CN214054772U - Continuous surface grinding mechanism for flange plate - Google Patents

Abstract

The utility model discloses a continuous surface grinding mechanism for flange plates, which comprises a frame, wherein a main groove body is fixed on the top surface of a top plate of the frame, a transverse moving mechanism is arranged in the main groove body, and a conveying chain is arranged in the transverse moving mechanism; the utility model discloses a polishing machine, including frame, backup pad, back backup pad, main shaft, grinding wheel, protective housing, the backup pad is fixed with back backup pad on the rear portion top surface of frame, is fixed with protective housing on the preceding wall of back backup pad, and it has the main shaft of a plurality of driving wheels of polishing to articulate through the bearing on the back backup pad, and the driving wheel of polishing is in protective housing. The utility model discloses can carry the flange board and continuously grind and polish automatically, it is effectual, efficient, greatly reduced hand labor volume.

Description

Continuous surface grinding mechanism for flange plate

Technical Field

The utility model relates to a hardware processing equipment technical field, more specifically the mechanism is ground on continuous surface of flange board that says so.

Background

The existing flange plate needs to be ground and polished on the surface after being processed such as punching, and the existing mode is manual polishing and grinding, so that the effect is poor, the efficiency is low, and the manual labor intensity is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art's is not enough, provides a continuous surface grinding mechanism of flange board, and it can carry the flange board automatically and grind and polish in succession, and it is effectual, efficient, greatly reduced hand labor volume.

The utility model provides a technical problem's scheme is:

a continuous surface grinding mechanism for a flange plate comprises a rack, wherein a main groove body is fixed on the top surface of a top plate of the rack, a transverse moving mechanism is arranged in the main groove body, and a conveying chain is arranged in the transverse moving mechanism;

a rear supporting plate is fixed on the top surface of the rear part of the rack, a protective shell is fixed on the front wall surface of the rear supporting plate, a plurality of main shafts of polishing driving wheels are hinged on the rear supporting plate through bearings, and the polishing driving wheels are positioned in the protective shell;

a polishing belt is tensioned on the polishing driving wheel;

the conveying chain is fixedly provided with a plurality of placing fixed plates, central concave holes are formed in the middles of the top surfaces of the placing fixed plates, rhombic flange plates to be processed are pressed against the top surfaces of the placing fixed plates, four positioning columns are fixed on the top surfaces of the placing fixed plates, four side edges of the flange plates are close to the corresponding positioning columns, and circular convex rings formed on the bottom surfaces of the middles of the flange plates are inserted into the central concave holes;

the bottom surface of the polishing belt is in contact with the top surface of the flange plate.

The transverse moving mechanism comprises four supporting plates fixed on the top surface of a bottom plate of the main trough body, two ends of two transmission shafts are hinged to the corresponding supporting plates through bearings, chain wheels are fixed on the transmission shafts, a conveying chain is tensioned on the two chain wheels, a speed reduction motor is fixed on the top surface of a top plate of the rack, and an output shaft of the speed reduction motor penetrates through a side plate of the main trough body and is connected with one end of the corresponding transmission shaft through a coupler.

A plurality of rotating motors are fixed on the rear wall surface of the rear supporting plate, the output shafts of the rotating motors are spline shafts, and the spline shafts are inserted in spline holes formed in the rear end of a main shaft of the polishing driving wheel;

a pressing cylinder is fixed on the front wall surface of the middle part of the rear supporting plate, a pushing block is fixed at the top end of a push rod of the pressing cylinder, a central rotating shaft of an upper driving wheel is fixed on the pushing block, a moving block is fixed at the rear end of the central rotating shaft, a guide block is fixed on the front wall surface of the upper part of the rear supporting plate, a vertical chute is fixed in the middle part of the front wall surface of the guide block, and the moving block (inserted in the vertical chute;

the grinding belt is tensioned on the corresponding grinding driving wheel and the upper driving wheel.

The left end shaping of main cell body has the slant blown down tank somatic part, and the lower part that back backup pad is close to the one end department of slant blown down tank somatic part articulates through the bearing has the connecting axle, and the front end of connecting axle is fixed with the brush wheel, is fixed with driving motor on the back wall of back backup pad, and driving motor's output shaft is the integral key shaft, and the integral key shaft plug bush is in the splined hole that the rear end of connecting axle has, and the bottom surface of brush wheel contacts with the top surface of the flange board of treating the processing.

Side grooves are formed in the inner side walls of the vertical sliding grooves, and protruding portions formed in the left side wall and the right side wall of the moving block are inserted into the corresponding side grooves.

The utility model discloses an outstanding effect is: compared with the prior art, it can carry and continuously grind and polish the flange board automatically, and its is effectual, efficient, greatly reduced hand labor volume.

Drawings

Fig. 1 is a partial cross-sectional view of the present invention;

fig. 2 is a schematic view of a partial structure of the rear wall surface of the rear support plate of the present invention;

fig. 3 is a partial top view between the flange plate and the placing and fixing plate of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1;

fig. 5 is a schematic view of a partial structure between the pushing block and the upper driving wheel of the present invention.

Detailed Description

In an embodiment, as shown in fig. 1 to 5, a continuous surface grinding mechanism for flange plates comprises a frame 10, wherein a main groove 11 is fixed on the top surface of the top plate of the frame 10, a transverse moving mechanism 20 is arranged in the main groove 11, and a conveying chain 21 is arranged in the transverse moving mechanism 20;

a rear supporting plate 30 is fixed on the top surface of the rear part of the rack 10, a protective shell 31 is fixed on the front wall surface of the rear supporting plate 30, through grooves are formed in the lower parts of the left side plate and the right side plate of the protective shell 31, the upper parts of the conveying chains 21 are inserted and sleeved in the through grooves, a plurality of main shafts of polishing driving wheels 32 are hinged on the rear supporting plate 30 through bearings, and the polishing driving wheels 32 are positioned in the protective shell 31;

a polishing belt 321 is tensioned on the polishing driving wheel 32;

a plurality of placing and fixing plates 22 are fixed on the conveying chain 21, a central concave hole 221 is formed in the middle of the top surface of each placing and fixing plate 22, a rhombic flange plate 100 to be processed is pressed against the top surface of each placing and fixing plate 22, four positioning columns 222 are fixed on the top surface of each placing and fixing plate 22, four side edges of each flange plate 100 are close to the corresponding positioning columns 222, and a circular convex ring 101 formed on the bottom surface of the middle of each flange plate 100 is inserted into the central concave hole 221;

the bottom surface of the grinding belt 321 contacts the top surface of the flange plate 100.

Further, the transverse moving mechanism 20 includes four supporting plates 23 fixed on the top surface of the bottom plate of the main tank 11, two ends of two transmission shafts 24 are hinged on the corresponding supporting plates 23 through bearings, chain wheels 25 are fixed on the transmission shafts 24, the conveying chains 21 are tensioned on the two chain wheels 25, a speed reduction motor 26 is fixed on the top surface of the top plate of the rack 10, and an output shaft of the speed reduction motor 26 penetrates through a side plate of the main tank 11 and is connected with one end of the corresponding transmission shaft 24 through a coupling.

Further, a plurality of rotating motors 33 are fixed on the rear wall surface of the rear support plate 30, and output shafts of the rotating motors 33 are spline shafts which are inserted and sleeved in spline holes formed in the rear end of the main shaft of the polishing drive wheel 32;

a pressing cylinder 34 is fixed on the front wall surface of the middle part of the rear supporting plate 30, a pushing block 35 is fixed at the top end of a push rod of the pressing cylinder 34, a central rotating shaft of an upper driving wheel 36 is fixed on the pushing block 35, a moving block 37 is fixed at the rear end of the central rotating shaft, a guide block 38 is fixed on the front wall surface of the upper part of the rear supporting plate 30, a vertical chute 381 is fixed at the middle part of the front wall surface of the guide block 38, and the moving block 37 is inserted in the vertical chute 381;

the sanding belt 321 is tensioned over the respective sanding drive wheel 32 and upper drive wheel 36.

Further, an inclined discharge groove body 111 is formed at the left end of the main groove body 11, a connecting shaft 39 is hinged to the lower portion of one end of the rear supporting plate 30 close to the inclined discharge groove body 111 through a bearing, a brush wheel 391 is fixed to the front end of the connecting shaft 39, a driving motor is fixed to the rear wall surface of the rear supporting plate 30, an output shaft of the driving motor is a spline shaft, the spline shaft is inserted in a spline hole formed in the rear end of the connecting shaft 39, and the bottom surface of the brush wheel 391 is in contact with the top surface of the flange plate 100 to be processed. Wherein the drive motor is connected in the same manner as shown in fig. 2.

Further, side grooves are formed on the inner side walls of the vertical sliding grooves 381, and protruding portions formed on the left and right side walls of the moving block 37 are inserted into the corresponding side grooves.

The working principle is as follows: when in use, the flange plate 100 to be processed is placed on the top surface of the placing fixing plate 22, the four side edges of the flange plate 100 are close to the corresponding positioning columns 222, the circular convex ring 101 formed on the bottom surface of the middle part of the flange plate 100 is inserted into the central concave hole 221, then, the transmission chain 21 is operated through the operation of the speed reducing motor 26 to realize the transmission, simultaneously, all the rotating motors 33 are operated to operate all the polishing belts 321 (five polishing driving wheels 32 in the drawing, more polishing driving wheels 32 can be arranged according to the actual use requirement), the flange plate 100 is polished one by one when passing through all the polishing belts 32 (the precision of the polishing belts 32 is gradually improved from right to left, namely the polishing meshes are gradually increased from free left to left), thereby the top surface of the flange plate is polished, the polishing effect is good, the efficiency is high, after the polishing is finished, the polishing is performed through the brush wheel 391, wherein, a plurality of cooling liquid nozzles are fixed on the rear supporting plate 30 for cooling, which will not be described and shown in detail in the embodiment and the drawings.

When the polishing belt 321 needs to be replaced, the push rod of the pressing air cylinder 34 retracts, so that the upper driving wheel 36 descends, the polishing belt 321 can be replaced, and the device is very convenient.

Finally, the above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant art can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (5)

1. The utility model provides a continuous surface grinding mechanism of flange board, includes frame (10), its characterized in that: a main groove body (11) is fixed on the top surface of the top plate of the rack (10), a transverse moving mechanism (20) is arranged in the main groove body (11), and a conveying chain (21) is arranged in the transverse moving mechanism (20);

a rear supporting plate (30) is fixed on the top surface of the rear part of the rack (10), a protective shell (31) is fixed on the front wall surface of the rear supporting plate (30), a plurality of main shafts of polishing driving wheels (32) are hinged on the rear supporting plate (30) through bearings, and the polishing driving wheels (32) are positioned in the protective shell (31);

a grinding belt (321) is tensioned on the grinding driving wheel (32);

a plurality of placing fixing plates (22) are fixed on the conveying chain (21), a central concave hole (221) is formed in the middle of the top surface of each placing fixing plate (22), a rhombic flange plate (100) to be processed is pressed against the top surface of each placing fixing plate (22), four positioning columns (222) are fixed on the top surface of each placing fixing plate (22), four side edges of each flange plate (100) are close to the corresponding positioning columns (222), and a circular convex ring (101) formed on the bottom surface of the middle of each flange plate (100) is inserted into the central concave hole (221);

the bottom surface of the polishing belt (321) is in contact with the top surface of the flange plate (100).

2. A continuous face grinding mechanism for a flange plate according to claim 1, wherein: the transverse moving mechanism (20) comprises four supporting plates (23) fixed on the top surface of a bottom plate of the main trough body (11), two ends of two transmission shafts (24) are hinged to the corresponding supporting plates (23) through bearings, chain wheels (25) are fixed on the transmission shafts (24), a conveying chain (21) is tensioned on the two chain wheels (25), a speed reducing motor (26) is fixed on the top surface of a top plate of the rack (10), and an output shaft of the speed reducing motor (26) penetrates through a side plate of the main trough body (11) and is connected with one end of the corresponding transmission shaft (24) through a coupler.

3. A continuous face grinding mechanism for a flange plate according to claim 1, wherein: a plurality of rotating motors (33) are fixed on the rear wall surface of the rear supporting plate (30), the output shafts of the rotating motors (33) are spline shafts, and the spline shafts are inserted and sleeved in spline holes formed in the rear end of a main shaft of the polishing driving wheel (32);

a pressing cylinder (34) is fixed on the front wall surface of the middle of the rear supporting plate (30), a pushing block (35) is fixed at the top end of a push rod of the pressing cylinder (34), a central rotating shaft of an upper driving wheel (36) is fixed on the pushing block (35), a moving block (37) is fixed at the rear end of the central rotating shaft, a guide block (38) is fixed on the front wall surface of the upper portion of the rear supporting plate (30), a vertical sliding groove (381) is fixed in the middle of the front wall surface of the guide block (38), and the moving block (37) is inserted in the vertical sliding groove (381);

the sanding belt (321) is tensioned over the respective sanding drive wheel (32) and upper drive wheel (36).

4. A continuous face grinding mechanism for a flange plate according to claim 1, wherein: the left end shaping of main cell body (11) has slant blown down tank body portion (111), the lower part that back backup pad (30) is close to one end department of slant blown down tank body portion (111) articulates through the bearing has connecting axle (39), the front end of connecting axle (39) is fixed with brush wheel (391), be fixed with driving motor on the back wall of back backup pad (30), driving motor's output shaft is the integral key shaft, the integral key shaft plug bush is in the splined hole that the rear end of connecting axle (39) has, the bottom surface of brush wheel (391) contacts with the top surface of the flange board (100) of treating processing.

5. A continuous face grinding mechanism for a flange plate according to claim 3, wherein: side grooves are formed in the inner side wall of the vertical sliding groove (381), and protruding portions formed on the left side wall and the right side wall of the moving block (37) are inserted into the corresponding side grooves.

Images