Timing belt connecting plates / XL, L, T5, S#M / aluminium (Part Numbers - CAD Download)

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Back to the Category Timing Belt

Technical Drawing - Timing Belts

Timing Belt Clamp Plate/Linear Guide Mounting Plate Set:Related Image

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Available dimensions and tolerances can be found under the tab More information.

Basic Properties (e.g., material, hardness, coating, tolerance) - Timing Belts

Type	Material	Surface Treatment	Number of Workpiece Mounting Holes
TBLG	EN AW-5052 Equiv.	Clear Anodize	6

Accessory	Material	Qty.	Catalog Page
Timing Belt Clamp Plates	EN AC-51400-T5 Equiv.	1	Bottom on this page
Extra Low Head Cap Screw (for Belt Mounting): CBSTS	EN 1.4301 Equiv.	4	>>P.-195

Further specifications can be found under the tab More information.

Composition of a Product Code - Timing Belts

Part Number	-	A	-	L	-	S	-	B	-	C	-	Z
TBLGXL050	-	50	-	100	-	24	-	35	-	35	-	6

Alterations - Timing Belts

General Information - Timing Belts

Timing Belt Selection Details

- Material: chloroprene rubber (neoprene), polyurethane (PU)

- Tension cord: glass fibre, aramid fibre, steel

- Width (mm): 1 to 101.6

- Width (in.): 0.19 to 4

- Profile (metric): T5, T10, AT5, AT10, S2M, S3M, S5M, S8M, S14M, MTS8M, EV5GT, EV8YU, 2GT, 3GT, MA3, MA5, MA8, P2M, P3M, P5M, P8M, UP5M, UP8M

- Profile (in.): MXL, XL, L, H

Description/Basics

Timing belts for mechanical engineering are intended for force and power transmission. Depending on the interlocking of the profile, they can alternatively be used for the material flow (transportation) or for positioning.
Timing belts are more maintenance-friendly, efficient and durable compared to roller chains.

Maintenance-friendly: timing belts do not require lubrication, are easy to replace and are very durable, as they do not sag. These properties significantly reduce maintenance costs.

Efficient: drive belts are largely made of natural rubber or polyurethane. As a result, timing belts withstand high speeds. A further advantage of these materials is the weight reduction compared to conventional metal drives. Timing belts are also known for low-noise running and contribute to the general smooth running of an application.

Durability: due to the inserted tension cord made of glass fibre or aramid fibre (Kevlar), timing belts can withstand high tensile stresses and do not tend to sag. An additional layer of nylon fabric on the interlocked side reduces wear due to abrasion and increases the service life.

Timing belts can be used in many ways. The belt profile that suits your application depends on the task of the timing belt. MISUMI offers a suitable belt profile for almost every type of application.

Drive: timing belts are used even at high torque. Drive belts with a rounded trapezoidal profile (e.g., S8M) are often used to drive mechanical components. These are particularly well suited for slip-free transmission of high forces, which can occur in drives of various applications or machines.

Positioning: a semi-circular profile (e.g., GT) is often used for positioning via timing belts. Round profile timing belts are often used in 3D printers and precise scanners. The round shape also offers the advantage that there is little play (reverse play) when the direction changes.

Material flow: timing belts can also be used to transport loads in conveyor systems. A straight trapezoidal profile is often used for this purpose (e.g., AT ). This profile provides a large profile area for load intake and transmission. The MISUMI range also includes conveyor timing belts with nylon fabric on the bearing surface.

An overview of the profile forms by application type can be found in the PDF Overview.

The amount of transmission power depends on many factors. The exact maximum load must be considered and calculated individually according to the application. The calculation for timing belts can be found in the selection of Timing Belts as PDF.
In order not to fall below the minimum number of teeth, the minimum size of the timing pulleys should be considered individually.
In general, a timing belt should be provided with the appropriate pretension to maximize the service life of the timing belt. If the pretension is too low, a jump (slip) can cause wear of the timing belt.

Application Examples - Timing Belts

Application example: synchronous belt - with screw-on terminal and drive belt - synchronous belt for positioning

Application example: workpiece carrier
(1) Stopper bolt with rubber, (2) belt conveyor, (3) workpiece carrier

Application example: synchronous belt drive - synchronous pulley with crimp disc - idler pulley with crimp disc - synchronous tensioner

Application example: of toothed belt drives
(1) Toothed belt, (2) driven Timing pulleys with crimp disc, (3) idler pulley with crimp disc, (4) driving Timing pulleys with crimp disc

Application example: Timing belt
(1) Linear guide, (2) mounting plate, (3) Timing belt, (4) Screw-on terminal

Application example - linear ball bushing and linear shaft synchronous belt - synchronous belt with flange bearings

Application example: Timing belt
(1) Bolt-on terminal, (2) Timing belt, (3) Linear shaft, (4) Linear bushings

Industrial Applications

3D printer industry

Automotive industry

Pharmaceutical industry

Packaging industry

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Part Number
TBLGS8M150-[56-150/1]-[60-250/1]-[20-45/1]-[26-60/1]-[26-50/1]-[5,6]
TBLGS8M250-[56-150/1]-[60-250/1]-[20-45/1]-[17-60/1]-[26-50/1]-[5,6]
TBLGS8M300-[56-150/1]-[60-250/1]-[20-45/1]-[17-60/1]-[26-50/1]-[5,6]
TBLGS8M400-[56-150/1]-[60-250/1]-[20-45/1]-[26-60/1]-[26-50/1]-[5,6]

Minimum order quantity	Standard Shipping Days ?	RoHS	Belt Type	Belt Width (mm) (mm)	Belt Width (Inch) (Inch)	A (mm)	B (mm)	C (mm)	L (mm)	S (mm)	Z
1	9 Days	10	S8M	15	1.5	56 ～ 150	26 ～ 60	26 ～ 50	60 ～ 250	20 ～ 45	5 ～ 6
1	9 Days	10	S8M	25	2.5	56 ～ 150	17 ～ 60	26 ～ 50	60 ～ 250	20 ～ 45	5 ～ 6
1	9 Days	10	S8M	30	3	56 ～ 150	17 ～ 60	26 ～ 50	60 ～ 250	20 ～ 45	5 ～ 6
1	9 Days	10	S8M	40	4	56 ～ 150	26 ～ 60	26 ～ 50	60 ～ 250	20 ～ 45	5 ～ 6

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Technical Drawing - Timing Belts

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Specification Tables - Timing Belts

Mounting Plate

Type	Applicable belts			Dimension Configurable (1mm Increment)						Fixed Dimension
				Plate			Linear Guide-mounting Hole			Guide Side		Belt Side
	Belt Type	Nominal Width		A	L	S	B	C	Z (Counterbored Hole)	T	M (Tapped Hole)	P	G	K	Z₁ (Counterbored Hole) Screw Nominal	T1	(Referential Info) Belt Width
TBLG	XL	025		36~90	50~250	11~45	12~60	12~50	3, 4, 5, 6	T: 6 (When selecting Z=3, 4) T: 8 (When selecting Z=5, 6)	M=Z	13	25	12	4	2.1	6.4
		031										14		12.5			7.9
		037										16		13			9.5
		050										20		15			12.7
	L	050		66~125	55~250	15~45	17~60	17~50	5, 6			21	50	16	5	3.3	12.7
		075										27		19			19.1
		100										34		23			25.4
		150										46		29			38.1
	S3M	060		25~90	30~150	11~45	12~28	12~35	3, 4, 5, 6			11	15	10	3	1.9	6
		100										15		12.5			10
		150										20		15			15
	S5M	100		37~100	50~250	15~45	17~60	17~50	5, 6			17	25	13	4	3.1	10
		150										22		16			15
		250										32		21			25
	S8M	150		56~150	60~250	15~45	17~60	17~50	5, 6			23	40	17	5	4.7	15
		250										33		22			25
		300										38		25			30
		400										48		30			40
	T5	100		35~100	50~250	11~45	12~60	12~50	3, 4, 5, 6			17	25	13	4	2.2	10
		150										22		16			15
		200										27		19			20
		250										32		21.5			25
W=L+K+S A-C-Zd₁≥2 L-B-P/2-Z₁d₁/2-M/2≥1			B(C)-Zd₁-M≥2 S-B/2-Zd₁/2≥1 L≥A

Timing Belt Clamp Plate

Accessory
Timing Belt Clamp Plates										Extra Low Head Cap Screw
Belt Type	Nominal Width	Belt Width	AT	BT	TT	h	P	G	M	For T6	For T8
XL	025	6.4	36	24	6	1.30	13	25	M4	CBSTS4-10	CBSTS4-12
	031	7.9		25			14
	037	9.5		26			16
	050	12.7		30			20
L	050	12.7	66	32	8	2.05	21	50	M5	-	CBSTS5-12
	075	19.1		38			27
	100	25.4		46			34
	150	38.1		58			46
S3M	060	6	21	18	4	1.25	11	15	M3	CBSTS3-8	CBSTS3-10
	100	10		22			15
	150	15		28			20
S5M	100	10	35	26	6	2.00	17	25	M4	-	CBSTS4-12
	150	15		32			22
	250	25		42			32
S8M	150	15	56	34	8	3.00	23	40	M5		CBSTS5-14
	250	25		44			33
	300	30		50			38
	400	40		60			48
T5	100	10	35	26	6	1.40	17	25	M4	CBSTS4-10	CBSTS4-12
	150	15		32			22
	200	20		38			27
	250	25		43			32

Alterations - Timing Belts

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Belt shape	Belt Clamp Plates

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Basic Attributes

Belt Width (mm)(mm)
6

6.4

7.9

9.5

10

12.7

15

19.1

20

25

25.4

30

38.1

40
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Belt Width (Inch)(Inch)
0.25

0.31

0.37

0.5

0.6

0.75

1

1.5

2

2.5

3

4
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A(mm)
[56-150/1mm Unit(s)]
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B(mm)
[17-60/1mm Unit(s)]
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C(mm)
[26-50/1mm Unit(s)]
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L(mm)
[60-250/1mm Unit(s)]
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S(mm)
[20-45/1mm Unit(s)]
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Z
3

4

5

6
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Type
- TBLG
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Belt Type
- XL
- L
- T5
- S3M
- S5M
- S8M
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Optional Attributes

The specifications and dimensions of some parts may not be fully covered. For exact details, refer to manufacturer catalogs .

Frequently Asked Questions (FAQ)

Question:
Where does the idler pulleys have to be placed on the timing belt?: Answer:
As a rule, the idler pulleys are positioned on the slack side, since the tension of the timing belt is here lowest during operation. Ideally, the timing belt is tensioned from the inside, because this prevents the timing belt from bending alternately. This is particularly recommended for timing belts with a steel tension cord. The idler pulley should always be larger than the smallest timing pulley of the belt drive system.
Question:
For what purpose can a timing belt with a round profile be used for?: Answer:
Round profile timing belts can be used in many applications. These are well suited for transmitting torque. In addition, the reverse play is very low due to the round profile shape with changing direction of rotation. The timing belts are also well suited for highly precise positioning. Timing belts with a round tooth profile can therefore often be found in 3D printers.
Question:
Can multiple belts be used for the transfer?: Answer:
A transmission can take place via one or more timing belts. If an equal distribution of the forces across the individual belts is not possible, it must be ensured that one belt alone can withstand the maximum load. In order to enable uniform distribution of forces, a precise adjustment is necessary. For this purpose, a toothed belt disc with clamping sleeve can be used, because it can be adjusted continuously and ensure uniform distribution.
Question:
Can a timing belt used for transmission?: Answer:
With timing belts, a gear ratio or reduction in a drive is possible. The gear ratio is established based on the number of teeth on the pulleys. It should be ensured that the minimum number of teeth of the timing pulley disc is not undercut.
Question:
What is the possible tensile stress for timing belts?: Answer:
The maximum allowable tension for MISUMI timing belts depends on the belt type, speed of rotation and belt pulley diameter. For more information, click on this link.
Question:
What is the minimum size of timing pulleys?: Answer:
The minimum size or the minimum number of teeth of a timing pulley depends on the belt type used and the height of the applied speed or rotation. You can find more detailed information about the minimum number of teeth of timing pulley discs in the selection of Timing Pulleys available as a PDF.
Question:
Does a timing belt stretch a lot?: Answer:
As opposed to a roller chain, the expansion is small. The length extension of timing belts is very stable. Therefore, it is not absolutely necessary to re-tension the timing belt during operation, as is necessary for chain drives. This makes the timing belt very easy to maintain compared to the chain. However, it should be ensured that the timing belt is free of oil, as the natural rubber could swell.
Question:
What is the purpose of a timing belt?: Answer:
The primary task of a timing belt is the synchronous and slip-free transmission of force or power. Depending on the task, various profile shapes are available for timing belts. These can be roughly divided into drive, conveying and positioning. In the following overview, you can view the various areas of use: Overview as PDF