前苏联专利SU1697589A3 Binding band with locking device

专利PDF首页>>前苏联专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
The invention retracts with the ZOP with a locking device designed to fasten objects with high compressibility, can be used in various industries and is aimed at improving the reliability of the connection. This tape with a locking device is a metal one, at the ends of which is formed a series of raised in the longitudinal direction elevated sections for detachably connecting the ends of the tape by interacting with each other when they are laid one on another. m narrow elements and processing by making symmetric broken lines in the tape and making tv with a trapezoidal shape in the longitudinal & rifle diagrams and diagrams. whiter than gonna go1 ic.1. regarding the r and the length of the extreme approaches: x to the apic r.poMe.yiO -it Kx lie, in the range 1 1-1 3 2., 14 иа in
公开号:SU1697589A3
申请号:SU884356485
申请日:1988-08-25
公开日:1991-12-07
发明作者:Ватанабе Киехару；Фукухара Минору
申请人:Сумитомо Метал Индастриз, Лтд (Фирма)；Канпоо Стил Ко., Лтд (Фирма)；
IPC主号:

专利说明:

О.The revocation refers to the transfer) of the us / (tem / 1lche tape), which is intended for fixing items that have a high compressibility, for example cotton hg1 /: other similar objects, and In particular, to a lanyard with a locking device, in the end of the tape, the ends of the tape are connected one by one by inserting one into the other, cut at the ends, the lectures by creating cuts and pressing sections of the cut.
There are known methods for fastening objects with a used metal banding tape made of steel: joining with seams and joining without seams, i.e. seamless connection Poi joining with the seam bead provides an agent that makes up iv; when fastening without a stitching, the tape connection is achieved by the interaction of the fixture mounted on the tape itself, and no forming part is required to connect the tape. Consequently, the advantage of the second method is that it provides a simple and fast fixation. Such a seamless fixing has become widespread.
In practice, such a seamless way of connecting the tape is sung in the creation of the interaction of lock y acsKos, performed at the ends of the foam.
Peya with zzm.sovym device facilitates fixing objects and provides
®
G ate
with
residual resistance to stretching. Therefore, this device is convenient for handling items that have the ability of a large compression, such as cotton or other similar items.
However, the known locking device -1 has the disadvantage that the locking portions at the ends of the engaging suit's interaction area are subject to the danger of destruction, since the tensile force applied to the tape in the longitudinal direction acts to the maximum extent. When the tape is destroyed, the closed lzn1 is broken and These items have the ability to break apart due to the lack of coverage. If this occurs during the loading operation, then a dangerous situation arises.
The goal of isobasetenyl is to increase the reliability of the compound.
Fig. 1 shows a notched tape, covering the end of the tape, top view; in fig. 2 - the same, the end of the tape covered; in fig. 3 shows a section A-A in FIG. FIG. 4 is a section BB in FIG. 2; in fig. 5 - tape, sections overlapped, front view; in fig. 6 - the same, the regions are interconnected by a protruding interaction; Fig. 7 is the same after connection; Fig. 3 shows the region of overlapping of the ends of the tape with a corresponding connection; in fig. 9 - cotton bale secured with binding bands with locking devices; in fig. 10 and 11 - Krm changes of the efficiency of the connection: 1 - high efficiency of the connection; 2 — Compound efficiency (%); Fig, 12 - the original characteristics; in fig. 13 - seamless lock connection, top view; in fig. 14 - vehicle; ke. axonometrics
The zamkova structure includes koi 1 and 2 tapes, on which it is provided b.-: / forging device, and in this case has five raised interacting sections. The main contour of the raised associated region includes a wide 3 and a narrow 4 elements. Such raised interacting portions are formed at both the enclosing end 1 of the tape and its enveloped end 2 by creating a sufficient number of pairs of broken cuts 5-8 in the right places as a row. When forming raised interacting areas, it should be remembered that the width of wide and narrow sections formed by a pair of broken cuts, and the length of the broken notch is chosen slightly larger at the female end than at the female end, because
the areas of the female and male ends are interconnected by a protruding interaction, the sections with notches are molded to form
trapezoidal shape in longitudinal section to obtain raised interacting areas.
The length is -h broken cuts 5 and 7, made with the purpose of forming raised interacting areas, along the edges of the areas of interaction of the tape is longer than the length of the remaining broken notches 6 and 8 so that the raised interacting areas 9 and 10 along the edges of the area 5 mod. h were longer than the intermediate interacting sections 11 and 12. The ratio of the length of the extreme raised interacting areas along the edges of the interaction region to the length of the intermediate
0 sites preferably undead in the range of 1.1-1.3.
If, in the known construction, the raised interacting areas are equally spaced, then with the closed device according to the invention, the distance 13 between the intermediate raised interacting sections 11 and 12 is shorter in order to compensate for the creation of longer elevated raised areas along the edge m of interaction areas, and the length of the entire interaction region remains almost the same as in the well-known construction (in order to maintain the length of the tape the same as in Vestn design). As a result, the distance 14 between the raised interacting sites along the edges of the interaction areas and intermediate
About the raised interacting areas located in a row, a little more than the distance between all the intermediate areas of the same interaction area. distance can
5 will vary depending on how many raised interacting areas are formed and what sizes they have.
In the locking device, in which the raised, raised, interacting sections 5, 7 and 6, 8 with different lengths are formed so that they have a trapezoidal shape in longitudinal section and are located at the ends of the tape, the connection of the penta with its ends is made by positioning one over the other covering end 1, (FIG. 1) towards the male end 2, (FIG. 3) and compressing the overlapped portions c. the purpose of introducing the covered areas into the covering areas.
Thus, the regions of interaction of the surrounding and the circumscribed ends of the tape are superimposed one on such that the intermediate raised interacting areas 11 and 12 and the raised interacting sections 9 and 10 along the edges of the interaction areas at the respective ends of the tape coincide with the other. In such a position, it is possible to place raised interacting portions formed at the male end of the tape into corresponding grooves formed at the rear r, frone of the raised interacting patches formed at the surrounding end of the tape, and at the same time overlap the wide 3 and narrow 4 elements of these sections, i.e. provides a protruding interaction of the respective plots.
Due to this, the raised cooperating portions 10 and 12 at the envelope end of the tape, when creating compression of the tape regions 1 and 2, are pressed into the corresponding recesses formed on the back side of the raised cooperating portions at the female end of the tape (Fig. 6).
In such a pressed state, if it is applied to the joint area by a givouching force in the longitudinal direction, pyromyla. pressing out urk / x elements 4, with their fixation (figs, 7 and 8).
In the case when, in the area of the joint, an attachment-tc "stretching force in the longitudinal direction is applied. The raised interacting areas 9 along the edges of the reciprocal mutual conditions on the covering KOHUJ tape are subjected to a greater tensile force than the intermediate raised interacting sections 11 at that end. However, the raised interacting parts, along the edges of the interaction areas are made longer than the intermediate sections of the same band, 3vo leads to an increase in the strength of the upper interacting areas along the edges of the interaction areas compared to the strength of the intermediate sections of the same interaction area, therefore, resistance to stretching is created here more painfully. In rez -.ge can be obtained the strength of coed-ni is equal to the strength of the base metal. In particular, when using the present invention
In the case of fracture of the raised interacting sections 10 along the edges of the interaction areas, is much smaller than in the case when the forward interacting areas are executed with the same length.
FIG. 9 is a perspective view showing the state, when fastened, in which the piles 15
U cotton using tie bands with locking devices cotton secured with one binding tape 16, surrounding it in the longitudinal direction, and three tie tapes
5 1 ° /, surrounding it in the transverse direction (Fig. 9J.
When cotton is ligated, cotton bale 15 is compressed first, after which cotton is placed around
0 ligating lect 16 so that its ends overlap. Thereafter, raised interconnecting portions 10 and 12 at the male end of the tape are inserted into the grooves resulting from the extrusion.
5 raised cooperating portions 9 and 11 at the enclosing end of the tape, which results in connecting the tape in an atom location. Preferably, the specific areas — iCTi 17 and 18 do not protrude above the surface: cotton 15, when they are located at any of the surfaces of the io bale, other than its upper surface (the variant in Fig. 9, where the fixed bills are 17. 13 vchstugayutiz kigy 15). To
5 to avoid this, the cryptic regions 17 and 13 pcT are positioned so that they lie on the top surface of the 15 cotton bales: in this case, the fixed regions 17 and 18 tend to sink in the expanding
G x firebox. With the TSKOM fixing method, it is possible to avoid damage to the fixed areas during punching and / i, - loosening.
Ex. 1. In FIG. 10 shown
5 a change in the efficiency of the connection of the fixed region of the tape with a thickness of 0.76 mm, a width of 19 mm, and a length of 2400 mm, which is a result of a change in the ratio of the length of raised interacting sections
0 along the edges of the areas of interaction of the tape and the length of intermediate raised interacting parts of the same areas, as well as changes in the distance between the respective raised
5 interacting areas on the range 1CO mm from the extreme points of such a tape. In this example, five raised interacting sites are provided for each of the ends of the tape. In tab. 1 shows the values of essential parameters.
example, such as the length of the corresponding raised interacting areas, the distance between the intermediate raised interaction parts, and the ratio of the length of the raised interacting parts along the length of the intermediate raised interacting parts (initial characteristics, denoting the appropriate dimensions, are shown by Fig. 12).
The change in compound efficiency shown in FIG. 10 is the result obtained by applying a tensile force in the range of 135-50 gf / mm2 to the joint area, and the efficiency of the compound was calculated from the following equation:
Coupling efficiency
- the strength of the region vze /.modeysgvi. , -, „strength of the base metal
A higher efficiency of the joint compared to the efficiency, for the case of equal length of all sections, can be obtained by making the raised interacting areas along the edges longer than the other raised interacting areas of the lelta. In addition, from the above example, the Bfr-bottom is that the efficiency of the compound is greater when the ratio of the length of the raised interacting sites along the edges to the length of the intermediate interacting areas of the same interaction areas is in the range 1.1-1.3.
Example 2: Tests were carried out according to Example 1.
FIG. Figure 11 shows the change in the efficiency of the connection of the fixed region of a tape with a thickness of 0.76 mm, a width of 19 mm and a length of 2385 mm with a change in the ratio of the length of the raised interacting portions along the edges to the length of the intermediate raised interacting portions, as well as the change in the distance between the respective raised 85 mm from the extreme points of the tape.
In tab. 2 shows the relevant parameters of this example.
A higher efficiency of the joint compared to the efficiency and the case of equal length of all sections can be obtained by making the elevated interacting parts longer along the edges. In this example, a greater efficiency of the connection can be obtained when the ratio of the length of the elevated 5 m to the length of the intermediate interacting areas of the same interaction areas lies in the range of 1.1-1.2. At the ends of the tape several
0 raised interacting areas, each of which includes a wide element and a narrow element in the seb, and these areas are formed:; in the form of cuts in the ribbon, compression of the area with cuts, and raised interacting areas along the edges of the interaction areas, which perceive a greater tensile force is made longer than the other raised interacting areas. The tha design allows for a greater displacement. With respect to the deformation of the ends of the tape under the action of crushing force, as a result, the strength of the joint becomes almost equal to the strength of the base metal. In the proposed tape, raised interacting sites are not susceptible to fracture, which ensures high safety.
0 when used.

权利要求:
Claims (1)
[1]
Formula invented and
A transfer belt with a locking device, which is a metal tape, at the end, and which is formed by a series of raised in the longitudinal direction of the raised straps for detachable connection of the ends of the tape by
0 interaction with each other when they are superimposed on each other, each of the raised sections has a wide and narrow element and is formed by making symmetrical broken cuts in the ribbon and
5 extruding them into a trapezoidal shape in a longitudinal section, the extreme raised areas are made longer than intermediate ones, about t-l and h with the connection, the ratio of the length of the extreme high You are part of the intermediate range between the 1.1-1.3 range,
T i b i i 1
zhzhzhzhz
R
one
table 2
. Ј „and
1l
1
Shg, 2
,nineteen
2 Yu
Figz
5-5
shgm
ft / g 6
ten
17
15
eleven
FIG. eight
FIG. 9
GU cm
t | m II
m
Q
- €
CM
Ojj n
t | m n
h;
t
m
about sh
JO 00
Q CO
IT,
to
A2
B2
d2
Figs
I
J 2
Puzv
I /
di
61
Ai
ft
/
/ t
T
#
/ J

类似技术:

公开号 | 公开日 | 专利标题

EP0016424B1|1983-05-11|Sealless strap connection

US4896402A|1990-01-30|Cable tie

CA1271387A|1990-07-10|Two-part surgical fastener for fascia woundapproximation

SU1697589A3|1991-12-07|Binding band with locking device

US6763553B2|2004-07-20|Low profile latchable tie

NL193198C|1999-02-02|Clamp band, applicable as a hose clamp.

US4031594A|1977-06-28|Sealless strap connection means

US4048697A|1977-09-20|Sealless strap end alignment and connection means

RU2062738C1|1996-06-27|Tape for packing articles

JP2008094501A|2008-04-24|Punch for strapping tool

DE2554813A1|1976-07-29|LACE CONNECTOR WITHOUT CUFF

US4062086A|1977-12-13|Sealless strap end alignment and connection means

US4156385A|1979-05-29|Method of readily disengaging anti-reverse sealless strap connection to facilitate reusing strap

US4063583A|1977-12-20|Tire chain

US4053956A|1977-10-18|Spring assembly

CA1077590A|1980-05-13|Electrical connector for engaging a terminal post such as a battery terminal

US1849784A|1932-03-15|Bale tie buckle

US20060179616A1|2006-08-17|End connection for packing strap

JP2510490Y2|1996-09-11|Bound band for middle part of human body

US4070733A|1978-01-31|Pre-notched tieing wires

JP2982401B2|1999-11-22|Luggage stopper

JP2949563B2|1999-09-13|Fastener for binding band and binding device

EP0577029A1|1994-01-05|Binder for bundling electric wires or the like

IE55675B1|1990-12-19|A coupling device for hollow structural members

RU2106289C1|1998-03-10|Pressed licorice root binder

同族专利:

公开号 | 公开日

JPH0563366B2|1993-09-10|

AU638373B2|1993-06-24|

JPS6458615A|1989-03-06|

CN1017517B|1992-07-22|

CN1032144A|1989-04-05|

IN171277B|1992-08-29|

AU2148688A|1989-03-02|

US4980953A|1991-01-01|

AU1047692A|1992-03-12|

NZ225921A|1990-12-21|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US1687854A|1928-02-18|1928-10-16|Anderson Clayton & Company|Bale tie|

DE906318C|1951-10-30|1954-03-11|Hugo Timmerbeil|Sleeveless closed metal strapping for packages|

ES138168Y|1966-05-04|1972-09-01|Titan Eisenwarenfabrik G. M. B. H.|STRAP FOR PACKAGING TO CLOSE WITHOUT USE OF SLEEVES.|

FR1399609A|1964-03-09|1965-05-21|Metal assembly piece eliminating a tenon and a mortise|

US4226007A|1979-03-16|1980-10-07|Signode Corporation|Sealless strap connection|

JPH024451B2|1980-06-23|1990-01-29|Daifuku Kk|

DE3042797C2|1980-11-13|1983-08-11|Hoesch Werke Ag, 4600 Dortmund|Sleeveless closed metal strapping with locking device|

DE3546021A1|1985-12-24|1987-06-25|Acme P W Lenzen Gmbh & Co Kg|Metal band section to form a bale cording|JPH0645468B2|1987-06-18|1994-06-15|川村工業株式会社|Manufacturing method of glass pot lid|

US5117536A|1991-04-22|1992-06-02|Signode Corporation|Binding strap with integral connecting structure and anti-disengagement feature|

DE50307445D1|2002-05-24|2007-07-26|Orgapack Gmbh|Punching tool for a strapping device|

DE10259598A1|2002-12-19|2004-07-01|Titan Umreifungstechnik Gmbh & Co Kg|Closure of a strap|

JP2012243571A|2011-05-19|2012-12-10|Sumitomo Wiring Syst Ltd|Connection structure of terminal fitting|

CN104938163A|2014-03-27|2015-09-30|南通奥特机械设备有限公司|Binding device|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

JP62213688A|JPH0563366B2|1987-08-26|1987-08-26|

[返回顶部]