CN217143550U - Machine tool equipment for combined machining - Google Patents

Abstract

The utility model discloses a machine tool equipment for combined machining, which comprises a grinding machine tool body, wherein an upper wall surface of the grinding machine tool body is provided with a bearing and conveying structure, and a side wall surface of the grinding machine tool body is provided with a sheet moving structure; the receiving and conveying structure comprises: the device comprises a plurality of first hydraulic cylinders, a bearing plate, two mounting plates, a plurality of transfer parts, a plurality of belt wheels, a belt and a motor; a plurality of first pneumatic cylinder is installed on the lathe body of polishing, accepts the board and installs in the flexible end of the first pneumatic cylinder of a plurality of, the utility model relates to a lathe technical field, move the piece structure and carry out twice absorption through two sets of vacuum chuck and treat the glass piece of polishing, guarantee that the glass piece is moved the piece structure and is fixed, avoid vacuum chuck inefficacy, avoid the glass piece to drop, guarantee the safety of glass piece, accept conveying structure's height-adjustable, before the glass piece does not contact and accepts conveying structure, accept conveying structure height-rising, shorten the distance with the glass piece, guarantee the safety of glass piece.

Description

Machine tool equipment for combined machining

Technical Field

The utility model relates to a lathe technical field specifically is a machine tool equipment of combined machining.

Background

The existing glass polishing machine tool does not usually have a feeding function, an operator needs to manually take a glass sheet and place the glass sheet on the polishing machine tool, the surface of the glass sheet is easily abraded, the safety of the glass sheet cannot be guaranteed, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

For solving the problem that proposes among the background art, the utility model discloses a following technical scheme realizes: a machine tool device for combined machining comprises a grinding machine tool body, wherein a bearing and conveying structure is arranged on the upper wall surface of the grinding machine tool body, and a sheet moving structure is arranged on the side wall surface of the grinding machine tool body;

the receiving and conveying structure comprises: the device comprises a plurality of first hydraulic cylinders, a bearing plate, two mounting plates, a plurality of transfer parts, a plurality of belt wheels, a belt and a motor;

the first hydraulic cylinder is installed on the polishing machine tool body, the receiving plate is installed at the telescopic end of the first hydraulic cylinder, the two installation plates are installed on the receiving plate, the plurality of transferring portions are movably installed on the two installation plates at equal intervals, the plurality of belt wheels are installed on the plurality of transferring portions respectively, the belt is sleeved on the plurality of belt wheels, the motor is installed on one of the installation plates of the two installation plates, and the driving end of the motor is installed on one of the transferring portions of the plurality of transferring portions.

Preferably, the transfer part includes: two mounting shafts and a plurality of connecting shafts;

two installation axles are respectively movably mounted on the two installation boards, and the connection shafts are connected through flange components.

Preferably, the flange assembly comprises: the mounting structure comprises two flange plates, a plurality of mounting bolts and a plurality of mounting nuts;

a plurality of mounting threaded holes are formed in the two flange plates, a plurality of mounting bolts are respectively inserted into the plurality of mounting threaded holes, and a plurality of mounting nuts are respectively sleeved on the plurality of mounting bolts.

Preferably, the two flange plates are sleeved with anti-skid rubber sleeves.

Preferably, the sheet moving structure comprises: the device comprises a support frame, a screw rod module, a second hydraulic cylinder, a mounting frame, two rotating frames, a rotating disc, a first cylinder and a suction part;

the support frame is installed on the side wall surface of the polishing machine tool body, the screw rod module is installed on the support frame, the second hydraulic cylinder is installed on the moving end of the screw rod module, the mounting frame is installed at the telescopic end of the second hydraulic cylinder, the two rotating frames are movably installed on the mounting frame, the rotating discs are installed on the two rotating frames, the fixed end of the first cylinder is movably installed on the lower wall surface of the mounting frame, the moving end of the first cylinder is movably installed on the upper wall surface of the rotating discs, and the suction portion is installed on the lower wall surface of the rotating discs.

Preferably, the suction part includes: the mounting frame, a plurality of first spring columns, a plurality of first vacuum suckers, a second air cylinder, a connecting plate, a plurality of second spring columns and a plurality of second vacuum suckers;

the mounting frame is installed on the wall under the rolling disc, and the first spring post of a plurality of is installed under the mounting frame on the wall, and the first vacuum chuck of a plurality of is installed respectively on the first spring post of a plurality of, and the second cylinder is installed under the rolling disc on the wall, and the connecting plate is installed in the flexible end of second cylinder, and a plurality of second spring post is installed under the connecting plate on the wall, and a plurality of second vacuum chuck is installed respectively on a plurality of second spring post.

Advantageous effects

The utility model provides a machine tool equipment of combined machining possesses following beneficial effect: the glass sheet to be polished is sucked twice by the sheet moving structure through the two sets of vacuum chucks, the glass sheet is fixed by the sheet moving structure, the vacuum chucks are prevented from losing efficacy, the glass sheet is prevented from falling off, the safety of the glass sheet is ensured, the height of the conveying structure is adjusted, before the glass sheet is not contacted with the conveying structure, the height of the conveying structure is increased, the distance between the glass sheet and the conveying structure is shortened, and the safety of the glass sheet is ensured.

Drawings

Fig. 1 is a schematic sectional view of a main view of a machine tool device for combined machining according to the present invention.

Fig. 2 is a schematic view of the overlooking structure of the receiving and conveying structure of the machine tool equipment for combined machining of the present invention.

Fig. 3 is a schematic sectional view of the working state of the moving plate structure of the machine tool equipment for combined machining according to the present invention.

Fig. 4 is a schematic top view of the mounting rack of the machine tool equipment for combined machining according to the present invention.

Fig. 5 is a partially enlarged structural schematic diagram of fig. 1 of a machine tool apparatus for combined machining according to the present invention.

In the figure: 1. polishing machine tool body, 2, first pneumatic cylinder, 3, accept the board, 4, mounting panel, 5, band pulley, 6, belt, 7, motor, 8, installation axle, 9, connecting axle, 10, the ring flange, 11, the construction bolt, 12, mounting nut, 13, anti-skidding rubber sleeve, 14, the support frame, 15, the lead screw module, 16, the second pneumatic cylinder, 17, the mounting bracket, 18, the rotating turret, 19, the rotating disc, 20, first pneumatic cylinder, 21, the installing frame, 22, first spring post, 23, first vacuum chuck, 24, the second pneumatic cylinder, 25, the connecting plate, 26, second spring post, 27, the second vacuum chuck.

Detailed Description

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b): referring to fig. 1-5, a combined machining machine tool device includes a polishing machine tool body 1, a receiving and conveying structure is arranged on the upper wall surface of the polishing machine tool body 1, and a moving piece structure is arranged on the side wall surface of the polishing machine tool body 1;

wherein, it is required to be noted that: the glass sheet moving structure sucks the glass sheet to be polished twice, so that the glass sheet is fixed by the glass sheet moving structure, the glass sheet is prevented from falling off, the safety of the glass sheet is ensured, the height of the receiving and conveying structure is adjustable, the height of the receiving and conveying structure is increased before the glass sheet is not contacted with the receiving and conveying structure, the distance between the receiving and conveying structure and the glass sheet is shortened, and the safety of the glass sheet is ensured;

in a specific implementation process, the receiving and conveying structure can preferably adopt the following structure, which comprises the following steps: the device comprises a plurality of first hydraulic cylinders 2, a bearing plate 3, two mounting plates 4, a plurality of transfer parts, a plurality of belt wheels 5, a belt 6 and a motor 7; the first hydraulic cylinders 2 are arranged on the grinding machine tool body 1, the bearing plate 3 is arranged at the telescopic ends of the first hydraulic cylinders 2, the two mounting plates 4 are arranged on the bearing plate 3, the transfer parts are movably arranged on the two mounting plates 4 at equal intervals, the belt wheels 5 are respectively arranged on the transfer parts, the belt 6 is sleeved on the belt wheels 5, the motor 7 is arranged on one of the mounting plates 4, and the driving end of the motor 7 is arranged on one of the transfer parts;

wherein, it is required to be noted that: after the glass sheet moves above the plurality of transfer parts, the plurality of first hydraulic cylinders 2 extend to shorten the distance between the first hydraulic cylinders and the glass sheet until the plurality of transfer parts are attached to the glass sheet, then the plurality of first hydraulic cylinders 2 shrink to the original position, the motor 7 works, and the plurality of transfer parts work to convey the glass sheet under the matching of the plurality of belt wheels 5 and the belt 6;

in a specific implementation, the transfer portion may preferably adopt a structure including: two mounting shafts 8 and a plurality of connecting shafts 9; the two mounting shafts 8 are respectively movably mounted on the two mounting plates 4, and the plurality of connecting shafts 9 and the two mounting shafts 8 are connected through flange components;

wherein, it is required to be noted that: the two mounting shafts 8 are connected with the connecting shafts 9 end to end through flange assemblies, the glass sheets contact the flange assemblies, and the flange assemblies convey the glass sheets;

in particular implementations, the flange assembly may preferably adopt the following structure, which includes: the flange plates comprise two flange plates 10, a plurality of mounting bolts 11 and a plurality of mounting nuts 12; a plurality of mounting threaded holes are formed in each of the two flange plates 10, a plurality of mounting bolts 11 are respectively inserted into the plurality of mounting threaded holes, and a plurality of mounting nuts 12 are respectively sleeved on the plurality of mounting bolts 11;

wherein, it is required to be noted that: the two flange plates 10 are connected through a plurality of mounting bolts 11 and a plurality of mounting nuts 12, preferably, the two flange plates 10 are sleeved with anti-skid rubber sleeves 13 for increasing the friction force between the two flange plates 10 and the glass sheets;

in a specific implementation process, the sheet moving structure can preferably adopt the following structure, which comprises the following steps: the device comprises a support frame 14, a screw rod module 15, a second hydraulic cylinder 16, a mounting frame 17, two rotating frames 18, a rotating disc 19, a first air cylinder 20 and a suction part; the support frame 14 is arranged on the side wall surface of the polishing machine tool body 1, the screw rod module 15 is arranged on the support frame 14, the second hydraulic cylinder 16 is arranged on the moving end of the screw rod module 15, the mounting frame 17 is arranged on the telescopic end of the second hydraulic cylinder 16, the two rotating frames 18 are movably arranged on the mounting frame 17, the rotating disc 19 is arranged on the two rotating frames 18, the fixed end of the first cylinder 20 is movably arranged on the lower wall surface of the mounting frame 17, the moving end of the first cylinder 20 is movably arranged on the upper wall surface of the rotating disc 19, and the suction part is arranged on the lower wall surface of the rotating disc 19;

wherein, it is required to be noted that: the suction part sucks the glass sheet, the second hydraulic cylinder 16 contracts, the first air cylinder 20 contracts and drives the rotating disc 19 to move on the mounting frame 17 through the two rotating frames 18, so that the rotating disc 19 is parallel to the screw rod module 15, the screw rod module 15 moves, the rotating disc 19 is transferred to the upper part of the receiving and conveying structure, and then the second hydraulic cylinder 16 extends until the glass sheet is placed on the receiving and conveying structure;

in a specific implementation, the suction part may preferably adopt the following structure, which includes: the device comprises a mounting frame 21, a plurality of first spring columns 22, a plurality of first vacuum chucks 23, a second air cylinder 24, a connecting plate 25, a plurality of second spring columns 26 and a plurality of second vacuum chucks 27; the mounting frame 21 is mounted on the lower wall surface of the rotating disc 19, the plurality of first spring columns 22 are mounted on the lower wall surface of the mounting frame 21, the plurality of first vacuum chucks 23 are respectively mounted on the plurality of first spring columns 22, the second air cylinder 24 is mounted on the lower wall surface of the rotating disc 19, the connecting plate 25 is mounted at the telescopic end of the second air cylinder 24, the plurality of second spring columns 26 are mounted on the lower wall surface of the connecting plate 25, and the plurality of second vacuum chucks 27 are respectively mounted on the plurality of second spring columns 26;

wherein, it is required to be noted that: before sucking the glass piece, second cylinder 24 extends, makes connecting plate 25 drive a plurality of second vacuum chuck 27 and preferentially absorbs the glass piece, and second cylinder 24 contracts afterwards, absorbs the glass piece until a plurality of first vacuum chuck 23, guarantees the safety of glass piece.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The machine tool equipment for combined machining comprises a grinding machine tool body (1), and is characterized in that a bearing and conveying structure is arranged on the upper wall surface of the grinding machine tool body (1), and a sheet moving structure is arranged on the side wall surface of the grinding machine tool body (1);

the receiving and conveying structure comprises: the device comprises a plurality of first hydraulic cylinders (2), a bearing plate (3), two mounting plates (4), a plurality of conveying parts, a plurality of belt wheels (5), a belt (6) and a motor (7);

a plurality of first pneumatic cylinder (2) are installed on grinding machine tool body (1), accept board (3) and install in the flexible end of the first pneumatic cylinder (2) of a plurality of, install on accepting board (3) two mounting panel (4), a plurality of transfer portion equidistance movable mounting is on two mounting panel (4), a plurality of band pulley (5) are installed respectively on a plurality of transfer portion, belt (6) suit is on a plurality of band pulley (5), motor (7) are installed on one of them mounting panel (4) in two mounting panel (4), and the drive end of motor (7) is installed on one of them transfer portion in a plurality of transfer portion.

2. The machine tool apparatus for combined machining according to claim 1, wherein the transfer section includes: two mounting shafts (8) and a plurality of connecting shafts (9);

two installation axles (8) are respectively movably mounted on the two installation axles (4), and a plurality of connecting shafts (9) are connected with the two installation axles (8) through flange components.

3. A combined machining tool apparatus according to claim 2 in which the flange assembly includes: the mounting structure comprises two flange plates (10), a plurality of mounting bolts (11) and a plurality of mounting nuts (12);

a plurality of mounting threaded holes are formed in the two flange plates (10), a plurality of mounting bolts (11) are respectively inserted into the plurality of mounting threaded holes, and a plurality of mounting nuts (12) are respectively sleeved on the plurality of mounting bolts (11).

4. A combined machining tool according to claim 3 characterised in that the two flanges (10) are fitted with anti-slip rubber sleeves (13).

5. The combined machining machine tool device according to claim 1, characterized in that the wafer moving structure includes: the device comprises a support frame (14), a screw rod module (15), a second hydraulic cylinder (16), a mounting frame (17), two rotating frames (18), a rotating disc (19), a first air cylinder (20) and a suction part;

support frame (14) are installed on the side wall face of polishing machine tool body (1), lead screw module (15) are installed on support frame (14), second hydraulic cylinder (16) are installed on lead screw module (15) removal end, mounting bracket (17) are installed in the flexible end of second hydraulic cylinder (16), two rotating turret (18) movable mounting are on mounting bracket (17), rolling disc (19) are installed on two rotating turret (18), first cylinder (20) stiff end movable mounting is on mounting bracket (17) lower wall face, first cylinder (20) removal end movable mounting is on rolling disc (19) upper wall face, the portion of absorbing is installed on rolling disc (19) lower wall face.

6. The machine tool apparatus for combined machining according to claim 5, wherein the suction portion includes: the device comprises a mounting frame (21), a plurality of first spring columns (22), a plurality of first vacuum suckers (23), a second air cylinder (24), a connecting plate (25), a plurality of second spring columns (26) and a plurality of second vacuum suckers (27);

the mounting frame (21) is installed on the wall under rolling disc (19), a plurality of first spring posts (22) are installed on the wall under mounting frame (21), a plurality of first vacuum chuck (23) are installed respectively on a plurality of first spring posts (22), second cylinder (24) are installed on the wall under rolling disc (19), connecting plate (25) are installed on the flexible end of second cylinder (24), a plurality of second spring posts (26) are installed on the wall under connecting plate (25), a plurality of second vacuum chuck (27) are installed respectively on a plurality of second spring posts (26).

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