CN216707636U - Accurate crosscut device of double cutter head for mineral rock wool - Google Patents

Abstract

The utility model relates to a double-cutter-head precise transverse cutting device for mineral rock wool, which comprises cutter heads, wherein the number of the cutter heads is two, the cutter heads are of a transverse moving structure, the cutter heads are independently arranged on the transverse moving structure and a sliding rail, the transverse moving structure is independently assembled on the sliding rail and moves back and forth in the left-right direction so as to drive the cutter heads to move left and right and move a front-back moving structure, the sliding rail is arranged on the front-back moving structure so as to drive the transverse moving structure to move front and back and a driving structure, the driving structure is arranged on the front-back moving structure, and the driving structure is connected with the transverse moving structure so that the driving structure can drive the transverse moving structure to move left and right on the sliding rail so as to drive the cutter heads to move left and right; the utility model has the advantages of accurate cutting, good transmission effect and convenient replacement of the transmission belt.

Description

Accurate crosscut device of double-cutter-head for mineral rock wool

Technical Field

The utility model belongs to the technical field of mineral wool transverse cutting, and particularly relates to a double-tool-bit precise transverse cutting device for mineral wool.

Background

Mineral wool is a fine fibrous product made artificially from rock ore as a raw material. Rock wool (rock wool) mainly made of basalt and the like has low cost and good heat preservation and sound insulation effects, and some countries have made the mineral wool into large plates and installed the large plates on the walls of buildings to replace building materials such as red bricks and the like, so that heating fuel can be greatly saved particularly in cold areas.

And after the mineral rock cotton production, need carry out the crosscut to the mineral rock cotton, and present cutting equipment often can appear some problems in the cutting, for example, the cutting position is not accurate enough, can't guarantee the size of cutting, and cutting knife transmission effect is relatively poor, and the inconvenient problem of changing of drive belt of cutting knife.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide the double-cutter-head precise transverse cutting device for mineral wool, which has the advantages of precise cutting, good transmission effect and convenient replacement of a transmission belt.

The technical scheme of the utility model is as follows:

a double-tool-bit precise transverse cutting device for mineral rock wool comprises;

the cutter heads are provided with two cutter heads;

the cutter head is independently arranged on the transverse moving structure;

the transverse moving structure is independently assembled on the sliding rail and moves back and forth in the left-right direction so as to drive the cutter head to move left and right;

the sliding track is arranged on the front-back moving structure so as to drive the transverse moving structure to move back and forth;

and the driving structure is arranged on the front-back moving structure and is connected with the transverse moving structure, so that the driving structure can drive the transverse moving structure to move left and right on the sliding track to drive the cutter head to move left and right.

Further, every the blade disc all is equipped with the protection casing, the equal pivoted in both ends is connected with the rotation wheel that is located blade disc one side about the protection casing, rotate the side of wheel and blade disc and contact.

Further, the sideslip structure includes two sliding platforms, the connecting piece of independent setting side on the sliding platform and the support frame of being connected with two sliding platforms, the sliding platform all is provided with the buffer board with the side that the back-and-forth movement structure corresponds, the support frame corresponds with the blade disc and is provided with drive arrangement, drive arrangement's output shaft and blade disc are connected.

Furthermore, a cutter head fixing table is arranged on the front side face of the driving device, and an output shaft of the driving device penetrates through the cutter head fixing table to be connected with a cutter head.

Further, the sliding track comprises a sliding plate, the sliding plate is connected with the sliding table in a sliding mode, and the left end and the right end of the sliding plate are fixed on the front-back moving structure.

Further, the side of the sliding plate is provided with a convex plate, and the convex plate is connected with the sliding table in a sliding manner.

Furthermore, the front-back moving structure comprises two sliding columns with sliding grooves and a group of moving columns in sliding connection with the sliding grooves of the sliding columns;

the sliding plate is fixed on the movable columns, stand columns fixed on the sliding columns are arranged between the two groups of movable columns, threaded rods penetrating through the movable columns are connected to the stand columns in a rotating mode, the threaded rods are in threaded connection with the movable columns, and a turntable is fixed at one end, far away from the stand columns, of each threaded rod.

Further, the driving structure comprises a mounting frame, a servo motor fixed with the mounting frame, a transmission shaft driven by the servo motor, and a transmission belt wound on the transmission shaft;

the mounting rack is fixed on the movable column;

the front side and the rear side of the transmission shaft are respectively and rotatably connected with a fixed table, and the fixed tables are respectively connected with each group of the movable columns;

and the two ends of the transmission belt are connected to the connecting piece by bypassing the transmission shaft.

Further, the connecting piece divide into upper plate and hypoplastron, upper plate and hypoplastron pass through bolted connection to carry out the centre gripping to the drive belt and fix, a plurality of arc walls have been seted up respectively to the side on drive shaft surface and the hypoplastron, the drive belt corresponds with the arc wall and is provided with the arc arch.

Compared with the prior art, the utility model has the beneficial effects that:

1. the distance between the two cutter heads is adjusted through the front-back moving structure so as to adapt to the shearing of rock wool with different sizes, and the cutting work of the cutter heads is realized through the matching of the sliding track and the transverse moving track, so that the flexibility and the convenience of the transverse cutting device during use are improved, and the effect of accurate cutting is achieved;

2. the transmission belt is connected with the transmission belt through the connecting piece and the transmission shaft and is matched with the bulge through the arc-shaped groove, so that the advantages of good transmission effect and convenience in replacement of the transmission belt are achieved;

in a word, the utility model has the advantages of accurate cutting, good transmission effect and convenient replacement of the transmission belt.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic view of the sliding table and the moving column of FIG. 1 according to the present invention

FIG. 3 is a schematic illustration of the drive belt connection of FIG. 1 in accordance with the present invention;

FIG. 4 is a right side view of the sliding table of FIG. 1 according to the present invention.

In the figure, 1, a sliding column, 2, a rotary table, 3, a mounting frame, 4, a servo motor, 5, a transmission shaft, 6, a fixed table, 7, a transmission belt, 8, a connecting piece, 9, a connecting plate, 10, a sliding table, 11, a sliding plate, 12, a convex plate, 13, a protective cover, 14, a rotating wheel, 15, a cutter head, 16, a cutter head protective plate, 17, driving equipment, 18, a supporting frame, 19, a cutter head fixed table, 20, a moving column, 21, a stand column, 23 and a buffer column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 4, a double-bit precision crosscutting apparatus for mineral wool, comprising:

the protection device comprises cutter heads 15, the number of the cutter heads 15 is two, each cutter head 15 is provided with a protection cover 13, the left end and the right end of each protection cover 13 are rotatably connected with a rotating wheel 14 positioned on one side of each cutter head 15, the rotating wheels 14 are in contact with the side surfaces of the cutter heads 15, the cutter heads 15 rotate and the protection covers 13 protect the cutter heads 15 in the working process of the cutter heads 15, personnel are prevented from touching the cutter heads 15 and are in rotating contact with the cutter heads 15 through the rotating wheels 14, and the rotating wheels 14 are always positioned at the same front position and the back position, so that the situation that the cutter heads 15 shake forwards and backwards is avoided;

the sideslip structure, blade disc 15 is independently installed at the sideslip structure, the sideslip structure includes two sliding tables 10, independently sets up connecting piece 8 of side on sliding table 10 and the support frame 18 of being connected with two sliding tables 10, sliding table 10 all is provided with the buffer board with the side that the back-and-forth movement structure corresponds, be provided with the connecting plate between the sliding table, support frame 18 corresponds with blade disc 15 and is provided with drive arrangement 17, drive arrangement 17 is the equipment that can drive blade disc pivoted, for example motor etc., drive arrangement 17's output shaft is connected with blade disc 15, drive arrangement 17 front flank is provided with blade disc fixed station 19, drive arrangement 17's output shaft passes blade disc fixed station 19 is connected with blade disc 15, wherein when blade disc 15 need control the sideslip, sliding table 10 sideslip to drive support frame 18 and remove, the supporting frame 18 drives the driving device 17 to move left and right, so that the cutter head 15 moves left and right, and in the process that the cutter head 15 moves left and right, an output shaft of the driving device 17 provides rotating power for the cutter head 15, and the cutter head 15 rotates, so that the cutting work of the cutter head 15 is realized;

the sliding rail is independently assembled on the sliding rail and moves back and forth in the left-right direction to drive the cutter head 15 to move left and right, the sliding rail comprises a sliding plate 11, the sliding plate 11 is in sliding connection with the sliding table 10, the left end and the right end of the sliding plate 11 are both fixed on the front-back moving structure, a convex plate 12 is arranged on the upper side surface of the sliding plate 11, the convex plate 12 is in sliding connection with the sliding table 10, and when the sliding table 10 slides left and right, the sliding table 10 moves along the left-right direction of the sliding plate 11 and the convex plate 12 to drive the cutter head 15 to move left and right, so that the cutting of rock wool is ensured;

the front and back moving structure comprises two sliding columns 1 with sliding grooves and a group of moving columns 20 in sliding connection with the sliding grooves of the sliding columns 1, the sliding plate 11 is fixed on the moving columns 20, an upright post 21 fixed on the sliding column 1 is arranged between the two groups of moving columns 20, a threaded rod penetrating through the moving column 20 is rotatably connected on the upright post 21 and in threaded connection with the moving column 20, a rotary table 2 is fixed at one end of the threaded rod, which is far away from the upright post 21, the sliding column 1 and the cutter disc 15 are correspondingly provided with cutter disc protection plates 16, the cutter disc protection plates 16 and the cutter disc 15 are correspondingly provided with grooves, the lower edge of the cutter disc 15 protrudes out of the lower side surface of the cutter disc protection plate 16 from the grooves, and the moving column 20 is correspondingly provided with buffer columns 23, when the cutter head 15 needs to be adjusted forwards and backwards, the threaded rod is rotated through the turntable 2, because the threaded rod is rotatably connected with the upright post 21, the rotatable connection is connected by a bearing, the upright post 21 is fixed with the sliding post 1, when the threaded rod rotates, the upright post 21 keeps still, the threaded rod drives the moving post 20 to move back and forth through the thread, and the moving column 20 adjusts the position of the cutter head 15 through the sliding plate 11, the sliding table 10 and the supporting frame 18, while the sliding column 1 performs a sliding connection for securing the moving column 20 when the moving column 20 moves, and when the sliding table 10 slides left and right, when the sliding table 10 moves left and right too much, the buffer column 23 contacts and extrudes the buffer plate, the buffer column 23 buffers the buffer plate to reduce the force when the buffer plate moves, then the buffer column 23 is pressed against the buffer plate to stop the sliding table 10 and prevent the cutting part of the cutter head 15 from contacting with the cutter head protection plate 16;

the driving structure is arranged on the front-back moving structure and is connected with the transverse moving structure, so that the transverse moving structure can be driven by the driving structure to move left and right on the sliding track to drive the cutter head 15 to move left and right, the driving structure comprises an installation frame 3, a servo motor 4 fixed on the installation frame 3, a transmission shaft 5 driven by the servo motor 4 and a transmission belt 7 wound on the transmission shaft 5, the installation frame 3 is fixed on a moving column 20, the front side and the rear side of the transmission shaft 5 are respectively and rotatably connected with a fixed platform 6, the fixed platforms 6 are respectively connected with each group of moving columns 20, two ends of the transmission belt 7 are respectively connected on a connecting piece 8 by bypassing the transmission shaft 5, the installation frame is used for ensuring the fixation of the servo motor 4, and when the servo motor 4 works, the servo motor 4 drives the transmission shaft 5 to rotate, the transmission shaft 5 drives the transmission belt 7, and the transmission belt 7 drives the sliding table 10 to move transversely left and right along the sliding plate 11 so as to ensure the transversely left and right cutting of the cutter head 15.

In this embodiment, connecting piece 8 divide into upper plate and hypoplastron, upper plate and hypoplastron pass through bolted connection to it is fixed to carry out the centre gripping to drive belt 7, a plurality of arcs have been seted up respectively to 5 surfaces of transmission shaft and the hypoplastron side, drive belt 7 corresponds with the arc, and when drive belt 7 and connecting piece 8 were installed, arc on drive belt 7 was protruding to cooperate with the arc on the hypoplastron, further strengthened drive belt 7's fixed, and carry out centre gripping drive belt 7 through upper plate and hypoplastron, guaranteed the installation and the convenient change of drive belt 7, and at transmission shaft 5 pivoted in-process, arc on the transmission shaft 5 and the protruding cooperation of arc on the drive belt 7, thereby reduce the condition that the slipband appears, guarantee the transmission effect of transmission shaft 5 and drive belt 7, in order to guarantee the crosscut of blade disc 15.

When using, adjust the fore-and-aft position of removal post 20 through carousel 2, adjust and accomplish the back, servo motor 4 work drives transmission shaft 5 rotatory, transmission shaft 5 drives transmission belt 7 rotatory, transmission belt 7 and transmission shaft 5 cooperate through arc wall and arc arch, in order to guarantee the transmission effect, transmission belt 7 drives the sideslip that sliding table 10 goes on about sliding plate 11 and protruding type board 12 through connecting piece 8, sliding table 10 drives regulation about blade disc 15, thereby cut the mineral rock wool, and at the in-process of cutting, blade disc guard plate 16 and protection casing 13 protect, and when needs change transmission belt 7, only need pull down the upper plate of connecting piece 8, and change transmission belt 7 can, the arc arch of transmission belt 7 cooperates with the arc wall on the connecting piece 8, in order to guarantee fixed stability and make things convenient for the dismouting.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (9)

1. The utility model provides a mineral rock is accurate crosscut device of double knives head for cotton, its characterized in that: comprises the following steps of;

the cutter heads are two in number;

the cutter head is independently arranged on the transverse moving structure;

the transverse moving structure is independently assembled on the sliding rail and moves back and forth in the left-right direction so as to drive the cutter head to move left and right;

the sliding track is arranged on the front-back moving structure so as to drive the transverse moving structure to move back and forth;

and the driving structure is arranged on the front-and-back moving structure and is connected with the transverse moving structure, so that the driving structure can drive the transverse moving structure to move left and right on the sliding track to drive the cutter head to move left and right.

2. The dual-bit precision cross-cutting apparatus for mineral wool according to claim 1 wherein: every the blade disc all is equipped with the protection casing, both ends are all rotationally connected with the rotation wheel that is located blade disc one side about the protection casing, rotate the side of wheel and blade disc and contact.

3. The dual-bit precision cross-cutting apparatus for mineral wool according to claim 1 wherein: the sideslip structure includes two sliding platforms, the connecting piece of independent setting side on the sliding platform and the support frame of being connected with two sliding platforms, the sliding platform all is provided with the buffer board with the side that the back-and-forth movement structure corresponds, the support frame corresponds with the blade disc and is provided with drive arrangement, drive arrangement's output shaft and blade disc are connected.

4. The accurate crosscut device of double knives head for ore rock wool of claim 3 characterized in that: the front side surface of the driving device is provided with a cutter fixing table, and an output shaft of the driving device penetrates through the cutter fixing table to be connected with a cutter.

5. The dual-bit precision cross-cutting apparatus for mineral wool according to claim 4 wherein: the sliding rail comprises a sliding plate, the sliding plate is connected with the sliding table in a sliding mode, and the left end and the right end of the sliding plate are fixed on the front-back moving structure.

6. The dual-bit precision cross-cutting apparatus for mineral wool according to claim 5 wherein: and the upper side surface of the sliding plate is provided with a convex plate, and the convex plate is connected with the sliding table in a sliding manner.

7. The dual-bit precision cross-cutting apparatus for mineral wool according to claim 6 wherein: the front-back moving structure comprises two sliding columns with sliding grooves and a group of moving columns in sliding connection with the sliding grooves of the sliding columns;

the sliding plate is fixed on the movable columns, an upright post fixed on the sliding column is arranged between the two groups of movable columns, a threaded rod penetrating through the movable columns is connected to the upright post in a rotating mode, the threaded rod is in threaded connection with the movable columns, and a turntable is fixed at one end, far away from the upright post, of the threaded rod.

8. The dual-bit precision cross-cutting apparatus for mineral wool according to claim 7 wherein: the driving structure comprises a mounting rack, a servo motor fixed with the mounting rack, a transmission shaft driven by the servo motor, and a transmission belt wound on the transmission shaft;

the mounting rack is fixed on the movable column;

the front side and the rear side of the transmission shaft are respectively and rotatably connected with a fixed table, and the fixed tables are respectively connected with each group of the movable columns;

and the two ends of the transmission belt are connected to the connecting piece by bypassing the transmission shaft.

9. The dual-bit precision cross-cutting apparatus for mineral wool according to claim 8 wherein: the connecting piece is divided into an upper plate and a lower plate, the upper plate and the lower plate are connected through bolts so as to clamp and fix the transmission belt, a plurality of arc-shaped grooves are formed in the outer surface of the transmission shaft and the upper side face of the lower plate respectively, and arc-shaped protrusions are arranged on the transmission belt and correspond to the arc-shaped grooves.

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