CN115780359A - Ultra-thin modified reinforced carbon fiber sheet precision part processing device - Google Patents

Abstract

The invention discloses a processing device for an ultrathin modified reinforced carbon fiber sheet precision part, and belongs to the technical field of processing of carbon fiber sheet precision parts. The impact speed on the upper end surface of the sheet is different under the three conditions, when the liquid outlet hole close to one side of the first connecting piece is opened, the height of the liquid falling downwards is higher, the flowing speed of the liquid is accelerated through the third connecting piece which is obliquely arranged, and the flowing speed of the liquid is the fastest; when the liquid outlet hole below the liquid outlet hole is opened, the liquid only increases the flowing speed through the third connecting piece which is obliquely arranged, and the flowing speed is lower than that of the liquid close to the liquid outlet hole on one side of the first connecting piece; when the liquid outlet hole far away from one side of the first connecting piece is opened, although the liquid drops to the same height as the liquid flowing out from the liquid outlet hole close to one side of the first connecting piece, the liquid does not incline and accelerate the liquid through the inclined third connecting piece, the flowing speed of the liquid is the slowest in the device, different types of sheets are scoured, and the functional diversity of the device is improved.

Description

Ultra-thin modified reinforced carbon fiber sheet precision part processing device

Technical Field

The invention relates to the technical field of processing of precision carbon fiber sheets, in particular to a processing device for an ultrathin modified reinforced carbon fiber sheet precision piece.

Background

Carbon fibers are made from carbon fibers treated with an epoxy coating and pressed with graphite. The advantages are a light weight and a high tensile strength, and among all the low density synthetic handle materials, carbon fiber is probably the strongest. Carbon fiber is also a highly processed material and is therefore also commonly used in high-end products.

Patent No. cn201610562018.X discloses a carbon fiber composite antenna and a preparation method thereof, comprising a carbon fiber sheet formed by alternately laying carbon fiber prepreg, wherein the carbon fiber sheet has a pre-press formed antenna pattern, the antenna pattern is filled with a conductive coating to form a conductive coating, the carbon fiber sheet and the conductive coating are integrally formed, the surface of the conductive coating is provided with an antenna circuit formed by laser irradiation, and the surface of the antenna circuit is covered with a metal film layer. Further: the thickness of the conductive coating is 10-20 μm.

The method solves the problems that the adhesion is low, the three-dimensional curved surface is difficult to process, the channel resistance is large and the like, and the requirements of ultrathin and compact design and three-dimensional curved surface feeling of a product are difficult to meet, so that the application and popularization of the method are limited to a certain extent; however, the upper end surface of the sheet cannot be impacted by liquid through different flowing speeds by using single equipment, different types of sheets can be scoured due to different impact forces, and the functional diversity of the device is improved.

Disclosure of Invention

Technical problem to be solved

The invention aims to provide a processing device for an ultrathin modified reinforced carbon fiber sheet precision piece, which aims to solve the problems in the background technology.

Technical scheme

The processing device for the ultrathin modified reinforced carbon fiber sheet precision part comprises a supporting unit and a processing unit, wherein the processing unit is arranged on the lower end face of the supporting unit, the processing unit comprises a splicing box and a liquid outlet mechanism which is arranged on the lower end face of the splicing box in a penetrating manner, and a matching mechanism is clamped between the splicing box and the liquid outlet mechanism;

preferably, the supporting unit comprises an outer frame shell and through holes formed in three surfaces of the outer frame shell, a mounting box is arranged in an inner cavity of the outer frame shell in an inserting mode, an elastic connecting shaft is arranged on the lower end face of the mounting box, input holes are arranged on the upper end face of the outer frame shell, and the arrangement position of each group of the input holes is consistent with the arrangement position of each group of the feeding cavities;

preferably, the lower end face of the elastic connecting shaft is vertically attached to the upper end face of the box body, so that the supporting unit and the processing unit are integrated.

Preferably, the splicing box comprises a box body and opening holes arranged on the bottom end face of the box body, a through hole is formed in one side of each opening hole, and a feeding cavity is formed in the position, right above the box body, of the through hole in a penetrating mode.

Preferably, go out the liquid mechanism and include the liquid case and set up in the pan feeding hole on liquid case top, the lower terminal surface and the both sides terminal surface of liquid case all are provided with out the liquid hole, and the staff pours liquid top-down into the inner chamber of input hole, and liquid flows down by the pan feeding intracavity after running through the inner chamber of outrigger shell, and the inner chamber through the through hole gets into the inner chamber of pan feeding hole, and when liquid did not get into out the liquid case, the staff all carries out the shutoff with three group's play liquid holes, and when certain manufacturing procedure that the staff confirmed to go on, one of three group's play liquid holes was opened, made liquid discharge in the play liquid hole of opening.

Preferably, the matching mechanism comprises a special-shaped piece and an extension piece arranged on one side of the special-shaped piece, a lower charging barrel penetrates through the bottom end face of the extension piece, and the lower charging barrel is connected with the special-shaped piece through a series connection channel.

Preferably, the special-shaped part comprises a support and a groove arranged at the top end of the support, a first connecting piece is connected to the edge of the support, a second connecting piece is arranged on the bottom end face of the first connecting piece, a third connecting piece is obliquely arranged at the other end of the second connecting piece, the other end of the third connecting piece is connected with a fourth connecting piece, when a liquid outlet close to one side of the first connecting piece is opened, liquid transversely impacts the wall of an inner cavity of the first connecting piece, and flows through the third connecting piece towards one side after falling to the second connecting piece and finally enters the inner cavity of the matching ring through the through groove after flowing to the fourth connecting piece.

Preferably, the feeding barrel comprises a barrel body and a matching ring arranged on the lower end face of the barrel body, a through groove penetrates through the side end face of the matching ring, the whole device is placed above a flat working table, the bottom of the special-shaped part is higher than the bottom of the matching ring, a sheet to be processed is inserted into a gap between the matching ring and the processing table, when a liquid outlet hole below the whole device is opened, liquid is vertically poured downwards to the upper side of a third connecting piece, the liquid slides downwards to a fourth connecting piece by taking the third connecting piece as a path and then enters an inner cavity of the matching ring through the through groove through a series channel, and a lower air blower blows the liquid downwards to assist in pouring the liquid onto the upper end face of the processed sheet.

Preferably, the width of the through groove is smaller than the width of the serial channel, the side end face of the serial channel is connected with one side of the matching ring, when the liquid outlet hole is opened and is far away from one side of the first connecting piece, liquid flows out transversely from the inner cavity of the liquid outlet box, the flowing liquid directly flows into the fourth connecting piece, enters the inner cavity of the matching ring through the through groove through the serial channel, and the lower air blower blows the liquid downwards to assist in pouring the liquid onto the upper end face of the processed sheet.

Preferably, the support is in embedded fit with the opening hole through the groove, the liquid outlet box is inserted into the inner cavity of the through hole through the feeding hole, so that the splicing box, the liquid outlet mechanism and the matching mechanism form a whole, the impact speeds on the upper end surface of the sheet are different under the three conditions, when the liquid outlet hole close to one side of the first connecting piece is opened, the height of the liquid falling downwards is higher, the flowing speed of the liquid is accelerated through the third connecting piece which is obliquely arranged, and the flowing speed of the liquid is fastest; when the liquid outlet hole below the liquid outlet hole is opened, the liquid only increases the flowing speed through the third connecting piece which is arranged obliquely, and the flowing speed is lower than that of the liquid close to the liquid outlet hole on one side of the first connecting piece; when the liquid outlet hole far away from one side of the first connecting piece is opened, although the liquid falls to the same height as the liquid flowing out of the liquid outlet hole close to one side of the first connecting piece, the liquid is not inclined and accelerated by the inclined third connecting piece, the flowing speed of the liquid is the slowest in the device, the liquid impact is carried out on the surface of the sheet material through different flowing speeds, different impact forces exist, different types of sheet materials can be scoured, and the functional diversity of the device is improved.

Advantageous effects

Compared with the prior art, the invention has the advantages that:

1. impact velocity to the sheet up end is all inequality under three kinds of circumstances, and when the play liquid hole near first connecting piece one side was opened, the height that liquid dropped down was higher, and through the third connecting piece that the slope set up for the flow velocity of liquid, liquid flow velocity is the fastest.

2. When the liquid outlet hole below is opened, the liquid only passes through the third connecting piece which is obliquely arranged to increase the flowing speed, and the flowing speed is lower than that of the liquid at the liquid outlet hole close to one side of the first connecting piece.

3. When the liquid outlet hole far away from one side of the first connecting piece is opened, although the liquid drops to the same height as the liquid flowing out from the liquid outlet hole close to one side of the first connecting piece, the liquid is not obliquely accelerated through the obliquely arranged third connecting piece, the flowing speed of the liquid is the slowest in the device, the liquid impact is carried out on the surface of the sheet through different flowing speeds, and different types of sheets can be scoured due to different impact forces, so that the functional diversity of the device is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of a processing device for an ultra-thin modified reinforced carbon fiber sheet precision part according to the present invention;

FIG. 2 is a schematic structural diagram of a supporting unit of a processing device for an ultra-thin modified reinforced carbon fiber sheet precision part according to the present invention;

FIG. 3 is a schematic view of a splicing box of a processing device for an ultra-thin modified reinforced carbon fiber sheet precision part according to the present invention;

FIG. 4 is a schematic view of a matching structure of a liquid outlet mechanism and a matching mechanism of the ultra-thin modified reinforced carbon fiber sheet precision part processing device according to the present invention;

FIG. 5 is a schematic structural view of a matching mechanism of a processing device for an ultra-thin modified reinforced carbon fiber sheet precision part according to the present invention;

FIG. 6 is a schematic structural view of a liquid outlet mechanism of the processing device for the ultra-thin modified reinforced carbon fiber sheet precision part of the present invention;

FIG. 7 is a schematic structural view of a blanking cylinder of the processing device for precision parts of ultrathin modified reinforced carbon fiber sheets.

The reference numbers in the figures illustrate: 1. a support unit; 11. an outer frame shell; 12. a through hole; 13. mounting a box; 14. an elastic connecting shaft; 15. an input aperture; 2. a processing unit; 21. splicing the boxes; 211. a box body; 212. forming a hole; 213. a through hole; 214. a feeding cavity; 22. a liquid outlet mechanism; 221. a liquid outlet box; 222. a feeding hole; 223. a liquid outlet hole; 23. a mating mechanism; 231. a special-shaped piece; 2311. a support; 2312. a groove; 2313. a first connecting member; 2314. a second connecting member; 2315. a third connecting member; 2316. a fourth connecting member; 232. an extension member; 233. feeding the material barrel; 2331. a barrel; 2332. a mating loop; 2333. a through slot; 234. the lanes are connected in series.

Detailed Description

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", "outer", "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 equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "fitted/connected", "connected", and the like, are to be interpreted broadly, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-7, the present invention provides a technical solution:

the processing device for the ultrathin modified reinforced carbon fiber sheet precision part comprises a supporting unit 1 and a processing unit 2, wherein the processing unit 2 is arranged on the lower end face of the supporting unit 1, the processing unit 2 comprises a splicing box 21 and a liquid outlet mechanism 22 which is arranged on the lower end face of the splicing box 21 in a penetrating manner, and a matching mechanism 23 is clamped between the splicing box 21 and the liquid outlet mechanism 22; the supporting unit 1 comprises an outer frame shell 11 and through holes 12 formed in three sides of the outer frame shell 11, a mounting box 13 is inserted into an inner cavity of the outer frame shell 11, an elastic connecting shaft 14 is arranged on the lower end face of the mounting box 13, input holes 15 are arranged on the upper end face of the outer frame shell 11, and the opening position of each group of the input holes 15 is consistent with the opening position of each group of the feeding cavities 214; the lower end face of the elastic connecting shaft 14 is vertically attached to the upper end face of the box body 211, so that the supporting unit 1 and the processing unit 2 are integrated.

Example 1

The splicing box 21 comprises a box body 211 and opening holes 212 arranged on the bottom end face of the box body 211, a through hole 213 is formed in one side of each opening hole 212, a feeding cavity 214 is formed in the position, right above the box body 211, of each through hole 213 in a penetrating mode, the liquid outlet mechanism 22 comprises a liquid outlet box 221 and a feeding hole 222 arranged at the top end of the liquid outlet box 221, liquid outlet holes 223 are formed in the lower end face and the two side end faces of the liquid outlet box 221, liquid is poured into an inner cavity of the input hole 15 from top to bottom by a worker, flows downwards from the feeding cavity 214 after penetrating through the inner cavity of the outer frame shell 11, enters the inner cavity of the feeding hole 222 through the inner cavity of the through hole 213, when the liquid does not enter the liquid outlet box 221, the worker plugs the three groups of liquid outlet holes 223, when the worker determines a certain processing procedure to be performed, one of the three groups of liquid outlet holes 223 is opened, the liquid is discharged through the opened liquid outlet hole 223, the matching mechanism 23 comprises a special-shaped piece 231 and an extension piece 232 arranged on one side of the special-shaped piece 231, a lower end face of the extension piece 232 is installed in a penetrating mode, and the lower end face of the extension piece 233 is connected with a material barrel 234 in series.

Example 2

The special-shaped piece 231 comprises a support 2311 and a groove 2312 arranged at the top end of the support 2311, a first connecting piece 2313 is connected to the edge of the support 2311, a second connecting piece 2314 is arranged on the bottom end face of the first connecting piece 2313, a third connecting piece 2315 is obliquely arranged at the other end of the second connecting piece 2314, the other end of the third connecting piece 2315 is connected with a fourth connecting piece 2316, when a liquid outlet hole 223 close to one side of the first connecting piece 2313 is opened, liquid transversely impacts the inner cavity wall of the first connecting piece 2313, the liquid drops to the second connecting piece 2314 and flows to one side through the third connecting piece 2315, finally flows to the fourth connecting piece 2316 and then enters the inner cavity of the matching ring 2332 from the through groove 2333 through the serial connection channel 234, and because a downwind fan is arranged at the top end of the inner cavity of the cylinder 2331, the downwind fan can assist in blowing the liquid to be poured to the upper end face of the processed sheet;

when the liquid outlet hole 223 close to one side of the first connecting piece 2313 is opened, the liquid falls down to a higher height, and the flowing speed of the liquid is increased through the inclined third connecting piece 2315, so that the flowing speed of the liquid is the fastest.

Example 2

The feeding barrel 233 comprises a barrel 2331 and a matching ring 2332 arranged on the lower end face of the barrel 2331, a through groove 2333 is arranged on the side end face of the matching ring 2332 in a penetrating mode, the whole device is placed above a flat workbench surface, the bottom of the special-shaped piece 231 is higher than the bottom of the matching ring 2332, a sheet to be processed is inserted into a gap between the matching ring 2332 and the workbench surface, when a liquid outlet hole 223 in the lower side is opened, liquid vertically falls downwards to the upper side of the third connecting piece 2315, due to the inclined arrangement of the third connecting piece 2315, the liquid slides downwards to the fourth connecting piece 2316 by taking the third connecting piece 2315 as a path and then enters an inner cavity of the matching ring 2332 through the through groove 2333, and the liquid is blown downwards to assist in pouring the liquid to the upper end face of the processed sheet by the down-wind fan;

when the lower outlet holes 223 are opened, the liquid increases a flowing speed only by the third connecting member 2315 which is obliquely arranged, and the flowing speed is slower than that of the liquid of the outlet holes 223 at the side close to the first connecting member 2313.

Example 3

The opening width of the through groove 2333 is smaller than the opening width of the inner cavity wall of the serial channel 234, the side end face of the serial channel 234 is connected with one side of the matching ring 2332, when the liquid outlet 223 far away from one side of the first connecting piece 2313 is opened, liquid transversely flows out from the inner cavity of the liquid outlet box 221, the flowed liquid directly pours into the fourth connecting piece 2316, enters the inner cavity of the matching ring 2332 from the through groove 2333 through the serial channel 234, the liquid is blown downwards by the lower air blower to assist in pouring the liquid onto the upper end face of the processed sheet, the support 2311 is in embedded fit with the opening hole 212 through the groove 2312, and the liquid outlet box 221 is inserted into the inner cavity of the through hole 213 through the material inlet hole 222, so that the splicing box 21, the liquid outlet mechanism 22 and the matching mechanism 23 form a whole.

The impact speeds to the upper end face of the sheet under the three conditions are different, when the liquid outlet hole 223 far away from one side of the first connecting piece 2313 is opened, although the falling height of the liquid is consistent with the falling height of the liquid flowing out of the liquid outlet hole 223 close to one side of the first connecting piece 2313, the liquid is not obliquely accelerated through the obliquely arranged third connecting piece 2315, the flowing speed of the liquid is the slowest in the device, the liquid is impacted on the surface of the sheet through different flowing speeds, and due to the fact that different impact forces exist, different types of sheets can be subjected to scouring treatment, and the functional diversity of the device is improved.

In summary, the following steps: when the liquid outlet hole 223 close to one side of the first connecting piece 2313 is opened, liquid transversely impacts the inner cavity wall of the first connecting piece 2313, the liquid drops downwards to the second connecting piece 2314, flows towards one side to pass through the third connecting piece 2315, finally flows to the fourth connecting piece 2316 and enters the inner cavity of the matching ring 2332 from the through groove 2333 through the series channel 234, and the lower air fan is arranged at the top end of the inner cavity of the cylinder 2331 and is used for blowing the liquid downwards to assist in blowing the liquid to be poured onto the upper end face of the processed sheet.

When the liquid outlet hole 223 below is opened, the liquid is vertically poured downwards to the upper side of the third connecting piece 2315, due to the inclined arrangement of the third connecting piece 2315, the liquid slides downwards to the fourth connecting piece 2316 by taking the third connecting piece 2315 as a path and then enters the inner cavity of the matching ring 2332 from the through groove 2333 through the serial channel 234, and the lower air blower blows the liquid downwards to assist in blowing the liquid to pour the upper end face of the processed sheet.

When the liquid outlet hole 223 on the side far from the first connecting piece 2313 is opened, liquid flows out from the inner cavity of the liquid outlet box 221 transversely, the flowing liquid is directly poured into the fourth connecting piece 2316, the flowing liquid enters the inner cavity of the matching ring 2332 from the through groove 2333 through the serial channel 234, and the lower air blower blows the liquid downwards to assist in pouring the liquid onto the upper end face of the processed sheet.

The impact speeds on the upper end surface of the sheet material under the three conditions are different, when the liquid outlet hole 223 close to one side of the first connecting piece 2313 is opened, the height of the liquid falling downwards is high, the flowing speed of the liquid is increased through the third connecting piece 2315 which is arranged obliquely, and the flowing speed of the liquid is the fastest; when the liquid outlet holes 223 below are opened, the liquid only increases the flowing speed through the obliquely arranged third connecting piece 2315, and the flowing speed is lower than that of the liquid at the liquid outlet holes 223 at one side close to the first connecting piece 2313; when the liquid outlet hole 223 far away from one side of the first connecting piece 2313 is opened, although the falling height of the liquid is consistent with that of the liquid flowing out of the liquid outlet hole 223 close to one side of the first connecting piece 2313, the liquid is not obliquely accelerated through the obliquely arranged third connecting piece 2315, the flowing speed of the liquid is the slowest in the device, liquid impact is carried out on the surface of the sheet material through different flowing speeds, and due to the fact that different impact forces exist, different types of sheet materials can be subjected to scouring treatment, and the functional diversity of the device is improved.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides an ultra-thin modified reinforcing carbon fiber sheet precision piece processingequipment which characterized in that: including support element (1) and processing unit (2), the lower terminal surface of support element (1) is arranged and is installed processing unit (2), processing unit (2) are including concatenation box (21) and range cross-under in concatenation box (21) terminal surface play liquid mechanism (22), the centre gripping is provided with cooperation mechanism (23) between concatenation box (21) and the play liquid mechanism (22).

2. The device for processing the ultra-thin modified reinforced carbon fiber sheet precision part according to claim 1, is characterized in that: the splicing box (21) comprises a box body (211) and opening holes (212) arranged on the bottom end face of the box body (211), a through hole (213) is formed in one side of each opening hole (212), and a feeding cavity (214) is formed in the position, right above the box body (211), of the through hole (213) in a penetrating mode.

3. The device for processing the ultra-thin modified reinforced carbon fiber sheet precision part according to claim 1, is characterized in that: the liquid outlet mechanism (22) comprises a liquid outlet box (221) and a material inlet hole (222) arranged at the top end of the liquid outlet box (221), and liquid outlet holes (223) are formed in the lower end face and the two side end faces of the liquid outlet box (221).

4. The device for processing the ultra-thin modified reinforced carbon fiber sheet precision part according to claim 1, is characterized in that: the matching mechanism (23) comprises a special-shaped piece (231) and an extension piece (232) arranged on one side of the special-shaped piece (231), a lower charging barrel (233) penetrates through the bottom end face of the extension piece (232), and the lower charging barrel (233) is connected with the special-shaped piece (231) through a series connection channel (234).

5. The device for processing the ultrathin modified reinforced carbon fiber sheet precision part as claimed in claim 4, characterized in that: the special-shaped piece (231) comprises a support (2311) and a groove (2312) formed in the top end of the support (2311), a first connecting piece (2313) is connected to the edge of the support (2311), a second connecting piece (2314) is arranged on the bottom end face of the first connecting piece (2313), a third connecting piece (2315) is obliquely arranged at the other end of the second connecting piece (2314), and the other end of the third connecting piece (2315) is connected with a fourth connecting piece (2316).

6. The device for processing the ultrathin modified reinforced carbon fiber sheet precision part as claimed in claim 4, characterized in that: the lower charging barrel (233) comprises a barrel body (2331) and a matching ring (2332) arranged on the lower end face of the barrel body (2331), and a through groove (2333) penetrates through the side end face of the matching ring (2332).

7. The ultra-thin modified reinforced carbon fiber sheet precision part processing device according to claim 6, characterized in that: the opening width of the through groove (2333) is smaller than that of the inner cavity wall of the serial connection channel (234), and the side end face of the serial connection channel (234) is connected with one side of the matching annular ring (2332).

8. The ultra-thin modified reinforced carbon fiber sheet precision part processing device according to claim 6, characterized in that: the support (2311) is in embedded fit with the opening hole (212) through the groove (2312), and the liquid outlet box (221) is inserted into the inner cavity of the through hole (213) through the material inlet hole (222), so that the splicing box (21), the liquid outlet mechanism (22) and the matching mechanism (23) are integrated.

9. The device for processing the ultrathin modified reinforced carbon fiber sheet precision part as claimed in claim 1, characterized in that: support element (1) include outrigger shell (11) and set up in trilateral through-hole (12) of outrigger shell (11), the inner chamber of outrigger shell (11) alternates and is provided with mounting box (13), the lower terminal surface of mounting box (13) is arranged and is provided with elastic connection axle (14), the up end of outrigger shell (11) is arranged and is provided with input hole (15), every group the position of seting up of input hole (15) is unanimous with the position of seting up of every group feeding cavity (214).

10. The processing device of the ultra-thin modified reinforced carbon fiber sheet precision part according to claim 9, characterized in that: the lower end face of the elastic connecting shaft (14) is vertically attached to the upper end face of the box body (211), so that the supporting unit (1) and the processing unit (2) are integrated.

Images