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Pneumatic Rotary Actuator, Rack and Pinion, Double acting

$164.50

Rack-and-pinion pneumatic rotary actuators (double acting) are available in a variety of styles and sizes, providing double o

SKU: CHN-RTC-HRQ

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Delivery date: 6-12 days

Overview
Documents

Pneumatic rotary actuators with rack-and-pinion structure and a higher-precision working platform are for sale. This series of rotary actuators comes with a number of optional sizes along with two modes of buffer. With these characteristics, this type of pneumatic rotary actuator will surely make a greatly useful part in your pneumatic system.

Product features

Higher manufacturing precision of working platform: The manufacturing precision of working platform is high, facilitating installation and is of precise orientation. The working platform has a through hole in the center, and pipes can be located and passed through the hole.
Double cylinder structure brings about double output.
Two modes of buffer are offered for selection, including adjustment bolt buffer and internal shock absorber with the latter even better.
Rack and pinion design makes for stable functioning.
The device comes with integral magnetic switch slots
Three types of size are selectable which are mini-sized (2, 3 & 7), middle-sized (10, 20, 30 & 50) and large-sized (70, 100 & 200) rotary cylinders.
Simple installation: Guide holes are designed on both sides of the cylinder body (10~200) or undersurface (2~7).

Specification

Model		CHN-RTC-HRQ
Type		2	3	7	10	20	30	50	70	100	200
Acting type		Double rack and pinion (Double acting)
Fluid		Air (to be filtered by 40 um filter element)
Operating pressure	With adjustable bolt	0.15~0.7MPa (22~100psi) (1.5~7.0bar)
	With internal shock absorber	-			0.15~0.7MPa (22~100psi) (1.5~7.0bar)
Proof pressure		1.2MPa (175psi) (12.0bar)
Temperature		-20~70℃
Angle adjustment range		0~190°							0~190°
Repeatable precision	With adjustable bolt	0.2°
	With internal shock absorber	-			0.05°
Theoretic moment (Nm) (0.5MPa)		0.2	0.33	0.63	1.1	2.2	2.8	5	7.5	11	22
Cushion type	With adjustable bolt	Rubber bumper
	With internal shock absorber	-			Shock absorber
Port size	End ports	M5 × 0.8					1/8″ [Note1]
	Side ports						M5 × 0.8
Weight		120g	175g	270g	535g	940g	1260g	2060g	2890g	4100g	7650g
[Note1]: PT thread, G thread and NPT thread are available. HRQ series are all attached with magnet.

Inner structure and material of major parts

NO.	Item	Material
1	Adjustable bolt	Carbon steel
2	Hexagon nut	Carbon steel
3	Seal washer	Carbon steel & Rubber
4	Front cover	Aluminum Alloy
5	Body	Aluminum Alloy
6	Hexagon socket head set bolt	Carbon steel
7	Table	Aluminum Alloy
8	Hexagon socket head set bolt	Carbon steel
9	Guide pin/flat key	Carbon steel
10	Deep-groove bearing	Subassembly
11	Bearing retainer	Aluminum Alloy
12	Deep-groove bearing/Needle bearing	Subassembly
13	Back cover	Aluminum Alloy
14	Steel ball	Stainless steel
15	Piston seal	NBR
16	Wear ring	Ware resistent material
17	Magnet	Rare earths
18	Rack	Stainless steel/Carbon steel
19	Pinion	Chrome molybdenum steel
20	O-ring	NBR
21	Bumper	NBR
22	O-ring	NBR
23	O-ring	NBR
24	Hexagon screw	Stainless steel
25	Shock absorber	Subassembly

Dimensions (unit: mm)

Type/Item	A	AC	AD	B	BA	C	CA	CB	E	EA	EB	EC	G	J	JA	JB	K	KA	KC	L	LA	LB	LC	P	PA
2	76	64	8	32	30	28	18	10	M5×0.8	12	12	9.5	4	6	3.5	37	M4×0.7	7.5	3.5	M4×0.7	4	35	4.5	M5×0.8	12.5
3	82	70	8	36.5	34.5	30.5	20.5	10	M5×0.8	12	15.5	10.5	5	7.5	4.5	43	M5×0.8	8.5	4.5	M4×0.7	4	40	4.5	M5×0.8	15.5
7	94.5	79.5	8	43	41	34.5	23	11.5	M6×1.0	15	18.5	12	6	7.5	4.5	50	M5×0.8	8.5	4.5	M5×0.8	5	50	5	M5×0.8	18.5

Type/Item	PB	Q	QA	QB	R	RA	S	SA	T	TA	U	UA	V	VA	VB	VC	W	WA	WB	X	XA	XB	Y	YA	YB
2	10	M5×0.8	4	6	14 (H9)	2.5	29 (h9)	5.5	29.5 (h9)	4	5 (H9)	1.5	M3×0.5	3.5	34	18.5	M3×0.5	5.5	21	2 (H9)	2	10.5	2 (H9)	2	24
3	12	M5×0.8	4	7.5	17 (H9)	2.5	33 (h9)	5.5	34 (h9)	4	6 (H9)	1.5	M3×0.5	3.5	38	23	M3×0.5	5.5	25	2 (H9)	2	12.5	2 (H9)	2	28
7	14	M5×0.8	4	9	20 (H9)	3	39 (h9)	6.5	40 (h9)	4.5	7 (H9)	1.5	M4×0.7	4.5	45	30	M4×0.7	6.5	29	3 (H9)	3	14.5	3 (H9)	3	32

Type/Item	A (With internal shock absorber)	A (With adjustment bolt)	AC	AD	B	BA	C	CA	CB	E	EA (With internal shock absorber)	EA (With adjustment bolt)
10	123	112	92	9.5	50	54	47	34	13	M10×1.0	31	20
20	169	145.3	117	11	65	69	54	37	17	M12×1.0	52	28.3
30	178.5	154.5	127	11.5	70	74	57	40	17	M12×1.0	51.5	27.5
50	212	185.9	152	15	80	84	66	46	20	M14×1.5	60	33.9

Type/Item	EB	EC	G	J	JA	JB	JC	K	KA	KC	P	PA	PB	Q	QA	QB	R	RA	S	SA
10	20.5	14	5	11	6.5	60	27	M8×1.25	12	6.5	M5×0.8	34.5	28	M5×0.8	4.5	29	20（H9	4.5	45 (h9)	8
20	27.5	16	9	14	8.5	76	34	M10×1.5	15	8.5	M5×0.8	47	30	M5×0.8	6	30	28（H9	6.5	60 (h9)	10
30	29	18.5	9	14	8.5	84	37	M10×1.5	15	8.5	1/8″	50	32	M5×0.8	6.5	34	32（H9	5	65 (h9)	10
50	38	22	10	18	10.5	100	50	M12×1.75	18	10.5	1/8″	63	38	M5×0.8	10	38	35 （H9）	5.5	75 (h9)	12

Type/Item	T	TA	U	UA	V	VA	W	WA	WB	X	XA	XB	Y	YA	YB	YC
10	46 (h9)	4.5	15 (H9)	3	M5×0.8	8	M5×0.8	8	32	3 (H9)	3.5	16	3 (H9)	3.5	56	40
20	61 (h9)	6.5	17 (H9)	2.5	M6×1.0	8	M6×1.0	10	43	4 (H9)	4.5	21.5	4 (H9)	4.5	74	50
30	67 (h9)	6.5	22 (H9)	3	M6×1.0	8	M6×1.0	10	48	4 (H9)	5	24	4 (H9)	4.5	80	58
50	77 (h9)	7.5	26 (H9)	3	M8×1.25	8	M8×1.25	12	55	5 (H9)	6	27.5	5 (H9)	5.5	92	68

Type/Item	A (With internal shock absorber)	A (With adjustment bolt)	AC	AD	B	BA	BC	C	CA	CB	CD	E	EA (With adjustment bolt)
70	206.8	244	92	17	92	88	84	75	53	22	36	M20×1.5	36.8
100	225.7	263	117	17	102	99	95	86	59	27	42	M20×1.5	36.7
200	279.5	316.5	127	24	120	117	113	106	74	32	57	M27×1.5	39.5

Type/Item	EA (With internal shock absorber)	EB	G	J	JA	JB	JC	K	KA	KC	P	PA	PB	Q	QA	R	RA	S	SA
70	74	42	16	17.5	12	110	57	M12×1.75	18	10.5	1/8″	75	44	M5×0.8	25	46 (H9)	5	88 (h9)	12.5
100	74	50	19	17.5	12	130	66	M12×1.75	18	10.5	1/8″	85	50	M5×0.8	29	56 (H9)	6	98 (h9)	14.5
200	76.5	60	24	20	12.5	150	80	M16×2.0	25	14	1/8″	103	62.5	M5×0.8	36	64 (H9)	9	116 (h9)	16.5

Type/Item	T	TA	U	UA	V	VA	W	WA	WB	X	XA	XB	Y	YA	YB	YC	Z	ZA
70	90 (h9)	9	22 (H9)	3.5	M8×1.25	10	M8×1.25	12.5	67	5 (H9)	5.5	33.5	5 (H9)	3.5	110	80	5 (H9)	3.5
100	100 (h9)	12	24 (H9)	3.5	M8×1.25	10	M8×1.25	14.5	77	6 (H9)	6.5	38.5	6 (H9)	4.5	120	100	6 (H9)	4.5
200	118 (h9)	15	32 (H9)	5.5	M12×1.75	13	M12×1.75	16.5	90	8 (H9)	1/8″	45	8 (H9)	4.5	140	110	8 (H9)	6.5

Tips: How to select a pneumatic rotary actuator

Determine the following working conditions of a pneumatic rotary actuator according to the actual situation:
1.1 Rotation angle θ: The actual rotation angle must be within the maximum allowed range of rotation angle of cylinder.
1.2 Rotation time t: The rotation time must be within the maximum allowed range of rotation time of cylinder.
1.3 Installation position of cylinder: Allow enough installation space, so as to ensure leaving adequate space for rotation of cylinder and workpieces.
1.4 Determination of loading mass and loading shape.

Calculation of necessary torque needed when loading rotation (T(N.m))
Calculate the necessary moment required for loading rotation according to the formula below, and combine with the torque diagram of actual effect, to choose the pneumatic rotary actuator with suitable torque output.
2.1 Calculation method of moment of inertia in different conditions

Diagram	Description	Calculation formula of moment of inertia	Rotation radius	Diagram	Description	Calculation formula of moment of inertia	Rotation radius
	d: Diameter (m) m: Mass (kg)				a: Sheet length (m) b: Length of side (m) m: Mass (kg)
		Note: no special installation direction				Note: no special installation direction
	d1: Diameter (m) d2:Diameter (m) m1: d1 Mass (kg) m2: d2 Mass (kg)				a: Sheet length (m) m: Mass (kg)
		Note: Compared with d2, disregard d1 if d1 is extremely tiny				Note: no special installation direction
	d: Diameter (m) m: Mass (kg)				a: Sheet length (m) m: Mass (kg)
		Note: no special installation direction				Note: 1. horizontal installation. 2. pay attention to the change of movement time in case of vertical installation.
	r: Radius (m) m: Mass (kg)				a: Sheet length (m) b: Distance between the rotation axis and the gravity center of loading (m) m: Mass (kg)
		Note: no special installation direction				Note: the cuboids are the same.
	a1: Sheet length (m) a2: Sheet length (m) m1: a1 Mass (kg) m2: a2 Mass (kg)				a: Tooth number of gear b: Tooth number of loading gear
		Note: 1. horizontal installation. 2. pay attention to the change of movement time in case of vertical installation.			a1: Vertical distance between the rotation axis and the concentrated loading (m) a2: Length of arm (m) m1: Mass of concentrated loading (kg) m2: Mass of arm (kg)
	a1: Sheet length (m) a2: Sheet length (m) b: Length of side (m) m1: a1 Mass (kg) m2: a2 Mass (kg)					Note: 1. horizontal installation. 2. compared with m, disregard if m is extremely tiny. 3. calculate K according to the shape of concentrated loading row by row. For example, when the loading is spheroid, K=2r²/5
		Note: 1. horizontal installation. 2. pay attention to the change of movement time in case of vertical installation.

Calculation of maximum movement energy E(max, J):
Calculate the maximum movement energy according to the formula below, and make sure that the maximum movement energy is within allowed energy range of the chosen pneumatic cylinder as excessively large movement energy would lead to damage of inner parts, please choose rotation cylinder attached with shock absorber when the movement energy is fairly large.
Calculation of loading rate
Calculate the loading rate according to the formula below, and the loading rate must not be more than 1.
Determination method
It could be used only when the chosen pneumatic rotary actuator must meet the requirements of article 2, 3 and 4 simultaneously.