack bundling production line in China to bundle and package the artificial board stack. However, because the artificial paddings need to be manually put into the artificial paddings to perform subsequent bundling when manual bundling is performed, one bundling process is completed by two steps, so that the bundling efficiency is low, the bundling quality is not high, the phenomena of bundle scattering, number mixing, bundle loosening and the like of artificial board stacks can be generated, and the economic benefit of artificial board stacking, bundling and packaging is seriously influenced by the phenomena. Therefore, the yield device for the artificial board stack bundling machine is a key device for automatically completing the procedures of putting the paddings and bundling according to the packaging sequence and pursuing larger artificial board yield, artificial board stack packaging quality and larger economic benefit.

SUMMERY OF THE UTILITY MODEL

In view of this, in order to reduce the time of bundling and packaging the artificial board stack and improve the packaging quality of the artificial board stack, a yield device for the artificial board stack bundling machine is further provided. The utility model adopts the following technical proposal: a stepping device for an artificial plate stack bundling machine comprises a synchronous belt, a synchronous belt head, a push plate, a skid, a conveying groove, a cylinder I, a cylinder connecting frame, a guide rail sliding block pair I, a groove frame I, a rack, a groove frame II, a motor I, a cross beam connecting frame, a hanging frame I, a hanging frame II, a cylinder II, a support plate, a guide rail sliding block pair II, a groove frame II, a bundling head, a motor II, a lifting groove, a cylinder III, a cylinder IV, a guide rail sliding block pair III and a guide rail sliding block pair IV; when the groove frame I is in a popup state, namely the groove frame I and a groove frame III fixedly connected with the rack do not form a passage, the machine is at an initial position, after the artificial board stack reaches a designated working area, the cross beam connecting frame is driven by the motor I to enable the cross beam to move up and down along the rack, the lower end of the cross beam is connected with a hanger I, the lower end of the hanger I is connected with a hanger II, the hangers II are distributed on the left side and the right side of the bundling head, the same support plate and a guide rail sliding block pair II are respectively arranged on the hangers II on the left side and the right side, and the support plate is driven by the air cylinder II to move on the guide rail sliding block pair II; when the cross beam moves downwards until the support plate is close to the artificial plate stack, the cross beam stops moving, so that a passage is formed between the frame II and a groove frame III fixedly connected with the rack; the synchronous belt is driven by the motor II to move, and the synchronous belt head is driven to move, so that the push plate is driven to move, the skid can move in the conveying groove, and the skid is conveyed into the lifting groove by the push plate; the left side of the lifting groove is provided with an air cylinder III and a guide rail sliding block pair III, the right side of the lifting groove is provided with an air cylinder IV and a guide rail sliding block pair IV, the left side of the lifting groove is driven by the air cylinder III to move the guide rail sliding block pair III, and simultaneously the right side of the lifting groove is driven by the air cylinder IV to move the guide rail sliding block pair IV so that the lifting groove does ascending movement; one end of the cylinder connecting frame is fixedly connected to the rack, the other end of the cylinder connecting frame is fixedly connected to the cylinder I, the guide rail sliding block pair I is driven by the cylinder I to do retraction movement, so that the groove frame I and a groove frame III fixedly connected to the rack form a passage, the groove frame I is in a retraction state at the moment, and the groove frame I, the groove frame II and the groove frame III on the machine form an annular passage; and finally, cutting off the binding belt by the binding head, finishing the binding work, returning each mechanism to the initial position, and starting to prepare the next binding and packaging work.

The utility model provides a device of stepping down about artificial plate buttress bundling machine has following beneficial effect:

1. III vice III devices of cylinder III drive rail block and the vice IV device of cylinder IV drive rail block distribute in the left and right sides in lift groove respectively, and two device simultaneous movement and velocity of motion are the same, can guarantee the stationarity that the lift groove rises or descends, have avoided the motion of a device of independent control, cause the possibility of lift groove slope, have guaranteed work efficiency and economic benefits to a certain extent.

2. Two states that slot frame I popped out and withdrawed can realize putting into the lumber skid and beating two processes of bundle packing and accomplish on a machine for the overall structure of machine is simple, and technical cost is not high, has higher price/performance ratio, better security, and satisfy the operation requirement of beating bundle packing of artificial board buttress.

3. The skid can change the requirement of different length in order to satisfy the wood-based plate buttress bundle packing of different specifications, can improve bundling machine's the flexibility of bundling the packing, enlarge bundling machine's use scene for bundling machine's economic suitability can be better.

Description of the drawings:

the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a yielding device of an artificial plate stack bundling machine according to the present invention;

FIG. 2 is a front view of a yielding device of an artificial plate stack bundling machine according to the present invention;

FIG. 3 is an isometric view of a hanger mechanism in the abdicating device of the artificial plate stack bundling machine according to the present invention;

FIG. 4 is a schematic structural view of a step-giving mechanism of the step-giving device of the artificial plate stack bundling machine according to the present invention;

the corresponding relationship between the part names and the figure numbers in the figures is as follows:

1-synchronous belt; 2-synchronous belt head; 3-pushing the plate; 4-skid; 5-a conveying trough; 6-cylinder I; 7-a cylinder connecting frame; 8-a guide rail sliding block pair I; 9-a slot frame I; 10-a frame; 11-tank frame III; 12-motor I; 13-a cross beam; 14-beam connection frame; 15-hanger I; 16-hanger II; 17-cylinder II; 18-a bracket plate; 19-guide rail sliding block pair II; 20-tank frame ii; 21-a baling head; 22-motor II; 23-a lifting groove; 24-cylinder III; 25-cylinder IV; 26-guide rail slide block pair III; 27-guide rail slide block pair IV; 28-artificial board pile.

Detailed Description

Example (b): referring to fig. 1-4, the embodiment is a yielding device of an artificial plate stack bundling machine, which comprises a synchronous belt 1, a synchronous belt head 2, a push plate 3, a skid 4, a conveying groove 5, a cylinder i 6, a cylinder connecting frame 7, a guide rail sliding block pair i 8, a groove frame i 9, a rack 10, a groove frame iii 11, a motor i 12, a cross beam 13, a cross beam connecting frame 14, a hanger i 15, a hanger ii 16, a cylinder ii 17, a support plate 18, a guide rail sliding block pair ii 19, a groove frame ii 20, a bundling head 21, a motor ii 22, a lifting groove 23, a cylinder iii 24, a cylinder iv 25, a guide rail sliding block pair iii 26 and a guide rail sliding block pair iv 27; when the slot frame I9 is in a popup state, namely the slot frame I9 and a slot frame III 11 fixedly connected with the rack 10 do not form a passage, the machine is in an initial position at the moment, after the artificial board stack 28 reaches a designated working area, the cross beam connecting frame 14 is driven by the motor I12, so that the cross beam 13 can move up and down along the rack 10, the lower end of the cross beam 13 is connected with the hanger I15, the lower end of the hanger I15 is connected with the hanger II 16, the hangers II 16 are distributed on the left side and the right side of the bundling head 21, the same support plate 18 and the guide rail slider pair II 19 are respectively installed on the hangers II 16 on the left side and the right side of the bundling head 21, and the air cylinder II 17 drives the support plate 18 to move on the guide rail slider pair II 19; when the cross beam 13 moves downwards until the bracket plate 18 is close to the artificial plate stack 28, the cross beam 13 stops moving, so that the groove frame II 20 and the groove frame III 11 fixedly connected to the machine frame 10 form a passage; the synchronous belt 1 is driven to move by the motor II 22, and the synchronous belt head 2 is driven to move, so that the push plate 3 is driven to move, the skid 4 can move in the conveying groove 5, and the skid 4 is conveyed into the lifting groove 23 by the push plate 3; an air cylinder III 24 and a guide rail sliding block pair III 26 are arranged on the left side of the lifting groove 23, an air cylinder IV 25 and a guide rail sliding block pair IV 27 are arranged on the right side of the lifting groove 23, the air cylinder III 24 drives the guide rail sliding block pair III 26 to move on the left side of the lifting groove, and meanwhile, the air cylinder IV 25 drives the guide rail sliding block pair IV 27 to move on the right side of the lifting groove 23, so that the lifting groove 23 is lifted; one end of the cylinder connecting frame 7 is fixedly connected to the rack 10, the other end of the cylinder connecting frame is fixedly connected to the cylinder I6, the guide rail sliding block pair I8 is driven by the cylinder I6 to do retraction movement, so that the groove frame I9 and a groove frame III 11 fixedly connected to the rack 10 form a passage, at the moment, the groove frame I9 is in a retraction state, and the groove frame I9, a groove frame II 20 and the groove frame III 11 on the machine form an annular passage; and the bundling machine enters a bundling stage, bundling belts are filled in the slot frame I9, the slot frame II 20 and the slot frame III 11, and bundling packaging of the artificial board stack 28 is started.

When the slot frame I9 is in the popping state, the slot frame I9 and the slot frame III 11 fixedly connected to the rack 10 do not form a passage at the moment, but the slot frame II 20 and the slot frame III 11 fixedly connected to the rack 10 form a passage, so that the lifting slot 23 rises, the skid 4 is conveyed upwards, when the slot frame I9 is in the withdrawing state, the slot frame I9, the slot frame II 20 and the slot frame III 11 fixedly connected to the rack 10 form a passage at the moment, and the bundling belt can be conveyed into an annular passage formed by the slot frame I9, the slot frame II 20 and the slot frame III 11.

The left side of the lifting groove 23 is provided with a cylinder III 24 driving guide rail sliding block pair III 26 device, the right side is provided with a cylinder IV 25 driving guide rail sliding block pair IV 27 device, the installation methods and the positions of the guide rail sliding block pair III 26 and the guide rail sliding block pair IV 27 on the left side and the right side of the lifting groove 23 are consistent and move simultaneously, one end of the guide rail sliding block pair III 26 mechanism is fixedly connected to the rack 10, the other end of the guide rail sliding block pair III 26 mechanism is connected with the lifting groove 23, and the cylinder III 24 drives the guide rail sliding block pair III 26 to move so that the lifting groove 23 can do vertical reciprocating linear motion.

Although the embodiments of the present invention are described above, the contents thereof are merely embodiments adopted to facilitate understanding of the technical aspects of the present invention, and are not intended to limit the present invention. Any person skilled in the art to which the invention pertains can make modifications and changes in the form and details of implementation without departing from the core technical solution disclosed in the present invention, but the scope of protection defined by the present invention must still be subject to the scope defined by the appended claims.

Claims (3)

1. The utility model provides a device of stepping down about artificial plate pile bundling machine which characterized in that: the device comprises a synchronous belt (1), a synchronous belt head (2), a push plate (3), a skid (4), a conveying groove (5), a cylinder I (6), a cylinder connecting frame (7), a guide rail slider pair I (8), a groove frame I (9), a rack (10), a groove frame III (11), a motor I (12), a cross beam (13), a cross beam connecting frame (14), a hanging bracket I (15), a hanging bracket II (16), a cylinder II (17), a support plate (18), a guide rail slider pair II (19), a groove frame II (20), a bundling head (21), a motor II (22), a lifting groove (23), a cylinder III (24), a cylinder IV (25), a guide rail slider pair III (26) and a guide rail slider pair IV (27); when the groove frame I (9) is in a popup state, namely the groove frame I (9) and a groove frame III (11) fixedly connected to the rack (10) do not form a passage, the machine is at an initial position, after an artificial plate stack (28) reaches a designated working area, the cross beam connecting frame (14) is driven by the motor I (12) to enable the cross beam (13) to move up and down along the rack (10), the lower end of the cross beam (13) is connected with a hanger I (15), the lower end of the hanger I (15) is connected with a hanger II (16), the hanger II (16) is distributed on the left side and the right side of a bundling head (21), a support plate (18) and a guide rail slider pair II (19) are mounted on the hanger II (16), and the air cylinder II (17) drives the support plate (18) to move on the guide rail slider pair II (19); when the cross beam (13) moves downwards until the support plate (18) is close to the artificial plate stack (28), the cross beam (13) stops moving, so that a channel is formed between the channel frame II (20) and a channel frame III (11) fixedly connected to the rack (10); the synchronous belt (1) is driven to move by the motor II (22), the synchronous belt head (2) is driven to move, and the push plate (3) is driven to move, so that the skid (4) can move in the conveying groove (5), and the skid (4) is conveyed into the lifting groove (23) by the push plate (3); an air cylinder III (24) and a guide rail sliding block pair III (26) are arranged on the left side of a lifting groove (23), an air cylinder IV (25) and a guide rail sliding block pair IV (27) are arranged on the right side of the lifting groove (23), the air cylinder III (24) drives the guide rail sliding block pair III (26) to move on the left side of the lifting groove (23), and meanwhile, the air cylinder IV (25) drives the guide rail sliding block pair IV (27) to move on the right side of the lifting groove (23), so that the lifting groove (23) is lifted; one end of a cylinder connecting frame (7) is fixedly connected to a rack (10), the other end of the cylinder connecting frame is fixedly connected to a cylinder I (6), under the driving of the cylinder I (6), a guide rail sliding block pair I (8) is made to retract, so that a channel is formed between a groove frame I (9) and a groove frame III (11) fixedly connected to the rack (10), the groove frame I (9) is in a retracting state, an annular channel is formed between the groove frame I (9) and the groove frame II (20) on the machine and between the groove frame III (11), and the bundling machine starts to bundle and package the artificial board pile (28).

2. The concession device for an artificial plate pile baler according to claim 1, wherein: when the groove frame I (9) is in a pop-up state, the groove frame I (9) and the groove frame III (11) fixedly connected to the rack (10) do not form a passage at the moment, but the groove frame II (20) and the groove frame III (11) fixedly connected to the rack (10) form a passage, so that the lifting groove (23) rises, the skid (4) is conveyed upwards, when the groove frame I (9) is in a withdrawing state, the groove frame I (9), the groove frame II (20) and the groove frame III (11) fixedly connected to the rack (10) form a passage at the moment, and the bundling belt can be conveyed into an annular passage formed by the groove frame I (9), the groove frame II (20) and the groove frame III (11).

3. The concession device for an artificial plate pile baler according to claim 1, wherein: the left side of the lifting groove (23) is provided with a cylinder III (24) driving guide rail sliding block pair III (26) device, the right side is provided with a cylinder IV (25) driving guide rail sliding block pair IV (27) device, one end of the guide rail sliding block pair III (26) mechanism is fixedly connected to the rack (10), the other end of the guide rail sliding block pair III (26) mechanism is connected with the lifting groove (23), and the cylinder III (24) driving guide rail sliding block pair III (26) moves to enable the lifting groove (23) to do vertical reciprocating linear motion.

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