CN218017556U - Independently-driven grinding wheel chamfering machine - Google Patents

Abstract

The utility model relates to an independent drive emery wheel chamfering machine, it includes base (1), be provided with fore-stock (2) and after-poppet (3) on base (1), fore-stock (2) are gone up and are provided with preceding slide rail (4) along left right direction, be provided with preceding slide (5) on preceding slide rail (4), be provided with back slide rail (6) along left right direction on after-poppet (3), be provided with back slide (7) on back slide rail (6), be provided with preceding swing arm mechanism (8) on preceding slide (5), be provided with back swing arm mechanism (9) on back slide (7). The utility model relates to an independent drive emery wheel chamfering machine, two emery wheels independent drive respectively, emery wheel following nature is better, and two emery wheels mutually independent do not influence each other, can not cause the influence to final product chamfering quality because of two wearing and tearing volume differences.

Description

Independently-driven grinding wheel chamfering machine

Technical Field

The utility model relates to an independent drive emery wheel chamfering machine belongs to metallurgical equipment technical field.

Background

When steel enterprises produce steel, in order to meet the requirements of the subsequent process, the end of a rolled round bar needs to be chamfered so as to remove the defects of flash, burrs and the like at the end of the bar and improve the appearance, quality and practical value of the product. The design of the chamfering device is crucial to the chamfering speed, the production efficiency and the quality of the bar.

At present, most steel mills adopt grinding wheel chamfering machines to chamfer the ends of bars, two grinding wheels of the existing grinding wheel chamfering machines are installed on the same grinding wheel shaft (see CN 210099627U), a motor drives the grinding wheel shaft to rotate through a belt wheel mechanism, namely, the two grinding wheels are driven by the same motor, the following performance of the grinding wheels is poor, and the abrasion loss of the two grinding wheels is different, so that the chamfering quality of final products is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an independent drive emery wheel chamfering machine is provided to above-mentioned prior art, two emery wheels independent drive respectively, and emery wheel followability is better, and two emery wheels mutually independent do not influence each other, can not lead to the fact the influence to final product chamfering quality because of two wearing and tearing volume differences.

The utility model provides a technical scheme that above-mentioned problem adopted does: the independently driven grinding wheel chamfering machine comprises a base, wherein a front support and a rear support are arranged on the base, a front sliding rail is arranged on the front support in the left-right direction, a front sliding seat is arranged on the front sliding rail, a rear sliding rail is arranged on the rear support in the left-right direction, a rear sliding seat is arranged on the rear sliding rail, a front swing arm mechanism is arranged on the front sliding seat, and a rear swing arm mechanism is arranged on the rear sliding seat.

Optionally, the front swing arm mechanism and the rear swing arm mechanism are arranged in a front-back opposite manner.

Optionally, the front swing arm mechanism and the rear swing arm mechanism are identical in structure and respectively comprise a front first bearing seat and a rear first bearing seat, a swing arm shaft penetrates between the front first bearing seat and the rear first bearing seat, a swing arm is arranged on the swing arm shaft, a grinding wheel shaft is arranged on one side of the swing arm along the front-rear direction, and a grinding wheel piece is arranged on the grinding wheel shaft.

Optionally, a swing arm motor is arranged outside the swing arm shaft, and the swing arm shaft is driven by the swing arm motor.

Optionally, a grinding wheel motor is arranged on the other side of the swing arm, and the output end of the grinding wheel motor is connected with the grinding wheel shaft through a belt wheel mechanism.

Optionally, a transverse moving mechanism is arranged below each of the front sliding seat and the rear sliding seat; the transverse moving mechanism comprises a left second bearing block and a right second bearing block, a transverse moving shaft penetrates between the left second bearing block and the right second bearing block, a threaded section is arranged on the transverse moving shaft, a transmission nut is arranged on the threaded section, and the transmission nut is connected with the bottom of the front sliding seat or the rear sliding seat.

Optionally, a traverse motor is disposed outside the traverse shaft, and the traverse shaft is driven by the traverse motor.

Optionally, a translation mechanism is arranged below the rear bracket. The translation mechanism comprises a left translation slide rail and a right translation slide rail, translation sliding tables are arranged on the left translation slide rail and the right translation slide rail, and the rear support is fixedly arranged on the translation sliding tables.

Optionally, an oil cylinder seat is arranged between the left and right translation sliding rails, a translation oil cylinder is arranged on the oil cylinder seat, a connecting seat is arranged at the bottom of the translation sliding table, and the front end of the translation oil cylinder is connected with the connecting seat.

Optionally, a fixed housing is arranged outside the front swing arm mechanism, a movable housing is arranged outside the rear swing arm mechanism, and the fixed housing and the movable housing are in butt joint with each other.

Compared with the prior art, the utility model has the advantages of:

the utility model relates to an independently driven grinding wheel chamfering machine, two grinding wheels are respectively and independently driven, the following performance of the grinding wheels is better, and the two grinding wheels are independent from each other and do not influence each other, and the chamfering quality of the final product is not influenced by the difference of the two abrasion loss; in addition, the rear swing arm mechanism can move back and forth through the translation mechanism, and the subsequent grinding wheel is convenient to maintain and replace.

Drawings

Fig. 1 is a schematic structural view of the independently driven grinding wheel chamfering machine of the present invention.

Fig. 2 is a side view of fig. 1.

Fig. 3 is a top view of fig. 2.

Wherein:

base 1

Front support 2

Rear support 3

Front slide rail 4

Front slide 5

Rear slide rail 6

Rear slide 7

Front swing arm mechanism 8

First bearing seat 81

Swing arm shaft 82

Swing arm 83

Grinding wheel axle 84

Grinding wheel 85

Swing arm motor 86

Grinding wheel motor 87

Pulley mechanism 88

Rear swing arm mechanism 9

Traversing mechanism 10

Second bearing housing 101

Traversing shaft 102

Threaded segment 103

Drive nut 104

Traversing motor 105

Translation mechanism 11

Translation slide rail 111

Translation sliding table 112

Cylinder block 113

Translation cylinder 114

Connecting socket 115

Fixed cover 12

The housing 13 is moved.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

Referring to fig. 1 to 3, the utility model relates to an independently driven grinding wheel chamfering machine, which comprises a base 1, wherein a front support 2 and a rear support 3 are arranged on the base 1, a front slide rail 4 is arranged on the front support 2 along the left-right direction, a front slide carriage 5 is arranged on the front slide rail 4, a rear slide rail 6 is arranged on the rear support 3 along the left-right direction, a rear slide carriage 7 is arranged on the rear slide rail 6, a front swing arm mechanism 8 is arranged on the front slide carriage 5, and a rear swing arm mechanism 9 is arranged on the rear slide carriage 7;

the front swing arm mechanism 8 and the rear swing arm mechanism 9 are arranged in a front-back opposite manner;

the front swing arm mechanism 8 and the rear swing arm mechanism 9 have the same structure and respectively comprise a front first bearing seat 81 and a rear first bearing seat 81, a swing arm shaft 82 penetrates between the front first bearing seat 81 and the rear first bearing seat 81, a swing arm 83 is arranged on the swing arm shaft 82, a grinding wheel shaft 84 is arranged on one side of the swing arm 83 along the front-rear direction, and a grinding wheel blade 85 is arranged on the grinding wheel shaft 84;

a swing arm motor 86 is arranged on the outer side of the swing arm shaft 82, and the swing arm shaft 82 is driven by the swing arm motor 86;

the other side of the swing arm 83 is provided with a grinding wheel motor 87, and the output end of the grinding wheel motor 87 is connected with the grinding wheel shaft 84 through a belt wheel mechanism 88;

a transverse moving mechanism 10 is arranged below the front sliding seat 5 and the rear sliding seat 7;

the transverse moving mechanism 10 comprises a left second bearing seat 101 and a right second bearing seat 101, a transverse moving shaft 102 penetrates between the left second bearing seat 101 and the right second bearing seat 101, a threaded section 103 is arranged on the transverse moving shaft 102, a transmission nut 104 is arranged on the threaded section 103, and the transmission nut 104 is connected with the bottom of the front sliding seat 5 or the rear sliding seat 7;

a traverse motor 105 is arranged outside the traverse shaft 102, and the traverse shaft 102 is driven by the traverse motor 105;

a translation mechanism 11 is arranged below the rear bracket 3;

the translation mechanism 11 comprises a left translation slide rail 111 and a right translation slide rail 111, translation sliding tables 112 are arranged on the left translation slide rail 111 and the right translation slide rail 111, and the rear bracket 3 is fixedly arranged on the translation sliding tables 112;

an oil cylinder seat 113 is arranged between the left translation sliding rail 111 and the right translation sliding rail 111, a translation oil cylinder 114 is arranged on the oil cylinder seat 113, a connecting seat 115 is arranged at the bottom of the translation sliding table 112, and the front end of the translation oil cylinder 114 is connected with the connecting seat 115;

a fixed cover shell 12 is arranged outside the front swing arm mechanism 8, a movable cover shell 13 is arranged outside the rear swing arm mechanism 9, and the fixed cover shell 12 and the movable cover shell 13 are mutually butted.

In addition to the above embodiments, the present invention also includes other embodiments, and all technical solutions formed by equivalent transformation or equivalent replacement should fall within the protection scope of the claims of the present invention.

Claims (10)

1. The utility model provides an independent drive emery wheel chamfering machine which characterized in that: it includes base (1), be provided with fore-stock (2) and after-poppet (3) on base (1), fore-stock (2) are gone up and are provided with preceding slide rail (4) along left right direction, be provided with preceding slide (5) on preceding slide rail (4), after-poppet (3) are gone up and are provided with back slide rail (6) along left right direction, be provided with back slide (7) on back slide rail (6), be provided with preceding swing arm mechanism (8) on preceding slide (5), be provided with back swing arm mechanism (9) on back slide (7).

2. The independently driven grinding wheel chamfering machine according to claim 1, wherein: the front swing arm mechanism (8) and the rear swing arm mechanism (9) are arranged in a front-back opposite mode.

3. The independently driven grinding wheel chamfering machine according to claim 2, wherein: the front swing arm mechanism (8) and the rear swing arm mechanism (9) are identical in structure and respectively comprise a front first bearing seat and a rear first bearing seat (81), a swing arm shaft (82) penetrates between the front first bearing seat and the rear first bearing seat (81), a swing arm (83) is arranged on the swing arm shaft (82), a grinding wheel shaft (84) is arranged on one side of the swing arm (83) in the front-rear direction, and a grinding wheel piece (85) is arranged on the grinding wheel shaft (84).

4. The independently driven grinding wheel chamfering machine according to claim 3, wherein: a swing arm motor (86) is arranged on the outer side of the swing arm shaft (82), and the swing arm shaft (82) is driven by the swing arm motor (86).

5. The independently driven grinding wheel chamfering machine according to claim 3, wherein: and a grinding wheel motor (87) is arranged on the other side of the swing arm (83), and the output end of the grinding wheel motor (87) is connected with a grinding wheel shaft (84) through a belt wheel mechanism (88).

6. The independently driven grinding wheel chamfering machine according to claim 1, wherein: a transverse moving mechanism (10) is arranged below the front sliding seat (5) and the rear sliding seat (7); the transverse moving mechanism (10) comprises a left second bearing block and a right second bearing block (101), a transverse moving shaft (102) penetrates between the left second bearing block and the right second bearing block (101), a threaded section (103) is arranged on the transverse moving shaft (102), a transmission nut (104) is arranged on the threaded section (103), and the transmission nut (104) is connected with the bottom of the front sliding seat (5) or the rear sliding seat (7).

7. The independently driven grinding wheel chamfering machine according to claim 6, wherein: a traverse motor (105) is arranged on the outer side of the traverse shaft (102), and the traverse shaft (102) is driven by the traverse motor (105).

8. The independently driven grinding wheel chamfering machine according to claim 1, wherein: rear bracket (3) below is provided with translation mechanism (11), translation mechanism (11) are provided with translation slip table (112) about including two translation slide rails (111) about, on two translation slide rails (111), rear bracket (3) are fixed to be set up on translation slip table (112).

9. The independently driven grinding wheel chamfering machine according to claim 8, wherein: be provided with hydro-cylinder seat (113) between two translation slide rails (111) about, be provided with translation hydro-cylinder (114) on hydro-cylinder seat (113), translation slip table (112) bottom is provided with connecting seat (115), translation hydro-cylinder (114) front end is connected with connecting seat (115).

10. The independently driven grinding wheel chamfering machine according to claim 9, wherein: a fixed cover shell (12) is arranged outside the front swing arm mechanism (8), a movable cover shell (13) is arranged outside the rear swing arm mechanism (9), and the fixed cover shell (12) and the movable cover shell (13) are mutually butted.

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