CN220033217U - Automatic discharging device for single-layer veneering production line - Google Patents

Abstract

The utility model discloses an automatic blanking device for a single-layer veneering production line, which comprises a frame, wherein a material receiving overturning bracket is arranged on the frame, the material receiving overturning bracket comprises two bracket bodies which are respectively arranged at two sides of a material conveying direction, and the bracket bodies move in a left horizontal state and a vertical state under the driving of a power mechanism to enable a plate material to fall onto a material receiving tray which is arranged below the frame in advance.

Description

Automatic discharging device for single-layer veneering production line

Technical Field

The utility model belongs to the technical field of plate-type furniture manufacturing equipment, and particularly relates to an automatic blanking device for a single-layer veneering production line.

Background

The single face is pasted and is one kind is passed through roller coat and roll-in mode, with the laminating of board-like furniture facial tissue and panel to reach the equipment of panel veneer effect, all need to carry out the wainscot in the production process of most plywood, the structure of wainscot hot press is known, and the equipment that this enterprise purchased is the equipment commonly used on the market, and it still needs the manual work to put the sheet material that conveys in proper order on transfer equipment in the end of assembly line in the production process, and is uneconomical and intensity of labour is big on the cost.

This enterprise is in order to improve the automation level of enterprise, especially provides an automatic unloader that can alleviate manual labor volume.

Disclosure of Invention

The utility model aims to provide an automatic blanking device for a single-layer veneering production line, which solves the defects of the prior art.

The technical scheme adopted by the utility model is as follows: the utility model provides an automatic unloader that individual layer wainscot production line was used, includes the frame be equipped with in the frame and connect the material upset support, connect the material upset support including setting up two support bodies in material delivery path direction both sides respectively, the support body is the motion under the power unit drive under two states of level and perpendicular and realizes that the sheet material falls into and set up in advance on the receiving tray of frame below.

Further, the bracket body comprises a rotary rod, the rotary rod can rotate around the central line of the rotary rod, and the length direction of the rotary rod is consistent with the direction of the material conveying path;

a plurality of receiving rollers for bearing the plate are arranged along the length direction of the receiving rollers and close to one side of the plate, and the receiving rollers can rotate around the axis of the receiving rollers;

the tail end of the rotary rod is provided with a rotary connecting piece, and a piston rod of the rotary cylinder is connected to the rotary connecting piece and drives the rotary rod to rotate.

Further, two upper frames are arranged side by side in the feeding and conveying direction of the materials at the top of the frame, and the plates enter the top space of the frame from the upper frames;

the cylinder body of the rotary cylinder is arranged on the upper frame.

Further, one of the bracket bodies can transversely move in the material movement direction under the action of the transverse adjusting mechanism.

Further, the transverse adjusting mechanism comprises first moving frames which are respectively arranged on the cross beams at the top of the upper frame, the tops of the cross beams are provided with first sliding rails, and the first moving frames are provided with first matched guide sliding blocks;

the shaft is connected between the two first movable frames, and a first adjusting hand wheel is arranged at the tail end of the shaft;

a rack is arranged on the lower surface of the cross beam, and a gear meshed with the rack is arranged on the shaft;

the first sliding rail and the rack are arranged in parallel and perpendicular to the direction of the material conveying path;

both ends of the rotating rod are mounted below the first moving frame.

Further, the plate arranging device further comprises a plate arranging assembly for orderly stacking the plates when the plates fall down.

Further, the board arrangement assembly comprises a board end arrangement assembly, a board side arrangement assembly and a backer correspondingly arranged on the frame, wherein the backer is arranged opposite to the board end arrangement assembly and the board side arrangement assembly.

Further, the plate end tidying assembly comprises a second movable frame, wherein the second movable frame is arranged at the top of an upper frame connecting rod for connecting the two upper frames;

the top of the upper frame connecting rod is provided with a second sliding rail consistent with the upper frame connecting rod along the length direction, and the second moving frame is provided with a corresponding second guide sliding block;

the bottom of the upper frame connecting rod is provided with a screw rod consistent with the screw rod along the length direction, and two ends of the screw rod are respectively arranged on a support fixed at the bottom of the upper frame connecting rod in advance;

the screw rod is provided with a movable nut, and the outer side of the movable nut is fixed on the second movable frame to drive the second movable frame to move together;

a supporting side plate is arranged below the second movable frame, a first air cylinder is arranged behind the supporting side plate, and a piston rod of the first air cylinder passes forward through the supporting side plate body and then is provided with a first push plate;

and a second adjusting hand wheel is arranged at the tail end of the screw rod.

Further, the board side arrangement assembly comprises 2 groups of second air cylinders which are arranged on one side of the material conveying path in parallel, a second push plate is arranged on the head of each second air cylinder, and a piston rod of each second air cylinder faces one side of the material conveying path.

The scheme has the following beneficial effects

The blanking device is arranged at the rear end of the single-layer veneering production line, achieves automatic blanking of the veneers, achieves automatic blanking of the single-layer veneers, saves labor, improves production efficiency of the whole process, and improves stability of productivity of the single-layer veneering process.

Drawings

FIG. 1 is an overall schematic of the present utility model;

FIG. 2 is a schematic view of another view of the present utility model;

FIG. 3 is a side view of the overall structure of the present utility model;

FIG. 4 is a block diagram of a material receiving turnover bracket with adjustable transverse position and a transverse adjusting mechanism of the utility model;

FIG. 5 is a schematic view of a fixed position material receiving flip bracket of the present utility model;

FIG. 6 is a block diagram of a lateral adjustment mechanism of the present utility model;

FIG. 7 is a schematic view of a frame structure of the present utility model;

FIG. 8 is a block diagram of a sheet finishing assembly of the present utility model;

FIG. 9 is an internal structural view of the sheet finishing assembly of the present utility model;

wherein:

1-a frame, 2-a material receiving overturning bracket, 3-a plate end finishing assembly and 4-a plate side finishing assembly;

1 a-upper frame and 1 a-1-upper frame connecting rod;

1-1-first slide rail, 1-2-mountain rest, 1-3-rack and 1-4-second slide rail;

2-1-supporting plates;

2 a-a bracket body and 2 b-a transverse adjusting mechanism;

2 aa-rotating rod, 2 ab-receiving roller, 2 ac-rotating connector, 2 ad-rotating cylinder;

2 ba-a first regulating hand wheel, 2 bb-a shaft, 2 bc-a first moving frame, 2 bd-a gear and 2 be-a first guide slide block;

2 bca-extension board;

the device comprises a 3 a-second movable frame, a 3 b-second regulating hand wheel, a 3 c-supporting side plate, a 3 d-first cylinder, a 3 e-first push plate, a 3 f-screw rod and a 3 g-support;

3 a-1-second guide slide block and 3 a-2-movable nut;

4-1-second push plate, 4-2-second cylinder.

Detailed Description

In order to further describe the technical means and effects adopted by the utility model for achieving the preset aim, the following detailed description is given below of the specific implementation, structure, characteristics and effects according to the utility model with reference to the attached drawings and the preferred embodiment.

Referring to fig. 1 to 2, an automatic blanking device for a single-layer veneering production line comprises a frame 1, wherein a material receiving overturning bracket 2 is arranged on the frame 1, the material receiving overturning bracket 2 comprises two bracket bodies 2a which are respectively arranged at two sides of a material conveying path direction, the bracket bodies 2a are driven by a power mechanism to move horizontally and vertically to realize that a sheet material falls into a material receiving tray which is arranged below the frame 1 in advance, the blanking device is arranged at the rear end of the single-layer veneering production line, the automatic blanking device for finishing veneering of the sheet material is realized, the automatic blanking of the single-layer veneering is realized, one labor is saved, the production efficiency of the whole process is improved, and the stability of the single-layer veneering process is improved.

Please refer to fig. 3 to 5: the bracket body 2a comprises a rotary rod 2aa, the rotary rod 2aa is rectangular, the rotary rod 2aa can rotate around the central line of the rotary rod, and the length direction of the rotary rod 2aa is consistent with the direction of the material conveying path;

a plurality of receiving rollers 2ab for bearing the plate are arranged along the length direction of the receiving rollers and close to one side of the plate, the receiving rollers 2ab can be divided into a plurality of independent modules, the receiving rollers 2ab can rotate around the axis of the receiving rollers, the plate is conveyed in from the upstream, the plate moves forwards on the receiving rollers 2ab under the action of forward thrust, and when the whole plate falls onto the support body 2a, the support body 2a slowly rotates downwards under the drive of a power mechanism and falls onto a receiving tray under the action of gravity;

a rotary connector 2ac is provided at the end of the rotary rod 2aa, and a piston rod of the rotary cylinder 2ad is connected to the rotary connector 2ac and drives the rotary rod 2aa to rotate.

Referring to fig. 1 to 4, two upper frames 1a arranged side by side are arranged in the material feeding and conveying direction at the top of the frame 1, and the plate material enters the top space of the frame 1 from the upper frames 1 a;

the cylinder body of the revolving cylinder 2ad is mounted on the upper frame 1a, and the upper frame 1a is provided for the purpose of facilitating the mounting of other components and providing more supporting space.

One of the support bodies 2a can move transversely in the material movement direction under the action of the transverse adjusting mechanism 2b, and the purpose of the arrangement is to facilitate adaptation to plates with different widths.

Referring to fig. 4 and 6, the transverse adjusting machine 2b includes a first moving frame 2bc respectively disposed on a cross beam at the top of the upper frame 1a, a first sliding rail 1-1 is disposed at the top of the cross beam, and a first guiding sliding block 2be matched with the first moving frame 2bc is disposed on the first moving frame 2 bc;

the shaft 2bb is connected between the two first movable frames 2bc, and a first regulating hand wheel 2ba is arranged at the tail end of the shaft 2 bb;

a rack 1-3 is arranged on the lower surface of the cross beam, and a gear 2bd meshed with the rack 1-3 is arranged on the shaft 2 bb;

the first sliding rail 1-1 and the rack 1-3 are arranged in parallel and perpendicular to the direction of the material conveying path.

Both ends of the rotating lever 2aa are attached to an extension plate 2bca below the first moving frame 2 bc.

The first adjusting hand wheel 2ba is rotated to drive the gear 2bd to rotate, so that the transverse adjustment is realized along the transverse movement of the rack 1-3 to adapt to plates with different widths.

Referring to fig. 5 and 7, in order to finish the boards, the board finishing assembly further includes a board finishing assembly for piling up the boards when the boards fall down.

The plate arranging assembly comprises a plate end arranging assembly 3, a plate side arranging assembly 4 and backers 1-2 which are correspondingly arranged on the frame, wherein the backers 1-2 are arranged opposite to the plate end arranging assembly 3 and the plate side arranging assembly 4.

Referring to fig. 8 and 9, the plate end finishing group 3 includes a second moving frame 3a, and the second moving frame 3a is installed on top of an upper frame link 1a-1 connecting two upper frames 1 a;

the top of the upper frame connecting rod 1a-1 is provided with a second sliding rail 1-4 consistent with the upper frame connecting rod along the length direction, and the second movable frame 3a is provided with a corresponding second guide sliding block 3a-1;

the bottom of the upper frame connecting rod 1a-1 is provided with a screw rod 3f consistent with the screw rod along the length direction, and two ends of the screw rod 3f are respectively arranged on a support 3g which is fixed at the bottom of the upper frame connecting rod 1a-1 in advance;

the screw rod 3f is provided with a movable nut 3a-2, and the outer side of the movable nut 3a-2 is fixed on the second movable frame 3a to drive the second movable frame 3a to move together;

a supporting side plate 3c is arranged below the second movable frame 3a, a first air cylinder 3d is arranged behind the supporting side plate 3c, a piston rod of the first air cylinder 3d passes forward through the supporting side plate 3c body and then is provided with a first push plate 3e, and a mountain rest 1-2 is arranged opposite to the first push plate 3 e;

the tail end of the screw rod 3f is provided with a second adjusting hand wheel 3b, and the distance between the first push plate 3e and the leaning hill 1-2 can be adjusted to adapt to plates with different lengths by adjusting the second adjusting hand wheel 3 b.

Referring to fig. 2 and 7, the board side arranging assembly 4 includes 2 sets of second cylinders 4-2 disposed in parallel on one side of the material conveying path, a second pushing plate 4-1 is disposed on the head of the second cylinders 4-2, a piston rod of the second cylinders 4-2 faces one side of the material conveying path, and a backer 1-2 is disposed on the opposite side of the second pushing plate 4-1.

Although the present utility model has been described in terms of the preferred embodiments, it should be understood that the present utility model is not limited to the specific embodiments, but is capable of numerous modifications and equivalents, and alternative embodiments and modifications of the embodiments described above, without departing from the spirit and scope of the present utility model.

Claims (9)

1. An automatic unloader that individual layer wainscot production line used which characterized in that: the material receiving overturning device comprises a frame, wherein a material receiving overturning bracket is arranged on the frame and comprises two bracket bodies which are respectively arranged at two sides of the direction of a material conveying path, and the bracket bodies are driven by a power mechanism to move in horizontal and vertical states so as to enable a plate material to fall onto a material receiving tray which is arranged below the frame in advance.

2. An automatic blanking device for a single-layer veneering production line as recited in claim 1, wherein: the support body comprises a rotary rod which can rotate around the central line of the rotary rod, and the length direction of the rotary rod is consistent with the direction of the material conveying path;

a plurality of receiving rollers for bearing the plate are arranged along the length direction of the receiving rollers and close to one side of the plate, and the receiving rollers can rotate around the axis of the receiving rollers;

the tail end of the rotary rod is provided with a rotary connecting piece, and a piston rod of the rotary cylinder is connected to the rotary connecting piece and drives the rotary rod to rotate.

3. An automatic blanking device for a single-layer veneering production line as recited in claim 2, wherein: two upper frames arranged side by side are arranged in the material feeding and conveying direction at the top of the frame, and plates enter the top space of the frame from the upper frames;

the cylinder body of the rotary cylinder is arranged on the upper frame.

4. An automatic blanking apparatus for a single-layer veneer manufacturing line according to claim 3, wherein: one of the support bodies can transversely move in the material movement direction under the action of a transverse adjusting mechanism.

5. An automatic blanking device for a single-layer veneering production line as recited in claim 4, wherein: the transverse adjusting mechanism comprises first movable frames which are respectively arranged on a cross beam at the top of the upper frame, a first sliding rail is arranged at the top of the cross beam, and a first matched guide sliding block is arranged on the first movable frames;

the shaft is connected between the two first movable frames, and a first adjusting hand wheel is arranged at the tail end of the shaft;

a rack is arranged on the lower surface of the cross beam, and a gear meshed with the rack is arranged on the shaft;

the first sliding rail and the rack are arranged in parallel and perpendicular to the direction of the material conveying path;

both ends of the rotating rod are mounted below the first moving frame.

6. An automatic blanking device for a single-layer veneering production line as recited in claim 5, wherein: the plate arranging device further comprises a plate arranging assembly for orderly stacking the plates when the plates fall down.

7. An automatic blanking apparatus for a single-layer veneer manufacturing line as claimed in claim 6, wherein: the plate sorting assembly comprises a plate end sorting assembly, a plate side sorting assembly and a backer which is correspondingly arranged on the frame, and the backer is arranged opposite to the plate end sorting assembly and the plate side sorting assembly.

8. An automatic blanking apparatus for a single-layer veneer manufacturing line as claimed in claim 7, wherein: the plate end tidying assembly comprises a second movable frame, and the second movable frame is arranged at the top of an upper frame connecting rod for connecting the two upper frames;

the top of the upper frame connecting rod is provided with a second sliding rail consistent with the upper frame connecting rod along the length direction, and the second moving frame is provided with a corresponding second guide sliding block;

the bottom of the upper frame connecting rod is provided with a screw rod consistent with the screw rod along the length direction, and two ends of the screw rod are respectively arranged on a support fixed at the bottom of the upper frame connecting rod in advance;

the screw rod is provided with a movable nut, and the outer side of the movable nut is fixed on the second movable frame to drive the second movable frame to move together;

a supporting side plate is arranged below the second movable frame, a first air cylinder is arranged behind the supporting side plate, and a piston rod of the first air cylinder passes forward through the supporting side plate body and then is provided with a first push plate;

and a second adjusting hand wheel is arranged at the tail end of the screw rod.

9. An automatic blanking apparatus for a single-layer veneer manufacturing line as claimed in claim 8, wherein: the plate side edge arranging assembly comprises 2 groups of second air cylinders which are arranged on one side of the material conveying path in parallel, a second pushing plate is arranged on the head of each second air cylinder, and a piston rod of each second air cylinder faces one side of the material conveying path.