阅读说明：本技术 一种木门生产用板材运转系统 (Panel operation system for wooden door production ) 是由 姚斌 姚万五 于 2019-10-30 设计创作，主要内容包括：本发明公开了一种木门生产用板材运转系统,其特征在于,包括用于搬运板料的板料中转架,所述板料中转架包括整体呈长方形的中转底板,所述中转底板的底部四角处各设置有一个万向轮,所述中转底板上具有整体呈长方体结构的储料框,所述储料框宽度方向上的一侧为开放设置的上料侧。本发明具有结构设计简单,能够便于板料的运输,还能够快速地将板料装载到输送架上,有利于降低工作强度,提高工作效率等优点。(The invention discloses a panel operation system for wood door production, which is characterized by comprising a panel transfer frame for carrying a panel, wherein the panel transfer frame comprises a rectangular transfer bottom plate, four universal wheels are respectively arranged at four corners of the bottom of the transfer bottom plate, a storage frame of a cuboid structure is arranged on the transfer bottom plate, and one side of the storage frame in the width direction is an open feeding side. The plate loading device has the advantages of simple structural design, convenience in plate transportation, capability of quickly loading plates onto the conveying frame, contribution to reducing working strength, improvement on working efficiency and the like.)

1. The plate operation system for wood door production is characterized by comprising a plate transfer frame (4) used for carrying plates, wherein the plate transfer frame (4) comprises a transfer bottom plate (41) which is rectangular integrally, universal wheels (42) are respectively arranged at four corners of the bottom of the transfer bottom plate (41), a storage frame (43) which is rectangular integrally is arranged on the transfer bottom plate (41), and one side of the storage frame (43) in the width direction is an open feeding side.

2. The wooden door production panel operating system as claimed in claim 1, wherein said transfer base plate (41) has uniformly distributed rolling grooves, and said rolling grooves are fittingly provided with rolling balls capable of rotating.

3. The panel operating system for wooden door production as claimed in claim 1, characterized in that the material loading side of the material storage frame (43) is further provided with symmetrically arranged material storage baffles (44), the material storage baffles (44) are hinged on the material storage frame (43) through vertically arranged hinges, and the minimum distance between the two material storage baffles (44) in the closed state is smaller than the length of the panel.

4. The wood door production panel running system according to claim 3, wherein the feeding side of the storage frame (43) is further provided with a horizontally arranged storage stop bolt (45), and the telescopic end of the storage stop bolt (45) is arranged close to the junction of the storage baffle (44) and the storage frame (43), so that the telescopic end of the storage stop bolt (45) blocks the outer side of the storage baffle (44) in a closed state when extending out.

5. The panel operating system for wooden door production as claimed in claim 2, wherein the storage frame (43) comprises four upright posts vertically arranged at four corners of the transfer bottom plate (41) and a cross beam connected between the adjacent upright posts, the upright posts and the cross beam positioned at two sides of the storage frame (43) in the length direction are further paved with side plates, and the inner side surfaces of the side plates are flush with the inner side surfaces of the corresponding upright posts.

6. The panel operating system for wooden door production as recited in claim 5, wherein the middle portion of the other side in the width direction of the stock frame (43) is further provided with two vertically arranged center pillars, a push rod (46) is arranged between the two center pillars, and the middle portion of the push rod (46) is rotatably mounted on the two center pillars through a rotating shaft; the lower end of the push rod (46) faces one side of the middle of the storage frame (43), a push plate (47) is hinged to one side of the middle of the storage frame (43) through a hinge shaft horizontally arranged, and the hinge shaft on the push plate (47) is located on the middle upper portion, so that the push plate (47) is in a vertical state.

7. The panel handling system for wood door production as recited in claim 6, characterized in that the upper end of the push rod (46) has a handle in the shape of a cylinder, which is higher than the center pillar.

Technical Field

The invention relates to the technical field of wood door production and processing, in particular to a panel operation system for wood door production.

Background

As shown in fig. 1, a door panel of a wooden door usually needs to be spliced by a plurality of boards, a rib a on the side surface of one board is clamped into a groove B on the side surface of the other board, and generally, the thickness of the rib a is slightly larger than the width of the groove B, so that the rib a and the groove B are tightly matched, and the jointed boards are ensured to be combined more stably. In addition, in order to further enhance the bonding strength between the rib A and the groove B, nailing is required to be performed at the splicing part of the rib A and the groove B. The current nailing operation is mostly completed manually, the working strength is high, the efficiency is low, therefore, the splicing and nailing device is designed by the inventor, the plate is conveyed to the feeding table through the automatically lifting conveying frame, and then the plate is conveyed to the splicing and nailing device through the feeding table, so that the splicing and nailing of the plate can be automatically completed. However, the stacked plates need to be placed and then used by the plate conveying frame, and the plates need to be conveyed to the plate conveying frame through other stations, so that how to conveniently convey the plates and how to stack the plates on the plate conveying frame more quickly becomes a problem to be solved urgently.

Disclosure of Invention

Aiming at the defects of the prior art, the technical problems to be solved by the invention are as follows: how to provide a sheet material operation system for timber production that structural design is simple, can be convenient for the transportation of sheet material, can also load the sheet material to the carriage fast, is favorable to reducing working strength, improves work efficiency.

In order to solve the technical problems, the invention adopts the following technical scheme:

the sheet material operation system for wood door production is characterized by comprising a sheet material transfer frame for carrying sheet materials, wherein the sheet material transfer frame comprises a transfer bottom plate which is rectangular integrally, universal wheels are arranged at four corners of the bottom of the transfer bottom plate respectively, a storage frame which is of a cuboid structure integrally is arranged on the transfer bottom plate, and one side of the storage frame in the width direction is an open feeding side.

Therefore, the plate materials can be conveniently and quickly stacked on the transfer bottom plate through the feeding side which is arranged on the storage frame in an open mode, the plate materials are conveyed beside the plate material conveying frame through the universal wheels at the bottom of the transfer bottom plate, and due to the fact that the feeding side of the storage frame is arranged in the open mode, a worker can directly push the stacked plate materials in the storage frame to the plate material conveying frame directly without secondary stacking. The transfer frame is simple in structure, can finish the transfer and conveying work of the plates, and can quickly load the plates onto the plate conveying frame, so that the labor intensity of workers is reduced, and the working efficiency is improved.

Furthermore, the transfer bottom plate is provided with rolling grooves which are uniformly distributed, and balls capable of rotating are arranged in the rolling grooves in a matched mode.

Therefore, the friction force between the stacked plates and the transfer bottom plate can be reduced, the plates can be pushed conveniently, and the operation is easier.

Further, the material loading side of storage frame still has the storage baffle of symmetry setting, the articulated elements that storage baffle passes through vertical setting articulates on the storage frame, both sides the minimum distance of storage baffle under the closed condition is less than the length of sheet material.

Like this, can load the way that the sheet material transported, close two storage baffles, avoid the sheet material to drop on the way of transporting, improve the stability of transporting.

Further, the material loading side of storage frame still has the storage that the level set up and keeps off the bolt, the storage keeps off the flexible end next-door neighbour that the bolt the storage baffle with the juncture setting of storage frame makes the flexible end that the bolt was kept off to the storage blocks when stretching out and stops under the closed condition the storage baffle outside.

Like this, can keep off about the end that stretches out of bolt at the storage, make storage baffle keep closed state, avoid storage baffle to open because of the accident and cause the sheet material of transporting to drop, improve the stability of transportation.

Further, the storage frame includes four vertical settings the stand of transfer bottom plate four corners department to and connect the crossbeam between adjacent stand, be located still mat formation has the curb plate on the stand of storage frame length direction both sides and the crossbeam, the medial surface of curb plate flushes with the medial surface that corresponds the stand.

The frame structure through stand and crossbeam is more succinct, can also provide the space for the propelling movement sheet material, and the curb plate of mating formation in both sides, can avoid the both ends of sheet material to fill in between the stand of both sides, influences the propelling movement of later stage sheet material, guarantees the reliability.

Furthermore, the middle part of the other side of the storage frame in the width direction is also provided with two vertically arranged center pillars, a push rod is arranged between the two center pillars, and the middle part of the push rod is rotatably arranged on the two center pillars through a rotating shaft; the lower end of the push rod faces one side of the middle of the storage frame, a pushing plate is hinged to one side of the middle of the storage frame through a hinge shaft horizontally arranged, and the hinge shaft on the pushing plate is located on the middle upper portion, so that the pushing plate is in a vertical state.

Therefore, a worker can rotate the push rod around the rotating shaft by pulling the upper end of the push rod outwards, and the push plate hinged to the lower end of the push rod pushes stacked plates, so that the push operation of the plates is facilitated, and the labor intensity of the worker is reduced. Simultaneously, the pushing plate can also play the effect of balancing weight, makes the lower extreme of push rod heavier and keeps the state of erectting.

Furthermore, the upper end of the push rod is provided with a cylindrical handle, and the handle is higher than the center pillar.

Thus, the operation can be more convenient.

In conclusion, the plate loading device has the advantages of being simple in structural design, capable of facilitating plate transportation, capable of quickly loading plates onto the conveying frame, beneficial to reducing working strength, capable of improving working efficiency and the like.

Drawings

Fig. 1 is a schematic structural diagram of plate splicing.

Fig. 2 is a schematic diagram of a layout structure of the automatic splicing system.

Fig. 3 is a schematic structural diagram of the feeding table.

Fig. 4 is a schematic structural view of the splicing nailing device.

Fig. 5 is a schematic structural view of the splicing table.

FIG. 6 is a bottom view of the staple rack.

Fig. 7 is a schematic structural view of a slab conveying rack.

Fig. 8 is a schematic structural view of a rotating frame in a sheet material.

Fig. 9 is a schematic structural diagram of a sheet cutting device.

Fig. 10 is a schematic bottom structure view of a cutting protection frame of the sheet material cutting device.

Detailed Description

The present application will be described in further detail below with reference to an embodiment of an automatic splicing system for wooden door panels.