CN115674367B - Small-size round bar processing equipment of efficient - Google Patents

Abstract

The invention relates to the technical field of round bar processing, in particular to efficient small round bar processing equipment, which can efficiently process a plurality of mutually parallel small round bars by taking a whole wood board as a raw material and passing through a conveying channel once, and the conveying and forming of the round bars are very stable by the mutual matching of specific structures and position relations of a conveying roller set, a bottom surface planing device, a top surface planing device, a first circular arc forming mechanism, a second circular arc forming mechanism and a limiting device body.

Description

Small-size round bar processing equipment of efficient

Technical Field

The invention relates to the technical field of round bar processing, in particular to efficient small round bar processing equipment.

Background

The structure of the existing commercially available round bar processing device is that a cutter component is arranged in the middle of a frame, more than two groups of umbrella-shaped feeding wheel groups are arranged at the feeding end of the cutter component, each group of umbrella-shaped feeding wheel groups comprises two umbrella-shaped feeding wheels which are symmetrically distributed, a channel for accommodating cylindrical wood bars of round bars to be processed to pass through is formed between the two umbrella-shaped feeding wheels, all the umbrella-shaped feeding wheels are driven to rotate, the wood bars to be processed are conveyed to the position of the cutter component from the channel, the sides of the wood bars are milled to form round bars through the rotation of a cutter head of the cutter component, and the round bars are sent out through a feeding roller at the rear end of the cutter component.

However, the above-mentioned conventional commercially available round bar processing device has the following technical problems: 1. the raw materials for processing the round bar need to be columnar wood strips, but cannot be wood boards, and in order to save wood, the wood boards to be processed need to be cut into prisms with the length and the width close to the diameter of the round bar in advance to be used for processing by the round bar processing device; 2. only one round bar can be processed at a time, and the wood bars to be processed need to be manually conveyed between bevel gears, and in the initial conveying stage, the wood bars need to be manually conveyed in an auxiliary manner so as to ensure the conveying stability of the wood bars; 3. the round bar processing device has better effect in processing round bars with larger diameters, such as wood handle materials of agricultural hoe heads, but for small round bars with diameters smaller than 1cm, the processing effect is quite unsatisfactory, and the round bars are mainly easy to deviate in conveying, so that the roundness of different parts is uneven.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: provided is an efficient small-sized round bar processing device capable of automatically and stably processing a plurality of small-sized round bars with diameters smaller than 1cm at a time by taking a wood board as a raw material.

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

an efficient small round bar processing device comprises a frame, a conveying roller set, a bottom surface planing device, a top surface planing device, a first arc forming mechanism, a second arc forming mechanism and a limiting device body;

the frame comprises a conveying channel for conveying the boards;

the conveying roller set is connected to the frame and is used for clamping the wood board to convey in the conveying direction;

the bottom surface planer tool device is connected to the frame, is positioned below the conveying channel and is used for planing the bottom surface of the wood board;

the top surface planer device is connected to the frame, is positioned above the conveying channel and is used for planing the top surface of the wood board;

the first arc forming mechanism comprises a first cutter shaft and a plurality of first forming cutters connected to the first cutter shaft, the first cutter shaft is rotatably connected to the frame, the first cutter shaft is positioned above the conveying channel, the first forming cutters are in the shape of a revolving body, a cutting edge part is arranged on the circumferential side of the first forming cutters, a forming groove is formed in the cutting edge part, the cross section of the bottom of the forming groove is a semicircular arc, a transition section with a rectangular cross section is arranged from the semicircular arc to the outermost end of the cutting edge part, and the width of the transition section is identical with the diameter of the semicircular arc;

the second arc forming mechanism comprises a second cutter shaft and a plurality of second forming cutters connected with the second cutter shaft, the second cutter shaft is rotatably connected with the frame, the second cutter shaft is positioned below the conveying channel, and the structure of the second forming cutters is the same as that of the first forming cutters;

the limiting device body is arranged above the second arc forming mechanism, a plurality of minor arc grooves with the axial direction parallel to the conveying direction are formed in the lower portion of the limiting device body, the diameters of the minor arc grooves are equal to the semi-circular arc diameters of the bottoms of the forming grooves, and the axis of each minor arc groove is respectively located on the same vertical plane with the axis of one of the forming grooves of the second forming cutter; the middle part of the lower part of the limiting device body is provided with a concave part for avoiding the second forming cutter, and the vertical distance from the concave part to the lower end of the limiting device body is greater than the depth of the transition section of the second forming cutter.

Furthermore, in the efficient small round bar processing equipment structure, bristles are arranged on the inner side of the transition section of the second forming cutter.

Further, in the above-mentioned high-efficiency small-sized round bar processing equipment structure, the conveying roller set includes a plurality of supporting roller sets located below the conveying channel and a plurality of lower pressing roller sets located above the conveying channel, a protruding anti-slip portion is provided on a circumferential surface of the supporting roller set located at a rear side of the conveying direction of the bottom surface planer, and a circumferential surface of the supporting roller set located at a front side of the conveying direction of the bottom surface planer is a smooth surface; the circumference of the lower compression roller set positioned at the rear of the conveying direction of the top surface planer is provided with a convex anti-slip part, and the circumference of the lower compression roller set positioned at the front of the conveying direction of the top surface planer is a smooth surface.

Further, in the efficient small round bar processing equipment structure, the concave part of the limiting device body is a concave part with a minor arc shape, and the axis of the concave part with the minor arc shape is overlapped with the axis of the second forming cutter.

Further, in the structure of the efficient small round bar processing equipment, the height of the conveying channel is equal to the diameter of the inferior arc-shaped groove.

Further, in the efficient small round bar processing equipment structure, the vertical distance between the upper end of the first arc forming mechanism and the lower end of the second arc forming mechanism is smaller than the diameter of the inferior arc groove.

Furthermore, in the efficient small round bar processing equipment structure, a chamfer is arranged at the initial end of the minor arc-shaped groove of the limiting device body.

Furthermore, in the structure of the efficient small round bar processing equipment, all the forming grooves are distributed at equal intervals.

The invention has the beneficial effects that: the high-efficiency small round bar processing equipment can be used for processing a plurality of parallel small round bars by taking a whole wood board as a raw material and passing through a conveying channel at one time, and the conveying and forming equipment is very stable in conveying and forming by the aid of the specific structures and the mutual matching of the positions of the conveying roller group, the bottom surface planing device, the top surface planing device, the first arc forming mechanism, the second arc forming mechanism and the limiting device body, and is particularly suitable for processing the wood round bars with the diameter smaller than 1cm, and the formed small round bars are fully milled at the joint positions due to the fact that the forming cutter is provided with transition sections.

Drawings

FIG. 1 is a schematic view of a high-efficiency small round bar processing apparatus according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along the direction A of FIG. 1;

fig. 3 is an enlarged view of a portion B of fig. 2;

fig. 4 is an enlarged view of a portion C of fig. 2;

FIG. 5 is a schematic view of a part of a highly efficient small round bar processing apparatus according to an embodiment of the present invention;

FIG. 6 is a cross-sectional view of a stop device body of a high efficiency, small round bar processing apparatus in a direction of conveyance according to an embodiment of the present invention;

FIG. 7 is a bottom view of a stop device body of a high efficiency, small round bar processing apparatus in accordance with an embodiment of the present invention;

FIG. 8 is a cross-sectional view of a plank in the direction of travel of a first arc forming mechanism in a highly efficient small round bar tooling apparatus according to an embodiment of the present invention;

description of the reference numerals:

1. a frame; 11. a conveying channel;

2. a conveying roller set; 21. a backup roll set; 22. a lower press roll set;

3. a bottom surface planing device;

4. a top surface planer tool device;

5. a first arc forming mechanism; 51. a first arbor; 52. a first forming tool;

6. a second arc forming mechanism; 61. a second arbor; 62. a second forming tool;

71. a blade section; 72. forming a groove; 721. a semicircular arc; 722. a transition section; 723. brushing;

8. a spacing device body; 81. inferior arc grooves; 82. a recessed portion; 83. chamfering;

9. and (5) a wood board.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present invention in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 8, the embodiment of the invention relates to a high-efficiency small round bar processing device, which comprises a frame 1, a conveying roller set 2, a bottom surface planer device 3, a top surface planer device 4, a first arc forming mechanism 5, a second arc forming mechanism 6 and a limiting device body 8;

the frame 1 comprises a conveying channel 11 for conveying the boards 9;

the conveying roller set 2 is connected to the frame 1, and the conveying roller set 2 is used for clamping the wood board 9 to convey in the conveying direction;

the bottom surface planer device 3 is connected to the frame 1, the bottom surface planer device 3 is located below the conveying channel 11, and the bottom surface planer device 3 is used for planing the bottom surface of the wood board 9;

the top surface planer device 4 is connected to the frame 1, the top surface planer device 4 is located above the conveying channel 11, and the top surface planer device 4 is used for planing the top surface of the wood board 9;

the first arc forming mechanism 5 comprises a first cutter shaft 51 and a plurality of first forming cutters 52 connected to the first cutter shaft 51, the first cutter shaft 51 is rotatably connected to the frame 1, the first cutter shaft 51 is located above the conveying channel 11, the first forming cutters 52 are in the shape of a revolving body, a cutting edge part 71 is arranged on the circumference side of the first forming cutters 52, a forming groove 72 is formed in the cutting edge part 71, the bottom section of the forming groove 72 is a semicircular arc 721, a transition section 722 with a rectangular section is arranged from the semicircular arc 721 to the outermost end of the cutting edge part 71, and the width of the transition section 722 is the same as the diameter of the semicircular arc 721;

the second circular arc forming mechanism 6 comprises a second cutter shaft 61 and a plurality of second forming cutters 62 connected with the second cutter shaft 61, the second cutter shaft 61 is rotatably connected with the frame 1, the second cutter shaft 61 is positioned below the conveying channel 11, and the structure of the second forming cutters 62 is the same as that of the first forming cutters 52;

the limiting device body 8 is arranged above the second arc forming mechanism 6, a plurality of minor arc grooves 81 with the axial direction parallel to the conveying direction are arranged at the lower part of the limiting device body 8, the diameters of the minor arc grooves 81 are equal to the diameters of the semicircular arcs 721 at the bottoms of the forming grooves 72, and the axis of each minor arc groove 81 is respectively positioned on the same vertical plane with the axis of the forming groove 72 of one second forming cutter 62; the middle part of the lower part of the limiting device body 8 is provided with a concave part 82 for avoiding the second forming cutter 62, and the vertical distance from the concave part 82 to the lower end of the limiting device body 8 is greater than the depth of the transition section 722 of the second forming cutter 62.

The working principle of the efficient small round bar processing equipment, namely a specific processing method, is as follows:

feeding the wood board 9 from the initial end of the conveying channel 11, wherein the thickness of the wood board 9 is equal to or slightly larger than the diameter of a small round bar to be processed by 0.1-1mm;

in the conveying process, the bottom surface planing tool device 3 planes the bottom surface of the wood board 9;

during the conveying process, the top surface planing tool device 4 planers the top surface of the wood board 9;

during the conveying process, the first arc forming mechanism 5 mills the upper part of the wood board 9 into a semicircular arc 721 shape and a small flat transition section 722, referring to fig. 8;

in the conveying process, the inferior arc-shaped groove 81 of the limiting device body 8 is matched with the top of the semicircular arc 721 washed out from the upper part of the wood board 9 to limit, and the semicircular arc 721 is milled out of the lower part of the wood board 9 by the second arc forming mechanism 6, so that the wood board 9 forms a plurality of mutually parallel small round bars.

In the above structure, the conveying roller set 2 through the conveying channel 11 automatically conveys the wood board 9 to be processed to the conveying direction, the wood board 9 is firstly planed on the upper surface and the lower surface of the wood board 9 through the bottom surface planing tool device 3 and the top surface planing tool device 4 before processing round bars, the second circular arc forming mechanism 6 is arranged below the conveying channel 11 through the first circular arc forming mechanism 5 above the conveying channel 11, the second circular arc forming mechanism 6 is arranged in front of the conveying direction of the first circular arc forming mechanism 5, the limiting device body 8 is arranged above the second circular arc forming mechanism 6, and the wood board 9 is processed into a plurality of mutually parallel small round bars at one time through the cooperation of the three.

Further, as a preferred embodiment, bristles 723 are provided inside the transition section 722 of the second forming cutter 62.

In the above structure, when the second forming cutter 62 mills the lower half section of the wood board 9 to mill and form the lower half section of the round bar, the retained scraps at the joint of the upper semicircle and the lower semicircle of the round bar can be brushed out by utilizing the bristles 723 at the inner side of the transition section 722 of the second forming cutter 62, so that the joint of the upper semicircle and the lower semicircle is ensured to be more uniform and smooth.

Further, as a preferred embodiment, the conveying roller set 2 includes a plurality of supporting roller sets 21 located below the conveying passage 11 and a plurality of lower pressing roller sets 22 located above the conveying passage 11, the circumferential surface of the supporting roller set 21 located at the rear of the bottom surface planer 3 in the conveying direction is provided with a protruding anti-slip portion, and the circumferential surface of the supporting roller set 21 located at the front of the bottom surface planer 3 in the conveying direction is a smooth surface; the circumferential surface of the lower press roller group 22 located at the rear of the conveying direction of the top surface planer device 4 is provided with a convex anti-slip portion, and the circumferential surface of the lower press roller group 22 located at the front of the conveying direction of the top surface planer device 4 is a smooth surface.

In the above structure, the upper surface and the lower surface of the wood board 9 are conveyed by the roller set with the protruding anti-slip parts on the surface before planing, so that the wood board 9 is stably clamped during conveying, and the upper surface and the lower surface of the wood board 9 are conveyed by the roller set with smooth surfaces after planing, so as to avoid the surface of the wood board 9 from generating indentation after planing.

Further, as a preferred embodiment, the recess 82 of the limiting device body 8 is a recess 82 with a inferior arc shape, and an axis of the inferior arc recess 82 coincides with an axis of the second molded knife 62.

Further, as a preferred embodiment, the height of the conveying passage 11 is equal to the diameter of the minor arc groove 81.

In the above structure, the height of the conveying channel 11 just accommodates the wood board 9 to pass through, and in practical application, the height of the conveying channel 11 can be flexibly adjusted according to the diameter of the round bar to be processed.

Further, as a preferred embodiment, the vertical distance between the upper end of the first arc forming mechanism 5 and the lower end of the second arc forming mechanism 6 is smaller than the diameter of the minor arc groove 81. In the above structure, since the first arc forming mechanism 5 and the second arc forming mechanism 6 are both provided with the forming grooves 72 comprising the transition sections 722 and the semicircular bottoms, when the first arc forming mechanism 5 and the second arc forming mechanism 6 respectively process the upper semicircle and the lower semicircle of the round bar, the transition sections 722 can mill more small sections of the wood boards 9 beyond the semicircle, so that the joint of the upper semicircle and the lower semicircle of the processed round bar is completely cut off, the joint is fully milled, and the smoothness of the joint is ensured.

Further, as a preferred embodiment, a chamfer 83 is provided at the beginning of the inferior arc groove 81 of the stop device body 8.

In the above structure, the chamfer 83 is provided at the start end of the minor arc groove 81 of the stop device body 8 so that the upper semicircle 721 processed by the first arc forming mechanism 5 can more easily enter the minor arc groove 81 of the stop device body 8.

Further, as a preferred embodiment, the molding grooves 72 are equally spaced apart.

Example 1

Referring to fig. 1 to 8, a high-efficiency small round bar processing apparatus includes a frame 1, a conveying roller set 2, a bottom surface planer 3, a top surface planer 4, a first arc forming mechanism 5, a second arc forming mechanism 6 and a limiting device body 8; the frame 1 comprises a conveying channel 11 for conveying the boards 9; the conveying roller set 2 is connected to the frame 1, and the conveying roller set 2 is used for clamping the wood board 9 to convey in the conveying direction; the bottom surface planer device 3 is connected to the frame 1, the bottom surface planer device 3 is located below the conveying channel 11, and the bottom surface planer device 3 is used for planing the bottom surface of the wood board 9; the top surface planer device 4 is connected to the frame 1, the top surface planer device 4 is located above the conveying channel 11, and the top surface planer device 4 is used for planing the top surface of the wood board 9; the first arc forming mechanism 5 comprises a first cutter shaft 51 and a plurality of first forming cutters 52 connected to the first cutter shaft 51, the first cutter shaft 51 is rotatably connected to the frame 1, the first cutter shaft 51 is located above the conveying channel 11, the first forming cutters 52 are in the shape of a revolving body, a cutting edge part 71 is arranged on the circumference side of the first forming cutters 52, a forming groove 72 is formed in the cutting edge part 71, the bottom section of the forming groove 72 is a semicircular arc 721, a transition section 722 with a rectangular section is arranged from the semicircular arc 721 to the outermost end of the cutting edge part 71, and the width of the transition section 722 is the same as the diameter of the semicircular arc 721; the second circular arc forming mechanism 6 comprises a second cutter shaft 61 and a plurality of second forming cutters 62 connected with the second cutter shaft 61, the second cutter shaft 61 is rotatably connected with the frame 1, the second cutter shaft 61 is positioned below the conveying channel 11, and the structure of the second forming cutters 62 is the same as that of the first forming cutters 52; the limiting device body 8 is arranged above the second arc forming mechanism 6, a plurality of minor arc grooves 81 with the axial direction parallel to the conveying direction are arranged at the lower part of the limiting device body 8, the diameters of the minor arc grooves 81 are equal to the diameters of the semicircular arcs 721 at the bottoms of the forming grooves 72, and the axis of each minor arc groove 81 is respectively positioned on the same vertical plane with the axis of the forming groove 72 of one second forming cutter 62; the middle part of the lower part of the limiting device body 8 is provided with a concave part 82 for avoiding the second forming cutter 62, and the vertical distance from the concave part 82 to the lower end of the limiting device body 8 is greater than the depth of the transition section 722 of the second forming cutter 62.

Bristles 723 are provided inside the transition section 722 of the second shaped tool 62. The conveying roller set 2 comprises a plurality of supporting roller sets 21 positioned below the conveying channel 11 and a plurality of lower pressing roller sets 22 positioned above the conveying channel 11, wherein the circumference surface of the supporting roller set 21 positioned at the rear of the conveying direction of the bottom surface planer device 3 is provided with a convex anti-skid part, and the circumference surface of the supporting roller set 21 positioned at the front of the conveying direction of the bottom surface planer device 3 is a smooth surface; the circumferential surface of the lower press roller group 22 located at the rear of the conveying direction of the top surface planer device 4 is provided with a convex anti-slip portion, and the circumferential surface of the lower press roller group 22 located at the front of the conveying direction of the top surface planer device 4 is a smooth surface. The recess 82 of the limiting device body 8 is a inferior arc recess 82, and the axis of the inferior arc recess 82 coincides with the axis of the second forming tool 62. The height of the conveying channel 11 is equal to the diameter of the minor arc groove 81. The vertical distance between the upper end of the first arc forming mechanism 5 and the lower end of the second arc forming mechanism 6 is smaller than the diameter of the inferior arc groove 81. The starting end of the inferior arc-shaped groove 81 of the limiting device body 8 is provided with a chamfer 83. The molding grooves 72 are equally spaced apart.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent changes made by the specification and drawings of the present invention, or direct or indirect application in the relevant art, are included in the scope of the present invention.

Claims (7)

1. The efficient small round bar processing equipment is characterized by comprising a frame, a conveying roller set, a bottom surface planer tool device, a top surface planer tool device, a first arc forming mechanism, a second arc forming mechanism and a limiting device body;

the frame comprises a conveying channel for conveying the boards;

the conveying roller set is connected to the frame and is used for clamping the wood board to convey in the conveying direction;

the bottom surface planer tool device is connected to the frame, is positioned below the conveying channel and is used for planing the bottom surface of the wood board;

the top surface planer device is connected to the frame, is positioned above the conveying channel and is used for planing the top surface of the wood board;

the first arc forming mechanism comprises a first cutter shaft and a plurality of first forming cutters connected to the first cutter shaft, the first cutter shaft is rotatably connected to the frame, the first cutter shaft is positioned above the conveying channel, the first forming cutters are in the shape of a revolving body, a cutting edge part is arranged on the circumferential side of the first forming cutters, a forming groove is formed in the cutting edge part, the cross section of the bottom of the forming groove is a semicircular arc, a transition section with a rectangular cross section is arranged from the semicircular arc to the outermost end of the cutting edge part, and the width of the transition section is identical with the diameter of the semicircular arc;

the second arc forming mechanism comprises a second cutter shaft and a plurality of second forming cutters connected with the second cutter shaft, the second cutter shaft is rotatably connected with the frame, the second cutter shaft is positioned below the conveying channel, and the structure of the second forming cutters is the same as that of the first forming cutters;

the limiting device body is arranged above the second arc forming mechanism, a plurality of minor arc grooves with the axial direction parallel to the conveying direction are formed in the lower portion of the limiting device body, the diameters of the minor arc grooves are equal to the semi-circular arc diameters of the bottoms of the forming grooves, and the axis of each minor arc groove is respectively located on the same vertical plane with the axis of one of the forming grooves of the second forming cutter;

the middle part of the lower part of the limiting device body is provided with a concave part for avoiding the second forming cutter, and the vertical distance from the concave part to the lower end of the limiting device body is greater than the depth of the transition section of the second forming cutter;

and bristles are arranged on the inner side of the transition section of the second forming cutter.

2. The efficient small-sized round bar processing apparatus according to claim 1, wherein the conveying roller group includes a plurality of supporting roller groups located below the conveying passage and a plurality of lower pressing roller groups located above the conveying passage, a protruding anti-slip portion is provided on a circumferential surface of the supporting roller groups located at a rear side in a conveying direction of the bottom surface planer, and a circumferential surface of the supporting roller groups located at a front side in the conveying direction of the bottom surface planer is a smooth surface; the circumference of the lower compression roller set positioned at the rear of the conveying direction of the top surface planer is provided with a convex anti-slip part, and the circumference of the lower compression roller set positioned at the front of the conveying direction of the top surface planer is a smooth surface.

3. The efficient small-sized round bar processing apparatus according to claim 1, wherein the recess of the limiting device body is a minor arc recess, and an axis of the minor arc recess coincides with an axis of the second forming tool.

4. The efficient small-sized round bar processing apparatus according to claim 1, wherein the height of the conveying passage is equal to the diameter of the inferior arc-shaped groove.

5. The efficient small-sized round bar processing apparatus according to claim 1, wherein a vertical distance between an upper end of the first circular arc forming mechanism and a lower end of the second circular arc forming mechanism is smaller than a diameter of the inferior arc groove.

6. The efficient small round bar processing apparatus according to claim 1, wherein a chamfer is provided at a start end of the inferior arc groove of the limiting device body.

7. The efficient mini round bar machining apparatus according to claim 1, wherein the forming grooves are equally spaced apart.