CN210677946U - Rotating mechanism for two-station feeding - Google Patents

Abstract

The utility model relates to a rotary mechanism of two station material loading, including V type main rotating ring, drive assembly and four evenly distributed carry out the main rotatory ring supporting component of V type that slides and support outside V type main rotating ring, drive assembly includes speed reduction servo motor, gear shaft and gear, speed reduction servo motor passes through gear shaft and gear connection, be equipped with the insection with the external diameter surface meshing of gear on the internal diameter surface of V type main rotating ring, the external diameter surface of the eccentric rotatory ring of V type that the activity is fixed in V type main rotating ring supporting component contradicts with the external diameter surface of V type main rotating ring and meets; the utility model discloses can cooperate material loading and drop feed mechanism that is located the main rotatory ring both sides of V type to have realized automatic feeding, improve machining efficiency.

Description

Rotating mechanism for two-station feeding

Technical Field

The utility model relates to a charging equipment especially relates to a rotary mechanism of two station material loadings.

Background

The existing gear machining is mostly mass production, so the machining efficiency is an important index for measuring the cost. Gear machining is mostly assembly line operation, and every unit needs to have two lathe (gear hobbing machine, chamfer angle machine), and the machine tool process time is shorter, and operating personnel alternate operation between two equipment, has following several shortcomings: 1. the production efficiency cannot be guaranteed; 2. the labor intensity is high, and the fatigue caused by moving the workpiece by an operator is generated; 3. potential safety hazards, when the operator moves sharp-edged parts, the hands are easy to be injured; 4. the operation level of operators is high; 5. the labor cost of enterprises is improved every year; 6. the purpose of automation cannot be achieved.

To above problem, the utility model discloses the main technical problem who solves provides a compact structure, and degree of automation is high, makes the better realization in scene automatic, moves the rotary mechanism of stable two station material loading.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, the utility model aims at providing a rotary mechanism of two station material loading compact structure, the operation is stable, and two station automatic feeding are realized in the cooperation to upgrade the semi-automatization production line into the higher flexible manufacturing line of degree of automation.

The utility model discloses a rotary mechanism of two station material loading, be in including the main rotatory ring of V type, drive assembly and four evenly distributed the main rotatory ring supporting component of V type that slides the support of going on outside the rotatory ring of V type, drive assembly includes speed reduction servo motor, gear shaft and gear, speed reduction servo motor passes through gear shaft and gear connection, be equipped with on the rotatory internal diameter face of V type main with the insection of the external diameter face meshing of gear, the fixed rotatory eccentric rotatory ring's of V type external diameter face of the rotatory ring supporting component internal activity of V type main with the rotatory ring's of V type main external diameter face is contradicted and is met.

Furthermore, a speed reducer and a servo motor on the speed reducing servo motor are fixed on the driving assembly connecting plate.

Furthermore, an adjusting screw fixing block for adjusting the position of the speed reducer is fixed on the driving assembly connecting plate, and an adjusting screw which is in butt connection with the speed reducer is arranged on the adjusting screw fixing block.

Furthermore, the V-shaped main rotating ring comprises two semicircular rings, and the top surface and the bottom surface of the V-shaped main rotating ring are correspondingly provided with a fixed connecting plate for fixedly connecting the two semicircular rings.

Furthermore, a plurality of tool holes penetrating through the V-shaped main rotating ring are formed in the fixed connecting plates respectively positioned on the top surface and the bottom surface of the V-shaped main rotating ring.

Further, a base plate for holding four of the V-shaped main rotating ring support assemblies is included.

Furthermore, the V-shaped main rotating ring supporting assembly comprises a V-shaped eccentric rotating ring, a dust cover, a locking screw, a locking nut and a mounting block, the V-shaped eccentric rotating ring is movably fixed in the dust cover, and the dust cover is adjustably fixed on the mounting block through the locking screw and the locking nut.

More specifically, each of the mounting blocks is fixed to the base plate.

Furthermore, a plurality of tool holes different in size are formed in the V-shaped main rotating ring.

Borrow by above-mentioned scheme, the utility model discloses at least, have following advantage:

the utility model relates to a rotary mechanism of two station material loading makes production efficiency obtain guaranteeing through automatic rotation, has alleviateed operating personnel and has moved the fatigue that the work piece produced, has reduced the recruitment cost of enterprise, and the cooperation is located the feed mechanism and the drop feed mechanism of the main rotatory ring both sides of V type and has realized automatic material loading.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of a two-station feeding rotating mechanism of the present invention;

fig. 2 is a schematic structural view of a two-station feeding rotating mechanism of the present invention;

FIG. 3 is a schematic structural view of the V-shaped main rotating ring support assembly;

FIG. 4 is a cross-sectional view of the V-shaped main rotating ring support assembly.

1V type main rotating ring 2 speed reduction servo motor

3 gear shaft 4 gear

5 speed reducer 6 servo motor

7 drive assembly connecting plate 8 adjusting screw fixed block

9 adjusting screw 10 fixed connection board

11 tooling holes 12 bottom plate

13V-shaped eccentric rotating ring 14 dustproof cover

15 locking screw 16 locking nut

17 mounting block

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Figure 1 to the rotary mechanism of two station material loading that fig. 4 shows, including the main rotatory ring 1 of V type, drive assembly and four evenly distributed carry out the main rotatory ring supporting component of V type that slides and support outside the main rotatory ring 1 of V type, drive assembly includes reduction servo motor 2, gear shaft 3 and gear 4, reduction servo motor 2 passes through gear shaft 3 and gear 4 and connects, be equipped with the insection with the meshing of gear 4's external diameter face on the internal diameter face of the main rotatory ring 1 of V type, the external diameter face of the eccentric rotatory ring 13 of V type that activity was fixed in the main rotatory ring supporting component of V type contradicts with the external diameter face of the main rotatory ring 1 of V type and meets.

The utility model provides a rotary mechanism of two station material loading's use as follows:

when feeding is needed, because the outer ring of the V-shaped main rotating ring 1 is designed to be outwards convex, namely, the outer diameter surface of the V-shaped main rotating ring 1 is provided with an inverted V-shaped protrusion, the inner ring is a gear ring which is inwards concave, namely, the inner diameter surface is provided with a V-shaped groove which is used for being meshed with the gear 4, the cross section of the V-shaped main rotating ring 1 is V-shaped, after precise grinding is carried out on the angle, smooth rotation can be ensured, the gear 4 is driven by the speed-reducing servo motor 2 to be meshed with the V-shaped main rotating ring 1 by the gear 4 to enable the V-shaped main rotating ring 1 to rotate, the V-shaped main rotating ring 1 is driven to drive the whole mechanism to carry out rotary motion, four V-shaped main rotating ring supporting components which are uniformly distributed outside the V-shaped main rotating ring 1 are designed to be inwards concave through the relative linear motion of the movable V-shaped eccentric rotating ring 13 and the V-shaped, namely, the outer diameter surface of the V-shaped eccentric rotating ring 13 is provided with a V-shaped groove, the V-shaped groove can be well butted with the inverted V-shaped bulge on the outer diameter surface of the V-shaped main rotating ring 1, and the cross section of the V-shaped eccentric rotating ring 13 is also V-shaped.

In the present embodiment, in order to connect the reduction gear 5 and the servo motor 6 working together, the reduction gear 5 and the servo motor 6 on the reduction servo motor 2 are fixed to the drive unit connection plate 7.

In the present embodiment, in order to adjust the gap between the gear 5 and the inner ring gear of the V-shaped main rotating ring 1 and prevent the backlash, an adjusting screw fixing block 8 for adjusting the position of the speed reducer 5 is fixed to the drive unit connecting plate 7, and an adjusting screw 9 for abutting against the speed reducer 5 is provided on the adjusting screw fixing block 8.

In the embodiment, for convenience of installation, the V-shaped main rotating ring 1 is cut into two parts, and is used after being assembled with the V-shaped main rotating ring support assembly, the V-shaped main rotating ring 1 comprises two semicircular rings, and the top surface and the bottom surface of the V-shaped main rotating ring 1 are correspondingly provided with the fixed connecting plates 10 for fixedly connecting the two semicircular rings; therefore, no step difference exists after connection by means of a machining process during assembly.

In this embodiment, in order to adapt to the machining sizes of different workpieces, the main rotating ring 1 is conveniently and precisely matched with the V-shaped rotating ring, and the step difference is reduced, a plurality of tool holes 11 penetrating through the main rotating ring 1 are formed in the fixing connecting plates 10 respectively located on the top surface and the bottom surface of the main rotating ring 1.

In this embodiment, to ensure that the four V-shaped main rotation ring support assemblies are located at different heights, a base plate 12 is also included for securing the four V-shaped main rotation ring support assemblies.

In this embodiment, in order to ensure that the V-shaped main rotating ring 1 and different workpieces are connected to form a new assembly, a plurality of tool holes 11 with different sizes are formed in the V-shaped main rotating ring 1.

In this embodiment, the V-shaped main rotating ring support assembly comprises a V-shaped eccentric rotating ring 13, a dust cover 14, a locking screw 15, a locking nut 16 and a mounting block 17, the V-shaped eccentric rotating ring 13 is movably fixed in the dust cover 14, the dust cover 14 is adjustably fixed on the mounting block 17 through the locking screw 15 and the locking nut 16, and each mounting block 17 is fixed on the base plate 12; therefore, the V-shaped eccentric rotating ring 13 and the V-shaped main rotating ring 1 can be in clearance fit, and in the debugging process, if the clearance of the V-shaped main rotating ring 1 is larger, the clearance can be reduced by loosening the locking screw 15 and adjusting the V-shaped eccentric rotating ring 13.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, it should be noted that, for those skilled in the art, a plurality of improvements and modifications can be made without departing from the technical principle of the present invention, and such improvements and modifications should also be considered as the protection scope of the present invention.

Claims (9)

1. The utility model provides a rotary mechanism of two station material loading which characterized in that: including V type owner rotatory ring (1), drive assembly and four evenly distributed are in V type owner that V type owner rotated ring (1) outer V type owner that carries out sliding support rotates ring supporting component, drive assembly includes speed reduction servo motor (2), gear shaft (3) and gear (4), speed reduction servo motor (2) pass through gear shaft (3) and gear (4) are connected, be equipped with on the internal diameter face of V type owner rotatory ring (1) with the insection of the external diameter face meshing of gear (4), the external diameter face of the eccentric rotatory ring of V type (13) of V type that the activity is fixed in the rotatory ring supporting component of V type owner with the external diameter face of V type owner rotates ring (1) is contradicted and is met.

2. A two-station loading rotary mechanism according to claim 1, wherein: and a speed reducer (5) and a servo motor (6) on the speed reduction servo motor (2) are fixed on the driving assembly connecting plate (7).

3. A two-station loading rotary mechanism according to claim 2, wherein: be fixed with on drive assembly connecting plate (7) and be used for the adjustment adjusting screw fixed block (8) of speed reducer (5) position, be equipped with on adjusting screw fixed block (8) with speed reducer (5) conflict adjusting screw (9) of connecting.

4. A two-station loading rotary mechanism according to claim 1, wherein: the V-shaped main rotating ring (1) comprises two semicircular rings, and the top surface and the bottom surface of the V-shaped main rotating ring (1) are correspondingly provided with a fixed connecting plate (10) for fixedly connecting the two semicircular rings.

5. A rotary mechanism of two station material loading of claim 4, characterized in that: the fixed connecting plate (10) respectively positioned on the top surface and the bottom surface of the V-shaped main rotating ring (1) is provided with a plurality of tool holes (11) penetrating through the V-shaped main rotating ring (1).

6. A two-station loading rotary mechanism according to claim 1, wherein: and a base plate (12) for holding four of said V-shaped main rotating ring support assemblies.

7. A rotary mechanism of two station material loading of claim 6, characterized in that: the V-shaped main rotating ring supporting assembly comprises a V-shaped eccentric rotating ring (13), a dust cover (14), a locking screw (15), a locking nut (16) and a mounting block (17), the V-shaped eccentric rotating ring (13) is movably fixed in the dust cover (14), and the dust cover (14) is adjustably fixed on the mounting block (17) through the locking screw (15) and the locking nut (16).

8. A rotary mechanism of two station material loading of claim 7, characterized in that: each mounting block (17) is fixed on the bottom plate (12).

9. A two-station loading rotary mechanism according to claim 1, wherein: a plurality of tool holes (11) with different sizes are formed in the V-shaped main rotating ring (1).

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