Linear Shafts Both Ends Tapped with Wrench Flats

Brand :

MISUMI

Caution

Product Description

This is an economy item, The price is cheaper than the MISUMI standard product.

Product Overview

Linear guide shafts are high-precision shaft products that can be used with linear bushings and other bushing-type products. They not only offer excellent wear resistance, but also provide a variety of additional machining options.

Dimensional Drawing

Specification Overview

Type		Material	Hardness	Surface Treatment
With Wrench Slot Type
Standard
D tolerance g7	D tolerance f8
E-SFJZ	-	S45C or GCr15	High-frequency quenching Effective hardened layer depth>>See (PDF) S45C or GCr15 55HRC~ SUS440C or equivalent high-hardness corrosion-resistant steel 53HRC or more	-
E-SSFJZ	-	SUS440C or high-hardness corrosion-resistant steel
E-PSFJZ	-	S45C or GCr15		Hard Chrome Plating Plating Hardness HV750~ Plating Thickness 3µ or more
E-PSSFJZ	-	SUS440C or high-hardness corrosion-resistant steel
-	E-PSFGZ	S45C Equivalent	-	Hard Chrome Plating Plating Hardness HV750~ Plating Thickness 10µ or more

The total length L must satisfy M × 2+N × 2 ≤ L. When M × 2.5+4+N × 2.5+4 ≥ L, the thread bottom hole may penetrate through.

The shaft end processing section (effective thread length + approx. 10 mm) may experience reduced hardness due to the annealing effect of the processing.

If there are requirements for rust prevention, give priority to products with hard chrome plated surface treatment. For rust prevention methods, please click

here

If wear resistance is required, please select products with high-frequency quenching.

Alterations

Code

Spec.

LKC

Change L dimension tolerance
Specification Method LKC
Applicable Conditions The maximum L dimension for precision type is 200
When using LKC, the L dimension can be specified in 0.1 mm increments

L<200 →L±0.03
200 ≤ L<500 →L±0.05
L ≥ 500 →L±0.1

M Side

WSC

Add 2 wrench slots
Specification Method WSC12-X8
Applicable Conditions Suitable for D ≥ 6
WSC, X = specified unit 1 mm

WSC+X+ℓ₁ × 2 < L

WSC(X) ≥ 0

The two machined planes are not guaranteed to be on the same level

Cannot be used together with FC

D	W	ℓ₁
6	5	8
8	7
10	8
12	10	10
13	11
15	13
16	14

D	W	ℓ₁
18	16	10
20	17
25	22
30	27	15
35	30	15
40	36	20
50	41	20

Add flat machining at 1 location
Specified Method FC10-A8
Applicable Conditions

Not applicable for precision type
FC, A = specified unit 1 mm

FC ≤ 3 × D

When 1.5 × D<FC, FC ≤ L/2

E=0 or A ≥ 2

Cannot be used together with WFC

D	h
4 to 5	0.5
6 to 18	1
20 to 40	2
50	3

WFC

Additional machining on 2 surfaces
Specified Method WFC8-A8-E2
Applicable Conditions

Not applicable for precision type
WFC, A, E = specified unit 1 mm

WFC ≤ 3 × D

When 1.5 × D

A(E) = 0 or A(E) ≥ 2

The two machined surfaces are not guaranteed to be on the same plane and cannot be used together with FC

D	h
4 to 5	0.5
6 to 18	1
20 to 40	2
50	3

When multiple alteration is selected, the machining parts need to be spaced by more than 2 mm.

Additional machining may result in reduced hardness. See

here

Precision Reference

■ Tolerance of Section D

D Tolerance
D	g7	f8
6	-0.004 -0.016	-0.010 -0.028
8	-0.005 -0.020	-0.013 -0.035
10
12	-0.006 -0.024	-0.016 -0.043
13
15
16
20	-0.007 -0.028	-0.020 -0.053
25
30
35	-0.009 -0.034	-0.025 -0.064
40
50

■ Tolerance of L size (Y size)

Dimensions (Greater Than)	Dimensions (To)	Shaft tolerance g7
2	6	±0.1
6	30	±0.2
30	120	±0.3
120	400	±0.5
400	1000	±0.8
1000	1500	±1.2

Specification Table

Part Number		L can be specified down to 1 mm increments	M (Coarse Thread) ·N (Coarse Thread) Select											Wrench slot size
Type	D	L can be specified down to 1 mm increments	M (Coarse Thread) ·N (Coarse Thread) Select											SC	W	ℓ₁
(D Tolerance g7) E-SFJZ E-SSFJZ E-PSFJZ E-PSSFJZ (D Tolerance f8) E-PSFGZ	6	20 to 800	3											SC = Specified unit 1 mm SC + ℓ₁ ≤ L SC ≥ 0	5	8
	8	20 to 1000	3	4	5										7
	10	20 to 1000	3	4	5	6									8
	12	20 to 1200		4	5	6	8								10	10
	13	25 to 1200		4	5	6	8								11
	15	30 to 1200		4	5	6	8	10							13
	16			4	5	6	8	10							14
	20			4	5	6	8	10	12						17
	25	35 to 1200		4	5	6	8	10	12	16					22
	30	35 to 1500				6	8	10	12	16	20				27	15
	35	35 to 1500					8	10	12	16	20	24			30	15
	40	50 to 1500						10	12	16	20	24	30		36	20
	50	65 to 1500							12	16	20	24	30		41	20

Outer diameters 35, 40, and 50 are only applicable to E-PSFJZ

Product Features

Feature 1: Has high-precision dimensional tolerances and is widely used in various precision equipment.
Feature 2: Uses bearing steel (S45C or GCr15) with excellent wear resistance and SUS440C or equivalent high-hardness corrosion-resistant steel, which are high-frequency quenched to enhance wear resistance while maintaining original toughness.
Feature 3: Various additional processing options are available to meet different usage environments.
Feature 4: Usually used in combination with linear bushings products, it provides excellent linear guidance. Compared to general shaft and bushing structures, even during high-speed reciprocating motion, there is minimal wear.
Feature 5: Optional hard chrome plating provides excellent rust resistance, and the coating hardness reaches HV750. It will not be easily worn when used with high-hardness workpieces.

Precautions

(2) Decreased hardness in the machined area
After quenching the base material, machining may cause some areas to lose hardness due to annealing:
- All external threads
- All steps
- Internal threads: When M ≥ D/2, double-hole internal thread type, hard chrome plated products made of SUS440C or high-hardness corrosion-resistant steel
- Additional processing for wrench slot (SC-WSC-SX)
- Additional processing for flat surface (FC-WFC)
- Additional processing for V-groove (VC-WVC)
- Except for full-length hardened type.

Only the shaded portion of D part is hard chrome plated.
Guide Shafts One End Tapped With Wrench Flats With Through Hole Bushing MISUMI Quality Stainless Steel Material Imported from Japan

(3) Coating for Surface Treatment
After surface treatment of the base material, processing is performed. The following areas are not plated:
-Groove part
-Threaded part
-Tapped part
-Wrench slot, V-groove, plane, cut section
-The inside of the tube-type guide shaft may rust without hard chrome plating.

Example of Use

Standard Linear Motion Mechanism
Example Image

MISUMI Guide Shafts Full Range of Selections

Functions of Standard Linear Motion Mechanism
(1) Using two guide shafts in parallel effectively prevents workpiece rotation.
(2) Improved linear motion accuracy and load-bearing capacity.
(3) High-speed reciprocating motion can be achieved through the combination of guide shafts and linear bushings.
(4) Lower running resistance, resulting in less wear on the corresponding workpiece.

Actual Product Image

Direct-from-Manufacturer MISUMI Guide Shafts Larger Image

Functions of Key Components in the Mechanism

Guide Shaft: Supports the workpiece and, when used with linear bushings, provides a guiding function.	For details, click here
Linear Bushing: Uses a ball circulation structure to move the workpiece along the guide shaft.	For details, click here
Guide Shaft Support: Supports and secures the guide shaft, effectively adjusts shaft spacing, and enhances equipment stability.	For details, click here
Stopper: Serves as a limiter and is used to adjust the effective stroke of the mechanism.	For details, click here

Application Industries

Medical	Semiconductor	Electronic & Electrical Appliances

Smart phone	Food	Automotive

Linear Bushings Standard type Straight type	Bearing with Housing T-Shaped	Shaft Collar Slit

Typical model: LMU8	Typical model: BGHK6000ZZ-30	Typical model: SCS8-10

Linear Shafts Both Ends Tapped with Wrench Flats

Caution

Product Description

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Service hours

Noted for use