CN203471938U - Numerically-controlled machine for cutting materials into strips or green bricks - Google Patents

Abstract

The utility model relates to brick making equipment, in particular to a numerically-controlled machine for cutting materials into strips or green bricks. The numerically-controlled machine comprises a main machine frame. A material conveying mechanism is installed on the top of the main machine frame, and a device for cutting the materials into the strips or the green bricks is arranged above the tail portion of the material conveying mechanism. The material conveying mechanism comprises a conveying belt, a first flat belt roller, a second flat belt roller and a plurality of conveying belt supporting rollers uniformly arranged between the first flat belt roller and the second flat belt roller. The device for cutting the materials into the strips or the green bricks comprises a first wheel set on the upper portion, a second wheel set on the lower portion, a work motor and a speed reducer. The numerically-controlled machine can directly cut the manufactured mud materials into the mud strips or the green bricks according to the process requirement, is high in automation degree, can lower the labor intensity of workers, reduce the number of cutting-off tables and the number of operation personnel and lower the enterprise cost, and has good application prospects.

Description

Numerical control slitting blank cutter

Technical field

The utility model relates to brick equipment, specifically, relates to a kind of numerical control slitting blank cutter.

Background technology

At present, brickmaking enterprise, when producing fragment of brick, is generally first the mediation of brickmaking material (clay etc.) water to be made to the moulded pottery not yet put in a kiln to bake material of strip, then, according to need of production, by brick cutting machine, will cut into adobe to moulded pottery not yet put in a kiln to bake material again, and be divided into two process procedures and complete.In prior art, also do not have directly moulded pottery not yet put in a kiln to bake material to be cut into the equipment of adobe or mud bar.

Utility model content

The purpose of this utility model is, provides a kind of numerical control slitting blank cutter, to solve above-mentioned technical problem.

For achieving the above object, the technical scheme that the utility model adopts is:

A numerical control slitting blank cutter, comprises mainframe, it is characterized in that: the top of described mainframe is provided with material conveying mechanism, and the top of described material conveying mechanism afterbody is provided with blank cutting blanking device; Described material conveying mechanism comprises that conveyer belt, flat rubber belting roller, No. two flat rubber belting rollers and several are evenly arranged on the conveyer belt backing roll between a flat rubber belting roller and No. two flat rubber belting rollers;

Described blank cutting blanking device comprise be positioned at top wheels, be positioned at below No. two wheels, work drive motor and reductors; Described wheels comprise driving wheel, driven pulley and a transmission bar that is connected a driving wheel and a driven pulley; Described No. two wheels comprise No. two driving wheels, No. two driven pulleys and No. two transmission bars that are connected No. two driving wheels and No. two driven pulleys; Between a transmission bar and No. two transmission bars, several are installed perpendicular to the cutter sweep of horizontal plane, the upper end of described cutter sweep is fixed on a transmission bar, lower end is fixed on No. two transmission bars, the cycle operation along with the rotation of a transmission bar, No. two transmission bars;

The plane at the plane at a described driving wheel and a driven pulley place and No. two driving wheels and No. two driven pulley places is parallel to each other, and all form angle with horizontal plane, wherein, the front end of No. two driving wheels and No. two driven pulley place planes is positioned at the top of conveyer belt, rear end is positioned at the below of conveyer belt afterbody, and described conveyer belt runs in the guide between No. two driving wheels and No. two driven pulleys;

Described work drive motor is in transmission connection by reductor and a drive sprocket axle; The bottom of a drive sprocket axle is arranged in transmission case, and is fixed with travelling gear No. one on a drive sprocket axle; The top of No. two drive sprocket axles is also arranged in transmission case, and is fixed with travelling gear No. two on No. two drive sprocket axles; In described transmission case, intermediate gear shaft is installed, is fixed with idler gear on intermediate gear shaft, described idler gear is meshed with a travelling gear, No. two travelling gears respectively.

Say further:

A described driving wheel, a driven pulley, No. two driving wheels and No. two driven pulleys are all sprocket wheel, gear or belt pulley; A described transmission bar and No. two transmission bars are all chain, synchronous cog belt, steel wire rope or driving belt; Described cutter sweep is iron wire, steel wire or blade.

Described numerical control slitting blank cutter also comprises the velocity sensor that is installed on conveyer belt one side, and intelligent controller; Described velocity sensor and work drive motor are all connected on intelligent controller.

The middle part bilateral symmetry of described conveyer belt is provided with the anti-deviation device that prevents material sideslip, and described anti-deviation device is provided with can be according to the anti-deviation roller of guiding of the width adjusting position of mud bar.

The bottom of described transmission bar inner side is evenly provided with several directive wheel, and the inner side of plane rear end, a described transmission bar place is provided with a track corresponding with directive wheel; The top in described No. two transmission bars outside is evenly provided with several No. two directive wheels, and the outside of plane rear end, described No. two transmission bar places is provided with No. two tracks corresponding with No. two directive wheels.

Described blank cutting blanking device is provided with and can shows that it is with respect to the scale display device at conveyer belt angle of inclination.

Beneficial effect: compared with prior art, the utility model can directly cut into mud bar or adobe the moulded pottery not yet put in a kiln to bake material of making according to technological requirement, automaticity is high, labour intensity, saving brick cutting machine device, minimizing operating personnel, the reduction entreprise cost that can reduce workman, have a good application prospect.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is further described.

With reference to Fig. 1, numerical control slitting blank cutter described in the utility model, comprises mainframe 1, and the top of described mainframe 1 is provided with material conveying mechanism, and the top of described material conveying mechanism afterbody is provided with blank cutting blanking device.

Described material conveying mechanism comprises that conveyer belt 3, flat rubber belting roller 2, No. two flat rubber belting rollers 7 and several are evenly arranged on the conveyer belt backing roll 5 between a flat rubber belting roller 2 and No. two flat rubber belting rollers 7; The middle part bilateral symmetry of described conveyer belt 3 is provided with the anti-deviation device 6 that prevents material sideslip, and described anti-deviation device 6 is provided with can be according to the anti-deviation roller of guiding of the width adjusting position of mud bar.

Described blank cutting blanking device comprise be positioned at top wheels, be positioned at below No. two wheels, work drive motor 13 and reductor 14; Described wheels comprise driving wheel 12, a driven pulley and a transmission bar that is connected a driving wheel 12 and a driven pulley; Described No. two wheels comprise No. two driving wheels 8, No. two driven pulleys and No. two transmission bars that are connected No. two driving wheels 8 and No. two driven pulleys; Between a transmission bar and No. two transmission bars, several are installed perpendicular to the cutter sweep 9 of horizontal plane, the upper end of described cutter sweep 9 is fixed on a transmission bar, and lower end is fixed on No. two transmission bars.

A described driving wheel 12, a driven pulley, No. two driving wheels 8 and No. two driven pulleys are all sprocket wheel, gear or belt pulley; A described transmission bar and No. two transmission bars are all chain, synchronous cog belt, steel wire rope or driving belt; Described cutter sweep 9 is iron wire, steel wire or blade.

The plane at the plane at a described driving wheel 12 and a driven pulley place and No. two driving wheels 8 and No. two driven pulley places is parallel to each other, and all form angle with horizontal plane, wherein, the front end of No. two driving wheels 8 and No. two driven pulley place planes (i.e. the ascender of No. two transmission bars) is positioned at the top of conveyer belt 3, rear end (i.e. the descender of No. two transmission bars) is positioned at the below of conveyer belt 3 afterbodys, described conveyer belt 3 runs in the guide between No. two driving wheels 8 and No. two driven pulleys, cutter sweep 9 is along with a transmission bar, the rotation of No. two transmission bars and cycle operation realize cuts base or slitting operation continuously.

Described blank cutting blanking device is integral inclination state with respect to conveyer belt 3, and be provided with and can show that it is with respect to the scale display device at conveyer belt 3 angles of inclination, can to this angle of inclination, adjust by scale display device, and then to cutting base thickness and slitting length is adjusted accurately, easily.

The bottom of described transmission bar inner side is evenly provided with several directive wheel 20, and the inner side of plane rear end, a described transmission bar place is provided with a track 21 corresponding with directive wheel 20; The top in described No. two transmission bars outside is evenly provided with several No. two directive wheels 22, and the outside of plane rear end, described No. two transmission bar places is provided with No. two tracks 23 corresponding with No. two directive wheels 22.Cutter sweep 9 is in working region, and a transmission bar, No. two transmission bars enter respectively a track, No. two orbital motions, like this, can guarantee that the straight of workpiece otch meets the requirements.

Described work drive motor 13 is in transmission connection by reductor 14 and a drive sprocket axle 11; The bottom of a drive sprocket axle 11 is arranged in transmission case 17, and is fixed with travelling gear 10 No. one on a drive sprocket axle 11; The top of No. two drive sprocket axles 19 is also arranged in transmission case 17, and is fixed with travelling gear 18 No. two on No. two drive sprocket axles 19; In described transmission case 17, intermediate gear shaft 16 is installed, on intermediate gear shaft 16, be fixed with idler gear 15, described idler gear 15 is meshed with travelling gear 10, No. two travelling gears 18 respectively, can guarantee that like this transmission bar and No. two transmission bars turn round in the same way.

Also comprise the velocity sensor 4 that is installed on conveyer belt 3 one sides, and intelligent controller; Described velocity sensor 4 and work drive motor 13 are all connected on intelligent controller.

While installing and using, the material conveying structure at mainframe 1 top is connected with moulded pottery not yet put in a kiln to bake material extrusion equipment.During work, by intelligent controller, according to the thickness of the distribution density of cutter sweep 9 and predetermined brick body, set the gait of march of moulded pottery not yet put in a kiln to bake material and the ratio of work drive motor 13 rotating speeds.The moulded pottery not yet put in a kiln to bake material of strip is placed on conveyer belt 3, under the drive of conveyer belt 3, advances forward.The gait of march of velocity sensor 4 Real-Time Monitoring conveyer belts 3 (velocity sensor 4 also can flat rubber belting roller 2 of Real-Time Monitoring or the rotating speed of No. two flat rubber belting rollers 7), and the rate signal of monitoring is transferred to intelligent controller, then by intelligent controller, controlled the rotating speed of work drive motor 13; Work drive motor 13 drives a driving wheel 12 by reductor 14, No. one driving wheel 12 drives a driven pulley by a transmission bar, simultaneously, in transmission case 17, a travelling gear 10 is by No. two travelling gears 18 of idler gear 15 transmission, and then drive 8, No. two driving wheels of No. two driving wheels 8 to drive No. two driven pulleys by No. two transmission bars.Meanwhile, along with the rotation of a transmission bar and No. two transmission bars, circular flow cuts into adobe or mud bar by the moulded pottery not yet put in a kiln to bake material sending from conveyer belt 3 to cutter sweep 9.

Claims (6)

1. a numerical control slitting blank cutter, comprises mainframe (1), it is characterized in that: the top of described mainframe (1) is provided with material conveying mechanism, and the top of described material conveying mechanism afterbody is provided with blank cutting blanking device; Described material conveying mechanism comprises that conveyer belt (3), a flat rubber belting roller (2), No. two flat rubber belting rollers (7) and several are evenly arranged on the conveyer belt backing roll (5) between a flat rubber belting roller (2) and No. two flat rubber belting rollers (7);

Described blank cutting blanking device comprise be positioned at top wheels, be positioned at below No. two wheels, work drive motor (13) and reductor (14); Described wheels comprise a driving wheel (12), driven pulley and are connected a transmission bar of a driving wheel (12) and a driven pulley; Described No. two wheels comprise No. two driving wheels (8), No. two driven pulleys and are connected No. two transmission bars of No. two driving wheels (8) and No. two driven pulleys; Several cutter sweeps perpendicular to horizontal plane (9) are installed between a transmission bar and No. two transmission bars, the upper end of described cutter sweep (9) is fixed on a transmission bar, lower end is fixed on No. two transmission bars, the cycle operation along with the rotation of a transmission bar, No. two transmission bars;

The plane at the plane at a described driving wheel (12) and a driven pulley place and No. two driving wheels (8) and No. two driven pulley places is parallel to each other, and all form angle with horizontal plane, wherein, the front end of No. two driving wheels (8) and No. two driven pulley place planes is positioned at the top of conveyer belt (3), rear end is positioned at the below of conveyer belt (3) afterbody, and described conveyer belt (3) runs in the guide between No. two driving wheels (8) and No. two driven pulleys;

Described work drive motor (13) is in transmission connection by reductor (14) and a drive sprocket axle (11); The bottom of a drive sprocket axle (11) is arranged in transmission case (17), and is fixed with a travelling gear (10) on a drive sprocket axle (11); The top of No. two drive sprocket axles (19) is also arranged in transmission case (17), and is fixed with No. two travelling gears (18) on No. two drive sprocket axles (19); Intermediate gear shaft (16) is installed in described transmission case (17), on intermediate gear shaft (16), be fixed with idler gear (15), described idler gear (15) is meshed with a travelling gear (10), No. two travelling gears (18) respectively.

2. numerical control slitting blank cutter according to claim 1, is characterized in that: a described driving wheel (12), driven pulley, No. two driving wheels (8) and No. two driven pulleys are all sprocket wheel, gear or belt pulley; A described transmission bar and No. two transmission bars are all chain, synchronous cog belt, steel wire rope or driving belt; Described cutter sweep (9) is iron wire, steel wire or blade.

3. numerical control slitting blank cutter according to claim 1 and 2, is characterized in that: also comprise the velocity sensor (4) that is installed on conveyer belt (3) one sides, and intelligent controller; Described velocity sensor (4) and work drive motor (13) are all connected on intelligent controller.

4. numerical control slitting blank cutter according to claim 3, it is characterized in that: the middle part bilateral symmetry of described conveyer belt (3) is provided with the anti-deviation device (6) that prevents material sideslip, described anti-deviation device (6) is provided with can be according to the anti-deviation roller of guiding of the width adjusting position of mud bar.

5. numerical control slitting blank cutter according to claim 4, it is characterized in that: the bottom of described transmission bar inner side is evenly provided with several directive wheels (20), and the inner side of plane rear end, a described transmission bar place is provided with a track (21) corresponding with a directive wheel (20); The top in described No. two transmission bars outside is evenly provided with several No. two directive wheels (22), and the outside of plane rear end, described No. two transmission bar places is provided with No. two tracks (23) corresponding with No. two directive wheels (22).

6. numerical control slitting blank cutter according to claim 5, is characterized in that: described blank cutting blanking device is provided with and can shows that it is with respect to the scale display device at conveyer belt angle of inclination.