CN205765508U - A kind of ceramic inner wall brick biscuit polish line equipment - Google Patents

Abstract

This utility model provides a kind of ceramic inner wall brick biscuit polish line equipment, it is characterized in that: by motor (P1), main shaft assembly (P2), electronic control system (P4), conveyer belt assembly (P6) and shelf assembly (P7) composition, on the crossbeam of shelf assembly, some main shaft assemblies are installed；Main shaft assembly is arranged or connects and have a feeding adjusting locking mechanism；Feeding adjusting locking mechanism and motor or servomotor mechanical attachment；Well solve brickbat problem, accurately control quality of finish, adapt to produce line needs, improve product quality.

Description

A kind of ceramic inner wall brick biscuit polish line equipment

Technical field

This utility model relates to a kind of mechanical polishing technology field, particularly relates to a kind of ceramic inner wall brick biscuit polish line and sets Standby.

Background technology

During using double firing process to produce ceramic inner wall brick, through the adobe referred to as element of first sintering Base, is characterized in rough surface, and micropore is many, easily produces pore when executing cover-coat enamel, affects the surface quality of product after twice firing. Therefore, biscuit surface is polished, is the better method solving this problem.At present, traditional biscuit finishing method is to adopt It is polished with pressure balance method, i.e. uses cylinder suspention grinding head for polishing, make the polishing disk working lining table installed on grinding head for polishing Produce a suitable pressure between face and biscuit brick surface and carry out grinding-polishing.But owing to cylinder pressure is difficult to accurately control, The factor impacts such as low plus biscuit base substrate mechanical strength, fragility is big, and moisture is high, this method easily causes crushing brick Base, is commonly called as rotten brick, has a strong impact on product quality and benefit.

Summary of the invention

The purpose of this utility model is to provide a kind of new ceramic inner wall brick biscuit polish line equipment, solves brickbat problem, Adapt to produce line needs, improve product quality.

The method realizing above-mentioned a kind of ceramic inner wall brick biscuit polish line equipment is: by motor P1, main shaft assembly P2, electronics Control system P4, conveyer belt assembly P6 and shelf assembly P7 composition.Wherein, on the crossbeam of shelf assembly, some main shafts are installed Assembly；Main shaft assembly is arranged or connects and have a feeding adjusting locking mechanism；Feeding adjusting locking mechanism and motor Or servomotor mechanical attachment.

Described main shaft assembly includes: a principal axis A 11, and its bottom is connected with polishing disk by flange；Its top processes Become spline A8, be connected with motor by spline housing A6；Suitable position in principal axis A 11 axially engages connection with collar bush A10, Collar bush bottom is fixing to be connected a pull bar 2 and/or couples a tension bearing 9 on main shaft top, upper and lower as pulling main shaft The connection member of movement.

Described feeding adjusting locking mechanism includes: the reinforcement formed with worm screw W3 and worm gear W5 and self-locking mechanism, Wherein worm screw and motor or servomotor 8 mechanical attachment, as manual or electronic rotation regulation axle；Worm gear inner ring with in Empty axle (Fig. 4, W2) is fixed, and the two ends of quill shaft are each to be fixed a feed screw nut W4 and axially dynamic with screw mandrel W1 couples；When manually Or during electronic rotation worm screw, drive worm gear and feed screw nut to rotate, due to screw mandrel and the effect of feed screw nut, by snail The convert rotational motion of bar is the linear motion of screw mandrel, thus by the pull bar (in Fig. 1 2) being connected with screw mandrel or tension bearing (in Fig. 2 9) connection member drives main shaft to move up and down, it is achieved the feeding adjusting to main shaft；Simultaneously because worm and gear from Lock effect, makes main spindle's be locked holding.Or, such as Fig. 3, process one section of tooth bar A1, snail in the side of collar bush A10 Wheel A2 and screw mandrel A4 is fixed on same axle, and screw mandrel A4 is connected with tooth bar A1, the regulation i.e. scalable main shaft of worm screw A3 The amount of feeding self-locking；Form integral structure, it is simple to install and use.

Described electronic control system P4 is made up of controller K and driver Q, rotates stepping or servomotor M Angle ambiguity, thus accurately control the amount of feeding (polished amount) of main shaft, and owing to the statical moment effect of motor makes main shaft Position is able to more reliable locking.

Use flexible conveyer belt (such as nylon tape) as adobe 4 conveyer belt 5 and regulate transmission Kun be allowed to swelling formed plane, When main shaft rotates and makees to make polishing disk produce the suitable amount of feeding (polished amount) for adobe surface to lower feeding, by In the effect of belt tension, just produce a light pressure F upwards, make adobe surface and polishing disk working lining surface and And the frictional force between conveyer belt surface increases, and under the effect of conveyer belt pulling force, polishing disk working lining is by adobe surface One amount of feeding of grinding.

The beneficial effect of the invention

The present invention is used to have following remarkable result: one is in polishing process, between polishing disk work surface and adobe surface Pressure the least and appropriate, do not exist crushing adobe problem；Two is accurately to control stock removal (polished amount), improves polishing effect And product quality；Three are easy for Automated condtrol, improve equipment cost performance.

Accompanying drawing explanation

Fig. 1: main shaft assembly and feeding adjusting locking mechanism bar jointing structure figure

1------main shaft assembly 2------pull bar 3------polishing disk 4------adobe 5------conveyer belt

6------motor 7------governor motion 8-------step/servo motor

Fig. 2: main shaft assembly and feeding adjusting locking mechanism tension bearing connection diagram

9------tension bearing 10------belt pulley 11------belt

Fig. 3: main shaft assembly schematic diagram integrated with feeding adjusting locking mechanism

A1------tooth bar A2------worm gear A3------worm screw A4------screw mandrel

A5------connecting hole A6------spline housing A7------bearing A8------spline A9------housing

A10------collar bush A11------principal axis A 12------flange

Fig. 4: feeding adjusting locking mechanism structure chart

W1------screw mandrel W2------quill shaft W3------worm screw W4------feed screw nut W5------snail Wheel

Fig. 5: electronic control system composition connection diagram

KI------main shaft assembly K2------driver K3------controller K4------step/servo motor

Fig. 6: biscuit polish line device structure composition schematic diagram

P1------motor P2------main shaft assembly P3------crossbeam P4------electronic control system

P5------push-button station P6------conveyer belt assembly P7------shelf assembly P8------polishing disk

P9------support arm P10------conveyer belt

Detailed description of the invention

Such as Fig. 1, main shaft assembly 1 is by principal axis A 11, collar bush (Fig. 3, A10), spline A8, spline housing A6 composition, principal axis A 11 Lower end is connected by flange A12 is fixing with polishing disk 3, and upper end is by spline housing A6 and motor 6 mechanical attachment；Collar bush bottom with Pull bar 2 is fixing to be connected, and the other end is fixing with the bottom of the screw mandrel W1 in feeding adjusting locking mechanism 7 to be connected；Thus constitute dynamic Power conversion and axis feeding mechanism.Screw mandrel W1, feed screw nut W4, worm screw W3, worm gear W5 and quill shaft (Fig. 4, W2) composition feeding Regulation locking mechanism 7.As manual or automatically controlled (stepping or servomotor rotate) regulation worm screw W3, due to subtracting of worm and gear Speed acts on and adds its rotary torsion, makes axis feeding regulation firmly be greatly reduced；Simultaneously because screw mandrel and feed screw nut Quality of fit is higher, so that the positioning precision of main shaft is greatly improved；Self-locking action and motor due to worm and wormwheel Statical moment effect, make the position positive lock of main shaft.

Polishing principle is: conveyer belt 5 uses flexible material (such as nylon cloth, chemical fabric etc.) to make, and is passed by regulation Send Kun swelling degree to be allowed to be formed the plane with some tension, and can continuously carry adobe 4.In polishing process In, when the working lining surface of polishing disk 3 contacts with adobe surface, and under main shaft drives, produce downwards a suitable amount of feeding Time (polished amount), owing to the effect of belt tension just produces the F that upwards pressure, so that adobe surface and polishing dish cart Face and the frictional force with conveyer belt surface increase, and produce polishing action.

In Fig. 2, axis feeding amount regulation locking mechanism 7, it is positioned over the upper end of main shaft assembly 1, by tension bearing 9 with main Axle assembly carries out mechanical attachment, to adapt to different installation needs.

In Fig. 3, process one section of tooth bar A1, worm gear A2 and screw mandrel A4 in the side of collar bush A10 and be fixed on same axle On, screw mandrel A4 is connected with tooth bar A1, the regulation worm screw A3 i.e. amount of feeding of scalable main shaft self-locking；Form integration knot Structure, it is simple to install and use.

In Fig. 5, driver K2, controller K3 and stepping or servomotor K4 form electronic control system, pass through controller K3 sends a number of pulse, controls stepping or the anglec of rotation of servomotor, thus controls the displacement of tooth bar, drives main Axle does accurate feeding, it is achieved the accurate control of adobe surface finish amount.

Fig. 6 is that polish line device structure forms schematic diagram, and 8 groups of main shaft assembly P2 and motor P1 are arranged on shelf assembly P7's On crossbeam P3, conveyer belt assembly P6 continuously carries adobe P11, and electronic control system P4 controls the mill of 8 polishing disk P8 The amount of cutting (polished amount).Difference (such as flatness, fineness) according to biscuit surface finish prescription, installs main shaft assembly P2's Quantity is different, and the kind of its polishing disk is the most different.

Claims (4)

1. a ceramic inner wall brick biscuit polish line equipment, is characterized in that: by motor (P1), main shaft assembly (P2), Electronic Control System (P4), conveyer belt assembly (P6) and shelf assembly (P7) composition, wherein, on the crossbeam of shelf assembly, install some masters Axle assembly；Main shaft assembly is arranged or connects and have a feeding adjusting locking mechanism；Feeding adjusting locking mechanism and stepping electricity Machine or servomotor mechanical attachment.

A kind of ceramic inner wall brick biscuit polish line equipment the most according to claim 1, its main shaft assembly feature is: a master Axle (A11), its bottom is connected with polishing disk by flange, and spline (A8) is processed on its top, by spline housing (A6) and motor Connecting, suitable position and collar bush (A10) at main shaft (A11) axially engage connection, the fixing connection one in collar bush bottom Pull bar (2) and/or main shaft top couple a tension bearing (9), as the connection member pulling main shaft to move up and down.

A kind of ceramic inner wall brick biscuit polish line equipment the most according to claim 1, its feeding adjusting locking mechanism feature It is；The reinforcement formed with worm screw (W3) and worm gear (W5) and self-locking mechanism, wherein worm screw and motor or servomotor (8) mechanical attachment, as manual or electronic rotation regulation axle；Worm gear inner ring is fixed with quill shaft, and the two ends of quill shaft are each solid A fixed feed screw nut (W4) move axial with screw mandrel (W1) couple；Or, process one section of tooth in the side of collar bush (A10) Bar (A1), worm gear (A2) and screw mandrel (A4) are fixed on same axle, and screw mandrel (A4) is connected with tooth bar (A1), regulate worm screw (A3) i.e. the amount of feeding of scalable main shaft self-locking, forms integral structure.

A kind of ceramic inner wall brick biscuit polish line equipment the most according to claim 1, its electronic control system feature is: by Controller (K) and driver (Q) composition, carry out anglec of rotation control to motor (M).