CN105127353A - Riveting method for skylight outer pipe pressing block and sliding rail - Google Patents
Riveting method for skylight outer pipe pressing block and sliding rail Download PDFInfo
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- CN105127353A CN105127353A CN201510560089.1A CN201510560089A CN105127353A CN 105127353 A CN105127353 A CN 105127353A CN 201510560089 A CN201510560089 A CN 201510560089A CN 105127353 A CN105127353 A CN 105127353A
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Abstract
The invention discloses a riveting method for a skylight outer pipe pressing block and a sliding rail. A special riveting tool is adopted. The method comprises the steps that the outer pipe pressing block is positioned on the riveting tool; the sliding rail is positioned on the riveting tool and compressed; the outer pipe pressing block and the sliding rail are riveted. According to the riveting method for the skylight outer pipe pressing block and the sliding block, the special riveting tool is adopted, a positioning mechanism is arranged on the riveting tool for positioning the outer pipe pressing block and the sliding rail, and a compressing mechanism is used for compressing the sliding rail, so that it is ensured that the outer pipe pressing block and the sliding rail are reliably and precisely positioned so as to avoid the phenomenon that the outer pipe pressing block and the sliding rail move during riveting and affect the riveting quality, the outer pipe pressing block and the sliding rail can be rapidly positioned, the riveting efficiency is improved, and the riveting quality is ensured.
Description
Technical field
The invention belongs to skylight and produce accessory technical field, specifically, the present invention relates to the clinching method of a kind of skylight outer tube briquetting and slide rail.
Background technology
Vehicle dormer window is installed on roof, can effectively make car inner air flow, increases entering, for car owner brings health, comfortable enjoyment of fresh air.
At present, that mode by riveting links into an integrated entity between skylight outer tube briquetting and slide rail, workman is needed to take long to adjust the position of outer tube briquetting and slide rail before riveted joint, this just needs operator will have very masterful technique, consuming time more during operation, and cause unnecessary impact to the riveted joint working (machining) efficiency of outer tube briquetting and slide rail, and be difficult to ensure riveting quality.
Summary of the invention
The invention provides the clinching method of a kind of skylight outer tube briquetting and slide rail, object improves riveted joint working (machining) efficiency.
To achieve these goals, the technical scheme that the present invention takes is: the clinching method of skylight outer tube briquetting and slide rail, uses Special riveting frock, and comprises step:
Riveting tool completes the location of outer tube briquetting;
Riveting tool completes the location of slide rail, and compresses slide rail;
Riveted joint outer tube briquetting and slide rail.
Described riveting tool comprises:
Base plate;
First detent mechanism, it is arranged on base plate, and for positioning outer tube briquetting;
Second detent mechanism, it is arranged on base plate, and for positioning slide rail; And
Hold-down mechanism, it is arranged on base plate, and for compressing slide rail.
Described first detent mechanism, described second detent mechanism and described hold-down mechanism are arranged on the end face of described base plate.
Described first detent mechanism comprises the first locating piece be arranged on described base plate and the main alignment pin be arranged on the first locating piece.
Be provided with the storage tank for holding described outer tube briquetting in described first locating piece, described main alignment pin inserts in storage tank.
Described second detent mechanism comprises and is arranged at the second locating piece on base plate and support column, and support column and described hold-down mechanism lay respectively at the side of the second locating piece.
Described second locating piece is string configuration, and described support column and described hold-down mechanism all arrange multiple along the length direction of the second locating piece.
Described first detent mechanism is arranged at one end of the length direction of described second locating piece.
Described hold-down mechanism comprises the bearing be arranged on described base plate and the horizontal binding clasp be arranged on bearing.
Described first detent mechanism, described second detent mechanism and described hold-down mechanism are provided with multiple, and each first detent mechanism all has the second detent mechanism and hold-down mechanism that match.
The clinching method of skylight of the present invention outer tube briquetting and slide rail, adopt Special riveting frock, by detent mechanism set on riveting tool, outer tube briquetting and slide rail are positioned, and compress slide rail by hold-down mechanism, guarantee that outer tube briquetting and slide rail obtain reliably, accurately locating, during to avoid riveting, the movement of outer tube briquetting and slide rail has an impact to riveting quality, but also can realize the location of outer tube briquetting and slide rail fast, improve riveted joint efficiency, ensure that riveting quality.
Accompanying drawing explanation
This description comprises the following drawings, shown content respectively:
Fig. 1 is the structural representation of the riveting tool that the present invention adopts;
Fig. 2 is the top view of the riveting tool that the present invention adopts;
Fig. 3 is A-A sectional view in Fig. 2;
Fig. 4 is B-B sectional view in Fig. 2;
Fig. 5 is the structural representation of the first detent mechanism;
Fig. 6 is the using state figure of the riveting tool that the present invention adopts;
Fig. 7 is the structural representation of outer tube briquetting;
Fig. 8 is the partial structurtes schematic diagram of slide rail;
Fig. 9 is the installation diagram after outer tube briquetting and slide rail are riveted;
Be labeled as in figure:
1, main alignment pin; 2, footing; 3, base plate; 31, hole is dodged; 32, end face; 4, the first locating piece; 41, locating piece main body; 42, storage tank; 43, end face; 44, lateral surface; 45, the first locating surface; 46, the second locating surface; 47, the 3rd locating surface; 48, the 4th locating surface; 49, the 5th locating surface; 410, escape groove; 411, escape groove; 412, escape groove; 413, mounting blocks; 5, the second locating piece; 51, the 6th locating surface; 6, hold-down mechanism; 61, bearing; 62, binding clasp; 7, support column; 8, handle; 9, outer tube briquetting; 91, briquetting body; 92, the first lug; 93, the second lug; 94, the 3rd lug; 95, the first side; 96, the second side; 97, the 3rd side; 98, the 4th side; 99, the 5th side; 910, the 6th side; 911, locating hole; 912, heptalateral face; 10, slide rail; 101, sliding track body; 102, flank; 103, the first chute; 104, the second chute; 105, the 3rd chute.
Detailed description of the invention
Contrast accompanying drawing below, by the description to embodiment, be described in further detail the specific embodiment of the present invention, object helps those skilled in the art to have more complete, accurate and deep understanding to design of the present invention, technical scheme, and contribute to its enforcement.
The invention provides the clinching method of a kind of skylight outer tube briquetting and slide rail and the Special riveting frock of employing, the outer tube briquetting 9 that this riveting tool is mainly used for skylight rivets with slide rail 10 Working position adding and determine outer tube briquetting 9 and slide rail 10 man-hour, as shown in Figures 1 to 5, this riveting tool comprises base plate 3, first detent mechanism, the second detent mechanism and hold-down mechanism 6, first detent mechanism, the second detent mechanism and hold-down mechanism 6 and is all arranged on base plate 3; First detent mechanism is for positioning outer tube briquetting 9, and the second detent mechanism is for positioning slide rail 10, and hold-down mechanism 6 is for compressing slide rail 10.
Specifically, base plate 3 is rectangular plate-like structure, and the first detent mechanism, the second detent mechanism and hold-down mechanism 6 are arranged on the end face 32 of base plate 3, and end face 32 is plane.The bottom of base plate 3 arranges multiple footing 2, for support baseboard 3.
As shown in Figure 7, it comprises briquetting body 91 and is arranged at the first lug 92 on briquetting body 91 structure of outer tube briquetting 9, second lug 93 and the 3rd lug 94, briquetting body 91 is polymorphic structure, and the outer surface of briquetting body 91 is provided with the first side 95, second side 96, 3rd side 97, 4th side 98, 5th side 99, 6th side 910 and side, heptalateral face 912, the first 95, second side 96, 3rd side 97, 4th side 98, 5th side 99, 6th side 910 and heptalateral face 912 are plane, first side 95 and the 6th side 910 are opposite face, second side 96 and the 3rd side 97 are opposite face, second side 96 and the 3rd side 97 are between the first side 95 and the 6th side 910, and the both sides of the edge of the second side 96 and the 3rd side 97 respectively with the side edge conjunction of the first side 95 and the 6th side 910, heptalateral face 912 is the end face of briquetting body 91, be positioned at the top of aforementioned four sides, and the four side edge in heptalateral face 912 respectively with the first side 95, second side 96, 3rd side 97 is connected with the top of the 6th side 910, and the 4th side 98 and the 5th side 99 are the bottom surface of briquetting body 91, are positioned at the bottom of aforementioned four sides, wherein three lateral edges of the 4th side 98 respectively with the first side 95, second side 96 is connected with the bottom margin of the 6th side 910, wherein three lateral edges of the 5th side 99 respectively with the first side 95, 3rd side 97 is connected with the bottom margin of the 6th side 910.4th side 98 also parallels with the 5th side 99, and the distance between the 4th side 98 and heptalateral face 912 is greater than the distance between the 5th side 99 and heptalateral face 912, thus forms a step between the 4th side 98 and the 5th side 99.6th side 910 and the second side 96, the 3rd side 97, the 4th side 98 and the 5th side 99 perpendicular, and the first side 95 is tapered plane, and for tilting to extend towards side-lower from the top of briquetting body 91, the top thickness of the briquetting body 91 of formation is less than bottom thickness.First lug 92, second lug 93 and the 3rd lug 94 are for being vertically installed on the 6th side 910, first lug 92, second lug 93 and the 3rd lug 94 all stretch out along the direction perpendicular with the 6th side 910 towards the outside of briquetting body 91, second lug 93 between the first lug 92 and the 3rd lug 94, and the distance between the second lug 93 and the 4th side 98 is less than the distance between the 3rd lug 94 and the 4th side 98.Position on briquetting body 91 between the second lug 93 and the 3rd lug 94 also arranges a locating hole 911, and this locating hole 911 is the circular holes being through to the 6th side 910 along the direction paralleled with the length direction of the second lug 93 from the first side 95.
The structure of slide rail 10 as shown in Figure 8, it comprises the sliding track body 101 of strip and is arranged at the flank 102 of sliding track body 101 length direction side, the inside of sliding track body 101 has the first chute 103 extended along its length, the cross section of the sliding track body 101 formed is U-shaped, the madial wall of sliding track body 101 is provided with the second chute 104 extended along its length, second chute 104 is communicated with the first chute 103, and the first chute 103 and the second chute 104 are the groove running through setting along sliding track body 101 length direction.Flank 102 for cross section be the string configuration of zigzag, flank 102 is fixedly connected with the outward flange of sidewall sliding track body 101 being arranged the second chute 104, and the length direction of flank 102 parallels with the length direction of sliding track body 101.Flank 102 and sliding track body 101 link into an integrated entity structure, correspondingly between flank 102 and sliding track body 101, form one the 3rd chute 105, the length direction of the 3rd chute 105 parallels with the length direction of the first chute 103 and the second chute 104, and the second chute 104 is between the first chute 103 and the 3rd chute 105.
As shown in Figure 9, after outer tube briquetting 9 and slide rail 10 are riveted, the second lug 93 on outer tube briquetting 9 embeds in the second chute 104 on slide rail 10,3rd lug 94 embeds in the 3rd chute 105,3rd lug 94 is also riveted with flank 102, first lug 92 is positioned at above the outside of sliding track body 101, and rivets in the position of corresponding first chute 103 and sliding track body 101.
As shown in Figure 1, the first detent mechanism comprises the first locating piece 4 be fixedly installed on the end face 32 of base plate 3 and the main alignment pin 1 be arranged on the first locating piece 4.Be provided with the storage tank 42 for holding outer tube briquetting 9 in first locating piece 4, main alignment pin 1 inserts in storage tank 42.As shown in Figure 5, the mounting blocks 413 that first locating piece 4 comprises locating piece main body 41 and is fixedly connected with locating piece main body 41, locating piece main body 41 is rectangular block shape structure, mounting blocks 413 is arranged at the two ends of locating piece main body 41 length direction, mounting blocks 413 is fixedly connected with base plate 3 by screw, thus the first locating piece 4 is fixed on base plate 3.Storage tank 42 is arranged in locating piece main body 41, and storage tank 42 groove that to be the inside of downwardly locating piece main body 41 from the end face 43 of locating piece main body 41 extended, storage tank 42 also forms the opening allowing outer tube briquetting 9 pass in and out on the lateral surface 44 of locating piece main body 41.The end face 43 of locating piece main body 41 is the plane paralleled with the end face 32 of base plate 3, and the lateral surface 44 of locating piece main body 41 is the vertical plane perpendicular with the end face 32 of end face 43 and base plate 3.The shape of the form fit outer tube briquetting 9 of storage tank 42, the inner surface of storage tank 42 has first locating surface 45 relative with the opening on lateral surface 44, is positioned at second locating surface 46 of first locating surface 45 one end, is positioned at the 3rd locating surface 47 of first locating surface 45 other end and is positioned at the 4th locating surface 48 and the 5th locating surface 49 of bottom.First locating surface 45 is the inclined-plane extended towards the inner side inclined downward of locating piece main body 41, and the angle between the first locating surface 45 and end face 43 is greater than 90 degree.Second locating surface 46 and the 3rd locating surface 47 are for being oppositely arranged and two planes paralleled, 4th locating surface 48 and the 5th locating surface 49 are for paralleling and two planes paralleled with end face 43, and the distance between the 4th locating surface 48 and end face 43 is greater than the distance between the 5th locating surface 49 and end face 43.When locating outer tube briquetting 9, outer tube briquetting 9 is partially submerged in storage tank 42, first side 95 of outer tube briquetting 9 and the first locating surface 45 are fitted, second side 96 and the second locating surface 46 are fitted, 3rd side 97 and the 3rd locating surface 47 are fitted, 4th side 98 and the 4th locating surface 48 are fitted, and the 5th side 99 and the 5th locating surface 49 are fitted.Due on briquetting body 91 between the second side 96 and the 4th side 98, right angle transition is between 3rd side 97 and the 5th side 99 and between the 4th side 98 and the 5th side 99, in order to avoid crossing location, the escape groove 410 between the second locating surface 46 and the 4th locating surface 48 is provided with in the storage tank 42 of locating piece main body 41, escape groove 411 between the 4th locating surface 48 and the 5th locating surface 49 and the escape groove 412 between the 5th locating surface 49 and the 3rd locating surface 47, escape groove 410, 411 and 412 are towards the deep-slotted chip breaker of locating piece main body 41 internal recess, these escape groove can hold each turning of the bottom of briquetting body 91, location can be avoided on the one hand, also be convenient to outer tube briquetting 9 to insert in storage tank 42 position on the other hand, and it is easy to process, without the need to considering positioning precision herein.
As shown in Figure 5, main alignment pin 1 is for inserting in locating hole 911 set in briquetting body 91, main alignment pin 1 is straight pin, the length direction of main alignment pin 1 parallels with the width of locating piece main body 41, main alignment pin 1 is fixed in locating piece main body 41, and the head for locating on main alignment pin 1 inserts in storage tank 42, and be positioned at the top of the 4th locating surface 48.The axis of main alignment pin 1 is equal with the vertical range between the 4th side 98 with the axis of locating hole 911 with the vertical range between the 4th locating surface 48, the axis of main alignment pin 1 is equal with the vertical range between the second side 96 with the axis of locating hole 911 with the vertical range between the second locating surface 46, the placement location of outer tube briquetting 9 can be determined fast according to the position of main alignment pin 1 during such location, guarantee registration, location efficiency is provided.When locating, main alignment pin 1 is made to aim at locating hole 911 on outer tube briquetting 9, outer tube briquetting 9 is put into storage tank 42 from the opening part the lateral surface 44 of the first locating piece 4, and make main alignment pin 1 insert in the locating hole 911 of outer tube briquetting 9, the 4th side 98 now on outer tube briquetting 9 contacts with the 4th locating surface 48, 5th side 99 contacts with the 5th locating surface 49, second side 96 contacts with the second locating surface 46, 3rd side 97 contacts with the 3rd locating surface 47, then continue to promote outer tube briquetting 9 in storage tank 42, until the first locating surface 45 contacts with the first side 95 of outer tube briquetting 9, complete the location to outer tube briquetting 9.
As shown in Figures 1 to 4, second detent mechanism comprises and is arranged at the second locating piece 5 on the end face 32 of base plate 3 and support column 7, second locating piece 5 is fixedly connected with base plate 3 by screw with support column 7, and support column 7 and hold-down mechanism 6 also lay respectively at the side of the second locating piece 5.When locating slide rail 10, the corresponding sliding track body 101 of the second locating piece 5, the corresponding flank 102 of support column 7, accordingly, the second locating piece 5 is string configuration, and is long rectangular block, and support column 7 arranges multiple along the length direction of the second locating piece 5.The end face of the second locating piece 5 is the 6th locating surface the 51, six locating surface 51 paralleled with the end face 32 of base plate 3 is plane.Locating piece main body 41 is arranged at one end of the length direction of the second locating piece 5, the length direction of locating piece main body 41 and the length direction of the second locating piece 5 perpendicular, and both are on same straight line, the opening on the lateral surface 44 of locating piece main body 41 is just to the second locating piece 5.Support column 7 is cylindrical structural, the end face 32 of its axis and base plate 3 is perpendicular, the end face of support column 7 is the plane paralleled with the 6th locating surface 51, and the vertical range between the end face of support column 7 and the end face 32 of base plate 3 is less than the vertical range between the end face of the second locating piece 5 and the end face 32 of base plate 3.When slide rail 10 is located, outer tube briquetting 9 place that slide rail 10 is had good positioning towards the first locating piece 4 along its length on the second locating piece 5 moves, sliding track body 101 covers the second locating piece 5, second locating piece 5 embeds in the first chute 103 of sliding track body 101,6th locating surface 51 contacts with the inner top surface of the first chute 103, flank 102 pads on support column 7, the end face of support column 7 contacts with flank 102, support column 7 matches with the second locating piece 5, the accurate location to slide rail 10 can be realized fast, good stability.The width of the second locating piece 5 and the width of the first chute 103 roughly equal; second locating piece 5 embeds in the first chute 103 of sliding track body 101; guide effect can be played to the movement of slide rail 10 when slide rail 10 is located; guarantee that slide rail 10 can move to outer tube briquetting 9 position fast, and guarantee slide rail 10 registration.
As shown in Figures 1 to 4; support column 7 is arranged at the side of the length direction of the second locating piece 5; hold-down mechanism 6 for compressing slide rail 10 is arranged at the opposite side of the length direction of the second locating piece 5; and due to slide rail 10 length longer; hold-down mechanism 6 also arranges multiple; in multiple position, slide rail 10 is pressed on the second locating piece 5 and support column 7, guarantees that slide rail 10 compresses reliably.On the same straight line that hold-down mechanism 6 and support column 7 and being in respectively parallels with the length direction of the second locating piece 5.
As shown in Figures 1 to 4, hold-down mechanism 6 comprises the bearing 61 be arranged on the end face 32 of base plate 3 and the binding clasp 62 be arranged on the end face of bearing 61, binding clasp 62 is preferably horizontal binding clasp 62, the structure of horizontal binding clasp 62 as well known in the skilled person, does not repeat them here.Bearing 61 is positioned at the side of the second locating piece 5 length direction, the hold-down head of binding clasp 62 does oscillating motion above the second locating piece 5, binding clasp 62 applies downward pressure to slide rail 10 above slide rail 10, and slide rail 10 is fixed on the second locating piece 5 and support column 7.
As shown in Figures 1 to 4, as preferably, support column 7 is identical with the number of hold-down mechanism 6, and support column 7 respectively with the aligned in position of a hold-down mechanism 6.Especially support column 7 and the hold-down mechanism 6 at the end position place near the first detent mechanism of the second locating piece 5 is in, be in the side that the support column 7 of this position and hold-down mechanism 6 lay respectively at the second locating piece 5, and the support column 7 of this position and hold-down mechanism 6 are on the same straight line perpendicular with the length direction of the second locating piece 5, this position is near the riveting location of outer tube briquetting 9 with slide rail 10, second locating piece 5 positions with support column 7 pairs of sliding track body 101 and flank 102 end, then slide rail 10 is compressed by hold-down mechanism 6, the end of sliding track body 101 and flank 102 can be made to be close to the second locating piece 5 and support column 7 respectively, this end of slide rail 10 is avoided to produce distortion, guarantee with the relative position of outer tube briquetting 9 accurate, contribute to improving riveting quality further.
As shown in Figures 1 to 4, the support column 7 and the hold-down mechanism 6 that are positioned at the second locating piece 5 both sides arrange two respectively, and one end of corresponding second locating piece 5 of difference, namely a support column 7 and a hold-down mechanism 6 are set at the end position place near the first detent mechanism of the second locating piece 5, another support column 7 and another hold-down mechanism 6 is set at the end position place away from the first detent mechanism of the second locating piece 5.
As shown in Figure 6, after locating outer tube briquetting 9, three lugs on outer tube briquetting 9 stretch out towards the second locating piece 5, and the length direction of three lugs and the axis of main alignment pin 1 parallel with the length direction of the second locating piece 5.Slide rail 10 linearly moves to outer tube briquetting 9 place and after coordinating with outer tube briquetting 9 and locating on the second locating piece 5, the second lug 93 on outer tube briquetting 9 embeds in the second chute 104 in slide rail 10,3rd lug 94 embeds in the 3rd chute 105, first lug 92 is positioned at above the outside of sliding track body 101, first chute 103 is positioned at immediately below the first lug 92, now two riveting location alignment, can rivet outer tube briquetting 9 and slide rail 10.
As depicted in figs. 1 and 2, base plate 3 is provided with between the first locating piece 4 and the second locating piece 5, dodges hole 31, this dodges hole 31 for running through the through hole of base plate 3, after outer tube briquetting 9 and slide rail 10 are located, sliding track body 101 is being dodged between hole 31 and the first lug 92, uses air gun and self-plugging rivet to rivet from the reverse side of slide rail 10 the first lug 92 and sliding track body 101 after dodging hole 31 during riveted joint; And the 3rd lug 94 is arranged in the 3rd chute 105, directly can use above flank 102 during riveted joint air gun and self-plugging rivet from slide rail 10 just in the face of the 3rd lug 94 and flank 102 are riveted.
In order to improve the riveted joint working (machining) efficiency of outer tube briquetting 9 and slide rail 10, the first detent mechanism and the second detent mechanism can arrange multiple on base plate 3, and clamped one time operation can complete the riveted joint of multiple outer tube briquetting 9 and slide rail 10.In the present embodiment, as shown in Figures 1 to 4, first detent mechanism and the second detent mechanism arrange two on base plate 3, two the second locating pieces 5 parallel, and align respectively in the two ends of two the second locating pieces 5, support column 7 is between two the second locating pieces 5, and two the first locating pieces 4 are on the same straight line perpendicular with the length direction of the second locating piece 5.
The clinching method of skylight provided by the invention outer tube briquetting and slide rail, adopts the riveting tool of said structure, and comprises following step:
(1) the first detent mechanism of riveting tool is used to complete the location of outer tube briquetting 9;
Main alignment pin 1 is made to aim at locating hole 911 on outer tube briquetting 9, outer tube briquetting 9 is put into storage tank 42 from the opening part the lateral surface 44 of the first locating piece 4, and make main alignment pin 1 insert in the locating hole 911 of outer tube briquetting 9, until the first locating surface 45 contacts with outer tube briquetting 9, complete the location to outer tube briquetting 9;
(2) use the second detent mechanism of riveting tool to complete the location of slide rail 10, and use hold-down mechanism 6 to compress slide rail 10;
By the sliding track body 101 of slide rail 10 and flank 102 corresponding second locating piece 5 and support column 7 respectively, be then positioned on the second locating piece 5 and support column 7, last operation hold-down mechanism 6 compresses slide rail 10.
(3) outer tube briquetting 9 and slide rail 10 is riveted;
Use air gun and Φ 3.2X13 self-plugging rivet to rivet from front to outer tube briquetting 9 and slide rail 10, the 3rd lug 94 is fixedly connected with flank 102; Re-use air gun and Φ 5X10 self-plugging rivet is riveted outer tube briquetting 9 and slide rail 10 from the negative, the first lug 92 is fixedly connected with sliding track body 101.
Below by reference to the accompanying drawings to invention has been exemplary description.Obviously, specific implementation of the present invention is not subject to the restrictions described above.As long as have employed the improvement of the various unsubstantialities that method of the present invention is conceived and technical scheme is carried out; Or without improvement, above-mentioned design of the present invention and technical scheme directly applied to other occasion, all within protection scope of the present invention.
Claims (10)
1. the clinching method of skylight outer tube briquetting and slide rail, is characterized in that, uses Special riveting frock, and comprises step:
Riveting tool completes the location of outer tube briquetting;
Riveting tool completes the location of slide rail, and compresses slide rail;
Riveted joint outer tube briquetting and slide rail.
2. the clinching method of skylight according to claim 1 outer tube briquetting and slide rail, is characterized in that, described riveting tool comprises:
Base plate;
First detent mechanism, it is arranged on base plate, and for positioning outer tube briquetting;
Second detent mechanism, it is arranged on base plate, and for positioning slide rail; And
Hold-down mechanism, it is arranged on base plate, and for compressing slide rail.
3. the clinching method of skylight according to claim 2 outer tube briquetting, is characterized in that, described first detent mechanism, described second detent mechanism and described hold-down mechanism are arranged on the end face of described base plate.
4. the clinching method of skylight according to claim 2 outer tube briquetting, is characterized in that, described first detent mechanism comprises the first locating piece be arranged on described base plate and the main alignment pin be arranged on the first locating piece.
5. the clinching method of skylight according to claim 4 outer tube briquetting and slide rail, is characterized in that, is provided with the storage tank for holding described outer tube briquetting in described first locating piece, and described main alignment pin inserts in storage tank.
6. according to the clinching method of the skylight outer tube briquetting described in claim 1 to 5 and slide rail, it is characterized in that, described second detent mechanism comprises and is arranged at the second locating piece on base plate and support column, and support column and described hold-down mechanism lay respectively at the side of the second locating piece.
7. the clinching method of skylight according to claim 6 outer tube briquetting and slide rail, is characterized in that, described second locating piece is string configuration, and described support column and described hold-down mechanism all arrange multiple along the length direction of the second locating piece.
8. the clinching method of skylight according to claim 6 outer tube briquetting and slide rail, is characterized in that, described first detent mechanism is arranged at one end of the length direction of described second locating piece.
9. the clinching method of skylight according to claim 2 outer tube briquetting and slide rail, is characterized in that, described hold-down mechanism comprises the bearing be arranged on described base plate and the horizontal binding clasp be arranged on bearing.
10. the clinching method of skylight according to claim 2 outer tube briquetting and slide rail, it is characterized in that, described first detent mechanism, described second detent mechanism and described hold-down mechanism are provided with multiple, and each first detent mechanism all has the second detent mechanism and hold-down mechanism that match.
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CN201510560089.1A CN105127353B (en) | 2015-08-28 | 2015-08-28 | Riveting method for skylight outer pipe pressing block and sliding rail |
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CN201510560089.1A CN105127353B (en) | 2015-08-28 | 2015-08-28 | Riveting method for skylight outer pipe pressing block and sliding rail |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107150136A (en) * | 2017-05-27 | 2017-09-12 | 中航成飞民用飞机有限责任公司 | Multilayer module positioning drilling die |
CN109822502A (en) * | 2019-03-25 | 2019-05-31 | 盛裕科技(苏州)有限公司 | The automation rotated riveting device of vehicle dormer window machinery group and the rotation rivetting method for applying it |
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CN107150136A (en) * | 2017-05-27 | 2017-09-12 | 中航成飞民用飞机有限责任公司 | Multilayer module positioning drilling die |
CN109822502A (en) * | 2019-03-25 | 2019-05-31 | 盛裕科技(苏州)有限公司 | The automation rotated riveting device of vehicle dormer window machinery group and the rotation rivetting method for applying it |
CN109822502B (en) * | 2019-03-25 | 2024-01-23 | 苏州盛贸汽车部件有限公司 | Automatic spin riveting device of automobile skylight mechanical group and spin riveting method using same |
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