TWI598191B - Part of the outer metal scraper hand tool with a non-metallic outer composite metal tube - Google Patents

Description

Partial outer scraping hand tool with composite metal tube with non-metallic outer layer

The invention relates to a partial outer scraping hand tool for a composite metal pipe with a non-metallic outer layer, in particular to a partial scraping hand which can perform a scraping operation with a wide range and a flat surface to improve the yield. tool.

According to the composite metal tube 91 having a non-metallic outer layer (as shown in Fig. 14) is attached to a metal tube 91C (which is a current standard automobile hydraulic brake tube for the flow of brake oil, wherein part of the brake oil is shown) Not shown, the first surface of the first surface is provided with an outer layer 91A of aluminum alloy, and then a non-metallic outer layer 91B is plated on the outer surface of the outer layer 91A of the aluminum alloy (mainly insulated, reducing the external temperature to cause the inside of the metal tube 91C) The brake oil is deteriorated, and the non-metallic outer layer 91B may be formed of a ruthenium layer. The point is that the composite metal pipe 91 having a non-metallic outer layer needs to be partially scraped off (see Fig. 15) before the pipe joint (hydraulic brake pipe joint) is performed, and then the subsequent work can be carried out. Processing operations (such as the expansion operation shown in Figure 16). The composite metal pipe (that is, the composite metal pipe 91 having a non-metallic outer layer) is a brand new automobile hydraulic brake pipe fitting, and is a new product for the recent protection of the hydraulic brake pipe in the engine room by the turbocharged engine. There is no special tool, it can only be scraped off with a blade, which often causes the non-metallic outer layer 91B to be rough after being scraped off, and even damages the second layer of aluminum metal (that is, the outer layer of the aluminum alloy is 91A) and becomes a defective product, which may have to be abandoned. use. In view of this, it is necessary to develop a new technology that can solve the above.

It is an object of the present invention to provide a partial outer scraping hand tool having a non-metallic outer layer of a composite metal tube, which has the advantages of being capable of performing a scraping operation having a width range and flattening the outer surface to improve the yield. In particular, the problem to be solved by the present invention is the conventional method of scraping with a blade, which may cause the non-metallic outer layer of the composite metal tube having a non-metallic outer layer to be uneven, or even damage the second layer of aluminum metal. Product problem. The technical means for solving the above problems is to provide a partial outer scraping hand tool having a non-metallic outer layer composite metal tube, comprising: a tool body having a longitudinal portion and a lateral portion, the longitudinal portion is provided with a sliding a rail, the cross portion is provided with a stopper; a rotating portion has a first pivoting rod, a second pivoting rod, a driving thread portion and a knob; the first pivoting rod and the second The pivoting rod is located at two ends of the driving threaded portion for pivoting the driving threaded portion in the sliding rail, and the knob is coupled to the first pivoting rod to extend the tool body for From the outside of the tool body, the driving threaded portion is rotated to rotate relative to the sliding rail; a sliding portion has a sliding rail fitting, a screw hole and a working table, and the sliding rail fitting is paired The sliding rail should be restricted, and the slider portion can only be relatively linearly moved with the sliding rail, and can not be relatively rotated. The screw hole is drilled on the sliding rail fitting member, and the sliding portion and the driving thread portion are engaged with each other. And driven by it; the workbench is from the slide rail fitting, toward Extending the opposite direction of the sliding rail; at least one scraping convex portion extending from the working table toward the stopping member, the scraping convex portion having at least one scraping end edge having a scraping width; Thereby, when the slider portion and the slide rail move relatively linearly, the scraping convex portion moves to a first position and a second position, and when moving to the second position, the scraping convex portion and the blocking portion Forming a working space between the stoppers for inserting a composite metal tube having a non-metallic outer layer for facing the composite metal tube having the non-metallic outer layer to achieve the range of the scraping width Scrap the structure. The above objects and advantages of the present invention will be readily understood from the following detailed description of the preferred embodiments illustrated herein. The invention will be described in detail in the following examples in conjunction with the drawings:

Referring to Figures 1, 2, 3A and 3B, the present invention is a partial outer scraping hand tool of a composite metal tube having a non-metallic outer layer, comprising a tool body 10, a rotating portion 20, and a sliding The block portion 30 and at least one scraping convex portion 40. The tool body 10 has a longitudinal portion 10A and a lateral portion 10B. The longitudinal portion 10 is provided with a slide rail 11; the lateral portion 10B is provided with a stopper 12 (see 4A, 12A and 13). Figure). The rotating portion 20 has a first pivoting lever 21, a second pivoting lever 22, a driving threaded portion 23, and a knob 24. The first pivoting lever 21 and the second pivoting lever 22 are located at two ends of the driving threaded portion 23 for pivoting the driving threaded portion 23 in the sliding rail 11 . The knob 24 is coupled to the first pivoting rod 21 at a position extending from the tool body 10 for rotating the driving thread portion 23 from the outside of the tool body 10 to rotate relative to the sliding rail 11. The slider portion 30 has a slide rail fitting 31, a screw hole 32 and a table 33. The rail mating member 31 is corresponding to the slide rail 11, and the slider portion 30 is limited to The slide rail 11 is relatively linearly movable and is not rotatable relative to each other. The screw hole 32 is drilled in the slide rail fitting 31 for the slider portion 30 to mesh with and be driven by the drive screw portion 23; the table 33 From the slide rail fitting 31, it extends out in the opposite direction of the slide rail 11. With regard to the at least one scraping projection 40, it extends from the table 33 in the direction of the stop member 12, the scraping projection 40 having at least one scraping end edge 41 having a scraping width W. Thereby, when the slider portion 30 and the slide rail 11 move relatively linearly, the scraping convex portion 40 moves to a first position P1 and a second position P2, and when moving to the second position P2, the scraping A working space A is formed between the convex portion 40 and the stopper 12, and is placed in a composite metal tube 91 having a non-metallic outer layer, and the scraping end edge 41 is used for the composite having the non-metallic outer layer. The metal pipe 91 has a structure in which the scraping width W is scraped off. In practice, the stop member 12 can be one of a pair of work rollers (see FIG. 4A) and a pair of stop faces (see FIGS. 12A and 13). The pair of working rollers are parallel and spaced apart from one another. The pair of stop faces may be one of a V-shaped stop face structure (as shown in Fig. 12A) and a curved stop face structure (see Fig. 13). Furthermore, the present invention further includes at least one elastic structure 50 (see FIG. 12B) disposed between the lateral portion 10B and the stopper 12 or on the table 33 and the scraping convex portion. Between 40. Of course, it can also be provided between the lateral portion 10B and the stopper 12 at the same time; and between the table 33 and the scraping convex portion 40. The elastic structure 50 is configured to push the stopper 12 toward the composite metal pipe 91 having a non-metallic outer layer, and to face the scraping convex portion 40 toward the composite metal pipe 91 having the non-metallic outer layer. promote. The contour of the slide rail fitting 31 corresponds to the contour of the slide rail 11 (see FIG. 4B), and the slider portion 30 can be restricted from moving relatively linearly with the slide rail 11 so as not to be relatively rotatable. Referring to Fig. 14, the composite metal tube 91 having a non-metallic outer layer is included from the inside to the outside, and may include a metal tube 91C (which is a current standard automobile hydraulic brake tube for supplying brake oil, wherein a part of the brake oil is shown). The surface is not shown, the first Chen Ming), an aluminum alloy is an outer layer 91A and a non-metallic outer layer 91B (mainly insulated, reducing the external temperature causes the brake oil in the metal tube 91C to deteriorate, the non-metallic outer layer 91B can be a layer) The scraping end edge 41 is used for the scraping operation of the non-metallic outer layer 91B in the range of the scraping width W. The scraping convex portion 40 is provided in plural numbers (as shown in FIG. 3B). The scraping convex portion 40 may be at least one of a triangle, a pentagon (as shown in FIG. 6), and a polygon. The scraping end edge 41 may be plural and distributed at a position where the scraping convex portion 40 can scrape the non-metallic outer layer 91B. Referring to Fig. 11, the table 33 has a stopper wall 331 at the end in the width direction of the scraping projection 40 for blocking the composite metal pipe 91 having a non-metallic outer layer. The use process of the present invention is as follows: Referring to FIG. 3A, assuming that the scraping convex portion 40 is located at the first position P1, the driving screw portion 23 can be first rotated (for example, rotated clockwise) through the knob 24. The driving screw portion 23 drives the slider portion 30, and the sliding rail fitting member 31 limits the linear displacement of the slider portion 30 in the sliding rail 11 to be non-rotatable, and the slider portion 30 can be controlled toward the slider portion 30. The direction of the stopper 12 is moved from the first position P1 to the second position P2, so that the working space A is formed between the scraping convex portion 40 and the stopper 12, and the composite metal having a non-metallic outer layer The tube 91 is disposed in the working space A (see FIGS. 3B and 7). At this time, the composite metal tube 91 having a non-metallic outer layer has a thickness T1 (see FIG. 8A), and is blocked by the stopper 12 and The at least one scraping end edge 41 abuts. Then, after the tool body 10 and the composite metal tube 91 having the non-metallic outer layer are controlled to start relative rotation, the scraping end edge 41 begins to scrape the non-metallic outer layer 91B (see the 8A and 8B drawings for the scraping process). The scraping thickness W can be scraped off at one time, instead of just cutting into a groove or a line, and the non-metallic outer layer 91B is thinned from the thickness T1 to a first scraping thickness T2 for subsequent processing ( For example, expanding the pipe). Of course, if the thickness of the scraping is insufficient, the knob 24 is further rotated, and the pair of scraping edges 41 are again pressed against the composite metal tube 91 having a non-metallic outer layer, and the scraping operation is performed, and the non-metal can be used. From the first scraping thickness T2, the outer layer 91B is scraped off to become a thinner second scraping thickness T3 (as shown in Fig. 9). Regarding the seventh, eighth, eighth, eighth, and ninth, the metal tube 91C is omitted and not shown. The advantages and effects of the present invention can be summarized as follows: [1] A scraping operation having a width range can be performed. The scraping convex portion has a scraping end edge having a scraping width, and the non-metallic outer layer of the composite metal tube having the non-metallic outer layer can be scraped to a range of the scraping width, instead of just cutting a line Or a ditch. Therefore, a scraping operation having a width range can be performed. [2] Surface leveling improves yield. When the composite metal tube having the non-metallic outer layer is pressed between the scraping end edge and the stopper, as long as the tool body is controlled to rotate relative to the composite metal tube having the non-metallic outer layer, The scraping end edge uniformly scrapes the non-metallic outer layer by a predetermined thickness (and has a scraping width), and the outer surface is smoothed after scraping, so that the processing is further facilitated. Therefore, the appearance of the flat can improve the yield. The present invention has been described in detail with reference to the preferred embodiments of the present invention, without departing from the spirit and scope of the invention.

10‧‧‧Tool body
10A‧‧‧Portrait
10B‧‧‧Transverse Department
11‧‧‧Slide rails
12‧‧‧stops
20‧‧‧Rotating Department
21‧‧‧First pivot lever
22‧‧‧Second pivot lever
23‧‧‧ Drive thread
24‧‧‧ knob
30‧‧‧ slider section
31‧‧‧Sliding rail fittings
32‧‧‧ screw holes
33‧‧‧Workbench
331‧‧‧stop wall
40‧‧‧Scrapping the convex part
41‧‧‧ scraping edge
50‧‧‧Flexible structure
91‧‧‧Composite metal tube with non-metallic outer layer
91A‧‧‧Aluminum is an outer layer
91B‧‧‧Non-metallic outer layer
91C‧‧‧Metal tube
W‧‧‧Scratch width
P1‧‧‧ first position
P2‧‧‧ second position
A‧‧‧Workspace
T1‧‧‧ thickness
T2‧‧‧first scraping thickness
T3‧‧‧second scraping thickness

1 is a schematic view of the present invention, FIG. 2 is a schematic view of the appearance of the present invention, FIG. 3A is a schematic view of FIG. 3A-IIIA of FIG. 2, and FIG. 3B is a schematic view of the operation of a part of the structure of FIG. 3A. FIG. 2A is a schematic view of IVA-IVA, FIG. 4B is a schematic view of IVB-IVB of FIG. 2, and FIG. 5 is a schematic view showing a first application example of the scraping convex portion of the present invention. FIG. 6 is a scraping convex portion of the present invention. BRIEF DESCRIPTION OF THE SECOND USE EMBODIMENT FIG. 7 is a schematic view of the initial scraping of the present invention. FIG. 8A is a schematic view showing one of the scraping processes of the present invention. FIG. 8B is a schematic view of the second scraping process of the present invention. FIG. FIG. 11 is a schematic view of the finished product of the present invention. FIG. 11 is a first application of the stopper of the present invention. FIG. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 12B is a schematic view showing the addition of an elastic structure in FIG. 12A. FIG. 13 is a schematic view showing a second application example of the stopper of the present invention. FIG. 14 is a schematic view showing a composite metal pipe having a non-metallic outer layer. Figure 14 is a schematic diagram of the partial scraping of Figure 14 A schematic view of the pipe expansion work performed

10‧‧‧Tool body

10A‧‧‧Portrait

10B‧‧‧Transverse Department

11‧‧‧Slide rails

12‧‧‧stops

20‧‧‧Rotating Department

21‧‧‧First pivot lever

22‧‧‧Second pivot lever

23‧‧‧ Drive thread

24‧‧‧ knob

30‧‧‧ slider section

31‧‧‧Sliding rail fittings

32‧‧‧ screw holes

33‧‧‧Workbench

40‧‧‧Scrapping the convex part

41‧‧‧ scraping edge

W‧‧‧Scratch width

Claims (6)

A partial outer scraping hand tool having a non-metallic outer layer composite metal tube, comprising: a tool body having a longitudinal portion and a lateral portion, the longitudinal portion is provided with a sliding rail, and the lateral portion is provided with a a rotating portion having a first pivoting lever, a second pivoting lever, a driving threaded portion and a knob; the first pivoting lever and the second pivoting lever are located at the driving thread The two ends of the portion are configured to pivot the driving threaded portion in the sliding rail, and the knob is coupled to the first pivoting rod to extend beyond the tool body for rotating from the outside of the tool body The driving thread portion is rotated relative to the sliding rail; a sliding portion has a sliding rail fitting, a screw hole and a working table, and the sliding rail fitting member corresponds to the sliding rail, and the sliding is restricted The block portion can only move relatively linearly with the slide rail, and is not rotatable relative to each other. The screw hole is drilled on the slide rail fitting member, and the slider portion and the drive thread portion are engaged with each other and driven by the slide rail; From the slide rail fitting, extending in the opposite direction of the slide rail Disposing at least one convex portion extending from the table toward the stopper, the scraping convex portion having at least one scraping edge having a scraping width; thereby, when the sliding The block portion moves relatively linearly with the slide rail, and the scraping convex portion moves to a first position and a second position. When moving to the second position, the scraping convex portion and the stopper are formed. A working space for the placement of a composite metal tube having a non-metallic outer layer for the scraped structure of the scraping width toward the composite metal tube having the non-metallic outer layer. The partial outer scraping hand tool of the composite metal pipe having a non-metallic outer layer according to claim 1, wherein: the stopping member is one of a pair of working rollers and a pair of stopping surface structures; The pair of working rollers are parallel and spaced apart from each other; the pair of stop faces are one of a V-shaped stop surface structure and an arc-shaped stop surface structure. A partial outer scraping hand tool having a non-metallic outer layer composite metal tube according to claim 2, further comprising: at least one elastic structure disposed at a position selected from the lateral portion and the stopper At least one of between the table and the scraping convex portion; when the elastic structure is disposed between the lateral portion and the stopping member for facing the blocking member toward the non-metallic outer layer The direction of the composite metal tube is pushed; when the elastic structure is disposed between the working table and the scraping convex portion, the scraping convex portion is pushed toward the composite metal tube having the non-metallic outer layer. A partial scraping hand tool for a composite metal pipe having a non-metallic outer layer as described in claim 1, wherein the scraping convex portion is provided in plurality. The partial outer scraping hand tool of the composite metal pipe having a non-metallic outer layer according to claim 4, wherein the scraping convex portion is at least one of a triangle, a pentagon and a polygon. The partial outer scraping hand tool of the composite metal pipe having a non-metallic outer layer according to claim 1, wherein the work platform has a retaining wall located in a width direction of the scraping convex portion. The end of the end is used to block the composite metal tube having a non-metallic outer layer.