CN216298944U - Synchronous polishing equipment for processing aluminum alloy doors and windows - Google Patents

Abstract

The utility model relates to the technical field of aluminum alloy door and window processing equipment, in particular to synchronous polishing equipment for processing aluminum alloy doors and windows, which comprises a positioning mechanism for positioning the doors and windows and a synchronous polishing mechanism for polishing the doors and windows; the positioning mechanism comprises a supporting base, a transverse bidirectional linear adjusting mechanism and pressing plates, wherein the supporting base is of a cavity structure, the transverse bidirectional linear adjusting mechanism is installed in the supporting base, the two pressing plates are vertically distributed above the supporting base, and the lower ends of the pressing plates are connected with the adjusting end of the transverse bidirectional linear adjusting mechanism through a U-shaped rack; the synchronous polishing mechanism comprises a longitudinal lifting assembly, a transverse synchronous driving assembly, a spacing adjusting assembly and a synchronous polishing assembly, has a simple structure, can perform double-sided synchronous polishing operation on doors and windows with different sizes (length, width and thickness), greatly improves the polishing efficiency and polishing quality, and brings convenience to the production and processing of the doors and windows.

Description

Synchronous polishing equipment for processing aluminum alloy doors and windows

Technical Field

The utility model relates to the technical field of aluminum alloy door and window processing equipment, in particular to synchronous polishing equipment for processing aluminum alloy doors and windows.

Background

The aluminum alloy doors and windows refer to doors and windows which are manufactured by adopting aluminum alloy extruded aluminum alloy doors and windows as frames, stiles and sash materials, and are called aluminum doors and windows for short, the aluminum alloy doors and windows comprise doors and windows which are made of aluminum alloy as a stress rod piece base material and are compounded with wood and plastic, and the aluminum-wood composite doors and windows or the aluminum-plastic composite doors and windows for short.

Application number 202022996058X's chinese patent discloses an aluminum alloy door and window burring processingequipment, including the mount pad, set firmly the mounting bracket along vertical direction on the mount pad, be provided with the fixed subassembly that is used for fixed aluminum alloy door and window on the mounting bracket. And processing devices for removing burrs are arranged on two sides of the mounting frame. The processing device comprises a first mounting block, a second mounting block, a first lead screw and a second lead screw, wherein a polishing piece is mounted on the second mounting block, the first mounting block slides along the length direction of the first lead screw, the second mounting block slides along the length direction of the second lead screw, and the polishing piece is driven to process the aluminum alloy door and window through horizontal and vertical movement in two directions. The bottom of mount pad is provided with accepts the groove, accepts the inslot and is provided with the scraper blade that is used for clearing up the piece. Through fixed subassembly with aluminum alloy door and window fixed to vertical state, then carry out processing simultaneously to aluminum alloy door and window both sides through the processing apparatus of both sides, need not to carry out the turn-over to aluminum alloy door and window, effectively improved the work efficiency of device.

The technical scheme of the patent has relatively poor stability and flexibility when in use, and has inconvenience when in actual use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide synchronous polishing equipment for processing aluminum alloy doors and windows.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the synchronous polishing equipment for processing the aluminum alloy doors and windows comprises a positioning mechanism for positioning the doors and windows and a synchronous polishing mechanism for polishing the doors and windows;

the positioning mechanism comprises a supporting base, a transverse bidirectional linear adjusting mechanism and pressing plates, wherein the supporting base is of a cavity structure, the transverse bidirectional linear adjusting mechanism is installed in the supporting base, the two pressing plates are vertically distributed above the supporting base, and the lower ends of the pressing plates are connected with the adjusting end of the transverse bidirectional linear adjusting mechanism through a U-shaped rack;

synchronous polishing mechanism includes vertical lifting unit, horizontal synchronous drive subassembly, interval adjusting part and synchronous polishing subassembly, two vertical setting of lifting unit is on supporting the base, and is located the outside of clamp plate, horizontal synchronous drive unit mount is on supporting the base, and horizontal synchronous drive unit's power take off end is connected with vertical lifting unit's power input end, interval adjusting part horizontal installation be in vertical lifting unit's lift end, two synchronous polishing subassembly horizontal installation is between two interval adjusting parts, and the tip is connected with interval adjusting unit's regulation end.

Preferably, the transverse bidirectional linear adjusting mechanism comprises a first screw motor, a first bidirectional screw and first transverse sliding seats, the first bidirectional screw is horizontally rotatably installed in the supporting base, the first screw motor is installed on the supporting base, the driving end of the first screw is connected with the end part of the first bidirectional screw, the two first transverse sliding seats are symmetrically and threadedly installed on the first bidirectional screw and are in sliding fit with the supporting base, and the bottoms of the U-shaped racks are connected with the corresponding first transverse sliding seats.

Preferably, each longitudinal lifting assembly comprises a longitudinal support frame, a longitudinal screw rod and a lifting sliding seat, the longitudinal support frame is vertically arranged on the supporting base, the longitudinal screw rod is vertically and rotatably arranged in the longitudinal support frame, the lifting sliding seat is in threaded installation on the longitudinal screw rod and is in sliding fit with the longitudinal support frame, and the distance adjusting assembly is horizontally arranged on the inner side of the lifting sliding seat;

the transverse synchronous driving assembly comprises a driving motor, a driving shaft, a first bevel gear and a second bevel gear, the driving shaft is horizontally and rotatably installed between the two longitudinal supporting frames, the driving shaft penetrates through the U-shaped rack, the first bevel gears are symmetrically installed on the driving shaft, the second bevel gear is installed at the lower end of each longitudinal screw rod and meshed with the corresponding first bevel gear, the driving motor is installed on the longitudinal supporting frames, and the driving end is connected with the end portion of the driving shaft.

Preferably, each spacing adjustment assembly comprises a first transverse bracket, a transverse bidirectional adjustment assembly and a synchronous adjustment assembly;

the transverse strut I is horizontally arranged at the lifting end of the longitudinal lifting assembly, the transverse bidirectional adjusting assembly comprises a bidirectional screw rod II and transverse sliding seats II, the bidirectional screw rod II is horizontally and rotatably arranged in the transverse strut I, and the two transverse sliding seats are symmetrically and threadedly arranged on the bidirectional screw rod II and are in sliding fit with the transverse strut I;

the synchronous adjusting assembly comprises a stepping motor, a transmission shaft, a bevel gear III and a bevel gear IV, the transmission shaft is horizontally and rotatably arranged between the two transverse brackets I and positioned on the outer sides of the transverse brackets I, the two bevel gears are arranged on the transmission shaft in a trisymmetric manner, the end part of each two-way screw II is provided with the bevel gear IV, the bevel gear IV is meshed with the corresponding bevel gear III, the stepping motor is arranged on the outer side of one transverse bracket I, and the driving end of the stepping motor is connected with the end part of the transmission shaft;

the synchronous polishing assemblies are horizontally arranged between the two corresponding transverse sliding seats II and are vertically distributed with the transverse support I.

Preferably, each synchronous polishing assembly comprises a second transverse bracket, a second transverse screw, a second screw motor, a sliding support and a polishing assembly, the second transverse bracket is horizontally arranged between the two corresponding second transverse sliding seats, the transverse screw is horizontally and rotatably arranged in the second transverse bracket, the second screw motor is arranged on the second transverse bracket, the driving end of the second screw motor is connected with the end part of the transverse screw, the sliding support is arranged on the transverse screw in a threaded manner and is in sliding fit with the second transverse bracket, and the polishing assembly is arranged on the sliding support;

two of the polishing assemblies are distributed opposite to each other.

Preferably, each polishing assembly comprises a polishing motor and a grinding wheel, the polishing motor is mounted on the sliding support, and the grinding wheel is mounted at the driving end of the polishing motor;

and the two grinding wheels are vertically distributed in the inner side area of the transverse strut II.

Has the advantages that: when the door and window double-side polishing machine is used, a door and a window are vertically positioned between the two pressing plates, and the distance between the two pressing plates is adjusted through the transverse bidirectional linear adjusting mechanism, so that the door and window double-side polishing machine can clamp and position doors and windows of different sizes, and can perform double-side polishing operation on the doors and windows after the positioning is finished;

when double-sided polishing operation is carried out, firstly, a transverse screw rod is driven to rotate by a screw rod motor II, so that a sliding support drives a polishing assembly to move to a side surface area of a door window (at the moment, a grinding wheel in the polishing assembly is in a non-contact state with the surface of the door window), then a stepping motor is started, the stepping motor drives a transmission shaft to rotate, and drives a bidirectional screw rod II to rotate by a bevel gear III and a bevel gear IV, the bidirectional screw rod II drives two transverse sliding bases II on the same bidirectional screw rod II to move towards the mutually approaching direction during rotation, so that two transverse supporting frames II are driven to move towards the mutually approaching direction, at the moment, the grinding wheel in the polishing assembly is in contact with the surface of the door window, and the door window polishing machine can polish the door windows with different thicknesses by the mode;

during polishing, the polishing assembly can be driven to linearly move in the horizontal direction through the screw motor II, the transverse screw and the sliding support, and the synchronous polishing assembly can be driven to move in the vertical direction through the longitudinal lifting assembly, so that any position of two side surfaces of a door and a window can be polished, and the polishing efficiency and quality are greatly improved;

when the longitudinal lifting assembly is used for lifting, the driving shaft is driven to rotate by starting the driving motor (the driving motor is a forward and reverse rotating motor), and the longitudinal screw rod is driven to rotate by the second bevel gear and the second bevel gear, so that the two lifting sliding seats can be ensured to keep synchronous lifting action, and the consistency and the stability of the two lifting sliding seats during operation are improved.

The double-side synchronous polishing device is simple in structure, can be used for carrying out double-side synchronous polishing operation on doors and windows with different sizes (length, width and thickness), greatly improves polishing efficiency and polishing quality, and brings convenience to production and processing of the doors and windows.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings in the embodiments of the present invention are briefly described below.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the distribution of the pitch adjustment assembly and the simultaneous polishing assembly;

wherein:

1-a supporting base, 2-a first screw motor, 3-a first bidirectional screw, 4-a first transverse sliding base, 5-a U-shaped frame, 6-a pressing plate, 7-a longitudinal support frame, 8-a longitudinal screw, 9-a lifting sliding base, 10-a driving motor, 11-a driving shaft, 12-a first bevel gear, 13-a second bevel gear, 14-a first transverse support frame, 15-a stepping motor, 16-a driving shaft, 17-a third bevel gear, 18-a fourth bevel gear, 19-a second transverse support frame, 20-a sliding support, 21-a polishing motor, 22-a grinding wheel, 23-a second screw motor, 24-a second bidirectional screw, 25-a second transverse sliding base and 26-a door and window.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 and 2, the synchronous polishing device for processing aluminum alloy doors and windows comprises a positioning mechanism for positioning the doors and windows 26 and a synchronous polishing mechanism for polishing the doors and windows 26;

the positioning mechanism comprises a supporting base 1, a transverse bidirectional linear adjusting mechanism and pressing plates 6, wherein the supporting base 1 is of a cavity structure, the transverse bidirectional linear adjusting mechanism is installed in the supporting base 1, the two pressing plates 6 are vertically distributed above the supporting base 1, and the lower ends of the pressing plates 6 are connected with the adjusting end of the transverse bidirectional linear adjusting mechanism through a U-shaped frame 5;

synchronous polishing mechanism includes vertical lifting unit, horizontal synchronous drive subassembly, interval adjusting part and synchronous polishing subassembly, two vertical setting of lifting unit is on supporting base 1, and is located the outside of clamp plate 6, horizontal synchronous drive unit mount is on supporting base 1, and horizontal synchronous drive unit's power take off end is connected with vertical lifting unit's power input end, interval adjusting part horizontal installation be in vertical lifting unit's lift end, two synchronous polishing subassembly horizontal installation is between two interval adjusting part, and the tip is connected with interval adjusting part's regulation end.

In this embodiment, the horizontal two-way linear adjusting mechanism comprises a first lead screw motor 2, a first two-way lead screw 3 and a first two-way sliding seat 4, the first two-way lead screw 3 is horizontally rotatably installed in the supporting base 1, the first lead screw motor 2 is installed on the supporting base 1, the driving end of the first two-way lead screw 3 is connected with the end portion of the first two-way lead screw, the two first two-way sliding seats 4 are symmetrically and threadedly installed on the first two-way lead screw 3 and are in sliding fit with the supporting base 1, and the bottom of the U-shaped rack 5 is connected with the corresponding first two-way sliding seats 4.

In this embodiment, each longitudinal lifting assembly comprises a longitudinal support frame 7, a longitudinal lead screw 8 and a lifting slide seat 9, the longitudinal support frame 7 is vertically arranged on the support base 1, the longitudinal lead screw 8 is vertically and rotatably arranged in the longitudinal support frame 7, the lifting slide seat 9 is threadedly arranged on the longitudinal lead screw 8 and is in sliding fit with the longitudinal support frame 7, and the distance adjusting assembly is horizontally arranged on the inner side of the lifting slide seat 9;

the transverse synchronous driving assembly comprises a driving motor 10, a driving shaft 11, a first bevel gear 12 and a second bevel gear 13, wherein the driving shaft 11 is horizontally and rotatably installed between the two longitudinal supporting frames 7, the driving shaft 11 penetrates through the U-shaped rack 5, the driving shaft 11 is symmetrically provided with the first bevel gear 12, the lower end of each longitudinal screw 8 is provided with the second bevel gear 13, the second bevel gear 13 is meshed with the corresponding first bevel gear 12, the driving motor 10 is installed on the longitudinal supporting frames 7, and the driving end of the driving motor is connected with the end part of the driving shaft 11.

In the embodiment, each spacing adjustment assembly comprises a first transverse bracket 14, a transverse bidirectional adjustment assembly and a synchronous adjustment assembly;

the transverse strut I14 is horizontally arranged at the lifting end of the longitudinal lifting assembly, the transverse bidirectional adjusting assembly comprises a bidirectional screw rod II 24 and two transverse sliding seats II 25, the bidirectional screw rod II 24 is horizontally and rotatably arranged in the transverse strut I14, and the two transverse sliding seats II 25 are symmetrically and threadedly arranged on the bidirectional screw rod II 24 and are in sliding fit with the transverse strut I14;

the synchronous adjusting assembly comprises a stepping motor 15, a transmission shaft 16, three bevel gears 17 and four bevel gears 18, the transmission shaft 16 is horizontally and rotatably installed between the two first transverse brackets 14 and located on the outer sides of the first transverse brackets 14, the two third bevel gears 17 are symmetrically installed on the transmission shaft 16, one fourth bevel gear 18 is installed at the end part of each two-way screw rod 24, the four bevel gears 18 are meshed with the corresponding third bevel gears 17, the stepping motor 15 is installed on the outer side of one first transverse bracket 14, and the driving end of the stepping motor is connected with the end part of the transmission shaft 16;

the synchronous polishing assemblies are horizontally arranged between the two corresponding transverse sliding bases 25, and the synchronous polishing assemblies are vertically distributed with the transverse support frame I14.

In the embodiment, each synchronous polishing assembly comprises a second transverse bracket 19, a transverse lead screw (not shown in the figure), a second lead screw motor 23, a sliding support 20 and a polishing assembly, wherein the second transverse bracket 19 is horizontally installed between the two corresponding transverse sliding seats 25, the transverse lead screw is horizontally and rotatably installed in the second transverse bracket 19, the second lead screw motor 23 is installed on the second transverse bracket 19, a driving end of the second lead screw is connected with an end of the transverse lead screw, the sliding support 20 is threadedly installed on the transverse lead screw and is in sliding fit with the second transverse bracket 19, and the polishing assembly is installed on the sliding support 20;

two of the polishing assemblies are distributed opposite to each other.

In the embodiment, each polishing assembly comprises a polishing motor 21 and a grinding wheel 22, wherein the polishing motor 21 is arranged on a sliding support 20, and the grinding wheel 22 is arranged at the driving end of the polishing motor 21;

the two grinding wheels 22 are vertically distributed in the inner area of the second cross-frame 19.

When the door window polishing machine is used, a door window 26 is vertically positioned between the two pressing plates 6, and the distance between the two pressing plates 6 is adjusted through the transverse bidirectional linear adjusting mechanism, so that the door window polishing machine can clamp and position doors and windows of different sizes, and after the positioning is finished, the double-sided polishing operation of the door window 26 can be carried out;

when double-side polishing operation is carried out, firstly, the transverse screw rod is driven to rotate by the screw rod motor II 23, so that the sliding support 20 drives the polishing component to move to the side surface area of the door and window 26 (at the moment, the grinding wheel 22 in the polishing component and the surface of the door and window 26 are in a non-contact state), then the stepping motor 15 is started, the transmission shaft 16 is driven to rotate by the stepping motor 15, the bidirectional screw rod II 24 is driven to rotate by the bevel gear III 17 and the bevel gear IV 18, the bidirectional screw rod II 24 drives the two transverse sliding bases II 25 on the same bidirectional screw rod II 24 to move towards the mutually approaching direction, and further drives the two transverse supporting frames II 19 to move towards the mutually approaching direction, at the moment, the grinding wheel 22 in the polishing component is in contact with the surface of the door and window 26, and the utility model can polish the door and window 26 with different thicknesses by the mode;

during polishing, the polishing assembly can be driven to linearly move in the horizontal direction through the second lead screw motor 23, the transverse lead screw and the sliding support 20, and the synchronous polishing assembly can be driven to move in the vertical direction through the longitudinal lifting assembly, so that any position of two side surfaces of the door and window 26 can be polished, and the polishing efficiency and quality are greatly improved;

when the longitudinal lifting assembly is used for lifting, the driving shaft 11 is driven to rotate by starting the driving motor 10 (the driving motor 10 is a forward and reverse rotating motor), and the longitudinal screw 8 is driven to rotate by the second bevel gear 13 and the second bevel gear 12, so that the two lifting sliding seats 9 can be ensured to keep synchronous lifting action, and the consistency and the stability of the two lifting sliding seats 9 during operation are improved.

The double-side synchronous polishing device is simple in structure, can be used for carrying out double-side synchronous polishing operation on doors and windows with different sizes (length, width and thickness), greatly improves polishing efficiency and polishing quality, and brings convenience to production and processing of the doors and windows.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (6)

1. A synchronous polishing device for processing aluminum alloy doors and windows comprises a positioning mechanism for positioning the doors and windows (26) and a synchronous polishing mechanism for polishing the doors and windows (26), and is characterized in that,

the positioning mechanism comprises a supporting base (1), a transverse bidirectional linear adjusting mechanism and pressing plates (6), the supporting base (1) is of a cavity structure, the transverse bidirectional linear adjusting mechanism is installed in the supporting base (1), the two pressing plates (6) are vertically distributed above the supporting base (1), and the lower ends of the pressing plates (6) are connected with the adjusting ends of the transverse bidirectional linear adjusting mechanism through U-shaped racks (5);

synchronous polishing mechanism includes vertical lifting unit, horizontal synchronous drive subassembly, interval adjusting part and synchronous polishing subassembly, two vertical setting of lifting unit is on supporting base (1), and is located the outside of clamp plate (6), horizontal synchronous drive unit mount is on supporting base (1), and horizontal synchronous drive unit's power take off end is connected with vertical lifting unit's power input end, interval adjusting part horizontal installation be in vertical lifting unit's lift end, two synchronous polishing subassembly horizontal installation is between two interval adjusting parts, and the tip is connected with interval adjusting unit's regulation end.

2. The synchronous polishing device for the aluminum alloy door and window processing as recited in claim 1, wherein the transverse bidirectional linear adjusting mechanism comprises a first lead screw motor (2), a first bidirectional lead screw (3) and a first traverse slide (4), the first bidirectional lead screw (3) is horizontally and rotatably installed in the supporting base (1), the first lead screw motor (2) is installed on the supporting base (1), the driving end of the first lead screw (3) is connected with the end part of the first bidirectional lead screw, the two first traverse slides (4) are symmetrically and threadedly installed on the first bidirectional lead screw (3) and are in sliding fit with the supporting base (1), and the bottom of the U-shaped rack (5) is connected with the corresponding first traverse slide (4).

3. The synchronous polishing equipment for processing the aluminum alloy doors and windows as claimed in claim 1, wherein each longitudinal lifting assembly comprises a longitudinal support frame (7), a longitudinal lead screw (8) and a lifting slide (9), the longitudinal support frame (7) is vertically arranged on the support base (1), the longitudinal lead screw (8) is vertically and rotatably arranged in the longitudinal support frame (7), the lifting slide (9) is threadedly arranged on the longitudinal lead screw (8) and is in sliding fit with the longitudinal support frame (7), and the spacing adjusting assembly is horizontally arranged on the inner side of the lifting slide (9);

the horizontal synchronous driving assembly comprises a driving motor (10), a driving shaft (11), a first bevel gear (12) and a second bevel gear (13), the driving shaft (11) is horizontally installed between two longitudinal brackets (7) in a rotating mode, the driving shaft (11) penetrates through the U-shaped rack (5), the driving shaft (11) is symmetrically provided with the first bevel gear (12), each bevel gear (13) is installed at the lower end of the longitudinal screw (8), the second bevel gear (13) is meshed with the corresponding first bevel gear (12), the driving motor (10) is installed on the longitudinal brackets (7), and the driving end is connected with the end portion of the driving shaft (11).

4. The synchronous polishing device for the processing of the aluminum alloy doors and windows as claimed in claim 1, wherein each spacing adjusting assembly comprises a first transverse bracket (14), a transverse bidirectional adjusting assembly and a synchronous adjusting assembly;

the transverse strut I (14) is horizontally arranged at the lifting end of the longitudinal lifting assembly, the transverse bidirectional adjusting assembly comprises a bidirectional screw rod II (24) and two transverse sliding seats II (25), the bidirectional screw rod II (24) is horizontally and rotatably arranged in the transverse strut I (14), and the two transverse sliding seats II (25) are symmetrically and threadedly arranged on the bidirectional screw rod II (24) and are in sliding fit with the transverse strut I (14);

the synchronous adjusting assembly comprises a stepping motor (15), a transmission shaft (16), three bevel gears (17) and four bevel gears (18), the transmission shaft (16) is horizontally and rotatably installed between the two first transverse brackets (14) and positioned on the outer sides of the first transverse brackets (14), the three bevel gears (17) are symmetrically installed on the transmission shaft (16), one fourth bevel gear (18) is installed at the end part of each two-way screw rod (24), the four bevel gears (18) are meshed with the corresponding three bevel gears (17), the stepping motor (15) is installed on the outer side of one of the first transverse brackets (14), and the driving end of the stepping motor is connected with the end part of the transmission shaft (16);

the synchronous polishing assemblies are horizontally arranged between the two corresponding transverse sliding bases II (25), and are vertically distributed with the transverse support frame I (14).

5. The synchronous polishing device for the processing of the aluminum alloy doors and windows as claimed in claim 4, wherein each synchronous polishing assembly comprises a second transverse bracket (19), a transverse lead screw, a second lead screw motor (23), a sliding support (20) and a polishing assembly, the second transverse bracket (19) is horizontally installed between the two corresponding transverse sliding bases (25), the transverse lead screw is horizontally and rotatably installed in the second transverse bracket (19), the second lead screw motor (23) is installed on the second transverse bracket (19), the driving end of the second lead screw is connected with the end part of the transverse lead screw, the sliding support (20) is threadedly installed on the transverse lead screw and is in sliding fit with the second transverse bracket (19), and the polishing assembly is installed on the sliding support (20);

two of the polishing assemblies are distributed opposite to each other.

6. The synchronous polishing device for processing the aluminum alloy doors and windows as claimed in claim 5, wherein each polishing component comprises a polishing motor (21) and a grinding wheel (22), the polishing motor (21) is mounted on a sliding support (20), and the grinding wheel (22) is mounted at the driving end of the polishing motor (21);

the two grinding wheels (22) are vertically distributed in the inner side area of the second cross support frame (19).

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