CN213726737U - Raw material crushing equipment for silicon carbide ceramic production - Google Patents

Abstract

The utility model discloses a raw materials crushing equipment is used in carborundum ceramic production relates to carborundum ceramic production technical field, the utility model discloses a shell, breaker, screening plant, push rod and crushing device, first driving shaft is connected with first round hole, rotation axis and the rotatory cooperation of first driving shaft, and first driving shaft one end is connected with the inside opposite side surface of shell body, a plurality of bracing piece lower surfaces all with the inside lower surface welding of shell body, belt and the rotatory cooperation of first driving shaft, the rotatory cooperation of second driving shaft and belt. The utility model relates to a raw materials crushing equipment is used in carborundum ceramic manufacture, breaker and milling device have been connected to the belt, use the work of two devices of a motor completion, because the size of first driving shaft and second driving shaft is the same at the during operation, so breaker's work efficiency suits with milling device's efficiency, and the raw materials is after the breakage, and screening plant sieves it, and great meeting is sieved out breakage once more.

Description

Raw material crushing equipment for silicon carbide ceramic production

Technical Field

The utility model relates to a silicon carbide ceramic production technical field, in particular to raw materials crushing equipment is used in silicon carbide ceramic production.

Background

Carborundum, also known as silicon carbide (SiC), is produced by high-temperature smelting of quartz sand, petroleum coke (or coal coke), wood dust (salt is required for producing green silicon carbide) and other raw materials in a resistance furnace, and can be called as carborundum or refractory sand.

The existing silicon carbide raw material crushing equipment has the advantages that the crushing is incomplete during the crushing, the screening function is not realized, and the incomplete crushed excess materials are difficult to recover for secondary crushing, so that the raw material crushing equipment for silicon carbide ceramic production is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a raw materials crushing equipment is used in carborundum ceramic manufacture can effectively solve among the background art crushing efficiency low and broken incomplete problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a raw material crushing device for producing silicon carbide ceramics comprises a shell, a crushing device, a screening device, a push rod and a crushing device, wherein the shell comprises a shell body, a feeding funnel and a surplus material funnel, the lower surface of the feeding funnel is connected with the upper surface of the shell body, one side surface of the surplus material funnel is connected with one side surface of the shell body, the crushing device comprises a crushing device body, a motor and a first driving shaft, one side surface of the crushing device body is provided with a first round hole, the first driving shaft is connected with the first round hole, one side surface of the motor is connected with one side surface inside the shell body, the other side surface of the motor is provided with a rotating shaft, the rotating shaft is in rotating fit with the first driving shaft, one end of the first driving shaft is connected with the other side surface inside the shell body, the screening device comprises a support rod, and the lower surfaces of the support rods are all welded with the lower surface inside the shell body, the push rod comprises an air pump, a mounting hole is formed in the side surface of the other side of the shell body, the air pump is connected with the mounting hole, the crushing device comprises a crushing device body, a belt and a second driving shaft, a first through hole is formed in the surface of one side of the crushing device body, the second driving shaft is connected with the through hole, two ends of the second driving shaft are respectively connected with the surfaces of two sides in the shell body, the belt is in rotating fit with the first driving shaft, and the second driving shaft is in rotating fit with the belt.

Preferably, the shell still includes discharging pipe, support column, bumper shock absorber and universal wheel, discharging pipe upper surface and shell body lower surface are connected, and are a plurality of the support column both ends respectively with shell body lower surface and a plurality of bumper shock absorber upper surface, a plurality of the universal wheel upper surface is connected with a plurality of bumper shock absorbers lower surface respectively, harm that the bumper shock absorber can effectual reduction device vibrations bring, extension device life.

Preferably, the crushing device further comprises a driven crushing roller, an impact block, a first driving gear, a first driven gear and a first driven shaft, wherein a second round hole is formed in the surface of one side of the driven crushing roller, the first driven shaft is connected with the second round hole, the first driving gear is in rotating fit with the first driving shaft, the first driving gear is meshed with the first driven gear, the first driven gear is in rotating fit with the first driven shaft, and the crushing device is used for crushing large corundum.

Preferably, screening plant still includes the screening plant body, shock dynamo, driving plate and spring, and is a plurality of spring one end is equallyd divide do not with a plurality of bracing piece lower surface connections, and is a plurality of the spring other end is connected with shock dynamo lower surface and screening plant body lower surface respectively, driving plate upper surface and shock dynamo lower surface connection, driving plate lower surface and screening plant body upper surface connection, screening plant's effect is less emery sand screening out after accomplishing the breakage, and screening plant surface is stayed to great meeting.

Preferably, the push rod still includes push rod body, telescopic link and brush, telescopic link one end and air pump side surface are connected, the telescopic link other end and push rod body side surface are connected, push rod body opposite side surface is equipped with the mounting groove, the brush is connected with the mounting groove, and the effect of push rod is released the clout from the screening plant upper surface.

Preferably, the grinding device further comprises a driven grinding roller, a second driving gear, a second driven gear and a second driven shaft, the second driving gear is in rotating fit with the second driving shaft, the second driving gear is meshed with the second driven gear, the second driven gear is in rotating fit with the second driven shaft, a second through hole is formed in the side surface of the driven grinding roller, the second driven shaft is connected with the second through hole, and the grinding device is used for grinding the sieved silicon carbide into powder.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses in, the staff removes suitable position with equipment to put suitable container under the discharging pipe, be used for accepting the carborundum raw materials of broken completion, breaker and milling device have been connected to the belt, use the work of a motor completion two devices.

When the crushing device works, the sizes of the first driving shaft and the second driving shaft are the same, so that the working efficiency of the crushing device is adaptive to the efficiency of the crushing device, and after raw materials are crushed, the raw materials are sieved by the sieving device, and the larger raw materials can be sieved and crushed again.

Drawings

FIG. 1 is a schematic view of the external overall structure of a raw material crushing apparatus for producing silicon carbide ceramics according to the present invention;

FIG. 2 is a top view of the raw material crushing apparatus for producing silicon carbide ceramics according to the present invention;

FIG. 3 is a sectional view taken along line A-A of the raw material crushing apparatus for producing silicon carbide ceramics according to the present invention;

FIG. 4 is a B-B sectional view of the raw material crushing apparatus for producing silicon carbide ceramics of the present invention.

In the figure: 100. a housing; 110. a feeding funnel; 120. a residual material hopper; 130. a discharge pipe; 140. a support pillar; 150. a shock absorber; 160. a universal wheel; 200. a crushing device; 210. a driven crushing roller; 220. an impact block; 230. a motor; 240. a first drive gear; 250. a first driven gear; 260. a first drive shaft; 270. a first driven shaft; 300. a screening device; 310. vibrating a motor; 320. a drive plate; 330. a spring; 340. a support bar; 400. a push rod; 410. an air pump; 420. a telescopic rod; 430. a brush; 500. a grinding device; 510. a driven crushing roller; 520. a belt; 530. a second driving gear; 540. a second driven gear; 550. a second driving shaft; 560. a second driven shaft.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The first embodiment is as follows:

referring to fig. 1-4, the present invention relates to a raw material crushing apparatus for silicon carbide ceramic production, comprising a housing 100, a crushing device 200, a sieving device 300, a push rod 400 and a crushing device 500, wherein the housing 100 comprises a housing body, a feeding funnel 110 and a remainder funnel 120, a lower surface of the feeding funnel 110 is connected with an upper surface of the housing body, a side surface of the remainder funnel 120 is connected with a side surface of the housing body, the crushing device 200 comprises a crushing device body, a motor 230 and a first driving shaft 260, a side surface of the crushing device body is provided with a first circular hole, the first driving shaft 260 is connected with the first circular hole, a side surface of the motor 230 is connected with a side surface inside the housing body, another side surface of the motor 230 is provided with a rotating shaft, the rotating shaft is rotatably matched with the first driving shaft 260, one end of the first driving shaft 260 is connected with another side surface inside the housing body, the sieving device 300 comprises a support rod 340, the lower surfaces of the plurality of supporting rods 340 are welded with the lower surface inside the shell body, the push rod 400 comprises an air pump 410, a mounting hole is formed in the side surface of the other side of the shell body, the air pump 410 is connected with the mounting hole, the crushing device 500 comprises a crushing device body, a belt 520 and a second driving shaft 550, a first through hole is formed in the surface of one side of the crushing device body, the second driving shaft 550 is connected with the through hole, two ends of the second driving shaft 550 are respectively connected with the surfaces of two sides inside the shell body, the belt 520 is in rotary fit with the first driving shaft 260, and the second driving shaft 550 is in rotary fit with the belt 520.

Further, shell 100 still includes discharging pipe 130, support column 140, bumper shock absorber 150 and universal wheel 160, and discharging pipe 130 upper surface and shell body lower surface are connected, and a plurality of support column 140 both ends respectively with shell body lower surface and a plurality of bumper shock absorber 150 upper surface connection, a plurality of universal wheel 160 upper surfaces respectively with a plurality of bumper shock absorbers 150 lower surface connection, bumper shock absorber 150 can effectual reduction device shake harm, extension device life who brings.

Further, breaker 200 still includes driven crushing roller 210, striking block 220, first driving gear 240, first driven gear 250 and first driven shaft 270, driven crushing roller 210 side surface is equipped with the second round hole, first driven shaft 270 is connected with the second round hole, first driving gear 240 and first driving shaft 260 normal running fit, first driving gear 240 meshes with first driven gear 250, first driven gear 250 and first driven shaft 270 normal running fit, breaker 200's effect is broken massive carborundum.

Further, screening plant 300 still includes the screening plant body, shock dynamo 310, driving plate 320 and spring 330, a plurality of spring 330 one end are equallyd divide and are do not connected with a plurality of bracing pieces 340 lower surface, a plurality of spring 330 other ends respectively with shock dynamo 310 lower surface and screening plant body lower surface connection, driving plate 320 upper surface and shock dynamo 310 lower surface connection, driving plate 320 lower surface and screening plant body upper surface connection, screening plant 300's effect is less emery sieve out after accomplishing the breakage, great meeting is stayed screening plant 300 surface.

Further, the push rod 400 further includes a push rod body, a telescopic rod 420 and a brush 430, one end of the telescopic rod 420 is connected with one side surface of the air pump 410, the other end of the telescopic rod 420 is connected with one side surface of the push rod body, an installation groove is formed in the other side surface of the push rod body, the brush 430 is connected with the installation groove, and the push rod 400 is used for pushing out the excess materials from the upper surface of the sieving device 300.

Further, the grinding device 500 further includes a driven grinding roller 510, a second driving gear 530, a second driven gear 540 and a second driven shaft 560, the second driving gear 530 is rotatably engaged with the second driving shaft 550, the second driving gear 530 is engaged with the second driven gear 540, the second driven gear 540 is rotatably engaged with the second driven shaft 560, a second through hole is formed in a side surface of the driven grinding roller 510, the second driven shaft 560 is connected to the second through hole, and the grinding device 500 functions to grind the silicon carbide separated by the sieving into powder.

Example two:

referring to fig. 1-4, the present invention relates to a raw material crushing apparatus for silicon carbide ceramic production, wherein a motor 230 is of type YE2-132S1-2, a vibration motor 310 is of type MS-71M2-2, a worker moves the apparatus to a suitable position and places a suitable container under a discharge pipe 130 for receiving crushed silicon carbide raw material, a belt 520 connects a crushing device 200 and a crushing device 500, and one motor 230 is used to complete the work of the two devices, and the working efficiency of the crushing device 200 is adapted to the efficiency of the crushing device 500 due to the same size of the first driving shaft 260 and the second driving shaft 550 when working, after the raw material is crushed, the raw material is sieved by a sieving device 300, and the larger raw material is sieved and crushed again.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a carborundum is raw materials crushing apparatus for ceramic production, includes shell (100), breaker (200), screening plant (300), push rod (400) and crushing device (500), its characterized in that: the shell (100) comprises a shell body, a feeding funnel (110) and a surplus material funnel (120), the lower surface of the feeding funnel (110) is connected with the upper surface of the shell body, one side surface of the surplus material funnel (120) is connected with one side surface of the shell body, the crushing device (200) comprises a crushing device body, a motor (230) and a first driving shaft (260), one side surface of the crushing device body is provided with a first round hole, the first driving shaft (260) is connected with the first round hole, one side surface of the motor (230) is connected with one side surface inside the shell body, the other side surface of the motor (230) is provided with a rotating shaft, the rotating shaft is in rotating fit with the first driving shaft (260), one end of the first driving shaft (260) is connected with the other side surface inside the shell body, the screening device (300) comprises a supporting rod (340), the lower surfaces of the supporting rods (340) are welded with the inner lower surface of the shell body, the push rod (400) comprises an air pump (410), a mounting hole is formed in the side surface of the other side of the shell body, the air pump (410) is connected with the mounting hole, the crushing device (500) comprises a crushing device body, a belt (520) and a second driving shaft (550), a first through hole is formed in the surface of one side of the crushing device body, the second driving shaft (550) is connected with the through hole, two ends of the second driving shaft (550) are respectively connected with the inner two side surfaces of the shell body, the belt (520) is in rotating fit with the first driving shaft (260), and the second driving shaft (550) is in rotating fit with the belt (520).

2. The raw material crushing apparatus for silicon carbide ceramic production according to claim 1, characterized in that: the shell (100) further comprises a discharge pipe (130), a support column (140), shock absorbers (150) and universal wheels (160), wherein the upper surface of the discharge pipe (130) is connected with the lower surface of the shell body, the support column (140) is connected with the lower surface of the shell body and the upper surfaces of the shock absorbers (150) at two ends of the support column (140) respectively, and the universal wheels (160) are connected with the lower surfaces of the shock absorbers (150) respectively.

3. The raw material crushing apparatus for silicon carbide ceramic production according to claim 1, characterized in that: the crushing device (200) further comprises a driven crushing roller (210), an impact block (220), a first driving gear (240), a first driven gear (250) and a first driven shaft (270), wherein a second round hole is formed in one side surface of the driven crushing roller (210), the first driven shaft (270) is connected with the second round hole, the first driving gear (240) is in rotating fit with a first driving shaft (260), the first driving gear (240) is meshed with the first driven gear (250), and the first driven gear (250) is in rotating fit with the first driven shaft (270).

4. The raw material crushing apparatus for silicon carbide ceramic production according to claim 1, characterized in that: screening plant (300) still includes the screening plant body, shock dynamo (310), driving plate (320) and spring (330), and is a plurality of spring (330) one end is equallyd divide and is do not connected with a plurality of bracing pieces (340) lower surface, and is a plurality of spring (330) other end is connected with shock dynamo (310) lower surface and screening plant body lower surface respectively, driving plate (320) upper surface and shock dynamo (310) lower surface are connected, driving plate (320) lower surface and screening plant body upper surface are connected.

5. The raw material crushing apparatus for silicon carbide ceramic production according to claim 1, characterized in that: the push rod (400) further comprises a push rod body, a telescopic rod (420) and a brush (430), one end of the telescopic rod (420) is connected with one side surface of the air pump (410), the other end of the telescopic rod (420) is connected with one side surface of the push rod body, the other side surface of the push rod body is provided with a mounting groove, and the brush (430) is connected with the mounting groove.

6. The raw material crushing apparatus for silicon carbide ceramic production according to claim 1, characterized in that: the grinding device (500) further comprises a driven grinding roller (510), a second driving gear (530), a second driven gear (540) and a second driven shaft (560), the second driving gear (530) is in rotating fit with the second driving shaft (550), the second driving gear (530) is meshed with the second driven gear (540), the second driven gear (540) is in rotating fit with the second driven shaft (560), a second through hole is formed in the side surface of the driven grinding roller (510), and the second driven shaft (560) is connected with the second through hole.

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