CN114192812B - Multi-station lathe - Google Patents

Abstract

The application discloses multistation lathe, including first processing agency and second processing agency, still including setting up the material receiving transfer mechanism between first processing agency and second processing agency, the material receiving transfer mechanism is used for processing the back at first processing agency, shifts the material to on the second processing agency. The utility model provides a multistation lathe connects material transfer mechanism to realize the automation of first processing mechanism and second processing mechanism and links up through setting up, connects material transfer mechanism to accomplish the back at first processing mechanism processing, shifts the material to the enterprising further processing of second processing mechanism.

Description

Multi-station lathe

Technical Field

The invention relates to the field of machining equipment, in particular to a multi-station lathe.

Background

When the bearing ring is machined, the bearing ring needs to be machined through a plurality of machine tools, and after materials are machined on a machining mechanism of one machine tool, the materials need to be manually placed into the machining mechanism of the next machine tool, so that the machining efficiency is low, and the labor intensity is high.

Disclosure of Invention

The invention provides a multi-station lathe aiming at the problems.

The technical scheme adopted by the invention is as follows:

the utility model provides a multi-station lathe, includes first processing agency and second processing agency, still includes the material receiving transfer mechanism who sets up between first processing agency and second processing agency, the material receiving transfer mechanism is used for transferring the material to on the second processing agency after first processing agency processing is accomplished.

The utility model provides a multistation lathe connects material transfer mechanism to realize the automation of first processing mechanism and second processing mechanism and links up through setting up, connects material transfer mechanism to accomplish the back at first processing mechanism processing, shifts the material to the enterprising further processing of second processing mechanism.

In one embodiment of the present invention, the material receiving transfer mechanism includes a material receiving assembly and a first telescopic element for driving the material receiving assembly to move, and the material receiving assembly includes:

a receiving box having a receiving space for receiving material, the receiving space having an outlet;

the opening plate rotates to be installed on the material receiving box, the opening plate has a closed work position and an open work position, and when the closed work position, the opening plate is closed or semi-closed the export, the material in the receiving space can not drop from the export, and when the work position was opened, the opening plate is rotatory to be opened, and the material in the receiving space can be followed the export drops.

Connect material transfer mechanism can receive the material that first processing agency processed through receiving space, then remove to second processing agency through first telescopic element on, open the plywood through corresponding structure at last, can make the material drop from the export, get into on the second processing agency, carry out further processing.

In practical use, the opening and closing plate can be opened in various ways, such as an opening structure arranged on the second processing mechanism, for example, an opening and closing motor is arranged to perform opening and closing operation. In one embodiment of the present invention, preferably, the material receiving assembly further includes an elastic member, which is used for keeping the opening-closing plate in the closed working position when no external force is applied to the opening-closing plate; the material receiving assembly further comprises a trigger rod fixed with the opening plate rotating shaft;

the second processing mechanism comprises an inclined track and a release assembly arranged at the higher end of the inclined track, the release assembly is used for contacting with the trigger rod when the material receiving box moves to the upper part of the inclined track, the trigger rod and the opening plate are driven to rotate synchronously, and the material drops to the inclined track from the outlet.

Through the cooperation of elastic component, trigger bar and release assembly, can remove the back of targetting in place at the material receiving box and open the export automatically, need not other power supplies, whole simple structure and reliable.

In one embodiment of the invention, the material receiving box comprises two side plates arranged in parallel and a limiting plate detachably mounted between the two side plates, wherein one side plate is provided with a notch for materials to enter, the two side plates and the limiting plate form the receiving space, and the opening plate corresponds to the limiting plate.

One of them curb plate can make things convenient for the material to fall into through setting up the notch, and another lateral wall can block the material, guarantees that the material reliably falls into the receiving space. The limiting plates are detachably mounted on the two side plates, so that different limiting plates can be replaced according to needs, and the adaptability of the material receiving and transferring mechanism is stronger.

In one embodiment of the invention, the material receiving box further comprises a fixed plate arranged between the two side plates, and the fixed plate is positioned above the opening plate and corresponds to the upper part of the limiting plate; the limiting plate is detachably mounted on one side plate through a fastener, the limiting plate is a bent plate and is provided with two bent parts, and the two bent parts form an angle larger than or equal to 90 degrees.

Set up the restriction that the fixed plate can be changed the material when the material gets into, guarantee reliably to receive the material. In practice, the fixing plate may also form part of said receiving space.

In one embodiment of the present invention, the material receiving and transferring mechanism further includes a transferring guide rail and a transferring seat slidably disposed on the transferring guide rail, the material receiving box is rotatably mounted on the transferring seat, and the first telescopic element is used for driving the transferring seat to move on the transferring guide rail;

connect material transfer mechanism still including installing the flexible component of second on shifting the seat, material receiving box has and connects material work position and blowing work position, when connecing the material work position, material receiving box level sets up for receive the material, when the blowing work position, the relative horizontal position slope of material receiving box, the export in receiving space rotates downwards, the flexible component of second is used for the drive material receiving box is connecing and is connect the material work position and the blowing work position between switch.

The second telescopic element is arranged to ensure that the material receiving box is horizontally arranged when the material receiving work position is connected, so that materials can be reliably received, and after the materials are received, the outlet of the receiving space after the materials are received rotates towards the lower part, so that the materials can more easily fall out after the opening plate is opened.

In one embodiment of the present invention, the inclined rail includes a first portion and a second portion that are disposed at an interval, a lower end of the first portion is located above an upper end of the second portion, and a material blocking assembly is installed between the first portion and the second portion, and the material blocking assembly includes:

the rotating seat is rotatably arranged on the inclined track and is provided with a first limiting side wall;

the limiting block is arranged on the rotating seat and provided with a second limiting side wall matched with the first limiting side wall, a limiting space for receiving materials is formed by the second limiting side wall and the first limiting side wall, and the limiting block can adjust the position relative to the rotating seat to change the width of the limiting space;

the limiting rod is arranged on the rotating seat or the limiting block, the end part of the limiting rod extends into the limiting space, and the limiting rod is used for limiting the distance of the material falling into the limiting space; and

the driving element is used for driving the rotating seat to rotate;

the limiting space of the material blocking and discharging assembly is used for receiving the materials from the first part, and after the materials are received, the limiting space is aligned to the second part through the rotation of the driving element by a set angle, so that the materials fall into the second part.

The width of the limiting space can be changed by arranging the limiting block which can change the relative position with the rotating seat, so that the limiting space can be adapted to materials with different outer diameters; the distance of the material falling into the limiting space can be limited through the matching of the limiting rod and the limiting space; when the device is used, the limiting space is firstly aligned to the inclined rail above to receive materials, then the driving element rotates to enable the limiting space to be aligned to the inclined rail below, and therefore the materials enter the inclined rail below under the action of self gravity or under the cooperation of other pushing parts.

In this application, the width of the spacing space refers to "the distance between the first spacing sidewall and the second spacing sidewall".

In actual use, the material of the application can be a bearing ring.

In one embodiment of the present invention, the limiting block has a strip-shaped hole, and the limiting block is fixed to the rotating seat by a fastener penetrating through the strip-shaped hole;

the limiting rod is a screw rod, the limiting rod is screwed on the rotating seat, one end of the limiting rod extends into the limiting space along the length direction of the limiting space, and the distance of the limiting rod penetrating into the limiting space can be changed by rotating the limiting rod.

Just can change the distance that the gag lever post gos deep into spacing space through rotatory gag lever post, adjust convenient and reliable, combine spacing spatial regulation, hinder the blowing subassembly suitability strong.

In one embodiment of the present invention, the rotating base has a first L-shaped sidewall, and the first L-shaped sidewall includes a third sidewall and the first limiting sidewall that are perpendicular to each other; the limiting block is provided with a second L-shaped side wall, the second L-shaped side wall comprises a fourth side wall and a second limiting side wall, the fourth side wall is perpendicular to the fourth side wall, and an operation space for adjusting the limiting rod is formed by the third side wall and the fourth side wall.

In one embodiment of the present invention, the first processing mechanism is provided with a discharging assembly, and the discharging assembly is used for moving the material out of the first processing mechanism and sending the material into the receiving space of the receiving assembly after the material is processed.

The invention has the beneficial effects that: the utility model provides a multistation lathe connects material transfer mechanism to realize the automation of first processing mechanism and second processing mechanism and links up through setting up, connects material transfer mechanism to accomplish the back at first processing mechanism processing, shifts the material to the enterprising further processing of second processing mechanism.

Description of the drawings:

FIG. 1 is a schematic view of a multi-station lathe;

FIG. 2 is a schematic view of the material receiving and transferring mechanism and the inclined track with the material blocking and discharging assembly installed;

FIG. 3 is a schematic view of an inclined track with an installed material blocking and emptying assembly;

FIG. 4 is a schematic view of another angle of the inclined track with the material blocking assembly mounted thereon;

FIG. 5 is an enlarged view at A in FIG. 3;

FIG. 6 is an enlarged view at B in FIG. 4;

FIG. 7 is a schematic view of a material receiving transfer mechanism;

fig. 8 is a schematic view of another angle of the material receiving transfer mechanism;

fig. 9 is an enlarged view at C of fig. 7;

fig. 10 is an enlarged view at D of fig. 8.

The figures are numbered:

a first processing mechanism; 2. a second processing mechanism; 3. a material receiving and transferring mechanism; 4. a material receiving assembly; 5. a first telescopic element; 6. a transfer guide; 7. a transfer seat; 8. a second telescoping member; 9. a material receiving box; 10. a receiving space; 11. an outlet; 12. opening and closing the board; 13. a side plate; 14. a limiting plate; 15. a recess; 16. a fixing plate; 17. a trigger lever; 18. a fastener; 19. a bending section; 20. a release assembly; 21. an inclined rail; 22. a first portion; 23. a second portion; 24. a material blocking and discharging assembly; 25. a rotating seat; 26. a first limiting side wall; 27. a limiting block; 28. a second limiting side wall; 29. a limiting space; 30. a limiting rod; 31. a drive element; 32. a third side wall; 33. a fourth side wall; 34. an operating space; 35. and (4) strip-shaped holes.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1, the multi-station lathe comprises a first processing mechanism 1, a second processing mechanism 2 and a material receiving and transferring mechanism 3 arranged between the first processing mechanism 1 and the second processing mechanism 2, wherein the material receiving and transferring mechanism 3 is used for transferring materials to the second processing mechanism 2 after the first processing mechanism 1 finishes processing.

The utility model provides a multistation lathe connects material transfer mechanism 3 to realize the automation of first processing agency 1 and second processing agency 2 and links up through the setting, connects material transfer mechanism 3 to accomplish the back at the processing of first processing agency 1, shifts the material to the second processing agency 2 on and carries out further processing.

As shown in fig. 2 and 7 to 10, the material receiving transfer mechanism 3 of this embodiment includes a material receiving component 4 and a first telescopic element 5 for driving the material receiving component 4 to move, and the material receiving component 4 includes:

a receiving box 9, the receiving box 9 having a receiving space 10 for receiving material, the receiving space 10 having an outlet 11;

the opening plate 12 is rotatably arranged on the material receiving box 9, the opening plate 12 is provided with a closed working position and an open working position, when the opening plate 12 is in the closed working position, the opening plate 12 closes or semi-closes the outlet 11, the materials in the receiving space 10 cannot fall from the outlet 11, when the opening plate 12 is in the open working position, the opening plate 12 rotates to be opened, and the materials in the receiving space 10 can fall from the outlet 11; and

and the elastic piece is used for keeping the opening-closing plate 12 in the closed working position when no external force is applied.

The material receiving and transferring mechanism 3 can receive materials processed by a first processing mechanism through the receiving space 10, then move to a second processing mechanism 2 through a first telescopic element 5, and finally enable the materials to drop from an outlet 11 when an opening plate 12 is opened through a corresponding structure, and the materials enter the second processing mechanism 2 for further processing.

In practice, the opening plate 12 can be opened by a plurality of means, such as an opening structure provided on the second processing mechanism, such as an opening and closing motor.

As shown in fig. 9 and 10, in the present embodiment, the material receiving box 9 includes two side plates 13 disposed in parallel, and a limiting plate 14 detachably mounted between the two side plates 13, wherein one side plate 13 has a notch 15 for material to enter, the two side plates 13 and the limiting plate 14 form a receiving space 10, and the opening plate 12 corresponds to the limiting plate 14.

One of the side plates 13 can facilitate the falling of the material by arranging the notch 15, and the other side wall can block the material, so that the material can reliably fall into the receiving space 10. The limiting plates 14 are detachably mounted on the two side plates 13, so that different limiting plates 14 can be replaced according to needs, and the adaptability of the material receiving and transferring mechanism 3 is higher.

As shown in fig. 9 and 10, in the present embodiment, the material receiving box 9 further includes a fixing plate 16 disposed between the two side plates 13, and the fixing plate 16 is located above the opening plate 12 and corresponds to the upper portion of the limiting plate 14. The fixed plate 16 is arranged to limit the replacement of the material when the material enters, so that the material can be reliably received. In practice, the fixing plate 16 may also form part of the receiving space 10.

As shown in fig. 9 and 10, in the present embodiment, the opening plate 12 is rotatably installed between the two side plates 13; the material receiving assembly 4 further comprises a trigger lever 17 fixed with the rotating shaft of the opening plate 12, and the outlet 11 can be opened by applying acting force to the trigger lever 17 to overcome the elastic force of the elastic piece.

During the actual use, just can drive the open close plate 12 through pressing the trigger bar 17 and rotate, this kind of convenient corresponding structure of design of structure comes with the cooperation of trigger bar 17, and then opens open close plate 12, makes the material drop.

As shown in fig. 10, in the present embodiment, the limiting plate 14 is detachably mounted on one of the side plates 13 by a fastener 18, the limiting plate 14 is a bent plate, the limiting plate 14 has two bent portions 19, and the two bent portions 19 form an angle greater than or equal to 90 °.

As shown in fig. 9 and 10, in the present embodiment, the receiving material transferring mechanism 3 further includes a transferring guide rail 6 and a transferring seat 7 slidably disposed on the transferring guide rail, the receiving box 9 of the receiving material assembly 4 is mounted on the transferring seat 7, and the first telescopic element 5 is used for driving the transferring seat 7 to move on the transferring guide rail 6.

As shown in fig. 9 and 10, in this embodiment, the material receiving box 9 is rotatably mounted on the transfer seat 7, the material receiving transfer mechanism 3 further includes a second telescopic element 8 mounted on the transfer seat 7, the material receiving box 9 has a material receiving working position and a material discharging working position, when the material receiving working position is reached, the material receiving box 9 is horizontally disposed and used for receiving materials, when the material discharging working position is reached, the material receiving box 9 is inclined relative to the horizontal position, the outlet 11 of the receiving space 10 rotates downward, and the second telescopic element 8 is used for driving the material receiving box 9 to switch between the material receiving working position and the material discharging working position.

Set up the setting of second telescopic element 8 and can guarantee to connect material 9 level settings when connecing the material work position to can reliably receive the material, and after receiving the completion, make the export 11 of receiving space 10 rotate towards the below behind the receipt material, like this the back is opened to open-close plate 12, the material drops away more easily.

In practice, the first telescopic element 5 may be a cylinder or a belt assembly or the like, and the second telescopic element 8 may be a cylinder or an electric push rod or the like.

During practical use, the first processing mechanism 1 is provided with a discharging assembly, and the discharging assembly is used for moving the material out of the first processing mechanism 1 and sending the material into the receiving space 10 of the receiving assembly 4 after the material is processed. The discharging component can blow the material out of the first processing mechanism 1 in an air-jet mode.

As shown in fig. 1 and 2, the second processing mechanism 2 includes an inclined rail 21 and a releasing component 20 disposed at a higher end of the inclined rail 21, and the releasing component 20 is configured to contact with the trigger bar 17 when the material receiving box 9 moves above the inclined rail 21, so as to drive the trigger bar 17 and the opening plate 12 to rotate synchronously, so that the material falls from the outlet 11 onto the inclined rail 21.

Through the cooperation of elastic component, trigger lever 17 and release assembly 20, can open export 11 automatically after the material receiving box 9 removes to the right place, need not other power supplies, whole simple structure and reliable.

As shown in fig. 2, 3 and 4, the inclined rail 21 comprises a first part 22 and a second part 23 which are arranged at intervals, the lower end of the first part 22 is positioned above the upper end of the second part 23, and a material blocking component 24 is arranged between the first part 22 and the second part 23. As shown in fig. 5 and 6, the discharge obstructing assembly 24 includes:

the rotating seat 25 is rotatably arranged on the inclined track 21, and the rotating seat 25 is provided with a first limiting side wall 26;

the limiting block 27 is mounted on the rotating seat 25, the limiting block 27 is provided with a second limiting side wall 28 matched with the first limiting side wall 26, the second limiting side wall 28 and the first limiting side wall 26 form a limiting space 29 for receiving materials, and the limiting block 27 can adjust the position relative to the rotating seat 25 to change the width of the limiting space 29;

the limiting rod 30 is arranged on the rotating seat 25 or the limiting block 27, the end part of the limiting rod extends into the limiting space 29, and the limiting rod is used for limiting the distance of the material falling into the limiting space 29;

and the driving element 31 is used for driving the rotating seat to rotate.

The width of the limiting space 29 can be changed by arranging the limiting block 27 which can change the relative position with the rotating seat 25, so that the limiting space 29 can be adapted to materials with different outer diameters; the distance that the material falls into the limiting space 29 can be limited through the matching of the limiting rod 30 and the limiting space 29; in use, the spacing space 29 is first aligned with the upper inclined rail 21 to receive the material, and then the driving element 31 is rotated to align the spacing space 29 with the lower inclined rail 21, so that the material enters the lower inclined rail 21 under the action of its own weight or other pushing member.

In the present application, the width of the spacing space 29 refers to "the distance between the first and second spacing sidewalls 26 and 28".

When in actual use, the material of the application can be a bearing ring.

In this embodiment, the limiting rod 30 is a screw rod, the limiting rod 30 is screwed on the rotating seat 25, one end of the limiting rod 30 extends into the limiting space 29 along the length direction of the limiting space 29, and the distance of the limiting rod 30 penetrating into the limiting space 29 can be changed by rotating the limiting rod 30. The distance of the limiting rod 30 penetrating into the limiting space 29 can be changed by rotating the limiting rod 30, the adjustment is convenient and reliable, and the applicability of the material blocking and discharging assembly 24 is high by combining the adjustment of the limiting space 29.

As shown in fig. 5 and 6, in the present embodiment, the rotating base 25 has a first L-shaped sidewall, and the first L-shaped sidewall includes a third sidewall 32 and a first limiting sidewall 26 that are perpendicular to each other; the stopper 27 has a second L-shaped sidewall including a fourth sidewall 33 and a second stopper sidewall 28 perpendicular to each other, and the third sidewall 32 and the fourth sidewall 33 form an operation space 34 for adjusting the stopper rod 30.

As shown in fig. 5, in the present embodiment, the stop block 27 has a strip-shaped hole 35, and the stop block 27 is fixed to the rotating seat 25 by the fastening member 18 passing through the strip-shaped hole 35.

In practical applications, the driving element 31 may be a rotating cylinder or a rotating motor.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings can be directly or indirectly applied to other related technical fields and are included in the scope of the present invention.

Claims (8)

1. A multi-station lathe comprises a first processing mechanism and a second processing mechanism, and is characterized by further comprising a material receiving transfer mechanism arranged between the first processing mechanism and the second processing mechanism, wherein the material receiving transfer mechanism is used for transferring materials to the second processing mechanism after the first processing mechanism finishes processing;

connect material transfer mechanism to include and connect the material subassembly and be used for driving the first flexible component that connects the material subassembly to remove, connect the material subassembly to include:

a receiving box having a receiving space for receiving material, the receiving space having an outlet;

the opening plate is rotatably arranged on the material receiving box and provided with a closed working position and an open working position, when the opening plate is in the closed working position, the opening plate closes or semi-closes the outlet, the materials in the receiving space cannot fall from the outlet, when the opening plate is in the open working position, the opening plate is rotated and opened, and the materials in the receiving space can fall from the outlet;

the material receiving assembly also comprises an elastic piece which is used for keeping the opening-closing plate at a closed working position when the opening-closing plate is not subjected to external force; the material receiving assembly further comprises a trigger rod fixed with the opening plate rotating shaft;

the second processing mechanism comprises an inclined track and a release assembly arranged at the higher end of the inclined track, the release assembly is used for contacting with the trigger rod when the material receiving box moves to the upper part of the inclined track, the trigger rod and the opening plate are driven to rotate synchronously, and the material drops to the inclined track from the outlet.

2. The multi-station lathe according to claim 1, wherein the material receiving box comprises two side plates which are arranged in parallel, and a limiting plate which is detachably arranged between the two side plates, wherein one side plate is provided with a notch for material to enter, the two side plates and the limiting plate form the receiving space, and the opening plate corresponds to the limiting plate.

3. The multi-station lathe according to claim 2, wherein the material receiving box further comprises a fixed plate arranged between the two side plates, and the fixed plate is positioned above the opening plate and corresponds to the upper part of the limit plate; the limiting plate is detachably mounted on one side plate through a fastener and is a bent plate, the limiting plate is provided with two bending portions, and the two bending portions form an angle larger than or equal to 90 degrees.

4. The multi-station lathe as claimed in claim 1, wherein the material receiving and transferring mechanism further comprises a transferring guide rail and a transferring seat arranged on the transferring guide rail in a sliding manner, the material receiving box is rotatably mounted on the transferring seat, and the first telescopic element is used for driving the transferring seat to move on the transferring guide rail;

connect material transfer mechanism still including installing the flexible component of second on shifting the seat, material receiving box has and connects material work position and blowing work position, when connecing the material work position, material receiving box level sets up for receive the material, when the blowing work position, the relative horizontal position slope of material receiving box, the export in receiving space rotates downwards, the flexible component of second is used for the drive material receiving box is connecing and is connect the material work position and the blowing work position between switch.

5. The multi-station lathe of claim 1, wherein the inclined track comprises a first part and a second part which are arranged at intervals, the lower end of the first part is positioned above the upper end of the second part, and a material blocking component is arranged between the first part and the second part and comprises:

the rotating seat is rotatably arranged on the inclined track and is provided with a first limiting side wall;

the limiting block is arranged on the rotating seat and provided with a second limiting side wall matched with the first limiting side wall, a limiting space for receiving materials is formed by the second limiting side wall and the first limiting side wall, and the limiting block can adjust the position relative to the rotating seat to change the width of the limiting space;

the limiting rod is arranged on the rotating seat or the limiting block, and the end part of the limiting rod extends into the limiting space and is used for limiting the distance of the material falling into the limiting space; and

the driving element is used for driving the rotating seat to rotate;

the limiting space of the material blocking and discharging assembly is used for receiving the materials from the first part, and after the materials are received, the limiting space is aligned to the second part through the rotation of the driving element by a set angle, so that the materials fall into the second part.

6. The multi-station lathe according to claim 5, wherein the limiting block is provided with a strip-shaped hole and is fixed with the rotating seat through a fastener penetrating through the strip-shaped hole;

the limiting rod is a screw rod, the limiting rod is screwed on the rotating seat, one end of the limiting rod extends into the limiting space along the length direction of the limiting space, and the distance of the limiting rod penetrating into the limiting space can be changed by rotating the limiting rod.

7. The multi-station lathe according to claim 6, wherein the rotating seat is provided with a first L-shaped side wall, and the first L-shaped side wall comprises a third side wall and the first limiting side wall which are perpendicular to each other; the limiting block is provided with a second L-shaped side wall, the second L-shaped side wall comprises a fourth side wall and a second limiting side wall, the fourth side wall is perpendicular to the fourth side wall, and an operation space for adjusting the limiting rod is formed by the third side wall and the fourth side wall.

8. The multi-station lathe as claimed in claim 1, wherein the first processing mechanism is provided with a discharging assembly, and the discharging assembly is used for removing the material from the first processing mechanism and sending the material into the receiving space of the receiving assembly after the material is processed.

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