CN211640303U - Profile modeling self-adaptation knife rest assembly - Google Patents

Abstract

A profile modeling self-adaptive tool rest assembly comprises a rack, wherein a pressing mechanism, a supporting mechanism and a milling cutter are arranged in the rack, the pressing mechanism is positioned above the supporting mechanism, and the milling cutter is rotationally connected to the rack; the supporting mechanism is of a hollow structure, the milling cutter is positioned in the hollow mechanism of the supporting mechanism, and the milling cutter faces the pressing mechanism; the supporting mechanism is provided with protrusions extending upwards, the protrusions are located on two sides of the milling cutter, and the highest point of the protrusions and the center of the milling cutter are located on the same straight line; the pressing mechanism comprises a pressing plate matched with the supporting mechanism, and the pressing plate is rotatably connected to the rack; compared with the prior art, the profiling self-adaptive tool rest assembly has the advantages that unequal cutting processing is realized according to the fact that moso bamboo chips with different diameters and special-shaped circles are self-adaptive to the change of the appearance of the moso bamboo chips, the requirement of bamboo laminated wood is met, the profiling self-adaptive tool rest assembly is simple in structure, elegant and attractive, small in change, convenient for original equipment to upgrade, high in economic benefit and the like.

Description

Profile modeling self-adaptation knife rest assembly

Technical Field

The utility model belongs to the technical field of the processing of mao bamboo chip, especially, relate to a profile modeling self-adaptation knife rest assembly.

Background

At present, along with the continuous improvement of the living standard of people, the decoration demand of wooden furniture, wooden floors and the like in the life of people is higher and higher, the demand is also larger and larger, the global timber shortage is caused, a large amount of forests are felled, and the global environment on which the human beings rely to live is increasingly severe.

The moso bamboo has the characteristics of short growth cycle, hardness similar to that of wood, excellent toughness and the like, so that the moso bamboo is gradually valued by people, and is made into bamboo integrated wood by processing the moso bamboo, so that living appliances such as bamboo furniture, bamboo floors, bamboo cutting boards and the like can be manufactured, the chopping of wood can be indirectly reduced, the ecological environment of the earth is improved, and the moso bamboo is multifunctional.

As shown in fig. 10, however, when the moso bamboo chips are processed by the existing moso bamboo processing equipment, the most salient point of the outer circle diameter is used as a positioning reference, when a milling cutter mills the green surfaces of the moso bamboo, because the center of the milling cutter and the positioning reference surface of the tool holder body are fixed values, as shown in fig. 11, when the green surfaces of the moso bamboo chips with small diameters are cut, the green surfaces of the moso bamboo may be "remained green" due to too small cutting amount; as shown in fig. 12, when the green surface of the large-diameter moso bamboo sheet is cut, the available thickness of the moso bamboo is reduced due to excessive cutting amount, which causes waste of materials; as shown in fig. 13, when the green surface of the irregular round bamboo is cut, the "shade surface" is formed on the bamboo chips due to the insufficient cutting amount.

The three processing conditions can cause the bamboo laminated wood to be unaesthetic in splicing and even cause waste products.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome the defect among the above-mentioned prior art, provide a simple structure, the existing equipment of being convenient for upgrades, profile modeling self-adaptation knife rest assembly that economic benefits is high.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a profile modeling self-adaptive tool rest assembly comprises a rack, wherein a pressing mechanism, a supporting mechanism and a milling cutter are arranged in the rack, the pressing mechanism is positioned above the supporting mechanism, and the milling cutter is rotationally connected to the rack; the supporting mechanism is of a hollow structure, the milling cutter is positioned in the hollow mechanism of the supporting mechanism, and the milling cutter faces the pressing mechanism; the supporting mechanism is provided with protrusions extending upwards, the protrusions are located on two sides of the milling cutter, and the highest point of the protrusions and the center of the milling cutter are located on the same straight line; the pressing mechanism comprises a pressing plate matched with the supporting mechanism, and the pressing plate is rotatably connected to the rack.

As a preferred scheme of the utility model, supporting mechanism includes profile modeling piece, supporting seat and two relative baffles that set up, and the supporting seat is located between the relative baffle that sets up, and the supporting seat is located the both ends of baffle, forms the hollow structure with milling cutter looks adaptation between the supporting seat, and the profile modeling piece is located between supporting seat and the baffle, and the relative baffle inner wall that sets up all offsets with the profile modeling piece, and the arch is located the profile modeling piece.

As an optimized proposal of the utility model, the horizontal height of the highest point of the projection is higher than that of the supporting seat, and the projection can be a semi-arc structure or a triangular structure or a trapezoidal structure.

As a preferred scheme of the utility model, be equipped with bolt and nut between baffle, supporting seat and the profile modeling piece, the bolt passes baffle, supporting seat and profile modeling piece and links to each other with the nut, and the relative baffle both ends that set up form eight outer structures.

As a preferred scheme of the utility model, the supporting seat below is equipped with the support that links to each other with the frame, and the supporting seat bottom is formed with the screw hole that links to each other with the support, links to each other through fastening bolt between supporting seat and the support.

As a preferred scheme of the utility model, hold-down mechanism includes fixed plate and screw rod, and fixed plate fixed connection is in the frame, and the screw rod passes the fixed plate downwardly extending, and the screw rod bottom links to each other with the clamp plate.

As an optimized scheme of the utility model, the screw rod bottom forms the bifurcation structure, and the bifurcation structure cup joints on the clamp plate, and passes through fixing bolt fixed connection between bifurcation structure and the clamp plate.

As a preferred scheme of the utility model, the spring has been cup jointed on the screw rod, and the spring top offsets with the fixed plate, and the spring bottom offsets with the bifurcation structure, and the cover has two nut structures on the screw rod, and two nut structures offset with the upper surface of fixed plate.

As an optimized scheme of the utility model, be equipped with the axis of rotation between clamp plate and the frame, the axis of rotation is located the one end of clamp plate, and axis of rotation and clamp plate rotate in step.

As an optimized scheme of the utility model, be equipped with the transmission shaft between milling cutter and the frame, milling cutter and transmission shaft synchronous rotation, the transmission shaft over-and-under type sets up in the frame.

The beneficial effects of the utility model are that, compare with prior art: the profiling self-adaptive tool rest assembly has the advantages of simple structure, elegance and beauty, small change, convenience in upgrading of original equipment, high economic benefit and the like.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the engagement of the hold-down mechanism and the support mechanism;

FIG. 3 is a cross-sectional view taken at line A-A of FIG. 2;

FIG. 4 is a schematic structural view of the support mechanism;

FIG. 5 is a top view of the support mechanism;

FIG. 6 is a schematic structural view of a moso bamboo chip;

FIG. 7 is a schematic view of the process of processing small diameter moso bamboo chips of the present invention;

FIG. 8 is a schematic view of the processing of large diameter moso bamboo chips of the present invention;

FIG. 9 is a schematic view of the processing process of the special-shaped round moso bamboo chips of the present invention;

FIG. 10 is a schematic diagram of a prior art configuration;

FIG. 11 is a schematic view of a prior art process for processing small diameter moso bamboo chips;

FIG. 12 is a schematic view of a prior art process for processing large diameter moso bamboo chips;

FIG. 13 is a schematic view of a prior art process for processing shaped round moso bamboo chips;

reference numbers in the figures: the device comprises a frame 1, a supporting mechanism 2, a pressing mechanism 3, a baffle plate 4, a bolt 5, a nut 6, a profiling sheet 7, a protrusion 7-1, a supporting seat 8, a fixing plate 9, a spring 10, a screw rod 11, a bifurcation structure 11-1, a fixing bolt 12, a pressing plate 13, a rotating shaft 14, a moso bamboo sheet 15, a moso bamboo sheet inner concave surface 15-1, a fastening bolt 16, a bracket 17, a milling cutter 18, a transmission shaft 18-1, a double-nut structure 19, a small-diameter moso bamboo sheet 20, a cutting amount 21, a large-diameter moso bamboo sheet, a 2, an irregular round moso bamboo sheet 23, a most salient point 24 of the excircle diameter of the moso bamboo sheet and reference points 25 on.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the accompanying drawings.

As shown in fig. 1-9, a profiling self-adaptive tool rest assembly comprises a frame 1, wherein a pressing mechanism 3, a supporting mechanism 2 and a milling cutter 18 are arranged in the frame 1, the pressing mechanism 3 is positioned above the supporting mechanism 2, and the milling cutter 18 is rotatably connected to the frame 1; the supporting mechanism 2 is of a hollow structure, the milling cutter 18 is positioned in the hollow mechanism of the supporting mechanism 2, the milling cutter 18 faces the pressing mechanism 3, and no interference is formed between the milling cutter 18 and the supporting mechanism 2; the supporting mechanism 2 is provided with a bulge 7-1 extending upwards, the bulge 7-1 is positioned at two sides of the milling cutter 18, and the highest point of the bulge 7-1 and the center of the milling cutter 18 are positioned on the same straight line; the pressing mechanism 3 comprises a pressing plate 13 matched with the supporting mechanism 2, and the pressing plate 13 is rotatably connected to the machine frame 1.

The supporting mechanism 2 comprises a profiling sheet 7, a supporting seat 8 and two oppositely arranged baffles 4, the supporting seat 8 is located between the oppositely arranged baffles 4, the supporting seat 8 is located at two ends of each baffle 4, a hollow structure matched with the milling cutter 18 is formed between the supporting seats 8, the profiling sheet 7 is located between the supporting seat 8 and the baffles 4, inner walls of the oppositely arranged baffles 4 are all abutted to the profiling sheet 7, and the protrusions 7-1 are located on the profiling sheet 7.

The height of the bulge 7-1 on the supporting mechanism 2 can be adjusted according to actual needs, the height of the bulge 7-1 is adjusted through adjusting the position of the profiling sheet 7 or the difference of the heights of the bulges 7-1, and the position of the peak point of the milling cutter 18 and the peak point of the bulge 7-1 can be adjusted up and down.

The supporting mechanism 2 comprises two copying sheets 7, two supporting seats 8 and two check blocks 4, two supporting seats 8 are located on the same straight line, two copying sheets 7 are located on the outer sides of the two supporting seats 8, two copying sheets 7 are arranged relatively, two check blocks 4 are located on the outer sides of the two copying sheets 7, two check blocks 4 are arranged relatively, the supporting seats 8 and the copying sheets 7 are located between the two check blocks 4 which are arranged relatively, one sides of the copying sheets 7 are abutted against the check blocks 4, the other sides of the copying sheets 7 are abutted against the supporting seats 8, the two sides of the supporting seats 8 are clamped by the two copying sheets 7 which are arranged relatively simultaneously, the two copying sheets 7, the positions of the two supporting seats 8 and the two check blocks 4 are corresponding to each other.

The horizontal height of the highest point of the bulge 7-1 is higher than that of the supporting seat 8, the bulge 7-1 can be of a semi-arc structure or a triangular structure or a trapezoidal structure, the structure of the bulge 7-1 is set according to actual needs, the bulge 7-1 is positioned in the middle of the profiling sheet 7, the bulge 7-1 is of a sheet structure, the bulge 7-1 is positioned on the upper surface of the profiling sheet 7 and extends upwards, and the bulge 7-1 and the profiling sheet 7 are integrally formed.

Baffle 4, be equipped with bolt 6 and nut 5 between supporting seat 8 and the profile modeling piece 7, bolt 6 passes baffle 4, supporting seat 8 and profile modeling piece 7 link to each other with nut 5, the baffle 4 both ends that set up relatively form eight outer structures, baffle 4 plays certain guide effect, and the top height of two baffles 4 is the same, the 15 conveying of mao bamboo chip of being convenient for, under the effect of bolt 6 and nut 5, make baffle 4, closely laminate between supporting seat 8 and the profile modeling piece 7.

The moso bamboo chips 4 are arranged between the baffle plates 1 corresponding to each other, the outer circle parts face the milling cutter 18, the inner concave surfaces 15-1 of the moso bamboo chips are arranged upwards, and the datum points 25 on the two sides of the outer circles of the moso bamboo chips lean against the highest point with the bulges 7-1.

A support 17 connected with the rack 1 is arranged below the support seat 8, a threaded hole connected with the support 17 is formed in the bottom of the support seat 8, the support seat 8 is connected with the support 17 through a fastening bolt 16, and the support 17 is fixedly connected with the rack 1 through a bolt.

The pressing mechanism 3 comprises a fixing plate 9 and a screw rod 11, the fixing plate 9 is fixedly connected to the rack 1 through a bolt, the screw rod 11 penetrates through the fixing plate 9 to extend downwards, the bottom of the screw rod 11 is connected with a pressing plate 13, a branched structure 11-1 is formed at the bottom of the screw rod 11, the branched structure 11-1 is sleeved on the pressing plate 13, and the branched structure 11-1 is fixedly connected with the pressing plate 13 through a fixing bolt 12.

The screw 11 penetrates through the fixing plate 9, the screw 11 is in threaded connection with the fixing plate 9, the position of the pressing plate 13 is adjusted according to the height position of the screw 11, and the branched structures 11-1 abut against the two sides and the top of the pressing plate 13 at the same time, so that the branched structures 11-1 and the pressing plate 13 have better stability, and the branched structures 11-1 abut against the top of the pressing plate 13 at the same time to prevent the pressing plate 13 and the branched structures 11-1 from rotating relatively.

The screw rod 11 is sleeved with a spring 10, the top of the spring 10 abuts against the fixing plate 9, the bottom of the spring 10 abuts against the forked structure 11-1, the screw rod 11 is sleeved with a double-nut structure 19, the double-nut structure 19 abuts against the upper surface of the fixing plate 9, the double-nut structure 19 is used for enabling the fixing plate 9 and the screw rod 11 to be fixedly connected, and the spring 10 is used for reducing the vibration generated when the forked structure 11-1 receives impact, so that the fixing plate 9 has better stability.

A rotating shaft 14 is arranged between the pressing plate 13 and the frame 1, the rotating shaft 14 is positioned at one end of the pressing plate 13, the rotating shaft 14 and the pressing plate 13 synchronously rotate, and the rotating shaft 14 and the pressing plate 13 are fixedly connected through keys and key slots.

A transmission shaft 18-1 is arranged between the milling cutter 18 and the frame 1, the milling cutter 18 and the transmission shaft 18-1 rotate synchronously, the milling cutter 18 and the transmission shaft 18-1 are fixedly connected through keys and key grooves, the transmission shaft is arranged on the frame 1 in a lifting mode, and the position of the milling cutter 18 can be adjusted through the lifting of the transmission shaft 18-1.

The moso bamboo chip concave surface 15-1 is pressed with a pressing plate 13 at the upper position corresponding to the milling cutter 18, the pressing plate 13 can rotate around a rotating shaft 14, the position of the pressing plate 13 is adjusted through the rotation of the rotating shaft 14, after the pressing plate 13 is adjusted to a proper position, a screw 11 is locked through a double-nut structure 19, the pressing plate 13 is connected with the screw 11 through a fixing bolt 12 above a pressing point pressing the moso bamboo chip concave surface 15-1, a spring 10 is arranged on the external thread of the screw 11, one end of the spring 10 is pressed below a fixing plate 9, and the external thread part of the screw 11 penetrates through a rack fixing plate 9 and is fastened through the double-nut structure 19.

In the actual use process, when the mao bamboo chips 15 enter from the direction facing the rotation of the milling cutter 18, the baffle 4 on the supporting mechanism 2 limits the mao bamboo chips 15 left and right, the datum points 25 on the two sides of the excircle of the mao bamboo chips lean against the highest point of the bulge 7-1 of the profiling chip 7, and meanwhile, the position of the pressing plate 13 is adjusted to a proper position through the rotating shaft 14, so that the pressing plate 14 compresses the concave surfaces 15-1 of the mao bamboo chips.

Under the dual action of the pressing plate 13 and the lower milling cutter 18, the milling cutter 18 cuts the outer circular surface of the moso bamboo chips 15, and the datum positioning is carried out by adopting datum points 25 on two sides of the outer circles of the moso bamboo chips, so that the moso bamboo chips 15 with different sizes and diameters present different cutting quantity values under the support of the highest point of the bulge 7-1 of the profiling chip 7, namely the moso bamboo chips 20 with small diameters can realize multi-point cutting quantity 21; the large diameter moso bamboo chips 22 will achieve a small amount of point cutting; the irregular round moso bamboo chips 23 can automatically correct smoothness and realize proper cutting amount, and cutting values of the three conditions can be changed in a self-adaptive mode at any time along with the size diameter and the irregular circle of the moso bamboo chips 15, so that the materials of the moso bamboo chips 15 can be more scientifically and reasonably utilized and processed.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention; thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Although the reference numerals in the figures are used more here: the production process comprises the following steps of 1, 2, 3, 4, 5, 6, nuts, 7, protrusions, 7-1, a support seat, 8, a fixing plate, 9, a spring, 10, a screw rod, 11-1, a bifurcate structure, 12, a pressing plate, 13, a rotating shaft, 14, 15-1, an inner concave surface of a moso bamboo chip, 16, a support, 17, a milling cutter, 18-1, a double nut structure, 19, 20, 21, 22, 23, 24, 25 and the like, wherein the most salient point of the excircle diameter of the moso bamboo chip is the datum point of the excircle of the moso bamboo chip, and the like, but the possibility of using other terms is not excluded; these terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. A profile modeling self-adaptive tool rest assembly is characterized by comprising a rack (1), wherein a pressing mechanism (3), a supporting mechanism (2) and a milling cutter (18) are arranged in the rack (1), the pressing mechanism (3) is positioned above the supporting mechanism (2), and the milling cutter (18) is rotatably connected to the rack (1); the supporting mechanism (2) is of a hollow structure, the milling cutter (18) is positioned in the hollow mechanism of the supporting mechanism (2), and the milling cutter (18) faces the pressing mechanism (3); the supporting mechanism (2) is provided with protrusions (7-1) extending upwards, the protrusions (7-1) are located on two sides of the milling cutter (18), and the highest point of the protrusions (7-1) and the center of the milling cutter (18) are located on the same straight line; the pressing mechanism (3) comprises a pressing plate (13) matched with the supporting mechanism (2), and the pressing plate (13) is rotatably connected to the rack (1).

2. The copying self-adaptive tool rest assembly according to claim 1, wherein the supporting mechanism (2) comprises a copying sheet (7), a supporting seat (8) and two oppositely arranged baffle plates (4), the supporting seat (8) is positioned between the oppositely arranged baffle plates (4), the supporting seat (8) is positioned at two ends of each baffle plate (4), a hollow structure matched with the milling cutter (18) is formed between the supporting seats (8), the copying sheet (7) is positioned between the supporting seat (8) and the baffle plates (4), the inner walls of the oppositely arranged baffle plates (4) are abutted against the copying sheet (7), and the protrusions (7-1) are positioned on the copying sheet (7).

3. A profile adaptive tool holder assembly according to claim 2, wherein the level of the highest point of the protrusion (7-1) is higher than the level of the support base (8), and the protrusion (7-1) can be a semi-circular arc structure, a triangular structure or a trapezoidal structure.

4. The profile modeling self-adaptive tool rest assembly according to claim 2, wherein a bolt (6) and a nut (5) are arranged among the baffle plate (4), the supporting seat (8) and the profile modeling piece (7), the bolt (6) passes through the baffle plate (4), the supporting seat (8) and the profile modeling piece (7) to be connected with the nut (5), and two ends of the baffle plate (4) which are arranged oppositely form an external eight-structure.

5. The profiling self-adaptive tool rest assembly according to claim 2, wherein a support (17) connected with the frame (1) is arranged below the supporting seat (8), a threaded hole connected with the support (17) is formed at the bottom of the supporting seat (8), and the supporting seat (8) is connected with the support (17) through a fastening bolt (16).

6. A profiled adaptive blade carrier assembly according to claim 1, wherein the hold down mechanism (3) comprises a fixed plate (9) and a threaded rod (11), the fixed plate (9) is fixedly connected to the machine frame (1), the threaded rod (11) extends downwards through the fixed plate (9), and the bottom of the threaded rod (11) is connected to the pressure plate (13).

7. The profiling self-adaptive tool rest assembly according to claim 6, wherein a bifurcation structure (11-1) is formed at the bottom of the screw rod (11), the bifurcation structure (11-1) is sleeved on the pressure plate (13), and the bifurcation structure (11-1) is fixedly connected with the pressure plate (13) through a fixing bolt (12).

8. The profile modeling self-adaptive tool rest assembly according to claim 7, wherein the screw (11) is sleeved with a spring (10), the top of the spring (10) abuts against the fixed plate (9), the bottom of the spring (10) abuts against the branched structure (11-1), the screw (11) is sleeved with a double-nut structure (19), and the double-nut structure (19) abuts against the upper surface of the fixed plate (9).

9. A profiled adaptive tool holder assembly according to claim 1, characterized in that a rotation shaft (14) is provided between the pressure plate (13) and the frame (1), the rotation shaft (14) is located at one end of the pressure plate (13), and the rotation shaft (14) rotates synchronously with the pressure plate (13).

10. A profile modeling self-adapting tool rest assembly according to claim 1, wherein a transmission shaft (18-1) is arranged between the milling cutter (18) and the machine frame (1), the milling cutter (18) and the transmission shaft (18-1) rotate synchronously, and the transmission shaft is arranged on the machine frame (1) in a lifting manner.

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