CN218081910U - Round part beveling equipment - Google Patents

Abstract

The utility model discloses a round part chamfering device, which comprises a frame, wherein a supporting seat and a cradle are arranged on the frame, a rotating pressure rod is arranged on the side surface of the supporting seat, a pressing power component is arranged at the top of the rotating pressure rod, a positioning pressure head is arranged at the bottom of the rotating pressure rod, the cradle is arranged below the rotating pressure rod, the outside of the cradle is connected with an eccentric swinging mechanism, a water bucket is arranged inside the cradle, a chamfering ball die is arranged in the water bucket, and the chamfering ball die is connected with a chamfering transmission mechanism through a chamfering main shaft; still be provided with the part anchor clamps between location pressure head and the chamfered edge ball mould, be provided with the part recess on the part anchor clamps bottom surface, the part anchor clamps top sets up to first protruding type sphere, be provided with the concave type sphere of second on the location pressure head that the part anchor clamps correspond, the camber of first protruding type sphere and the concave type sphere of second is the same. The utility model discloses machining efficiency is high, and the back-off is of high quality to the processing cost has effectively been reduced.

Description

Round part chamfering equipment

Technical Field

The utility model relates to a lens processing technology field, concretely relates to circular part beveling equipment.

Background

The protective edge chamfering of the optical part is used for preventing a sharp edge from scratching a contact part of a person and preventing the edge of the part from being broken due to the contact of the part and other objects. The chamfering surface can be a plane or an arc surface, the initial optical part chamfering is performed manually in a ball mould, the ball mould rotates, the part is placed in the ball mould by a handle, the part is pushed forwards and backwards, and the position is changed.

The traditional ball-milling mode is that diamond mortar is added in a cast iron concave ball die for chamfering, the diamond is cast into bronze to form a die, the processing efficiency is high, the service life is long, the chamfering die is also V-shaped and cannot swing, and the chamfering can only be carried out at one position, so that partial abrasion can be easily caused on the die, the chamfering die cannot be used after the diamond is worn, the processing cost is greatly improved, and the problem of edge breakage can be easily caused.

Disclosure of Invention

The utility model aims to solve the technical problem and provide a circular part beveling equipment, machining efficiency is high, and the beveling is of high quality to the processing cost has effectively been reduced.

In order to solve the technical problem, the utility model provides a round part beveling equipment, which comprises a frame, be provided with supporting seat and cradle in the frame, be provided with the rotatory depression bar on the supporting seat side surface, rotatory depression bar top is provided with and pushes down power component, rotatory depression bar bottom is provided with the location pressure head, the cradle sets up in rotatory depression bar below, the cradle outside is connected with eccentric swing mechanism, the cradle inside is provided with the bucket, be provided with the beveling ball mould in the bucket, the beveling ball mould is connected with beveling drive mechanism through the beveling main shaft;

still be provided with the part anchor clamps between location pressure head and the chamfered edge ball mould, be provided with the part recess on the part anchor clamps bottom surface, the part anchor clamps top sets up to first protruding type sphere, be provided with the concave sphere of second on the location pressure head that the part anchor clamps correspond, the radius of curvature of first protruding type sphere and the concave sphere of second is the same.

Furthermore, two shaft seats are arranged between the cradle and the rack, the two shaft seats are coaxially arranged, and a rotating shaft matched with the shaft seats is further arranged on the cradle.

Furthermore, the eccentric swing mechanism comprises a speed reducing motor, an eccentric wheel and a connecting rod, wherein the eccentric wheel is installed on the speed reducing motor, one end of the connecting rod is connected with the eccentric wheel through a shaft, and the other end of the connecting rod is connected with the cradle.

Furthermore, the chamfering transmission mechanism comprises a transmission motor and a belt assembly, and the transmission motor is connected with the chamfering main shaft through the belt assembly.

Furthermore, a circulating water pump is arranged on the water bucket, and the water outlet end of the circulating water pump is connected with the universal pipe.

Further, rotatory depression bar includes uide bushing and guide bar, uide bushing and supporting seat fixed connection, the uide bushing is established on the guide bar surface, the guide bar top is connected with the power component that pushes down, the power component that pushes down is the cylinder.

Furthermore, still be provided with automatic re-setting mechanism between uide bushing and the guide bar, automatic re-setting mechanism includes spring and spacing ring, the spacing ring sets up on the guide bar, the spring sets up in the uide bushing, the spacing ring is from last to compressing spring down.

Furthermore, the chamfering ball die is in threaded connection with the chamfering main shaft.

The utility model has the advantages that:

1. the edge chamfering ball die can rotate and swing, namely, the edge chamfering ball die drives a part and a rotary pressing rod to rotate, the edge of the part can be chamfered uniformly, the edge chamfering ball die has a large-range edge chamfering contact surface in the edge chamfering process due to the addition of the swing action, so that the abrasion is uniform, the utilization rate is high, the edge chamfering can be continuously performed in a long time, the replacement interval of the edge chamfering die is long, and the edge chamfering cost is reduced.

2. The first convex spherical surface of the part clamp is matched with the second concave spherical surface of the positioning pressure head, automatic positioning can be achieved under pressure, when a part is placed incorrectly, the contact position of the part clamp and the positioning pressure head is only a little, the part clamp and the positioning pressure head move towards the unstressed direction under the action of pressure until the pressure head is in full contact with the spherical surface of the clamp, the operation is simple, the chamfering precision is greatly improved, and the chamfering quality is guaranteed.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a side view schematic structure of the present invention;

FIG. 3 is an exploded view of the chamfered part of the present invention;

FIG. 4 is a schematic structural view of the present invention when placing parts;

fig. 5 is a schematic structural diagram after the position is adaptively adjusted according to the present invention;

fig. 6 is a schematic view of the mechanism of the rotary pressing rod of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not limited to the present invention.

Referring to fig. 1 to 5, an embodiment of the round part chamfering equipment of the present invention includes a frame 1, a support seat 2 and a cradle 3 are disposed on the frame, a rotation pressure rod 4 is disposed on a side surface of the support seat, a pressing power component 5 is disposed on a top of the rotation pressure rod, a positioning pressure head 6 is disposed on a bottom of the rotation pressure rod, the cradle is disposed below the rotation pressure rod, an outer portion of the cradle is connected to an eccentric swing mechanism 7, a water bucket 8 is disposed inside the cradle, a chamfering ball mold 9 is disposed in the water bucket, and the chamfering ball mold is connected to a chamfering transmission mechanism 11 through a chamfering main shaft 10; still be provided with part anchor clamps 12 between location pressure head and the chamfered edge ball mould, be provided with part recess 13 on the part anchor clamps bottom surface, the part anchor clamps top sets up to first protruding type sphere 14, is provided with the concave sphere 15 of second on the location pressure head that the part anchor clamps correspond, and the radius of curvature of first protruding type sphere and the concave sphere of second is the same.

Chamfering: part 112 is arranged in a part clamp, the part and the part clamp are integrally and downwards placed in a chamfered ball die, a power assembly is pressed down to push a rotary pressure rod downwards, a second concave spherical surface of a positioning pressure head at the bottom of the power assembly is made to be in contact with a first convex spherical surface on the surface of the part clamp, and under the action of the pressing down pressure, the part clamp can drive the part to automatically adjust the position between a positioning Y head and the chamfered ball die, so that the surface of the part is vertical to the axial direction of the rotary pressure rod. The eccentric swing mechanism and the chamfering transmission mechanism are started, and the chamfering ball die rotates and swings, so that the part and the rotary pressing rod are driven to rotate, and the edge of the part can be chamfered uniformly. The surfaces of the edge chamfering ball dies are in large-range contact, the abrasion is uniform, the abrasion positions are not located, the edges can be chamfered continuously for a long time, and the replacement interval of the edge chamfering die is long. And after the chamfering is finished, stopping the eccentric swing mechanism and the chamfering transmission mechanism, pressing the power assembly to reset, releasing the pressure on the rotating compression rod, taking out the chamfering ball die to obtain a part with one surface finished with chamfering, and continuing the operation to finish the chamfering of the other surface.

Specifically, two shaft seats 111 are arranged between the cradle and the rack, the two shaft seats are coaxially arranged, a rotating shaft matched with the shaft seats is further arranged on the cradle, the axes of the two shaft seats, the axis of the chamfering ball mold and the axis of the rotating pressing rod are intersected with one point, the parts can be guaranteed not to jump in the chamfering mold, and the chamfering quality is greatly improved.

The eccentric swing mechanism comprises a speed reducing motor 16, an eccentric wheel 17 and a connecting rod 18, wherein the eccentric wheel is installed on the speed reducing motor, one end of the connecting rod is connected with an eccentric wheel shaft, the other end of the connecting rod is connected with the cradle, the structure is small in size, swing back and forth can be rapidly achieved, and the requirement of edge chamfering is met. The chamfering transmission mechanism comprises a transmission motor and a belt assembly, the transmission motor is connected with the chamfering main shaft through the belt assembly, the structure is simple, and the operation is stable. Still be provided with circulating water pump on the scuttle, circulating water pump's play water end and universal pipe connection, the liquid that will fall the limit and use is circulated to be extracted, practices thrift use cost.

Foretell rotatory depression bar includes uide bushing 19 and guide bar 20, and uide bushing and supporting seat fixed connection play radial positioning effect, and the guide bar can also rotate in the uide bushing, and the uide bushing cover is established on the guide bar surface, and the guide bar top is connected with the power component that pushes down, and the power component that pushes down is the cylinder, is convenient for exert pressure.

In an embodiment, as shown in fig. 6, an automatic reset mechanism is further arranged between the guide sleeve and the guide rod, when the cylinder does not act, the guide rod can automatically reset, the damage to the cylinder is reduced, when the cylinder is cut off, the guide rod cannot fall off to damage the chamfered ball mold, and particularly, the automatic reset mechanism comprises a spring 21 and a limiting ring 22, the limiting ring is arranged on the guide rod, the spring is arranged in the guide sleeve, the limiting ring compresses the spring from top to bottom, a good reset effect is achieved, detachable end plates are arranged at the top and the bottom of the guide sleeve, the guide sleeve is convenient to assemble, and a guide effect is achieved.

In one embodiment, the chamfering ball die is in threaded connection with the chamfering main shaft, so that replacement is facilitated.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its aspects.

Claims (8)

1. A round part chamfering device is characterized by comprising a rack, wherein a supporting seat and a cradle are arranged on the rack, a rotating pressure rod is arranged on the side surface of the supporting seat, a pressing power assembly is arranged at the top of the rotating pressure rod, a positioning pressure head is arranged at the bottom of the rotating pressure rod, the cradle is arranged below the rotating pressure rod, the outside of the cradle is connected with an eccentric swinging mechanism, a water bucket is arranged inside the cradle, a chamfering ball die is arranged in the water bucket, and the chamfering ball die is connected with a chamfering transmission mechanism through a chamfering main shaft;

still be provided with the part anchor clamps between location pressure head and the chamfered edge ball mould, be provided with the part recess on the part anchor clamps bottom surface, the part anchor clamps top sets up to first protruding type sphere, be provided with the concave sphere of second on the location pressure head that the part anchor clamps correspond, the radius of curvature of first protruding type sphere and the concave sphere of second is the same.

2. The round part beveling apparatus according to claim 1, wherein two shaft seats are provided between the cradle and the frame, the two shaft seats are coaxially provided, and the cradle is further provided with a rotating shaft engaged with the shaft seats.

3. The round part beveling apparatus according to claim 1, wherein the eccentric oscillating mechanism comprises a reduction motor, an eccentric mounted on the reduction motor, and a connecting rod having one end coupled to the eccentric shaft and the other end coupled to the cradle.

4. The round part beveling apparatus of claim 1 wherein the beveling drive mechanism comprises a drive motor and a belt assembly, the drive motor being connected to the beveling spindle by the belt assembly.

5. The round part beveling apparatus according to claim 1, wherein a circulating water pump is provided on the water bucket, and a water outlet end of the circulating water pump is connected to a universal pipe.

6. The round part beveling apparatus of claim 1 wherein the rotating ram comprises a guide sleeve and a guide rod, the guide sleeve is fixedly connected to the support base, the guide sleeve is sleeved on the surface of the guide rod, the top of the guide rod is connected to a down-pressing power assembly, and the down-pressing power assembly is an air cylinder.

7. The round part beveling apparatus according to claim 6, wherein an automatic return mechanism is further provided between the guide sleeve and the guide rod, the automatic return mechanism includes a spring and a stop ring, the stop ring is provided on the guide rod, the spring is provided in the guide sleeve, and the stop ring compresses the spring from top to bottom.

8. The round part beveling apparatus of claim 1 wherein the beveling ball die is threadably connected to a beveling spindle.

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