CN110733080A

CN110733080A - high-efficiency high-precision large-sized timber slicer and working mode thereof

Info

Publication number: CN110733080A
Application number: CN201911230710.2A
Authority: CN
Inventors: 李吉冉; 米扬
Original assignee: Xinyi Daziran Wood Industry Co Ltd
Current assignee: Xinyi Daziran Wood Industry Co Ltd
Priority date: 2019-12-05
Filing date: 2019-12-05
Publication date: 2020-01-31
Anticipated expiration: 2039-12-05
Also published as: CN110733080B

Abstract

high-efficiency high-precision slicing machine for large timber and its working method, comprising a frame, a transmission structure, a longitudinal cutting structure assembly and a transverse cutting structure assembly, wherein the transmission structure is arranged on the frame, the longitudinal cutting structure assembly is arranged at the end of the transmission structure and is arranged on the frame, the transverse cutting structure assembly is arranged at the end and is arranged under the longitudinal cutting structure assembly, the timber to be cut moves towards the longitudinal cutting structure assembly and the transverse cutting structure assembly under the action of the transmission structure, and the structures cooperate with each other to finish the high-efficiency high-precision slicing work for the large timber.

Description

high-efficiency high-precision large-sized timber slicer and working mode thereof

Technical Field

The invention relates to the field of timber processing, in particular to an efficient and high-precision slicer for large timbers and a working mode thereof.

Background

A timber slicer cuts large log material longitudinally or transversely. The current microtome equipment has the following disadvantages: 1) the whole wood raw material has larger volume and heavier weight, so that rolling deviation is easy to occur in the conveying process of the whole wood raw material, and the whole wood raw material is inconvenient to position, so that the precision of the material cutting position is poor, and the subsequent processing is influenced; 2) the longitudinal cutting and the transverse cutting of the wood are two processes, and the wood needs to be clamped twice and cut twice, so that the working efficiency is reduced, and the labor cost is improved.

Disclosure of Invention

The invention aims to provide an large-sized timber high-efficiency high-precision slicing machine and a working mode thereof, and solves the problem of slicing large-sized timber.

The invention provides an high-efficiency high-precision slicing machine for large timbers and a working mode thereof, and the slicing machine comprises a rack, a conveying structure, a longitudinal cutting structure assembly and a transverse cutting structure assembly, wherein the conveying structure is arranged on the rack, the longitudinal cutting structure assembly is arranged at the end of the conveying structure and is positioned on the rack, the transverse cutting structure assembly is arranged at the end of the rack and is positioned below the longitudinal cutting structure assembly, the timbers to be cut move towards the longitudinal cutting structure assembly and the transverse cutting structure assembly under the action of the conveying structure, and the structures cooperate with each other to finish the high-efficiency high-precision slicing work for the large timbers.

Step , the conveying structure includes power structure, pay-off structure, transmission structure, transport structure, side baffle and second side baffle, power structure and pay-off structural connection, transport structure passes through the end connection of transmission structure and pay-off structure in addition, side baffle and second side baffle set up respectively in the transport structure both sides.

, the feeding structure comprises a feeding rotating shaft and a feeding object placing plate, the feeding object placing plate is arranged in a circumferential array by taking the center of the feeding rotating shaft as an axis, triangular sawteeth are arranged on the feeding object placing plate, and the feeding object placing plate performs a limiting pushing effect on wood.

, arranging blowing supporting blocks at equal intervals on the conveying structure, and arranging saw teeth on the V-shaped end faces of the blowing supporting blocks, wherein the friction force between the blowing supporting blocks and the wood is increased by arranging the saw teeth, so that the precise positioning effect is achieved, and the cutting precision is improved.

, the longitudinal cutting structure assembly comprises a compression structure, a material limiting structure and a longitudinal cutting assembly, wherein the material limiting structure is arranged below the compression structure, the longitudinal cutting assembly is arranged on the side edge of the compression structure, the material limiting structure performs position limiting on the timber, the compression structure compresses the timber, and when the longitudinal cutting assembly cuts the timber, the timber is forced to shift, so that the cutting precision is improved.

, the compressing structure comprises a compressing fixing frame, a compressing power structure, a compressing head fixing support, a compressing rotating shaft and a compressing head, the compressing power structure is arranged on the compressing fixing frame, the plunger end of the compressing power structure is connected with the compressing head fixing support, the compressing head fixing support is connected with the compressing fixing frame through the compressing rotating shaft, the compressing head is arranged at the end of the compressing head fixing support , the compressing head is provided with a V-shaped compressing piece which is arranged at an equal angle, the V-shaped compressing piece improves the friction force between the compressing head and the wood, and the positioning and compressing capacity is improved.

And , wherein the material limiting structure comprises a material limiting fixing frame, a material limiting adjusting frame, a material limiting positioning shaft, a material limiting nitrogen spring and a material limiting baffle, the material limiting fixing frame and the material limiting adjusting frame are fixed through the material limiting positioning shaft, the material limiting baffle is arranged on the material limiting adjusting frame through the material limiting nitrogen spring, the relative positions of the material limiting adjusting frame and the material limiting fixing frame are adjusted according to the length of the wood to be cut, and then the material limiting fixing frame is fixed through the material limiting positioning shaft.

, the transverse cutting structure assembly comprises a discharging structure, a pushing structure, a transverse cutting structure and a second discharging structure, wherein the pushing structure is arranged at the end of the discharging structure , the transverse cutting structure is arranged between the discharging structure and the second discharging structure, the discharging structure receives cut timbers, the transverse cutting process is carried out under the action of the pushing structure, and the cut timbers are received in the second receiving structure.

step, the horizontal cutting structure includes horizontal cutting power structure, horizontal cutting guide structure, horizontal cutting tool mount, horizontal cutter and horizontal second cutter, horizontal cutting power structure plunger end and horizontal cutting tool mount are connected, horizontal cutting guide structure sets up on horizontal cutting tool mount, horizontal cutter and horizontal second cutter set up perpendicularly on horizontal cutting tool mount, the horizontal cutter of horizontal cutting power structure drive and horizontal second cutter remove along horizontal cutting guide structure to and push away the material structure combined action down, carry out horizontal cutting to timber.

, the working method of the high-efficiency and high-precision large timber slicer comprises the following specific steps:

1) the wood is placed on the conveying structure, the power structure drives the feeding structure to rotate, and the conveying structure is driven by the transmission structure to move the wood towards the direction of the longitudinal cutting structure assembly;

2) the timber is conveyed to a designated position under the limiting action of the material limiting structure, and a pressing head of the pressing structure presses the timber under the driving of the pressing power structure;

3) at the moment, the transverse cutting structure assembly is subjected to material cutting;

4) the cut timber falls into an th discharging structure in the transverse cutting structure assembly under the action of gravity, and the discharging structure pushes the cut timber tightly towards the transverse cutting structure;

5) the transverse cutting power structure drives the transverse th cutter and the transverse second cutter to move along the transverse cutting guide structure to perform transverse cutting of the timber;

6) while the transverse direction is being cut, the remaining timber is conveyed to the longitudinal cutting structure assembly position for another longitudinal cuts;

7) the cutting work of the large timber is completed by the circulation.

The technical scheme shows that the wood cutting machine has the advantages that 1) the longitudinal cutting and the transverse cutting of wood are combined into , so that the cutting period is shortened, the working efficiency is improved, the labor cost is reduced, 2) chain transmission is adopted, saw teeth are added to the discharging supporting blocks, the friction force between the wood and the conveying structure is improved, the position precision of the whole conveying structure when the wood is conveyed is improved, the size precision of the cut wood is improved, and 3) the wood cutting machine is suitable for cutting wood with different sizes and has wide applicability of .

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of a transfer structure;

FIG. 3 is a perspective view of a feed structure;

FIG. 4 is a left side view of the drop support block;

FIG. 5 is a perspective view of a hold-down structure;

FIG. 6 is a perspective view of a material limiting structure;

FIG. 7 is a perspective view of a transverse cutting structure assembly;

fig. 8 is a perspective view of a transverse cutting structure.

In the figure, a machine frame 1, a conveying structure 2, a power structure 21, a feeding structure 22, a feeding rotating shaft 221, a feeding object placing plate 222, a transmission structure 23, a conveying structure 24, a feeding supporting block 241, a saw tooth 2411, a th side baffle 25, a second side baffle 26, a longitudinal cutting structure assembly 3, a pressing structure 31, a pressing fixing frame 311, a pressing power structure 312, a pressing head fixing support 313, a pressing rotating shaft 314, a pressing head 315, a V-shaped pressing sheet 3151, a material limiting structure 32, a material limiting fixing frame 321, a material limiting adjusting frame 322, a material limiting positioning shaft 323, a material limiting nitrogen spring 324, a material limiting baffle 325, a longitudinal cutting assembly 33, a transverse cutting structure assembly 4, a th discharging structure 41, a material pushing structure 42, a transverse cutting structure 43, a transverse cutting power structure 431, a transverse cutting guide structure 432, a transverse cutting cutter fixing frame 433, a transverse cutter 434, a transverse second cutter 435 and a second discharging structure 42 are arranged.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting the present invention.

Thus, a feature defined as "", "second" may or may not include or more of that feature.

In the present invention, unless otherwise specifically stated or limited, the terms "mounted," "connected," "fixed," and the like shall be understood to be , for example, either fixedly or removably connected, or physically connected, mechanically or electrically connected, directly or indirectly connected through an intermediary, and communicating between two elements.

In the present invention, unless expressly stated or limited otherwise, "above" or "below" a second feature includes features directly contacting the second feature and may also include features directly contacting the second feature but through another feature in between, further, features "above", "over" and "above" the second feature includes features directly above and obliquely above the second feature or merely means that the feature is at a higher level than the second feature, features "below", "beneath" and "beneath" the second feature includes features directly below and obliquely below the second feature, or merely means that the feature is at a lower level than the second feature.

Example

Fig. 1 shows a perspective view of the present invention, which comprises a frame 1, a conveying structure 2, a longitudinal cutting structure assembly 3 and a transverse cutting structure assembly 4, wherein the conveying structure 2 is arranged on the frame 1, the longitudinal cutting structure assembly 3 is arranged at end of the conveying structure 2 on the frame 1, and the transverse cutting structure assembly 4 is arranged at 1 end of the frame 1 below the longitudinal cutting structure assembly 3.

The perspective view of the conveying structure 2 shown in fig. 2 includes a power structure 21, a feeding structure 22, a transmission structure 23, a conveying structure 24, an th side barrier 25 and a second side barrier 26, wherein the power structure 21 is connected with the feeding structure 22, the conveying structure 24 is connected with the other end of the feeding structure 22 through the transmission structure 23, and the th side barrier 25 and the second side barrier 26 are respectively disposed at two sides of the conveying structure 24.

Fig. 3 is a perspective view of the feeding structure 22, which includes a feeding shaft 221 and feeding boards 222, wherein the feeding boards 222 are arranged in a circumferential array around the center of the feeding shaft 221.

The conveying structure 24 is provided with discharging support blocks 241 arranged at equal intervals, as shown in fig. 4, which is a left view of the discharging support blocks 241, and saw teeth 2411 are arranged on V-shaped end surfaces of the discharging support blocks 241.

The longitudinal cutting structure assembly 3 comprises a pressing structure 31, a material limiting structure 32 and a longitudinal cutting assembly 33, wherein the material limiting structure 32 is arranged below the pressing structure 31, and the longitudinal cutting assembly 33 is arranged on the side edge of the pressing structure 31.

As shown in fig. 5, the pressing structure 31 is a perspective view, and includes a pressing fixing frame 311, a pressing power structure 312, a pressing head fixing bracket 313, a pressing rotating shaft 314 and a pressing head 315, where the pressing power structure 312 is disposed on the pressing fixing frame 311, and a plunger end of the pressing power structure is connected to the pressing head fixing bracket 313, the pressing head fixing bracket 313 is connected to the pressing fixing frame 311 through the pressing rotating shaft 314, the pressing head 315 is disposed on an end of the pressing head fixing bracket 313 , and a V-shaped pressing piece 3151 disposed at an equal angle is disposed on the pressing head 315.

As shown in fig. 6, the material limiting structure 32 is a perspective view, and includes a material limiting fixing frame 321, a material limiting adjusting frame 322, a material limiting positioning shaft 323, a material limiting nitrogen spring 324, and a material limiting baffle 325, wherein the material limiting fixing frame 321 and the material limiting adjusting frame 322 are fixed by the material limiting positioning shaft 323, and the material limiting baffle 325 is disposed on the material limiting adjusting frame 322 by the material limiting nitrogen spring 324.

Fig. 7 is a perspective view of the transverse cutting structure assembly 4, which includes an th discharge structure 41, a material pushing structure 42, a transverse cutting structure 43 and a second discharge structure 42, wherein the material pushing structure 42 is disposed at the th discharge structure 41 end, and the transverse cutting structure 43 is disposed between the th discharge structure 41 and the second discharge structure 42.

Fig. 8 is a perspective view of the transverse cutting structure 43, which includes a transverse cutting power structure 431, a transverse cutting guide structure 432, a transverse cutting tool holder 433, a transverse -th tool 434, and a transverse second tool 435, wherein the plunger end of the transverse cutting power structure 431 is connected to the transverse cutting tool holder 433, the transverse cutting guide structure 432 is disposed on the transverse cutting tool holder 433, and the transverse -th tool 434 and the transverse second tool 435 are perpendicularly disposed on the transverse cutting tool holder 433.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims

The utility model provides a high-efficient high accuracy slicer of kind of large-scale timber, its characterized in that includes frame (1), transport structure (2), vertical cutting structure assembly (3) and horizontal cutting structure assembly (4), transport structure (2) set up on frame (1), vertical cutting structure assembly (3) set up end at transport structure (2) and lie in frame (1), horizontal cutting structure assembly (4) set up in frame (1) end and lie in vertical cutting structure assembly (3) below.
2. The high-efficiency and high-precision large wood slicer according to claim 1 is characterized in that the conveying structure (2) comprises a power structure (21), a feeding structure (22), a transmission structure (23), a conveying structure (24), a th side baffle (25) and a second side baffle (26), the power structure (21) is connected with the feeding structure (22), the conveying structure (24) is connected with the other end of the feeding structure (22) through the transmission structure (23), and the th side baffle (25) and the second side baffle (26) are respectively arranged on two sides of the conveying structure (24).
3. The high-efficiency high-precision large timber slicer as claimed in claim 2, wherein: the feeding structure (22) comprises a feeding rotating shaft (221) and feeding object placing plates (222), and the feeding object placing plates (222) are arranged in a circumferential array by taking the center of the feeding rotating shaft (221) as an axis.
4. The high-efficiency high-precision large timber slicer as claimed in claim 2, wherein: the conveying structure (24) is provided with feeding supporting blocks (241) which are arranged at equal intervals, and saw teeth (2411) are arranged on V-shaped end faces of the feeding supporting blocks (241).
5. The high-efficiency high-precision large timber slicer according to claim 1, wherein: the longitudinal cutting structure assembly (3) comprises a pressing structure (31), a material limiting structure (32) and a longitudinal cutting assembly (33), the material limiting structure (32) is arranged below the pressing structure (31), and the longitudinal cutting assembly (33) is arranged on the side edge of the pressing structure (31).
6. The high-efficiency and high-precision large timber slicer according to claim 5 is characterized in that the compressing structure (31) comprises a compressing fixing frame (311), a compressing power structure (312), a compressing head fixing support (313), a compressing rotating shaft (314) and a compressing head (315), the compressing power structure (312) is arranged on the compressing fixing frame (311), the plunger end of the compressing power structure is connected with the compressing head fixing support (313), the compressing head fixing support (313) is connected with the compressing fixing frame (311) through the compressing rotating shaft (314), the compressing head (315) is arranged at the end of the compressing head fixing support (313) , and V-shaped compressing pieces (3151) which are arranged at equal angles are arranged on the compressing head (315).
7. The high-efficiency and high-precision large timber slicer as claimed in claim 5, wherein: material limiting structure (32) comprises a material limiting fixing frame (321), a material limiting adjusting frame (322), a material limiting positioning shaft (323), a material limiting nitrogen spring (324) and a material limiting baffle (325), wherein the material limiting fixing frame (321) and the material limiting adjusting frame (322) are fixed through the material limiting positioning shaft (323), and the material limiting baffle (325) is arranged on the material limiting adjusting frame (322) through the material limiting nitrogen spring (324).
8. The efficient and high-precision large wood slicer according to claim 1 is characterized in that the transverse cutting structure assembly (4) comprises an th discharging structure (41), a material pushing structure (42), a transverse cutting structure (43) and a second discharging structure (42), wherein the material pushing structure (42) is arranged at the end of the th discharging structure (41), and the transverse cutting structure (43) is arranged between the th discharging structure (41) and the second discharging structure (42).
9. The high-efficiency and high-precision large wood slicer according to claim 8 is characterized in that the transverse cutting structure (43) comprises a transverse cutting power structure (431), a transverse cutting guide structure (432), a transverse cutting tool holder (433), a transverse th tool (434) and a transverse second tool (435), the plunger end of the transverse cutting power structure (431) is connected with the transverse cutting tool holder (433), the transverse cutting guide structure (432) is arranged on the transverse cutting tool holder (433), and the transverse th tool (434) and the transverse second tool (435) are vertically arranged on the transverse cutting tool holder (433).
10, A method for operating a high-efficiency and high-precision slicer for large-scale timber as claimed in any of claims 1-9, which comprises the following steps:

1) the timber is placed on the conveying structure (2), the power structure (21) drives the feeding structure (22) to rotate, and the conveying structure (24) is driven by the transmission structure (23) to move the timber towards the direction of the longitudinal cutting structure assembly (3);

2) the timber is conveyed to a designated position under the limiting action of the material limiting structure (32), and a pressing head (315) of the pressing structure (31) presses the timber under the driving of a pressing power structure (312);

3) at the moment, the transverse cutting structure assembly (4) cuts materials;

4) the cut wood falls into an discharging structure (41) in the transverse cutting structure assembly (4) under the action of gravity, and the pushing structure (42) pushes the cut wood tightly towards the transverse cutting structure (43);

5) the transverse cutting power structure (431) drives the transverse th cutter (434) and the transverse second cutter (435) to move along the transverse cutting guide structure (432) to perform transverse cutting of the timber;

6) while cutting transversely, the remaining timber is conveyed to the longitudinal cutting structure assembly (3) for another longitudinal cuts;

7) the cutting work of the large timber is completed by the circulation.