CN103331737A - Rotary table - Google Patents

Abstract

The invention discloses a rotary table which comprises a conveying machine tool, a support platform, a rotary lifting mechanism and a brake locating device, wherein the support platform is placed on the rotary lifting mechanism; the rotary lifting mechanism is positioned in the conveying machine tool; the brake locating device is connected with the conveying machine tool; and slide bars are arranged above the conveying machine tool. According to the rotary table, a workpiece is placed on the rotary table to be operated during working, so that the labor intensity of an operator is reduced; the manpower cost is saved; and the working efficiency is improved.

Description

Rotary table

Technical field

The present invention relates to a kind of mechanical component, particularly a kind of for the rotary table of door and window curtain wall industry to the auxiliary installation of relevant aluminium section bar processing.

Background technology

Present traditional door and window curtain wall manufacture field, the main method that relies on artificial rotation that workpiece (or manually around workpiece rotation) is installed is operated, under the production demand of large-scale streamline, this mode of operation can't satisfy large batch of production requirement, artificial rotational stability is poor, positioning accuracy is difficult to guarantee, goes wrong easily.

Summary of the invention

Goal of the invention: the objective of the invention is provides a kind of good stability, the rotary table that accuracy is high in order to solve the deficiencies in the prior art.

Technical scheme: in order to realize above purpose, a kind of rotary table of the present invention comprises: carry lathe, brace table, rotation and lifting mechanism, brake positioner; Described brace table is placed in the rotation and lifting mechanism; Described rotation and lifting mechanism is positioned at and carries lathe; Described brake positioner is connected with carrying lathe; Described conveying lathe top is provided with draw runner.

The mechanism of rotation and lifting described in the present invention comprises: the axis of guide, the 3rd bearing block, first plane bearing, second plane bearing, rolling bearing; Described second bearing block is fixed on the axis of guide, and the plane bearing compact heap is fixed on axis of guide top and compresses described second plane bearing; Described first plane bearing, rolling bearing suit axis of guide upper end; Described first plane bearing is installed on second bearing block, and the top snaps in the bottom of the 3rd bearing block; Described rolling bearing is installed in the 3rd bearing block.

Also comprise in the elevating and rotating machine structure of described rotary table of the present invention: sleeve, linear bearing, clutch shaft bearing seat, compact heap and stop screw; Described clutch shaft bearing cover for seat is in the outside of the axis of guide; Described linear bearing is installed between clutch shaft bearing seat and the axis of guide; Compact heap compresses linear bearing; Described stop screw is installed on the compact heap; Sleeve is connected in the brace table below; The both sides of described sleeve are respectively equipped with waist type groove A and the waist type groove B of symmetry.

Rotary table of the present invention also comprises: electric switch, gas control foot valve, automatically controlled foot valve, non-contact type approach switch, warning light and automatically controlled foot valve; Described gas control foot valve control brake positioner; Described brake positioner pins, the non-contact type approach switch shielding; Described brake positioner unclamps, the non-contact type approach switch effect; Described non-contact type approach switch is controlled the rotation and lifting mechanism anglec of rotation; Described automatically controlled foot valve is controlled the lifting of rotation and lifting mechanism; Described gas control is ridden the anxious rotation and lifting mechanism that stops when the brake positioner pins; Described warning light is connected with non-contact type approach switch.By the duplicate protection of electric switch, non-contact type approach switch, guarantee the security of rotary table operation among the present invention, and improved the running accuracy of selecting workbench by non-contact type approach switch.

Non-contact type approach switch comprises described in the present invention: non-contact type approach switch A and non-contact type approach switch B; Warning light comprises: warning light A and warning light B; Described warning light A is connected with non-contact type approach switch A; Described warning light B is connected with non-contact type approach switch B.

The positioner of brake described in the present invention comprises: the piece connecting rod is embraced in brake cylinder, brake connector, brake, piece is embraced in brake; Described brake cylinder is fixed on the conveying lathe of described sleeve both sides; The expansion link of described brake cylinder is embraced piece connecting rod one end with brake and is connected; The other end that the piece connecting rod is embraced in described brake is connected with a brake armful piece; Described brake connector one end is embraced the piece connecting rod with brake and is connected, and the other end is connected and fixed the conveying lathe.

Among the present invention, owing to place on the rotary table during workpiece operation, replace the artificial mode of operation that workpiece (or manually around workpiece rotation) is installed of rotating by rotary table, not only reduced operator's labour intensity and also saved human cost, and improved operating efficiency.

Rotary table of the present invention is provided with anti-skidding hairbrush bar, effectively prevents the sliding phenomenon in the workpiece installation process, has improved machining accuracy, has reduced the generation of defect ware.

The invention also discloses the method for work of rotary table, the concrete steps of this method are as follows: (1) is positioned over workpiece to be processed on the draw runner of carrying lathe;

(2) when brake positioner when being in locking state, rotation and lifting mechanism can't lifting;

(3) guarantee that the brake positioner is in releasing orientation, step on automatically controlled foot valve, rotation and lifting mechanism is risen, rise to be processed of this moment and place on the supporting bable tops that is provided with the hairbrush bar;

(4) rotation and lifting mechanism transposition workpiece is needed the installation site;

(5) gently step on gas control foot valve, brake positioner fixed support platform;

(6) workpiece installation;

(7) gently play gas control foot valve, releasing of brake positioner;

(8) detect the angle of rotation and lifting mechanism by non-contact type approach switch, when rotation and lifting mechanism can descend 0 ° or 180 ° of positions;

(9) gently step on automatically controlled foot valve, the rotation of rotation and lifting mechanism descends;

(10) workpiece is shifted out from the draw runner of carrying lathe.

Beneficial effect: rotary table of the present invention compared with prior art has the following advantages:

(1) rotary table of the present invention replaces the artificial mode of operation that workpiece (or manually around workpiece rotation) is installed of rotating, and has reduced operator's labour intensity, has saved human cost, has improved operating efficiency;

(2) rotary table of the present invention is provided with anti-skidding hairbrush bar, effectively prevents the sliding phenomenon in the workpiece installation process;

(3) be provided with draw runner among the present invention, the conveying workpieces that can conveniently slide makes it satisfy the demand that streamline is produced;

(4) the present invention has guaranteed the security of rotary table operation by the duplicate protection of electric switch, non-contact type approach switch, and has improved the running accuracy of selecting workbench by non-contact type approach switch;

(5) pass through the brake positioner among the present invention, further improved operational stability and accuracy.

Description of drawings

Fig. 1 is structural representation of the present invention.

Fig. 2 is stereogram of the present invention.

Fig. 3 is the structural representation of rotation and lifting mechanism among the present invention.

Fig. 4 is the structural representation of brake positioner among the present invention.

Fig. 5 is electrical interlocks schematic representation of apparatus among the present invention.

Fig. 6 is the schematic diagram of contactless rotation and lifting control device among the present invention.

The specific embodiment

Below in conjunction with specific embodiment, further illustrate the present invention, should understand these embodiment only is used for explanation the present invention and is not used in and limits the scope of the invention, after having read the present invention, those skilled in the art all fall within the application's claims institute restricted portion to the modification of the various equivalent form of values of the present invention.

Embodiment

A kind of rotary table as shown in Figure 1 and Figure 2 comprises: carry lathe, brace table, rotation and lifting mechanism, brake positioner; Described brace table is placed in the rotation and lifting mechanism; Described rotation and lifting mechanism is positioned at and carries lathe; Described brake positioner is connected with carrying lathe; Described conveying lathe top is provided with draw runner.

As shown in Figure 3 rotation and lifting mechanism comprises in the present embodiment: the axis of guide, the 3rd bearing block, first plane bearing, second plane bearing, rolling bearing, sleeve, linear bearing, clutch shaft bearing seat, compact heap and stop screw.The annexation of above-mentioned each parts is as follows: described second bearing block is fixed on the axis of guide, and the plane bearing compact heap is fixed on axis of guide top and compresses described second plane bearing; Described first plane bearing, rolling bearing suit axis of guide upper end; Described first plane bearing is installed on second bearing block, and the top snaps in the bottom of the 3rd bearing block; Described rolling bearing is installed in the 3rd bearing block; Described clutch shaft bearing cover for seat is in the outside of the axis of guide; Described linear bearing is installed between clutch shaft bearing seat and the axis of guide; Compact heap compresses linear bearing; Described stop screw is installed on the compact heap; Sleeve is connected in the brace table below; The both sides of described sleeve are respectively equipped with waist type groove A and the waist type groove B of symmetry.

Described rotation and lifting mechanical work principle is as follows: the described axis of guide rises, the axial force of first plane bearing, second plane bearing, second bearing block, the 3rd bearing block carrying axis of guide, the rotary table that drives on the elevating and rotating machine structure rises, the described axis of guide descends, and rotary table descends under the effect of rotary table deadweight; First plane bearing and second plane bearing have been eliminated the end play of elevating and rotating machine structure simultaneously; When the axis of guide rotated, rolling bearing had carried the radial load of the axis of guide, drove the rotary table rotation of elevating and rotating machine structure top.

The described rotary table of present embodiment also comprises: electric switch, gas control foot valve, automatically controlled foot valve, non-contact type approach switch, warning light and automatically controlled foot valve; Described gas control foot valve control brake positioner; Described brake positioner pins, the non-contact type approach switch shielding; Described brake positioner unclamps, the non-contact type approach switch effect; Described non-contact type approach switch is controlled the rotation and lifting mechanism anglec of rotation; Described automatically controlled foot valve is controlled the lifting of rotation and lifting mechanism; Described gas control is ridden the anxious rotation and lifting mechanism that stops when the brake positioner pins; Described warning light is connected with non-contact type approach switch; Wherein, described non-contact type approach switch comprises: non-contact type approach switch A and non-contact type approach switch B; Warning light comprises: warning light A and warning light B; Described warning light A is connected with non-contact type approach switch A; Described warning light B is connected with non-contact type approach switch B.Wherein above-mentioned electric switch, gas control foot valve, brake, non-contact type approach switch, elevating and rotating machine structure and automatically controlled foot valve have formed an electrical interlocks device, and the principle of this electrical interlocks device is as follows:

Gas control is foot-operated when stepping on, and the brake positioner is in locking-in state, and electric switch is when being in the lock state, and the elevating and rotating machine structure is stepped on automatically controlled foot valve at an arbitrary position, and the elevating and rotating machine structure keeps present situation; Non-contact type approach switch is adjusted the anglec of rotation of elevating and rotating machine structure, and rotation is unclamped automatically controlled foot valve then to 0 degree or 180 degree, adjusts elevating and rotating machine structure height, makes the height of elevating and rotating machine structure be fit to operation; In the anglec of rotation of adjusting rotary table by non-contact type approach switch, height and angle adjustment finish, and step on automatically controlled foot valve again, the elevating and rotating machine structure are remained on height and the angle that needs.

When the brake positioner is in releasing orientation, and the elevating and rotating machine structure is gently stepped on automatically controlled foot valve, the lifting of elevating and rotating machine structure ability in 0 degree and 180 degree (error ± 1 degree) position; If the elevating and rotating machine structure rises, and no longer 0 degree and 180 is spent positions, even the brake positioner is in releasing orientation, under the effect of non-contact type approach switch, gently step on automatically controlled foot valve, the elevating and rotating machine structure also can't fall, and has only the elevating and rotating machine structure is rotated to assigned address, and the elevating and rotating machine structure just can fall automatically; By the duplicate protection of electric switch, non-contact type approach switch, guaranteed the security of elevating and rotating machine structure operation, and improved the running accuracy of elevating and rotating machine structure by non-contact type approach switch.

The working method of non-contact type approach switch described in the present embodiment is as follows: described non-contact type approach switch A is to the right near waist type groove A, when non-contact type approach switch A enters waist type groove A, warning light A is bright, and non-contact type approach switch A control elevating and rotating machine structure moves clockwise; When non-contact type approach switch B enters waist type groove B, warning light B is bright, and non-contact type approach switch B control elevating and rotating machine structure moves counterclockwise; The residing position of elevating and rotating machine structure is that 0 degree and 180 is spent (error ± 1 °) when warning light A and warning light B are bright, and the elevating and rotating machine structure can lifting; The elevating and rotating machine structure can rotate to 0 degree accurately and 180 degree (error ± 1 °) positions fall, and other positions can't fall, and can prevent the danger that maloperation brings, the raising device security.

The positioner of brake described in the present embodiment comprises: the piece connecting rod is embraced in brake cylinder, brake connector, brake, piece is embraced in brake; Described brake cylinder is fixed on the conveying lathe of described sleeve both sides; The expansion link of described brake cylinder is embraced piece connecting rod one end with brake and is connected; The other end that the piece connecting rod is embraced in described brake is connected with a brake armful piece; Described brake connector one end is embraced the piece connecting rod with brake and is connected, and the other end is connected and fixed the conveying lathe.The expansion link home position of described brake cylinder is for stretching out state, when the brake cylinder expansion link inwardly shrinks, brake cylinder is embraced the piece connecting rod by brake and is driven brake and embrace piece to intrinsic displacement, and brake is held piece tightly and held sleeve to be stopped tightly, and what be connected with the brake sleeve waits the workbench stop motion of stopping.

The method of work of the described rotary table of present embodiment is as follows: (1) is positioned over workpiece to be processed on the draw runner of carrying lathe;

(2) when brake positioner when being in locking state, rotation and lifting mechanism can't lifting;

(3) guarantee that the brake positioner is in releasing orientation, step on automatically controlled foot valve, rotation and lifting mechanism is risen, rise to be processed of this moment and place on the supporting bable tops that is provided with the hairbrush bar;

(4) rotation and lifting mechanism transposition workpiece is needed the installation site;

(5) gently step on gas control foot valve, brake positioner fixed support platform;

(6) workpiece installation;

(7) gently play gas control foot valve, releasing of brake positioner;

(8) detect the angle of rotation and lifting mechanism by non-contact type approach switch, when rotation and lifting mechanism can descend 0 ° or 180 ° of positions;

(9) gently step on automatically controlled foot valve, the rotation of rotation and lifting mechanism descends;

(10) workpiece is shifted out from the draw runner of carrying lathe.

Claims (8)

1. a rotary table is characterized in that: comprising: carry lathe (1), brace table (2), rotation and lifting mechanism (3), brake positioner (4); Described brace table (2) is placed in the rotation and lifting mechanism (3); Described rotation and lifting mechanism (3) is positioned at and carries lathe (1); Described brake positioner (4) is connected with carrying lathe (1); Described conveying lathe (1) top is provided with draw runner (5).

2. rotary table according to claim 1, it is characterized in that: described rotation and lifting machine (3) structure comprises: the axis of guide (310), second bearing block (303), the 3rd bearing block (307), first plane bearing (302), second plane bearing (304), plane bearing compact heap (305), rolling bearing (306); Described second bearing block (303) is fixed on the axis of guide (310); Described plane bearing compact heap (305) is fixed on the axis of guide (310) top and compresses described second plane bearing (304); Described first plane bearing (302), rolling bearing (306) the suit axis of guide (310) upper end; Described first plane bearing (302) is installed on second bearing block (303), and the top snaps in the bottom of the 3rd bearing block (307); Described rolling bearing (306) is installed in the 3rd bearing block (307).

3. rotary table according to claim 2, it is characterized in that: described elevating and rotating machine structure comprises: sleeve (403), linear bearing (311), clutch shaft bearing seat (301), compact heap (308) and stop screw (309); Described clutch shaft bearing seat (301) is enclosed within the outside of the axis of guide (310); Described linear bearing (311) is installed between clutch shaft bearing seat (301) and the axis of guide (310); Compact heap (308) compresses linear bearing (311); Described stop screw (309) is installed on the compact heap (308); Sleeve (403) is connected in brace table (2) below; The both sides of described sleeve (403) are respectively equipped with waist type groove A and the waist type groove B of symmetry.

4. rotary table according to claim 3 is characterized in that: comprising: electric switch, gas control foot valve, automatically controlled foot valve, non-contact type approach switch, warning light and automatically controlled foot valve;

Described gas control foot valve control brake positioner; Described brake positioner pins, the non-contact type approach switch shielding; Described brake positioner unclamps, the non-contact type approach switch effect; Described non-contact type approach switch is controlled the rotation and lifting mechanism anglec of rotation; Described automatically controlled foot valve is controlled the lifting of rotation and lifting mechanism; Described gas control is ridden the anxious rotation and lifting mechanism that stops when the brake positioner pins; Described warning light is connected with non-contact type approach switch.

5. rotary table according to claim 4, it is characterized in that: described non-contact type approach switch comprises: non-contact type approach switch A and non-contact type approach switch B; Warning light comprises: warning light A and warning light B; Described warning light A is connected with non-contact type approach switch A; Described warning light B is connected with non-contact type approach switch B.

6. rotary table according to claim 3, it is characterized in that: described brake positioner (4) comprising: a piece connecting rod (402) is embraced in brake cylinder (405), brake connector (401), brake, a piece (404) is embraced in brake; Described brake cylinder (405) is fixed on the conveying lathe of described sleeve (403) both sides; The expansion link of described brake cylinder (405) is embraced piece connecting rod (402) one ends with brake and is connected; The other end that piece connecting rod (402) is embraced in described brake is connected with a brake armful piece (404); Described brake connector (401) one ends are embraced piece connecting rod (402) with brake and are connected, and the other end is connected and fixed the conveying lathe.

7. rotary table according to claim 1 is characterized in that: comprise wool top brush (6); Described wool top brush (6) is positioned on brace table (1) face.

8. the method for work of a rotary table, it is characterized in that: the concrete steps of this method are as follows: (1) is positioned over workpiece to be processed on the draw runner of carrying lathe;

(2) when brake positioner when being in locking state, rotation and lifting mechanism can't lifting;

(3) guarantee that the brake positioner is in releasing orientation, step on automatically controlled foot valve, rotation and lifting mechanism is risen, rise to be processed of this moment and place on the supporting bable tops that is provided with the hairbrush bar;

(4) rotation and lifting mechanism transposition workpiece is needed the installation site;

(5) gently step on gas control foot valve, brake positioner fixed support platform;

(6) workpiece installation;

(7) gently play gas control foot valve, releasing of brake positioner;

(8) detect the angle of rotation and lifting mechanism by non-contact type approach switch, when rotation and lifting mechanism can descend 0 ° or 180 ° of positions;

(9) gently step on automatically controlled foot valve, the rotation of rotation and lifting mechanism descends;

(10) workpiece is shifted out from the draw runner of carrying lathe.

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