CC-100 Cone Crusher

Nominal Capacities	Chamber	EC	C	M	MF	F	EF
	CSS	70–85	50–65	-	-	-	-
	SH	120	80	60	45	35	25
	TS	135	90	65	50	38	28

Max Motor Power (kW)

90

Ecc. Throw (mm)		13-25	13-25	13–28	13–28	13–28	13–28
CSS (mm)	4	-	-	-	-	23–40	19–41
	5	-	-	-	-	24–52	20–42
	6	-	-	-	26–56	25–54	-
	8	-	-	32–35	32–74	27–57	-
	10	45	45–62	34–86	34–78	28–61	-
	13	48–93	48–93	37–94	37–76	31–52	-
	16	52–100	52–100	40-90	40–59	33–41	-
	19	56–108	56–108	43–62	46	35	-
	22	60-115	60–115	-	-	-	-
	25	64-123	64–123	-	-	-	-
	29	69-132	69–106	-	-	-	-
	32	73-123	73	-	-	-	-
	35	76-94	-	-	-	-	-

Cone Crusher

Cone crushers are designed to crush hard and abrasive stream and quarry materials such as granite, basalt and andesite. Thanks to the long-lasting wear parts, the cone crusher is lasts longer.

In addition, since maintenance and repair operations can be done easily on the crusher, operating costs are also low.

The crusher is also called “cone crusher” since the crushing process is done between conical surfaces. In terms of both size and structure, many different shapes are encountered today. In general, there are two main types as “movable shaft” and “fixed shaft”.

Body Structure

The body consists of two parts, the lower and the upper. The inner surface of the upper part is covered with concaves. It is shaped like an inverted truncated cone. It is reinforced with horizontal and vertical belts according to the size of the crusher. It is made of cast or cast steel. In very large crushers, it is made in parts and the parts are joined together with strong and thick bolts to form the body.

The main structural elements of the crusher are as follows;

Body (lower and upper)

Mouth collar and bridge

Hub and main shaft

Eccentric sleeve and bevel gear

Drive assembly

Concaves and core linings

Crushed material chute

Adjusting device

Lubrication device