Hard Lock Nut

Simple - Only a spanner wrench required for installation
Safe - Ideal for applications where reliability is critical
Secure - Exceedingly high anti-loosening effect

How the Hard Lock Nut Works:

Figure 1 - Forcing a wedge into the gap between the cylinder and its surrounding tube makes it possible to create a powerfully locked assembly.

Figure 2 - Creating matching key grooves in both the nut and bolt, and then using a hammer to drive a wedge into those grooves does provide a powerful self-locking effect. However, this method is unsatisfactory from the standpoint of operability.

Figure 3 - The solution is to use two nuts to play the roles of the hammer and wedge respectively. A small eccentricity in the sliding part of the convex top of the lower nut acts as the wedge. When the concave upper nut is tightened, the effect produced is exactly the same as that produced by a hammer driving in a wedge. Moreover, it is much more effective to use a screw as this makes it very easy to force the wedge into place.

Hard Lock Nut Standard Dimensions (inch)

Hard Lock Nut Standard Dimensions (mm)

S			H (lower nut)		H1 (upper nut)		B (width)		C	ℓ (total height)	h	Set/ Weight
Margin	Coarse	Fine	Std. Dimen.	Toler-ance	Std. Dimen.	Toler-ance	Std. Dimen.	Toler-ance	Approx	Approx	Approx	g
M6	1.0	-	5	0-0.48	5	0-0.48	10	0-0.6	11.5	8.3	3.3	3.3
M8	1.25	1.0	6.5	0-0.58	6.5	0-0.58	13	0-0.7	15	11	4.5	8.6
M10	1.5	1.25	8	//	8	//	17	//	19.6	13.5	5.5	17.6
M12	1.75	1.5	10	//	10	//	19	0-0.8	21.9	17	7.0	27.3
M14	2.0	1.5	11	0-0.7	11	0-0.7	22	//	25.4	18.5	7.5	39
M16	2.0	1.5	13	//	13	//	24	//	27.7	22.5	9.5	52.8
M18	2.5	1.5	15	//	15	//	27	//	31.2	25.5	10.5	80
M20	2.5	1.5	16	//	16	//	30	//	34.6	27.5	11.5	105
M22	2.5	1.5	18	//	18	//	32	0-1.0	37	31.5	13.5	130
M24	3.0	2.0	19	0-0.84	19	0-0.84	36	//	41.6	33	14	180
M27	3.0	2.0	22	0-1.84	22	0-1.84	41	//	47.3	38	16	246
M30	3.5	2.0	24	0-1.84	24	0-1.84	46	//	53.1	42	18	375
M33	3.5	2.0	26	0-1.84	26	0-1.84	50	//	57.7	46	20	480
M36	4.0	3.0	29	0-1.84	29	0-1.84	55	0-1.2	63.5	50	21	630
M39	4.0	3.0	31	0-2.0	31	0-2.0	60	&	69.3	54	23	935
M42	4.5	4.0	34	0-2.0	34	0-2.0	65	//	75	59	25	1080
M45	4.5	4.0	36	0-2.0	36	0-2.0	70	//	80.8	63	27	1330
M48	5.0	4.0	38	0-2.0	38	0-2.0	75	//	86.5	67	29	1595
M52	5.0	4.0	42	0-2.0	42	0-2.0	80	//	92.4	75	33	2055
M56	5.5	4.0	45	0-2.0	45	0-2.0	85	0-1.4	98.1	79	34	2410
M64	6.0	4.0	51	0-2.2	51	0-2.2	95	//	110	89	38	3172

Pdf	Lower nut (tightening nut)					Upper nut (locking nut)
	Material classification: Tightening torque standard reference value list (Unit: Nm)					Materials are uniform
	Class4 (SS400 or equivalent)	Class8 (S45C or equivalent)	Class10 (SCM435 or equivalent)	A2,A4 (SUS304, 306 or equivalent)		Tightening torque (Unit Nm)
	4.8（320N／m㎡	8.8（640N／m㎡	10.9（900N／m㎡	50（210N／m㎡）	70（450N／m㎡）	Tightening torque (Unit Nm)
	2.3～6	-	-	1.5～4	3.3～9	4～5
	5.6～15	11.2～30	15.8～42	3.7～10	7.9～21	9～13
	11～30	22～59	31～84	7～20	16～42	18～24
	19～52	39～104	55～146	13～34	27～73	27～39
	31～82	62～165	87～232	20～54	44～116	40～58
	48～129	97～257	136～362	32～84	68～181	70～100
	66～177	133～354	187～498	44～116	93～249	100～150
	94～251	188～502	265～706	62～165	132～353	120～200
	128～341	256～683	360～960	84～224	180～480	150～250
	163～434	325～868	458～1220	107～285	229～610	160～300
	238～635	458～1269	669～1785	156～416	335～892	250～390
	323～862	646～1723	909～2424	212～566	454～1212	270～440
	440～1173	879～2345	1237～3298	289～770	618～1649	290～490
	565～1506	1129～3012	1588～4235	371～988	794～2118	340～590
	731～1949	1462～3898	2056～5481	480～1279	1028～2741	390～640
	904～2411	1808～4821	2542～6780	593～1582	1271～3390	440～690
	1128～3309	2257～6018	3174～8463	741～1975	1587～4231	490～740
	1358～3620	2715～7240	3818～10181	891～2376	1909～5091	540～780
	1755～4681	3510～9361	4937～13164	1152～3072	2468～6582	590～830
	2183～5820	4365～11641	6139～16370	1432～3820	3069～8185	640～880
	3288～8769	6577～17537	9248～24662	2158～5755	4624～12331	690～930

Thin Type Dimensions

Pdf	S		H (lower nut)		H1 (upper nut)		B (width)		C	ℓ (total height)	h	Uper nut tight. torque SS400 Nm)
Pdf	Margin	Coarse	Std. Dimen.	Tolerance	Std. Dimen.	Tolerance	Std. Dimen.	Tolerance	Approx	Approx	Approx	Uper nut tight. torque SS400 Nm)
	M16	2.0	10	0-0.58	10	0-0.58	24	0 -0.8	27.7	16.5	6.5	70～100
	M18	2.5	11	0-0.7	11	0-0.7	27	//	31.2	17.5	6.2	100～150
	M20	2.5	12	//	12	//	30	//	34.6	19.5	7.5	120～200
	M22	2.5	13	//	13	//	32	0-1.0	37	21.5	8.5	150～250
	M24	3.0	14	//	14	//	36	//	41.6	23	9.0	160～300
	M27	3.0	16	//	16	//	41	//	47.3	26	10	250～390
	M30	3.5	18	//	18	//	46	//	53.1	30	12	270～440
	M33	3.5	20	0-0.84	20	0-0.84	50	//	57.7	34	13	290～490
	M36	4.0	21	//	21	//	55	0-1.2	63.5	34	13	340～590
	M39	4.0	23	//	23	//	60	//	69.3	38	14	390～640
	M42	4.5	25	//	25	//	65	//	75	40	15	440～690
	M45	4.5	27	//	27	//	70	//	80.8	45	18	490～740
	M48	5.0	29	//	29	//	75	//	86.5	49	20	540～780
	M52	5.0	31	0-1.0	31	0-1.0	80	//	92.4	53	22	590～830
	M56	5.5	34	//	34	//	85	0-1.4	98.1	57	23	640～880
	M64	6.0	38	//	38	//	95	//	110	63	25	690～930

*This product's lower nut tightening torque is approx. 60 ~ 80% of that of the «H-1» lower nut.
Semi Thin Type Dimensions

Pdf	S		H (lower nut)		H1 (upper nut)		B (width)		C	ℓ (total height)	h	Uper nut tight. torque SS400 Nm)
Pdf	Margin	Coarse	Std. Dimen.	Tolerance	Std. Dimen.	Tolerance	Std. Dimen.	Tolerance	Approx	Approx	Approx	Uper nut tight. torque SS400 Nm)
	M16	2.0	13	0-0.7	10	0-0.58	24	0 -0.8	27.7	19.5	9.5	70～100
	M18	2.5	15	0-0.7	11	0-0.7	27	//	31.2	21.5	10.5	100～150
	M20	2.5	16	//	12	//	30	//	34.6	23.5	11.5	120～200
	M22	2.5	18	//	13	//	32	0-1.0	37	26.5	13.5	150～250
	M24	3.0	19	0-0.84	14	//	36	//	41.6	28	14	160～300
	M27	3.0	22	//	16	//	41	//	47.3	32	16	250～390
	M30	3.5	24	//	18	//	46	//	53.1	36	18	270～440
	M33	3.5	26	//	20	0-0.84	50	//	57.7	40	20	290～490
	M36	4.0	29	//	21	//	55	0-1.2	63.5	46	21	340～590
	M39	4.0	31	0-1.0	23	//	60	//	69.3	46	23	390～640
	M42	4.5	34	//	25	//	65	//	75	50	25	440～690
	M45	4.5	36	//	27	//	70	//	80.8	54	27	490～740
	M48	5.0	38	//	29	//	75	//	86.5	58	29	540～780
	M52	5.0	42	//	31	0-1.0	80	//	92.4	64	33	590～830
	M56	5.5	45	//	34	//	85	0-1.4	98.1	68	34	640～880
	M64	6.0	51	0-1.2	38	//	95	//	110	78	38	690～930

Pdf	d		s			e		m & m1			L	Unit Weight
	Normal Size or Basic Major Dia. of Thread		Width Across Flats			Width Across Corners		Thickness Hex Nuts			Overall Height	Unit Weight
	Normal Size or Basic Major Dia. of Thread		Basic	Max.	Min.	Max.	Min.	Basic	Max.	Min.	Approx.	Approx.
	UNC 1/4	0.2500	7/16	0.438	0.428	0.505	0.488	7/32	0.226	0.212	0.370	3.3
	UNC 5/16	0.3125	1/2	0.500	0.489	0.577	0.557	17/64	0.273	0.258	0.433	7.9
	UNC 3/8	0.3750	9/16	0.562	0.551	0.650	0.628	21/64	0.337	0.320	0.535	17.6
	UNC 7/16	0.4375	11/16	0.688	0.675	0.794	0.768	3/8	0.385	0.365	0.610	20.8
	UNC 1/2	0.5000	3/4	0.750	0.736	0.866	0.840	7/16	0.448	0.427	0.724	28.1
	UNC 5/8	0.6250	15/16	0.938	0.922	1.083	1.051	35/64	0.559	0.515	0.937	52.8
	UNC 3/4	0.7500	1-1/8	1.125	1.088	1.299	1.240	41/64	0.665	0.597	1.106	105.0
	UNC 7/8	0.8750	1-5/16	1.312	1.269	1.516	1.447	3/4	0.776	0.704	1.307	130.0
	UNC 1	1.0000	1-1/2	1.500	1.450	1.732	1.653	55/64	0.887	0.811	1.500	246

Tightening Torque

Pdf	Size	Concave Nut
	UNC 1/4	4 - 5 N•m
	UNC 5/16	9 -13 N•m
	UNC 3/8	18 - 24 N•m
	UNC 7/16	27 - 39 N•m
	UNC 1/2	40 - 58 N•m
	UNC 5/8	70 - 100 N•m
	UNC 3/4	120 - 150 N•m
	UNC 7/8	150 - 250 N•m
	UNC 1	250 - 390 N•m

*This product's lower nut tightening torque is the same as that of the«H-1» lower nut.