CN216371535U

CN216371535U - Cabinet disc surface grinding machine

Info

Publication number: CN216371535U
Application number: CN202122781281.7U
Authority: CN
Inventors: 李军
Original assignee: Dalian Meisen Wood Industry Co ltd
Current assignee: Dalian Meisen Wood Industry Co ltd
Priority date: 2021-11-12
Filing date: 2021-11-12
Publication date: 2022-04-26
Anticipated expiration: 2031-11-12

Abstract

The invention discloses a cabinet disc surface grinding machine which comprises a workbench, a first guide rail arranged at the center of a plane on the workbench, a second guide rail vertically arranged on the first guide rail on the workbench, a first electric slide block and a second electric slide block movably arranged on the first guide rail, and a third slidable electric slide block, a rough object grinding mechanism and a feeding mechanism which are arranged in the second guide rail. The invention solves the problem of small contact area of the manual sander to a great extent, and also can solve the problems of deformation, uneven corners, unsmooth and the like of the product after manual sanding.

Description

Cabinet disc surface grinding machine

Technical Field

The invention relates to the technical field of cabinet processing, in particular to a cabinet disc surface grinding machine.

Background

The cupboard is the major type of indispensable utensil facility, the cupboard is along with the continuous development innovation of step of times, it is various to present door class, the materials are different, be the important basis of establishing work life space, the cupboard is generally made by the plank, in the manufacturing process of furniture, generally need cut the plank, need polish in order to get rid of the burr to the cutting plane of plank after the cutting is accomplished, make the cutting plane of plank keep smooth, when polishing disc machined part for the cupboard at present, generally carry out polishing a bit to the cutting plane of plank through artifical handheld grinding means, area of contact is very little when the disc periphery is polished with manual sander, waste time and labor, exert oneself unevenly when artifical polishing, product corner is not slick and sly after polishing, wholeness unevenness. Polishing inefficiency, waste time and energy to generally need press down the plank in order to prevent to polish the in-process plank and take place to slide through the hand, also do not benefit to and improve efficiency of polishing and the effect of polishing, in the in-process of polishing moreover, wooden dust is filled in near environment, also has the condition that wooden disintegrating slag splashes, can bring harm to operating personnel's healthy like this.

Disclosure of Invention

The invention aims to provide a cabinet disc surface polisher which can solve the problem that a manual polisher is small in contact area, solve the problems of deformation, uneven corners, unsmooth and the like of a product after manual polishing, ensure the quality of a machined part and eliminate potential safety hazards during production and machining.

In order to achieve the above object, the present invention provides a cabinet disc surface sander. The cabinet disc surface grinding machine comprises a workbench, wherein a first guide rail is arranged at the center of the upper plane of the workbench, a second guide rail is vertically arranged on the first guide rail on the workbench, a first electric slider and a second electric slider are movably mounted on the first guide rail, a slidable third electric slider is arranged in the second guide rail, a rough object grinding mechanism, a feeding mechanism and three electric sliders are all controlled by a power supply line and can move radially on the guide rail.

Rough thing grinding machanism includes first electronic slider, welded fastening has first support on the first electronic slider, welded fastening has the second support on the electronic slider of second, first support respectively is equipped with the roof-rack with second support top, respectively install the bearing about the first support, fixed mounting has the axis of rotation between the bearing, the cover is equipped with the flexible glue roller that the surface was equipped with the abrasive band in the axis of rotation, first support is stretched out to axis of rotation one end, the first rubber roll gear of fixed mounting on the extension of axis of rotation, respectively install the bearing about the second support, fixed mounting has the axis of rotation between the bearing, the cover is equipped with the flexible glue roller that the surface was equipped with the abrasive band in the axis of rotation, axis of rotation one end is higher than the second support, the extension of axis of rotation is served fixed mounting second rubber roll gear.

The center of each of the two top frames is provided with a first motor, the output ends of the two first motors are respectively provided with a first gear and a second gear, the first gear is in meshing transmission with the first rubber roll gear, and the second gear is in meshing transmission with the second rubber roll gear.

The feeding mechanism comprises a third electric slider, a supporting frame is fixedly arranged on the upper portion of the third electric slider, a second motor is arranged on the upper portion of the supporting frame, a second motor gear is fixedly arranged on a rotating shaft of the second motor, the second motor gear is meshed with the traveling gear, a traveling screw rod is fixedly arranged at the geometric center of the traveling gear, a traveling screw nut capable of moving perpendicular to the workbench is in threaded connection on the traveling screw rod, a mold support parallel to the workbench is fixedly arranged on the traveling screw nut, and the traveling screw nut drives the mold support to move vertically in the supporting frame.

A third motor is fixedly installed on the die support, a first worm is fixedly installed on a rotating shaft of the third motor, two bearing blocks are fixedly installed on two sides of the other end of the die support, a connecting shaft is installed between the two bearing blocks, a first worm gear is sleeved on the connecting shaft, and the first worm is meshed with the first worm gear.

The die rotating mechanism is fixedly arranged on the connecting shaft, the fourth motor is arranged in the die rotating mechanism, a second worm is arranged on a rotating shaft of the fourth motor and meshed with a second worm gear, a supporting rod is fixedly connected to the center of the second worm gear, a die is fixedly arranged at the other end of the supporting rod, and the die is inserted into the center of a disc of a circle to be processed and drives a workpiece to rotate together.

In the above-mentioned surface polisher for cabinet discs, preferably, plastic plates having transparency and high hardness are mounted on both sides of the table to prevent impurities from splashing.

In the above polishing machine for the surface of the cabinet disc, in an optimal mode, the discharge mold is driven by the feeding mechanism to turn over at an angle of 0-180 degrees, and the rotation angle is 360 degrees.

In the above cabinet disc surface grinding machine, preferably, the first electric slider and the second electric slider are hollow and form a groove for slidably connecting the first guide rail, and the geometric center of the cross section of the groove of the first electric slider and the geometric center of the cross section of the second electric slider are flush with the geometric center of the cross section of the first guide rail.

Above-mentioned cupboard disc surface polisher, under preferred mode, the both sides middle part of first guide rail inwards forms V-arrangement spout, and the recess outer fringe of first electronic slider and the electronic slider of second is protruding to the centre, and protruding shape and V-arrangement spout phase-match.

In the above-mentioned surface grinding machine for cabinet discs, preferably, the third electric slider is hollow and forms a groove for slidably connecting to the second guide rail, and a geometric center of a cross section of the groove of the third electric slider is flush with a geometric center of a cross section of the second guide rail.

Above-mentioned cupboard disc surface polisher, under preferred mode, the both sides middle part of second guide rail inwards forms V-arrangement spout, and the recess outer fringe of third electronic slider and is protruding to the centre, and protruding shape and V-arrangement spout phase-match.

Above-mentioned cupboard disc surface polisher, under preferred mode, its characterized in that: the power supply circuit of the first motor is connected with a slide rheostat capable of adjusting the rotating speed of the first motor.

The invention solves the problem of small contact area of the manual sander to a great extent, and also can solve the problems of deformation, uneven corners, unsmooth and the like of the product after manual sanding.

Drawings

Fig. 1 is a schematic top view of the sander for a cabinet disc surface according to the present invention.

Fig. 2 is a schematic view of the whole structure of the cabinet disc surface sander of the present invention.

Fig. 3 is a schematic view of the overall structure of the polishing mechanism for rough objects according to the present invention.

FIG. 4 is a schematic structural diagram of a mold rotation mechanism according to the present invention.

Fig. 5 is a schematic view of the mold turnover structure of the present invention.

Fig. 6 is a structural schematic diagram of the guide rail and the sliding block of the invention.

In the figure: 1. the plastic plate polishing machine comprises a workbench, 2, a first guide rail, 3, a second guide rail, 4, a first electric slide block, 5, a second electric slide block, 6, a third electric slide block, 7, a first support, 8, a second support, 9, a top frame, 10, a bearing, 11, a rotating shaft, 12, a soft rubber roller, 13, a first rubber roller gear, 14, a second rubber roller gear, 15, a first motor, 16, a first gear, 17, a second gear, 18, a support frame, 19, a second motor, 20, a second motor gear, 21, a walking gear, 22, a walking screw rod, 23, a walking screw nut, 24, a mold support, 25, a third motor, 26, a first worm, 27, a bearing seat, 28, a connecting shaft, 29, a first worm gear, 30, a fourth motor, 31, a second worm, 32, a second worm gear, 33, a discharging mold, 34, a plastic plate, 35, a rough polishing mechanism, 36, A feeding mechanism 37 and a die rotating mechanism.

Detailed Description

As shown in fig. 1, the cabinet disc surface polisher of the present invention is characterized by comprising a workbench 1, wherein a first guide rail 2 is arranged at the center of an upper plane of the workbench 1, a second guide rail 3 is vertically arranged on the first guide rail 2 on the workbench 1, a first electric slider 4 and a second electric slider 5 are movably mounted on the first guide rail 2, a slidable third electric slider 6, a rough polishing mechanism 35, a feeding mechanism 36, and three electric control sliders are all controlled by a power supply line and can move radially on the guide rails.

As shown in fig. 2, the rough object polishing mechanism 35 includes a first electric slider 4, a first bracket 7 is welded and fixed on the first electric slider 4, a second bracket 8 is welded and fixed on the second electric slider 5, top brackets 9 are respectively arranged on the tops of the first bracket 7 and the second bracket 8, bearings 10 are respectively installed on the upper and lower sides of the first bracket 7, a rotating shaft 11 is fixedly installed between the bearings 10, a soft rubber roller 12 with an abrasive belt is arranged on the surface of the rotating shaft 11 in a sleeved manner, one end of the rotating shaft 11 is higher than the first bracket 7, a first rubber roller gear 13 is fixedly installed on the extending end of the rotating shaft 11, bearings 10 are respectively installed on the upper and lower sides of the second bracket 8, a rotating shaft 11 is fixedly installed between the bearings 10, a soft rubber roller 12 with an abrasive belt is arranged on the surface of the rotating shaft 11 in a sleeved manner, one end of the rotating shaft 11 is higher than the second bracket 8, and a second rubber roller gear 14 is fixedly installed on the extending end of the rotating shaft 11.

The center of each of the two top frames 9 is provided with a first motor 15, the output ends of the two first motors 15 are respectively provided with a first gear 16 and a second gear 17, the first gear 16 is in meshing transmission with the first rubber-covered gear 13, the second gear 17 is in meshing transmission with the second rubber-covered gear 14, and a power supply line of the first motor 15 is connected with a slide rheostat capable of adjusting the rotating speed of the first motor 15.

As shown in fig. 1 and 2, the feeding mechanism 36 includes a third electric slider 6, a supporting frame 18 is fixedly installed on the upper portion of the third electric slider 6, a second motor 19 is installed on the upper portion of the supporting frame 18, a second motor gear 20 is fixedly installed on a rotating shaft of the second motor 19, the second motor gear 20 is engaged with a traveling gear 21, a traveling screw 22 is fixedly installed at a geometric center of the traveling gear 21, a traveling screw 23 capable of moving perpendicular to the working table 1 is screwed on the traveling screw 22, a mold support 24 parallel to the working table 1 is fixedly installed on the traveling screw 23, and the traveling screw 23 drives the mold support 24 to move vertically in the supporting frame 18.

As shown in fig. 2 and 5, a third motor 25 is fixedly mounted on the mold support 24, a first worm 26 is fixedly mounted on a rotating shaft of the third motor 25, two bearing seats 27 are fixedly mounted on two sides of the other end of the mold support 24, a connecting shaft 28 is mounted between the two bearing seats 27, a first worm gear 29 is sleeved on the connecting shaft 28, and the first worm 26 is meshed with the first worm gear 29.

As shown in fig. 4, a mold rotating mechanism 37 is fixedly mounted on the connecting shaft 28, a fourth motor 30 is mounted in the mold rotating mechanism 37, a second worm 31 is mounted on a rotating shaft of the fourth motor 30, the second worm 31 is engaged with a second worm gear 32, a supporting rod is fixedly connected to the center of the second worm gear 32, and a discharging mold 33 is fixedly mounted at the other end of the supporting rod.

The discharging die 33 can be turned over by the feeding mechanism 36 by an angle of 0-180 degrees and a rotation angle of 360 degrees.

As shown in fig. 1 and 2, plastic plates 34 having transparency and high hardness are mounted on both sides of the table 1 to prevent impurities from being scattered.

As shown in fig. 6, the first electric slider 4 and the second electric slider 5 are hollow and form a groove for slidably connecting the first guide rail 2, and the geometric center of the cross section of the groove of the first electric slider 4 and the second electric slider 5 is flush with the geometric center of the cross section of the first guide rail 2. The middle parts of the two sides of the first guide rail 2 inwards form a V-shaped sliding groove, the outer edges of the grooves of the first electric sliding block 4 and the second electric sliding block 5 are raised towards the middle, and the raised shape is matched with the V-shaped sliding groove.

The inside of the third electric slider 6 is of a hollow structure and forms a groove for slidably connecting the second guide rail 3, and the geometric center of the cross section of the groove of the third electric slider 6 is flush with the geometric center of the cross section of the second guide rail 3. The middle parts of the two sides of the second guide rail 3 inwards form a V-shaped sliding groove, the outer edges of the third electric sliding block 6 and the groove are raised towards the middle, and the raised shape is matched with the V-shaped sliding groove.

When a machining material is arranged on the discharging die 33, a wooden disc to be machined is sleeved on the equipment die, the feeding mechanism 36 drives the discharging die to move to a machining area, meanwhile, the first electric sliding block 4 and the second electric sliding block 5 drive the soft rubber roller 12 to move to the machining area, after the positioning is reached, the first motor 15 drives the abrasive belt on the soft rubber roller 12 to rotate, the machined part is polished, the speed is adjusted as required, the feeding mechanism 36 drives the machined part to automatically turn over by 0-180 degrees or automatically rotate by 360 degrees according to an instruction, and the periphery of the disc is polished at a constant speed by the polishing device. And after polishing, the workpiece automatically returns to the feeding position.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. A cabinet disc surface grinding machine is characterized by comprising a workbench (1), wherein a first guide rail (2) is arranged at the center of the upper plane of the workbench (1), a second guide rail (3) is vertically arranged on the first guide rail (2) on the workbench (1), a first electric slider (4) and a second electric slider (5) are movably mounted on the first guide rail (2), and a slidable third electric slider (6), a rough object grinding mechanism (35) and a feeding mechanism (36) are arranged in the second guide rail (3);

the rough object polishing mechanism (35) comprises a first electric sliding block (4), a first support (7) is welded and fixed on the first electric sliding block (4), a second support (8) is welded and fixed on the second electric sliding block (5), top frames (9) are respectively arranged at the tops of the first support (7) and the second support (8), bearings (10) are respectively arranged above and below the first support (7), a rotating shaft (11) is fixedly installed between the bearings (10), a soft rubber roller (12) with an abrasive belt arranged on the surface is sleeved on the rotating shaft (11), one end of the rotating shaft (11) is higher than the first support (7), a first rubber roller gear (13) is fixedly installed on the extending end of the rotating shaft (11), bearings (10) are respectively installed above and below the second support (8), and a rotating shaft (11) is fixedly installed between the bearings (10), a soft rubber roller (12) with an abrasive belt arranged on the surface is sleeved on the rotating shaft (11), one end of the rotating shaft (11) is higher than the second support (8), and a second rubber roller gear (14) is fixedly arranged on the extending end of the rotating shaft (11);

the centers of the two top frames (9) are respectively provided with a first motor (15), the output ends of the two first motors (15) are respectively provided with a first gear (16) and a second gear (17), the first gear (16) is in meshing transmission with the first rubber roller gear (13), and the second gear (17) is in meshing transmission with the second rubber roller gear (14);

the feeding mechanism (36) comprises a third electric sliding block (6), a supporting frame (18) is fixedly arranged at the upper part of the third electric sliding block (6), a second motor (19) is arranged at the upper part of the supporting frame (18), a second motor gear (20) is fixedly arranged on a rotating shaft of the second motor (19), the second motor gear (20) is meshed with a walking gear (21), a walking screw rod (22) is fixedly arranged at the geometric center of the walking gear (21), a walking screw nut (23) capable of moving perpendicular to the workbench (1) is screwed on the walking screw rod (22), a mold support (24) parallel to the workbench (1) is fixedly arranged on the walking screw nut (23), and the walking screw nut (23) drives the mold support (24) to move vertically in the supporting frame (18);

a third motor (25) is fixedly installed on the mold support (24), a first worm (26) is fixedly installed on a rotating shaft of the third motor (25), two bearing seats (27) are fixedly installed on two sides of the other end of the mold support (24), a connecting shaft (28) is installed between the two bearing seats (27), a first worm gear (29) is sleeved on the connecting shaft (28), and the first worm (26) is meshed with the first worm gear (29);

the die rotating mechanism (37) is fixedly installed on the connecting shaft (28), the fourth motor (30) is installed in the die rotating mechanism (37), the second worm (31) is installed on the rotating shaft of the fourth motor (30), the second worm (31) is meshed with the second worm gear (32), a supporting rod is fixedly connected to the center of the second worm gear (32), and the discharging die (33) is fixedly installed at the other end of the supporting rod.

2. The cabinet disc surface sander of claim 1, wherein: and plastic plates (34) which are transparent and have high hardness and can prevent impurities from splashing are arranged on two sides of the workbench (1).

3. The cabinet disc surface sander of claim 1, wherein: the turnover angle of the discharging mould (33) driven by the feeding mechanism (36) is 0-180 degrees, and the rotation angle is 360 degrees.

4. The cabinet disc surface sander of claim 1, wherein: the first electric sliding block (4) and the second electric sliding block (5) are internally hollow and form a groove for being connected with the first guide rail (2) in a sliding mode, and the geometric center of the cross section of the groove of the first electric sliding block (4) and the second electric sliding block (5) is flush with the geometric center of the cross section of the first guide rail (2).

5. The cabinet disc surface sander of claim 1, wherein: the middle parts of two sides of the first guide rail (2) inwards form a V-shaped sliding groove, the outer edges of the grooves of the first electric sliding block (4) and the second electric sliding block (5) are raised towards the middle, and the raised shapes are matched with the V-shaped sliding grooves.

6. The cabinet disc surface sander of claim 1, wherein: the interior of the third electric sliding block (6) is of a hollow structure and forms a groove for being connected with the second guide rail (3) in a sliding mode, and the geometric center of the cross section of the groove of the third electric sliding block (6) is flush with the geometric center of the cross section of the second guide rail (3).

7. The cabinet disc surface sander of claim 1, wherein: the middle parts of two sides of the second guide rail (3) inwards form a V-shaped sliding groove, the outer edges of the third electric sliding block (6) and the groove are raised towards the middle, and the raised shape is matched with the V-shaped sliding groove.

8. The cabinet disc surface sander of claim 1, wherein: and a power supply line of the first motor (15) is connected with a slide rheostat capable of adjusting the rotating speed of the first motor (15).