CN218423077U - Raw material crushing device for ceramic tile manufacturing production - Google Patents

Abstract

The utility model provides a raw material crushing device for ceramic tile manufacturing production, which relates to the technical field of crushing devices and comprises a base component and a wall breaking shell component, wherein the top end of the base component is provided with a supported wall breaking shell component, a throwing mechanism is connected to the wall breaking shell component through a bearing, and a fine grinding mechanism which is fixedly connected is arranged on the bottom side of the wall breaking shell component; the utility model discloses mainly utilize the inboard at broken wall shell to set up the draw-in groove seat that the multiunit is the same and parallel, let the slot strip can effectual block in the inboard of draw-in groove seat, and at the trepanning stick of two sets of parallel distribution of the one end fixed connection of slot strip, through the subtend distribution of multiunit trepanning stick, make a set of slot strip can run through jointly and peg graft in the trepanning stick and connect, when the user changes the blade of a sword like this, can take off all the blades of a sword simultaneously through the through connection of slot strip, thereby avoided the user to change the loaded down with trivial details of maintenance one by one to the blade of a sword subassembly, the machining efficiency of equipment has been promoted.

Description

Raw material crushing device for ceramic tile manufacturing production

Technical Field

The utility model relates to a reducing mechanism technical field especially relates to a raw materials reducing mechanism is used in ceramic tile manufacturing production.

Background

The ceramic tile is an acid and alkali resistant product formed by grinding, mixing, pressing, glazing and sintering refractory metal oxides and semimetal oxides, and the production raw materials of the ceramic tile are mostly formed by mixing clay, quartz sand and the like, so that the raw materials are required to be fully crushed when the ceramic tile is produced, and relatively ideal production raw materials can be obtained.

After reducing mechanism used for a long time, need take off the change with the blade of a sword board of bearing capacity, current reducing mechanism only can be in proper order change the operation one by one to the blade of a sword board, and the complex operation degree that can increase staff like this is unfavorable for the promotion of efficiency of construction, consequently, the utility model provides a raw materials reducing mechanism is used in order to solve the problem that exists among the prior art for the ceramic tile manufacturing production.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a raw materials reducing mechanism is used in ceramic tile manufacture production, this raw materials reducing mechanism is used in ceramic tile manufacture production mainly utilizes the inboard of broken wall shell to set up the draw-in groove seat that the multiunit is the same and parallel, let the slotting attachment can effectual block in the inboard of draw-in groove seat, and at the trepanning stick of two sets of parallel distribution of the one end fixed connection of slotting attachment, through the opposite direction distribution of multiunit trepanning stick, make a set of slotting attachment can run through jointly and peg graft and connect in the trepanning stick, when the user changes the blade of the sword like this, can take off all blades of the sword simultaneously through the through connection of slotting attachment, thereby avoided the user to change the loaded down with trivial details of maintaining one by one to the blade of the sword subassembly, the machining efficiency of equipment has been promoted.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: a raw material crushing device for ceramic tile manufacturing production comprises a base assembly and a wall breaking shell member, wherein the top end of the base assembly is provided with a supported wall breaking shell member, a throwing mechanism is connected to the wall breaking shell member through a bearing, and a fine grinding mechanism fixedly connected is arranged on the bottom side of the wall breaking shell member;

broken wall shell component includes broken wall casing, reinforcing lagging, roof, pan feeding mouth, draw groove seat, slot strip, trepanning stick, cutting, rubber cushion, fixing base and sword board, the broken wall casing sets up the top of base subassembly, the outside side of broken wall casing is provided with the reinforcing lagging that the bolt cup jointed, the top side of broken wall casing is provided with the roof of two sets of pan feeding mouths of installation, the interior limit side of broken wall casing is provided with the draw groove seat, just the inboard of draw groove seat is provided with the slot strip that the block is connected, the one end of slot strip is provided with the trepanning stick of two sets of parallel distribution, just the inboard of trepanning stick is through the cutting and the roof plug-in connection of pegging graft, the interior limit side of slot strip is provided with rubber cushion, just the one end of rubber cushion is provided with the fixing base, the interior limit side of fixing base is provided with the parallel sword board that the multiunit cup jointed.

The jaw plate is of an inclined multi-protrusion structure, the inserting bar and the trepanning rod are in vertical penetrating connection, and the fixing seat and the inserting groove bar are distributed in parallel.

The improvement is that the base component comprises a base plate, a bolt base and a lifting frame, the top side of the base plate is provided with the bolt base assembled by a bolt, and the lifting frame is arranged above the side of the bolt base.

The further improvement is that, throwing mechanism includes first motor, belt pulley group, bearing frame, rotary rod, throwing piece and flywheel, first motor sets up the top side of bed plate, the output of first motor is connected with the input of belt pulley group, the output of belt pulley group runs through the bearing frame is connected with the rotary rod, just the avris of rotary rod is provided with the throwing piece that the annular distributes, the output of rotary rod runs through the broken wall shell component connection has the input of flywheel.

Further improve in, correct grinding mechanism includes jib, correct grinding cabin, double-pipe way, inclined plane board, discharge gate, spacing guiding rod, second motor, rotatory roller, crushing tooth group, meshing gear train and sphere grinding roller, the jib sets up the bottom side of broken wall casing, the below of jib is provided with correct grinding cabin, possess two sets of double-pipe ways between correct grinding cabin and the broken wall casing, the interior limit side in correct grinding cabin is provided with two sets of spacing guiding rods, the interior bottom side in correct grinding cabin is provided with the discharge gate, the below in correct grinding cabin is provided with two sets of parallel distribution's discharge gate.

The improved structure is characterized in that a second motor is arranged on one side of the fine grinding cabin, the output end of the second motor penetrates through the fine grinding cabin and is connected with a rotating roller, the outer sides of the two groups of rotating rollers are provided with crushing tooth groups distributed in a staggered mode, the rotating end of the rotating roller penetrates through the fine grinding cabin and is connected with an engaging gear set, and the output end of the engaging gear set penetrates through the fine grinding cabin and is connected with the input end of a spherical grinding roller.

The beneficial effects of the utility model are that:

the utility model discloses mainly utilize the inboard at broken wall shell to set up the draw-in groove seat that the multiunit is the same and parallel, let the slot strip can effectual block in the inboard of draw-in groove seat, and at the trepanning stick of two sets of parallel distribution of the one end fixed connection of slot strip, through the subtend distribution of multiunit trepanning stick, make a set of slot strip can run through jointly and peg graft in the trepanning stick and connect, when the user changes the blade of a sword like this, can take off all the blades of a sword simultaneously through the through connection of slot strip, thereby avoided the user to change the loaded down with trivial details of maintenance one by one to the blade of a sword subassembly, the machining efficiency of equipment has been promoted.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic bottom perspective view of the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the wall-breaking shell member of the present invention;

fig. 4 is a schematic structural view of the fixing base and the jaw plate of the present invention;

fig. 5 is a schematic view of the three-dimensional structure of the throwing mechanism of the present invention;

fig. 6 is a schematic view of the three-dimensional structure of the fine grinding mechanism of the present invention.

Wherein: 1. a base assembly; 101. a base plate; 102. a bolt base; 103. lifting the frame; 2. breaking the shell member; 201. breaking the shell; 202. a reinforcing sleeve plate; 203. a top plate; 204. a feeding port; 205. a slot clamping seat; 206. inserting groove strips; 207. a trepanning rod; 208. cutting; 209. a rubber cushion block; 2010. a fixed seat; 2011. a jaw plate; 3. a throwing mechanism; 301. a first motor; 302. a pulley set; 303. a bearing seat; 304. rotating the rod; 305. throwing the sheet; 306. a flywheel; 4. a fine grinding mechanism; 401. a boom; 402. a finish grinding chamber; 403. a double pipe; 404. an inclined plane plate; 405. a discharge port; 406. a limiting guide rod; 407. a second motor; 408. a rotating roller; 409. crushing the tooth group; 4010. a meshing gear set; 4011. and (4) grinding rollers with spherical surfaces.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to the drawings of fig. 1-6, the embodiment provides a raw material crushing device for manufacturing and producing ceramic tiles, which comprises a base assembly 1 and a wall breaking shell member 2, wherein the top end of the base assembly 1 is provided with the supported wall breaking shell member 2, a throwing mechanism 3 is in bearing connection with the wall breaking shell member 2, and the bottom side of the wall breaking shell member 2 is provided with a fixedly connected fine grinding mechanism 4;

broken wall shell component 2 includes broken wall casing 201, strengthen lagging 202, roof 203, pan feeding mouth 204, draw-in groove seat 205, slotting strip 206, trepanning stick 207, the slotting strip 208, rubber cushion block 209, fixing base 2010 and the sword board 2011, broken wall casing 201 sets up the top at base subassembly 1, the outside side of broken wall casing 201 is provided with the strengthening lagging 202 that the bolt cup jointed, the top side of broken wall casing 201 is provided with the roof 203 of two sets of pan feeding mouths 204 of installation, the interior limit side of broken wall casing 201 is provided with the slotting strip 205, and the inboard of slotting strip 205 is provided with the slotting strip 206 that the block is connected, the one end of slotting strip 206 is provided with the trepanning stick 207 of two sets of parallel distribution, and the inboard of trepanning stick 207 is through the slotting strip 208 and the roof 203 plug-in connection of pegging graft, the interior limit side of slotting strip 206 is provided with rubber cushion block 209, and the one end of rubber cushion block 209 is provided with the fixing base 2010, the interior limit side of fixing base 2010 is provided with the sword board 2011 of the parallel of the multiunit.

The jaw 2011 has an inclined multi-convex structure, the insert bar 208 is vertically connected with the trepanning rod 207 in a penetrating way, and the fixing seat 2010 and the slot bar 206 are distributed in parallel.

In this embodiment, when the throwing mechanism 3 operates, raw materials to be processed are put into the wall-breaking shell 201 through the feeding port 204 above the two ends of the top plate 203, and due to the inclined structure of the feeding port 204, the raw materials can touch the throwing sheet 305 outside the rotating rod 304, so that the strong force of the throwing sheet 305 can throw the raw materials onto the jaw plate 2011 strongly, so as to perform preliminary crushing, so that large raw materials form a smaller state under the impact of the jaw plate 2011, because the fixing seat 2010 at the rear side of the jaw plate 2011 is connected to the slot-inserting bar 206 by the rubber cushion block 209, and the slot-inserting bar 206 is clamped inside the slot-inserting seat 205, the trepanning bar 207 at one end of the slot-inserting bar 206 is connected to the bottom side of the top plate 203 in a penetrating manner by the slot-inserting bar 208, so that the stability of crushing can be improved when the device is crushed, and the generation of sound is reduced.

The base component 1 comprises a base plate 101, a bolt base 102 and a lifting frame 103, wherein the bolt base 102 assembled by bolts is arranged on the top side of the base plate 101, and the lifting frame 103 is arranged above the side of the bolt base 102.

In this embodiment, the bolt base 102 to which the base plate 101 is attached is placed at a processing site, so that the base plate 101 can stably support the first motor 301, and the raising frame 103 is bolted above the side of the base plate 101 to stably support the wall-breaking shell member 2.

The throwing mechanism 3 comprises a first motor 301, a belt pulley set 302, a bearing seat 303, a rotating rod 304, a throwing sheet 305 and a flywheel 306, the first motor 301 is arranged on the top side of the base plate 101, the output end of the first motor 301 is connected with the input end of the belt pulley set 302, the output end of the belt pulley set 302 penetrates through the bearing seat 303 to be connected with the rotating rod 304, the side of the rotating rod 304 is provided with the throwing sheet 305 distributed in an annular mode, and the output end of the rotating rod 304 penetrates through the wall breaking shell member 2 to be connected with the input end of the flywheel 306.

In this embodiment, first, the first motor 301 is started to output power to drive the high-speed rotation of the pulley set 302, so that the high-speed rotation of the pulley set 302 drives the high-speed rotation of the output end inside the bearing seat 303, so that the output end inside the bearing seat 303 drives the high-speed rotation of the rotating rod 304, and because the rotation of the rotating rod 304 drives the high-speed rotation of the flywheel 306, under the combined action of the flywheel 306, the rotation force of the rotating rod 304 can be enhanced, so that the rotating rod 304 can throw the centrifugal force generated by the throwing plate 305 with a larger force, thereby throwing the falling raw material at a high speed.

Refining mechanism 4 includes jib 401, refining chamber 402, double-pipe 403, inclined plane board 404, discharge gate 405, spacing guiding rod 406, second motor 407, rotatory roller 408, smash tooth group 409, meshing gear set 4010 and sphere grinding roller 4011, jib 401 sets up the bottom side at broken wall casing 201, the below of jib 401 is provided with refining chamber 402, possess two sets of double-pipe 403 between refining chamber 402 and broken wall casing 201, the interior limit side of refining chamber 402 is provided with two sets of spacing guiding rod 406, the interior bottom side of refining chamber 402 is provided with discharge gate 405, the below of refining chamber 402 is provided with two sets of parallel distribution's discharge gate 405.

In this embodiment, when during broken raw materials get into accurate grinding cabin 402 through the double-pipe 403 between accurate grinding cabin 402 and the broken wall casing 201, under the effect of spacing guiding rod 406, let the accurate whereabouts of raw materials carry out shredding between crushing tooth group 409, through crushing tooth group 409 shredding back, again via spherical grinding roller 4011's effective system of grinding, make pulverous raw materials under the effect of inclined plane board 404, discharge gate 405 output device through accurate grinding cabin 402 below, in order to make things convenient for the user to bear.

One side of accurate grinding cabin 402 is provided with second motor 407, and the output of second motor 407 runs through accurate grinding cabin 402 and is connected with rotatory roller 408, and the outside of two sets of rotatory rollers 408 is provided with crisscross crushing tooth group 409 that distributes, and the rotatory end of rotatory roller 408 runs through accurate grinding cabin 402 and is connected with meshing gear set 4010, and meshing gear set 4010's output runs through accurate grinding cabin 402 and is connected with the input of sphere grinding roller 4011.

In this embodiment, after broken wall shell component 2 carries out effectual breakage with the raw materials, start second motor 407 output and drive rotatory roller 408 and inwards rotate, make rotatory roller 408 drive crisscross crushing tooth group 409 that distributes and inwards rotate, because rotatory roller 408 is the pivoted, consequently rotatory roller 408 drives meshing gear train 4010 and rotates, the gear that drives the below by the gear of top rotates, make meshing gear train 4010's rotation drive spherical grinding roller 4011 and rotate, let smash tooth group 409 and spherical grinding roller 4011 and reach effectual correct grinding processing to the product through the breakage.

The working principle of the raw material crushing device for manufacturing and producing the ceramic tiles is as follows: firstly, the first motor 301 is started to output power to drive the belt pulley set 302 to rotate at high speed, so that the belt pulley set 302 rotates at high speed to drive the output end inside the bearing seat 303 to rotate at high speed, the output end inside the bearing seat 303 drives the rotating rod 304 to rotate at high speed, the rotating rod 304 drives the flywheel 306 to rotate at high speed, so that under the combined action of the flywheel 306, the rotating force of the rotating rod 304 can be enhanced, the rotating rod 304 can enable the throwing sheet 305 to generate centrifugal force with larger force to throw falling raw materials at high speed, when the throwing mechanism 3 operates, the raw materials to be processed are put into the wall breaking shell 201 through the feeding ports 204 above the two ends of the top plate 203, due to the inclined structure of the feeding ports 204, the raw materials can touch the throwing sheet 305 outside the rotating rod 304, so that the strong force of the throwing sheet 305 can throw the raw materials onto the throwing plate flange 2011, in order to carry out preliminary breakage, make bold raw materials under the striking of the jaw plate 2011, form less state, because the fixing base 2010 of the rear side of the jaw plate 2011 is connected on slot bar 206 by rubber cushion 209, and when slot bar 206 block was in the draw-in groove seat 205 inboard, the trepanning stick 207 of slot bar 206 one end utilized the slot bar 208 to carry out through connection and pegged graft in the bottom side of roof 203, make equipment when carrying out the breakage, can promote broken stability, and the production of sound has been reduced, after broken shell component 2 carries out effectual breakage with the raw materials, start second motor 407 output power and drive rotatory roller 408 and inwards rotate, make rotatory roller 408 drive crisscross crushing tooth group 409 that distributes and inwards rotate, because rotatory roller 408 is the pivoted, therefore rotatory roller 408 drives the gear train 4010 rotation, the gear that drives the below by the gear drive of top rotates, make meshing gear group 4010's rotation drive sphere grinding roller 4011 rotate, when broken raw materials get into among the accurate grinding cabin 402 through the double-pipe 403 between accurate grinding cabin 402 and the broken wall casing 201, under the effect of spacing guide rod 406, let the accurate whereabouts of raw materials smash the processing of smashing between the tooth group 409, smash the processing back through smashing tooth group 409, again via sphere grinding roller 4011's effective system, make likepowder raw materials under the effect of inclined plane board 404, discharge gate 405 output device through accurate grinding cabin 402 below, in order to make things convenient for the user to bear.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. 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 raw materials reducing mechanism is used in ceramic tile manufacture production, includes base subassembly (1) and broken wall shell component (2), its characterized in that: a wall breaking shell component (2) is arranged at the top end of the base component (1) in a supporting mode, a throwing mechanism (3) is connected to the wall breaking shell component (2) in a bearing mode, and a fine grinding mechanism (4) which is fixedly connected is arranged on the bottom side of the wall breaking shell component (2);

broken wall shell component (2) are including broken wall casing (201), reinforcing lagging (202), roof (203), pan feeding mouth (204), draw-in groove seat (205), slotting strip (206), trepanning stick (207), slotting strip (208), rubber cushion block (209), fixing base (2010) and sword board (2011), broken wall casing (201) set up the top of base subassembly (1), the outside side of broken wall casing (201) is provided with reinforcing lagging (202) that the bolt cup jointed, the top side of broken wall casing (201) is provided with roof (203) of two sets of pan feeding mouths (204) of installation, the interior limit side of broken wall casing (201) is provided with draw-in groove seat (205), just the inboard of draw-in groove seat (205) is provided with slotting strip (206) that the block is connected, the one end of slotting strip (206) is provided with trepanning stick (207) of two sets of parallel distribution, just the inboard of trepanning stick (207) is through the slotting strip (208) and roof (203) plug-in connection of grafting, the interior limit side of slotting strip (206) is provided with rubber cushion block (209), and rubber cushion block (209) is provided with the fixing base (2010) side (2010), the fixing base (2010) is provided with the interior limit side of the rubber (2010).

2. A raw material crushing apparatus for tile manufacturing production according to claim 1, characterized in that: the jaw plate (2011) is of an inclined multi-protrusion structure, the inserting bar (208) and the trepanning rod (207) are connected in a vertical penetrating mode, and the fixing seat (2010) and the inserting groove bar (206) are distributed in parallel.

3. A raw material crushing apparatus for tile manufacturing production according to claim 1, characterized in that: the base component (1) comprises a base plate (101), a bolt base (102) and a lifting frame (103), wherein the bolt base (102) assembled by bolts is arranged on the top side of the base plate (101), and the lifting frame (103) is arranged above the side of the bolt base (102).

4. A raw material crushing apparatus for tile manufacturing production according to claim 3, characterized in that: throwing mechanism (3) include first motor (301), belt pulley group (302), bearing frame (303), rotary rod (304), throwing piece (305) and flywheel (306), first motor (301) set up the top side of bed plate (101), the output of first motor (301) is connected with the input of belt pulley group (302), the output of belt pulley group (302) runs through bearing frame (303) is connected with rotary rod (304), just the avris of rotary rod (304) is provided with annular distribution's throwing piece (305), the output of rotary rod (304) runs through broken wall shell component (2) are connected with the input of flywheel (306).

5. A raw material crushing apparatus for tile manufacturing production according to claim 1, characterized in that: refining mechanism (4) include jib (401), fine grinding cabin (402), double-pipe (403), inclined plane board (404), discharge gate (405), spacing guiding rod (406), second motor (407), rotatory roller (408), smash tooth group (409), meshing gear group (4010) and sphere grinding roller (4011), jib (401) set up the bottom side of broken wall casing (201), the below of jib (401) is provided with fine grinding cabin (402), possess two sets of double-pipe (403) between fine grinding cabin (402) and broken wall casing (201), the interior limit side of fine grinding cabin (402) is provided with two sets of spacing guiding rod (406), the interior bottom side of fine grinding cabin (402) is provided with discharge gate (405), the below of fine grinding cabin (402) is provided with discharge gate (405) of two sets of parallel distribution.

6. A raw material crushing apparatus for tile manufacturing production according to claim 5, wherein: one side of correct grinding cabin (402) is provided with second motor (407), just the output of second motor (407) runs through correct grinding cabin (402) is connected with rotatory roller (408), the outside of two sets of rotatory rollers (408) is provided with crisscross crushing tooth group (409) that distributes, the rotatory end of rotatory roller (408) runs through correct grinding cabin (402) is connected with meshing gear group (4010), the output of meshing gear group (4010) runs through correct grinding cabin (402) is connected with the input of sphere grinding roller (4011).

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