CN215618811U - A roll forming device for ceramic machining - Google Patents

Abstract

The utility model belongs to the field of ceramic processing, and particularly relates to a rolling forming device for ceramic processing, which comprises a moving mechanism and a rolling mechanism, wherein the rolling mechanism is arranged above the moving mechanism; moving mechanism includes bottom support, workstation, servo motor, ball screw, optical axis, base, first hydraulic stem, gear box, rotation axis, supporting seat, step motor, jack catch, die block, first driving motor, first gearbox, revolving stage, motor support, bottom support top is provided with the workstation, the workstation front portion is provided with servo motor drives ball screw through servo motor and rotates, makes the base remove, utilizes first hydraulic stem to drive the supporting seat and reciprocates, conveniently puts down the die block and takes out the jack catch, and it is rotatory to drive the rotary disk through first driving motor, utilizes the second hydraulic stem to drive the movable plate and reciprocates, and it is rotatory to drive the mould through the second driving motor, improves production efficiency, promotes product quality, alleviates the labour.

Description

A roll forming device for ceramic machining

Technical Field

The utility model belongs to the field of ceramic processing, and particularly relates to a roll forming device for ceramic processing.

Background

The ceramic is a general term of pottery and porcelain, is also an industrial art in China, and is wild and simple ancient painted pottery and black pottery in China in the age of the stone novelties. The pottery is made of clay, feldspar and quartz, is semitransparent, does not absorb water, is corrosion-resistant, has hard and compact matrix, and is crisp when being knocked. The traditional ceramic art and craft articles in China are high in quality, beautiful in shape and high in artistic value, are famous in the world, the clay blank is required to be formed when the ceramics are produced in batches, the manual mode is slow in processing speed and poor in processing quality, and batch production cannot be achieved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a roll forming device for ceramic processing.

The technical scheme adopted by the utility model is as follows:

a roll forming device for ceramic processing comprises a moving mechanism and a rolling mechanism, wherein the rolling mechanism is arranged above the moving mechanism; the moving mechanism comprises a bottom support, a workbench, a servo motor, a ball screw, an optical axis, a base, a first hydraulic rod, a gear box, a rotating shaft, a supporting seat, a stepping motor, a clamping claw, a bottom die, a first driving motor, a first gearbox, a rotating table and a motor support, wherein the workbench is arranged above the bottom support, the servo motor is arranged at the front part of the workbench, the ball screw is arranged at the output end of the servo motor, the optical axis is arranged at one side of the ball screw, the base is arranged outside the ball screw and the optical axis, the first hydraulic rod is arranged above the base, the gear box is arranged above the first hydraulic rod, the rotating shaft is arranged above the gear box, the supporting seat is arranged above the rotating shaft, the stepping motor is arranged above the supporting seat, the clamping jaws are arranged on two sides of the supporting seat, the bottom die is arranged above the clamping jaws, the rotating table is arranged on the rear portion of the clamping jaws and above the workbench, the first gearbox is arranged below the rotating table and below the workbench, the first driving motor is arranged below the first gearbox, and the motor support is arranged below the first driving motor; rolling mechanism includes tie-beam, back shaft, goes up backup pad, movable plate, second hydraulic stem, second gearbox, second driving motor, threaded shaft, goes up the mould, the workstation top is located the revolving stage both sides are provided with two the tie-beam, the tie-beam inboard is provided with two the back shaft, the tie-beam with the back shaft top is provided with go up the backup pad, the back shaft outside is provided with the movable plate, the movable plate top is provided with the second hydraulic stem, the second hydraulic stem front portion is provided with above being located the movable plate the second driving motor, second driving motor below is provided with the second gearbox, second gearbox below is provided with the threaded shaft, the threaded shaft below is provided with go up the mould.

Preferably: the upper die is made of polyethylene material.

So set up, be convenient for change go up mould and material and change and obtain.

Preferably: the bottom bracket is connected with the workbench and the motor bracket in a welded manner, the servo motor is connected with the workbench through bolts, the ball screw is connected with the workbench bearing, the optical axis is connected with the workbench in a welded manner, the servo motor is connected with the ball screw in a coupling manner, the base is connected with the ball screw in a threaded manner, the base is connected with the optical axis in a sliding manner, the first hydraulic rod is connected with the base in a welded manner, the gear box is connected with the first hydraulic rod through bolts, the rotating shaft is connected with the gear box in a tooth meshing manner, the supporting seat is connected with the stepping motor and the rotating shaft in a tooth meshing manner, the clamping jaw is connected with the supporting seat through bolts, the first driving motor is connected with the motor bracket through bolts, the first gearbox is connected with the first driving motor and the rotating table in a tooth meshing manner, the rotating table is connected with the working table through a bearing.

So set up, servo motor drives ball screw is rotatory, makes the base removes, first hydraulic stem drives the supporting seat reciprocates, conveniently puts down the die block takes out the jack catch, a driving motor drives the rotary disk is rotatory.

Preferably: the tie-beam with the back shaft all with workstation welded connection, go up the backup pad with the tie-beam with back shaft welded connection, the movable plate with back shaft sliding connection, the second hydraulic stem with go up backup pad bolted connection, the second hydraulic stem with movable plate welded connection, the second gearbox with movable plate bolted connection, the second driving motor with the threaded spindle all with second gearbox tooth meshing is connected, go up the mould with threaded spindle threaded connection.

According to the arrangement, the second hydraulic rod drives the moving plate to move up and down, and the second driving motor drives the upper die to rotate.

The utility model has the beneficial effects that: it is rotatory to drive ball screw through servo motor, makes the base remove, utilizes first hydraulic stem to drive the supporting seat and reciprocates, conveniently puts down the die block and takes out the jack catch, and it is rotatory to drive the rotary disk through first driving motor, utilizes second hydraulic stem to drive the movable plate and reciprocates, drives through second driving motor and goes up the mould rotation, improves production efficiency, promotes product quality, alleviates the labour.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural diagram of a roll forming apparatus for ceramic processing according to the present invention;

FIG. 2 is a front view of a roll forming apparatus for ceramic processing according to the present invention;

FIG. 3 is a first perspective view of a roll forming apparatus for ceramic processing according to the present invention;

FIG. 4 is a perspective view of a roll forming apparatus for ceramic processing according to a second aspect of the present invention;

FIG. 5 is a partial schematic view of a roll forming apparatus for ceramic processing according to the present invention.

The reference numerals are explained below:

1. a moving mechanism; 2. a rolling mechanism; 101. a bottom bracket; 102. a work table; 103. a servo motor; 104. a ball screw; 105. an optical axis; 106. a base; 107. a first hydraulic lever; 108. a gear case; 109. a rotating shaft; 110. a supporting seat; 111. a stepping motor; 112. a claw; 113. bottom die; 114. a first drive motor; 115. a first gearbox; 116. a rotating table; 117. a motor bracket; 201. a connecting beam; 202. a support shaft; 203. an upper support plate; 204. moving the plate; 205. a second hydraulic rod; 206. a second gearbox; 207. a second drive motor; 208. a threaded shaft; 209. and (5) an upper die.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings.

Examples

As shown in fig. 1 to 5, a roll forming device for ceramic processing includes a moving mechanism 1 and a rolling mechanism 2, wherein the rolling mechanism 2 is arranged above the moving mechanism 1; the moving mechanism 1 comprises a bottom bracket 101, a workbench 102, a servo motor 103, a ball screw 104, an optical axis 105, a base 106, a first hydraulic rod 107, a gear box 108, a rotating shaft 109, a supporting seat 110, a stepping motor 111, a jaw 112, a bottom die 113, a first driving motor 114, a first gearbox 115, a rotating platform 116 and a motor bracket 117, wherein the workbench 102 is arranged above the bottom bracket 101, the servo motor 103 is arranged at the front part of the workbench 102, the ball screw 104 is arranged at the output end of the servo motor 103, the optical axis 105 is arranged at one side of the ball screw 104, the base 106 is arranged outside the ball screw 104 and the optical axis 105, the first hydraulic rod 107 is arranged above the base 106, the gear box 108 is arranged above the first hydraulic rod 107, the rotating shaft 109 is arranged above the gear box 108, the supporting seat 110 is arranged above the rotating shaft 109, the stepping motor 111 is arranged above the supporting seat 110, and the jaw 112 is arranged at two sides of the supporting seat 110, a bottom die 113 is arranged above the jaw 112, a rotating table 116 is arranged at the rear part of the jaw 112 and above the workbench 102, a first gearbox 115 is arranged below the rotating table 116 and below the workbench 102, a first driving motor 114 is arranged below the first gearbox 115, and a motor support 117 is arranged below the first driving motor 114; the rolling mechanism 2 comprises connecting beams 201, supporting shafts 202, upper supporting plates 203, a moving plate 204, a second hydraulic rod 205, a second gearbox 206, a second driving motor 207, a threaded shaft 208 and an upper die 209, wherein the two connecting beams 201 are arranged above the workbench 102 and on two sides of the rotating platform 116, the two supporting shafts 202 are arranged on the inner sides of the connecting beams 201, the upper supporting plates 203 are arranged above the connecting beams 201 and the supporting shafts 202, the moving plate 204 is arranged outside the supporting shafts 202, the second hydraulic rod 205 is arranged above the moving plate 204, the second driving motor 207 is arranged in front of the second hydraulic rod 205 and above the moving plate 204, the second gearbox 206 is arranged below the second driving motor 207, the threaded shaft 208 is arranged below the second gearbox 206, and the upper die 209 is arranged below the threaded shaft 208; the upper die 209 is provided with a polyethylene material.

Preferably: the bottom support 101 is connected with the workbench 102 and the motor support 117 in a welding mode, the servo motor 103 is connected with the workbench 102 through bolts, the ball screw 104 is connected with the workbench 102 through bearings, the optical axis 105 is connected with the workbench 102 in a welding mode, the servo motor 103 is connected with the ball screw 104 through a coupler, the base 106 is connected with the ball screw 104 through threads, the base 106 is connected with the optical axis 105 in a sliding mode, the first hydraulic rod 107 is connected with the base 106 in a welding mode, the gear box 108 is connected with the first hydraulic rod 107 through bolts, the rotating shaft 109 is connected with the gear box 108 in a tooth meshing mode, the supporting seat 110 is connected with the stepping motor 111 and the rotating shaft 109 in a tooth meshing mode, the clamping jaws 112 are connected with the supporting seat 110 through bolts, the first driving motor 114 is connected with the motor support 117 through bolts, the first gearbox 115 is connected with the first driving motor 114 and the rotating seat 116 in a tooth meshing mode, and the rotating seat 116 is connected with the workbench 102 through bearings; the connecting beam 201 and the supporting shaft 202 are both connected with the workbench 102 in a welded mode, the upper supporting plate 203 is connected with the connecting beam 201 and the supporting shaft 202 in a welded mode, the moving plate 204 is connected with the supporting shaft 202 in a sliding mode, the second hydraulic rod 205 is connected with the upper supporting plate 203 in a bolted mode, the second hydraulic rod 205 is connected with the moving plate 204 in a welded mode, the second gearbox 206 is connected with the moving plate 204 in a bolted mode, the second driving motor 207 and the threaded shaft 208 are both connected with the second gearbox 206 in a tooth meshing mode, and the upper die 209 is connected with the threaded shaft 208 in a threaded mode.

The working principle is as follows: firstly, placing a mud blank in a bottom die 113, starting a servo motor 103 to drive a ball screw 104 to rotate, moving a base 106 to the position above a rotating platform 116, starting a first hydraulic rod 107 to place the bottom die 113 in a clamping groove of the rotating platform 116, starting a first driving motor 114 to drive the rotating platform 116 to rotate, starting a second driving motor 207 to rotate an upper die 209, starting a second hydraulic rod 205 to drive a moving plate 204 to move downwards, performing roll forming treatment, lifting the second hydraulic rod 205 after the roll forming treatment is completed, starting the servo motor 103 to take out the bottom die 113 through a clamping jaw 112, and starting a stepping motor 111 to rotate for a certain angle to take away the bottom die 113 and place a new bottom die 113 and mud blank.

While the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (4)

1. The utility model provides a roll forming device for ceramic machining which characterized in that: the rolling machine comprises a moving mechanism (1) and a rolling mechanism (2), wherein the rolling mechanism (2) is arranged above the moving mechanism (1);

the moving mechanism (1) comprises a bottom support (101), a workbench (102), a servo motor (103), a ball screw (104), an optical axis (105), a base (106), a first hydraulic rod (107), a gear box (108), a rotating shaft (109), a supporting seat (110), a stepping motor (111), a claw (112), a bottom die (113), a first driving motor (114), a first gearbox (115), a rotating table (116) and a motor support (117), wherein the workbench (102) is arranged above the bottom support (101), the servo motor (103) is arranged at the front part of the workbench (102), the ball screw (104) is arranged at the output end of the servo motor (103), the optical axis (105) is arranged at one side of the ball screw (104), the base (106) is arranged outside the ball screw (104) and the optical axis (105), the first hydraulic rod (107) is arranged above the base (106), the gear box (108) is arranged above the first hydraulic rod (107), the rotating shaft (109) is arranged above the gear box (108), the supporting seat (110) is arranged above the rotating shaft (109), the stepping motor (111) is arranged above the supporting seat (110), the clamping jaws (112) are arranged on two sides of the supporting seat (110), the bottom die (113) is arranged above the clamping jaw (112), the rotating table (116) is arranged at the rear part of the clamping jaw (112) and above the workbench (102), the first gearbox (115) is arranged below the rotating table (116) and below the workbench (102), the first driving motor (114) is arranged below the first gearbox (115), the motor bracket (117) is arranged below the first driving motor (114);

the rolling mechanism (2) comprises a connecting beam (201), supporting shafts (202), an upper supporting plate (203), a moving plate (204), second hydraulic rods (205), a second gearbox (206), a second driving motor (207), a threaded shaft (208) and an upper die (209), wherein the two connecting beams (201) are arranged above the workbench (102) and positioned on two sides of the rotating table (116), the two supporting shafts (202) are arranged on the inner side of the connecting beam (201), the upper supporting plate (203) is arranged above the connecting beam (201) and the supporting shafts (202), the moving plate (204) is arranged outside the supporting shafts (202), the second hydraulic rods (205) are arranged above the moving plate (204), the second driving motor (207) is arranged on the front portion of the second hydraulic rods (205) and positioned above the moving plate (204), the second gearbox (206) is arranged below the second driving motor (207), the threaded shaft (208) is arranged below the second gearbox (206), and the upper die (209) is arranged below the threaded shaft (208).

2. The roll forming apparatus for ceramic processing according to claim 1, wherein: the upper die (209) is made of polyethylene material.

3. The roll forming apparatus for ceramic processing according to claim 1, wherein: the bottom support (101) is connected with the workbench (102) and the motor support (117) in a welded manner, the servo motor (103) is connected with the workbench (102) in a bolted manner, the ball screw (104) is connected with the workbench (102) in a bearing manner, the optical axis (105) is connected with the workbench (102) in a welded manner, the servo motor (103) is connected with the ball screw (104) in a coupling manner, the base (106) is connected with the ball screw (104) in a threaded manner, the base (106) is connected with the optical axis (105) in a sliding manner, the first hydraulic rod (107) is connected with the base (106) in a welded manner, the gear box (108) is connected with the first hydraulic rod (107) in a bolted manner, the rotating shaft (109) is connected with the gear box (108) in a tooth meshing manner, and the supporting seat (110) is connected with the stepping motor (111) and the rotating shaft (109) in a tooth meshing manner, the jack catch (112) with supporting seat (110) bolted connection, first driving motor (114) with motor support (117) bolted connection, first gearbox (115) with first driving motor (114) with revolving stage (116) tooth meshing is connected, revolving stage (116) with workstation (102) bearing is connected.

4. The roll forming apparatus for ceramic processing according to claim 1, wherein: connecting beam (201) with back shaft (202) all with workstation (102) welded connection, go up backup pad (203) with connecting beam (201) with back shaft (202) welded connection, movable plate (204) with back shaft (202) sliding connection, second hydraulic stem (205) with go up backup pad (203) bolted connection, second hydraulic stem (205) with movable plate (204) welded connection, second gearbox (206) with movable plate (204) bolted connection, second driving motor (207) with threaded shaft (208) all with second gearbox (206) tooth meshing is connected, go up mould (209) with threaded shaft (208) threaded connection.

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