Safety hook and latch plate therefor

A safety hook comprises a hook (1) having a cross piece (4) from which two side pieces (5, 5') extend in the direction forwards to a curved part (7, 7'), as well as a latch plate (2) which is connectable to the side pieces of the hook so as to resiliently abut against the inside thereof. The latch plate (2) is thin and elastically deformable and has two recessions (9, 9') opening outwards for receiving of portions of the side pieces (5, 5') of the hook in order to connect the plate therewith.

TECHNICAL FIELD OF THE INVENTION 
In a first aspect, this invention relates to a safety hook of the kind 
which includes a proper hook which has a rear cross piece intended for 
connecting a strap or the like from which two side pieces extend in the 
direction forwards to a curved part, as well as a latch plate which is 
connected to the side pieces of the hook and abuts resiliently against an 
inside of the curved part. 
BACKGROUND OF THE INVENTION 
Safety hooks of the above-mentioned kind are used for fastening the ends of 
straps possible to tighten in fastenings such as rings, loops and the 
like. Such fastenings may be found on trailers, platform bodies or the 
like. Unlike simple hooks without latch plates, a safety hook guarantees a 
reliable retention of the hook by the appurtenant fastening even if the 
strap peradventure would be slacken. A common type of hook is made of one 
single continuous bar piece which is mechanically bent while forming a 
rear cross piece, two side pieces converging forwardly therefrom as well 
as two end portions located side by side close to each other, which are 
curved to jointly form a free hook part. 
In previously known safety hooks, the latch plate consists of a relatively 
thick, stiff metal plate which at the rear end thereof is united to a 
particular pivot pin which is inserted in holes in the side pieces of the 
hook. The plate cooperates with a particular spring in the form of a wire 
spring in order to keep the plate resiliently abutted against the free 
hook part. A disadvantage of such safety hooks is that the desired safety 
function gives rise to relatively large manufacturing costs in that no 
less than three different components (latch plate, pivot pin and spring) 
are required. Furthermore, machining of the hook as such is required, viz. 
forming the holes for the pivot pin. Another disadvantage of previously 
known safety hooks is that the latch plate is not movable in another way 
than by pivoting from the inside of the free hook part towards the side 
pieces behind. Therefore, the latch plate is, in the mounted state 
thereof, positioned very close to said side pieces and the cavity which is 
delimited therebetween. Therefore, unlike the simple hooks which lack a 
latch plate, a safety hook may in practice not be used for application on 
a hook or a hook-like part of the kind which is found, e.g., on the 
outside of the side flaps of trailers. 
OBJECTS AND FEATURES OF THE INVENTION 
The present invention aims at obviating the above-mentioned disadvantages 
of previously known safety hooks and at creating an improved safety hook. 
Thus, a primary object of the invention is to create a safety hook which 
in its entirety is extremely simple and cheap to manufacture. A further 
object is to create a latch plate intended for hooks which does not 
require particularly formed or machined hooks for the mounting thereof. In 
other words, the latch plate should be able to be applied on simple 
standard hooks either in connection with the manufacture or afterwards. A 
further object is to create a safety hook and a latch plate which may be 
easily pivoted out from an actively blocking position to an inactive state 
in which the proper hook may be applied to another hook. Another object is 
to create a safety hook particularly suitable for wide straps, the latch 
plate of which has a sufficiently large stiffness in a rear, wide base 
part to guarantee a reliable retention between the side pieces of the 
hook, as well as a front, narrow part which is resiliently abuttable 
against the inside of the curved part of the hook, more precisely with a 
spring force which keeps the front part of the plate abutted against the 
curved part of the hook with a pressure suitable for the purpose. A 
further object of the invention is to enable a manufacturing of a safety 
hook presenting the desired characteristics by using simple and cheap 
means. 
According to the invention, at least the primary object is attained by the 
features defined in claim 1. Preferred embodiments of the invention are 
furthermore defined in the dependent claims 2-7. 
In a particular aspect, the invention also relates to a latch plate as 
such. The features of the latch plate according to the invention are 
evident from claims 8 and 9.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION 
The safety hook shown in FIGS. 1 and 2 comprises a hook in its entirety 
designated 1 as well as a latch plate 2. The hook 1 is shown connected to 
a strap 3, e.g. of the kind which is used to tighten the load on a trailer 
or a platform of a vehicle. The hook 1 is made of one single bar piece 
which has been bent in such a way that said bar piece has come to comprise 
a rear cross piece 4, two side pieces 5, 5' extending from the opposite 
ends thereof, said side pieces converging in the direction towards bar 
portions 6, 6' lying in close contact with each other. Said bar portions 
are bent while forming curved, free end portions 7, 7' which jointly form 
the proper hook part of the hook 1. In practice, the bar is usually so 
powerfully dimensioned that the portions 6,6' and 7, 7' respectively are 
reliably kept together without using particular connection means. However, 
it may occur that said bar portions are mutually connected by means of one 
or several spot weldings. 
It should be further noted that a triangular cavity 8 is delimited between 
the converging side pieces 5, 5'. 
The proper hook, such as shown in the drawing and described above, is 
previously known in the form of a conventional, simple standard hook. 
New according to the present invention, is the latch plate 2. 
Characteristic for said plate is that it is narrow and elastically 
deformable and has two recessions 9, 9' opening outwards for receiving 
portions of the side pieces 5, 5' of the hook in order to connect the 
plate therewith. In the example shown, plate 2 comprises a rear, 
relatively wide portion 10 and a narrower front portion 11 the width of 
which mainly corresponds with the width of the free end portions 7, 7' of 
the hook. The recessions 9, 9' are provided in the side edges of the wide, 
rear plate portions 10 and open at diametrically opposite directions. 
In practice, the plate is most suitably made by punching and bending a 
sheet of spring steel which, when the hook is intended for moderately wide 
straps (35 mm), may have a thickness of 0,3-0,7 mm. According to a 
preferred embodiment of the invention, at least a first bending line 12 is 
formed in said sheet in connection with the recessions 9, 9' in the rear, 
wide sheet portion. A second bending line 12' is also provided in the 
rear, wide sheet portion, more precisely on the opposite side of the 
recessions in the example shown. The purpose of the bending lines 12, 12' 
is to contribute to the plate being returned to a plane state, after 
deformation to a cross-section-wise arc-shaped state in connection with 
the mounting on the hook. 
A third bending line 13 is formed in the narrow, front sheet portion 11, 
more precisely at a relatively short distance from the free edge 14 of 
said sheet portion. The bending line 13 delimits a short, front sheet 
portion 15 which is oblique at a certain angle relative to the sheet 
portion 11 as such. 
In the continued description, the side of the latch plate which is seen in 
FIG. 3 is denominated the outside, while the opposite side is denominated 
the inside. 
A through hole 16 is recessed in the plate 2 in the area between the wider 
rear part 10 and the narrower front part 11. The structure and function of 
through hole 16 is described in more detail hereinafter with respect to 
the embodiment illustrated in FIGS. 5 to 10. 
The Function of the Invention 
When mounting the latch plate 2 on the hook 1, the plate is bent transverse 
the length extension thereof, more precisely in such a way that the 
outside of the plate obtains a concave shape. This bending of the plate 
may in practice be done with a tool (not shown) specially formed for the 
purpose. The bending is carried so far that the distance between the side 
edges of the wide sheet portion 10 becomes somewhat smaller than the 
distance between the insides of the widest portions of the side pieces 5, 
5', whereby the wide sheet portion may be inserted between said side 
pieces. When this is done, the tool is brought to let the sheet go, said 
plate, as a consequence of the inherent elasticity thereof, automatically 
being returned to the form shown in FIG. 3. The return to said plane shape 
is highly facilitated by the two straight bending lines 12, 12' on both 
side of the recessions 9, 9'. 
After mounting the latch plate fixed on the hook, the plate is bent again, 
more precisely length-wise so that the free end portion of the plate may 
be put inside of the outer hook part 7, 7' in the way shown in FIGS. 1 and 
2. Thanks to the bent-in, free end portion 15, the proper edge 14 will not 
abut with a springing pressure directly against the inside of the bar 
portions 7,7'. This means that the proper edge 14 does not cut into 
possible irregularities, e.g. burrs or the like, in said bar portions. 
When the hook is to be applied in a fastening, e.g. a ring, the hook part 
7, 7' is hitched in the fastening, the elastic latch plate simply 
springing away. When the hook is to be removed from the fastening, the 
plate 2 is pressed in manually towards the bar portions 6, 6' being 
behind, and then the fastening may pass freely between the free edge of 
the plate and the inside of the hook part 7, 7'. 
A substantial advantage of the invention is that the desired latch or 
safety function may be obtained by only one single and simple component 
which is cheap to produce and mount. A particular advantage is that the 
latch plate may be mounted afterwards on standard hooks. Another advantage 
is that the latch plate, in the mounted state between the side pieces 5, 
5', may be released from the contact with the hook part 7, 7', viz. by 
being, against a certain spring pressure, bent and swung out from the hook 
part. In this swung-out state, the latch plate does not obstruct that 
another hook is inserted through the triangular cavity 8 between the side 
pieces 5, 5'. In other words, the safety hook according to the invention 
may, without obstacle, be used also for hitching at another hook which is 
stuck in through the cavity. 
In the embodiments shown in FIGS. 5 to 10, a through hole 16 is recessed in 
the plate 2, more precisely in the area between the wide rear part 10 and 
the narrower front part 11. At the same time, the plate is made of a 
sheet, preferably spring steel sheet, which is thicker than the 0,3-0,7 mm 
thick sheet which is used in the preceding embodiment for narrow straps. 
Thus, the thickness of the plate 2 may be within the range of 0,7-1,5 mm. 
In practice, a thickness of 0,8-1,0 mm is preferred in latch plates for 
such safety hooks which are intended for straps having a width of 50 mm or 
more. By this choice of thickness of the sheet, the rear base part 10 
obtains a sufficient stiffness after the mounting between the side pieces 
5, 5' of the hook, so as to be reliably retained therebetween. However, by 
the existence of the hole 16, a satisfying resilience ability of the 
front, narrow part 11 of the latch plate is simultaneously guaranteed. 
Thus, by the hole 16, the total cross-section area is reduced in the 
intermediate part delimited between the oblique edge portions 17, 17' and 
which form a transition portion between the front part 10 and the rear 
part 11, whereby the flexural rigidity of said intermediate part is 
reduced to such an extent that the front part 10 of the plate will spring 
with a suitable force. 
In the shown, preferred embodiments, the hole 16 is made with a form 
narrowing in the direction forwards. More precisely, the hole is in the 
form of an isosceles triangle. Advantageously, the angle between the edge 
portions 17, 17' is chosen so that said portions mainly become parallel 
with the two forwardly converging edges 18, 18' delimiting the hole 16. 
By choosing an appropriate size of the hole 16, the total flexural rigidity 
of the two sheet portions separated by the hole may be reduced in a 
predetermined way to the extent that the spring force or spring constant 
becomes appropriate for the individual application case. 
When producing the proper hook, the insides of the portions of the bar 
forming the side pieces 5, 5' may be at least partly flattened, more 
precisely by the fact that the inside of the bar is pressed against a core 
or frame part which determines the shape of the hook. Thus, in FIG. 6 is 
shown how the bar side pieces 5, 5' have internal, flattened surfaces 
which in this example extend obliquely in relation to each other. 
Therefore, in this case, the recessions 9, 9' of the base part of the 
latch plate are delimited between oblique edge portions 19, 20 and 19', 
20' respectively, in a wedge-like way. In other words, the recessions are 
wedge-shaped instead of semi arched-shaped as in the embodiment according 
to FIGS. 1 to 4. 
Another difference compared to the latch plate according to FIGS. 1 to 4 is 
that the base part of the latch plate is arch-shaped section-wise as shown 
at 21 in FIG. 7. This vaulted shape fulfils the same function as the 
bending lines 12, 12' according to FIG. 3. In comparison with bending 
lines, the vaulted shape has the advantage that the risk of plastic 
deformation in connection with mounting is reduced to a minimum. 
In FIGS. 8 to 10, an alternative embodiment of the invention is shown, 
according to which the recessions for the receipt of the side pieces 5, 5' 
are delimited between pairs of axially separated projections 22, 23 and 
22', 23' respectively. In this case, the insides of the two side pieces 5, 
5' are delimited by plane, flattened surfaces which are mutually 
substantially parallel. Between the two projections 22, 23, an edge 
portion 24 extends which is mainly parallel to the axial extension of the 
latch plate, and which therefore, in a mounted state thereof, in the main, 
completely abuts against the flattened surface on the inside of the side 
piece 5. Also the opposite recession is delimited by a straight edge 
portion 24' between the projections 22' and 23'. However, in this case, 
the straight edge portion 24' is somewhat oblique (e.g. at an angle of 
5.degree.) relative to the axial extension of the latch plate. By this 
obliquity of the edge portion, the insertion of the base part 10 between 
the side pieces in connection with mounting the latch plate on the hook is 
facilitated. 
Furthermore, in the narrow, front part 11 of the latch plate, a bead 25 
extending axially is stamped, the purpose of which is to at least 
partially stiffen this part of the plate. In this embodiment, the plate 
part 11 keeps, in all essentials, the original plane and straight shape 
also in a mounted state, the requisite resilience ability in the plate, in 
the main, being solely obtained by bending the plate in the narrowing 
intermediate portion between the part 11 and the rear, wide base part 10. 
It should also be noted that the latch plate according to FIGS. 8 to 10 is 
formed with two bending lines 26, 26' extending between the opposite 
recessions for the side pieces of the hook. 
By forming the latch plate with at least one hole in the way described 
above, the plate may, on one hand, be made of a sufficiently thick sheet 
to guarantee a good stiffness in the rear wide base part which is crucial 
for the plate's ability to be retained between the side pieces of the 
hook, and, on the other hand, in an intermediate portion retain a 
sufficient elastic flexibility in order to guarantee the desired spring 
pressure in the front part of the plate which is to abut against the 
inside of the bent part of the hook. 
Feasible Modifications of the Invention 
The invention is not solely restricted to the embodiments described above 
and shown in the drawings. Thus, it is feasible to make the plate with two 
or more holes instead of only one. Furthermore, the narrow front part of 
the latch plate does not necessarily need to be substantially 
rectangularly formed. Thus, the latch plate may gradually narrow from the 
rear wide base part towards the area of the front end of the plate.