CN217647911U

CN217647911U - Full-automatic processing equipment of lamp shade

Info

Publication number: CN217647911U
Application number: CN202123454561.3U
Authority: CN
Inventors: 管小勇
Original assignee: Ningbo Guankeding Numerical Control Technology Co ltd
Current assignee: Ningbo Guankeding Numerical Control Technology Co ltd
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2022-10-25
Anticipated expiration: 2031-12-31

Abstract

The utility model discloses a full-automatic processing equipment of lamp shade, including frame, first conveyer trough, with the perpendicular second conveyer trough of being connected of first conveyer trough, with the perpendicular third conveyer trough of being connected of second conveyer trough. The utility model discloses, through setting up first conveyer trough, the second conveyer trough of being connected perpendicularly with first conveyer trough, the third conveyer trough of being connected perpendicularly with the second conveyer trough, and set up the corresponding catch bar that the drive sample slided at the corresponding end of conveyer trough, set gradually corresponding drilling mechanism, corresponding tapping mechanism action, corresponding feed mechanism in the corresponding side of each conveyer trough, realize the processing to sample trompil, fluting, tapping. The control system can control the corresponding drilling mechanism, the corresponding tapping mechanism and the corresponding feeding mechanism of each station to perform corresponding working procedure processing at a specific position of the sample according to the information of the sample detected by the sensor. The beneficial effects are that, the utility model discloses the structure can be realized automizing and process the LED lamp shade.

Description

Full-automatic processing equipment of lamp shade

Technical Field

The utility model relates to a full automatic processing equipment of lamp shade.

Background

The periphery of the LED lampshade needs to be drilled or tapped, and because the LED lampshade relates to a plurality of surfaces, drilling and tapping on the existing LED lampshade can only be performed through manual processing, the manual processing work efficiency is low, and the processing precision is not high.

Disclosure of Invention

The utility model provides a full-automatic processing device for lampshade, which solves the problems existing in the prior art in use.

The utility model provides a technical scheme who has the problem is: the utility model provides a full-automatic processing equipment of lamp shade, is as the improvement, includes frame, first conveyer trough, the second conveyer trough of being connected perpendicularly with first conveyer trough, the third conveyer trough of being connected perpendicularly with the second conveyer trough.

The end of the first conveying groove is provided with a first push rod for pushing the sample to feed.

And a second conveying groove for pushing the sample to continue to advance is arranged at the end head of the second conveying groove connected with the first conveying groove.

And the end head of the third conveying groove connected with the second conveying groove is provided with a third push rod for pushing the sample to continue to advance.

One side or/and both sides of first conveyer trough be equipped with at least one first drilling mechanism, at least one first tapping mechanism in proper order, first drilling mechanism, first tapping mechanism be equipped with the first feed mechanism that drives first drilling mechanism, first tapping mechanism and feed drilling, tapping respectively.

One side or/and both sides of second conveyer trough be equipped with at least one second drilling mechanism, at least one second tapping mechanism in proper order, second drilling mechanism, second tapping mechanism be equipped with the second feed mechanism that drives second drilling mechanism, second tapping mechanism feed drilling, tapping respectively.

And at least one third drilling mechanism and at least one third tapping mechanism are sequentially arranged on one side or/and two sides of the third conveying groove, and the third drilling mechanism and the third tapping mechanism are respectively provided with a third feeding mechanism for driving the third drilling mechanism and the third tapping mechanism to feed drilling and tapping.

And sensors for detecting samples are arranged on the first conveying groove, the second conveying groove and the third conveying groove at the corresponding drilling mechanism.

The tapping machine also comprises a control system which is connected with each sensor and used for controlling the corresponding drilling mechanism, the corresponding tapping mechanism and the corresponding feeding mechanism.

As a further improvement, the groove bottoms of the first conveying groove, the second conveying groove and/or the third conveying groove are formed by more than two supporting rods arranged along the conveying direction.

As a further improvement, the first push rod, the second push rod and/or the third push rod are pneumatic push rods, hydraulic push rods or screw rod push rods.

As a further improvement, the end of the third conveying groove is provided with an opening.

As a further improvement, a material receiving box is arranged at the bottom of the outlet end of the third conveying groove.

As a further improvement, the two sides of the first conveying groove, the second conveying groove and/or the third conveying groove are/is provided with a baffle plate for forming the conveying grooves, and the baffle plate on at least one side is provided with an adjusting structure for controlling the sliding of the baffle plate.

As a further improvement, the two sides of the first conveying groove, the second conveying groove and/or the third conveying groove are provided with baffle plates for forming the conveying grooves, and the baffle plate on at least one side is provided with a driver for controlling the sliding of the baffle plates.

As a further improvement, the system also comprises a control panel connected with the control system.

The utility model discloses, through setting up first conveyer trough, the second conveyer trough of being connected perpendicularly with first conveyer trough, the third conveyer trough of being connected perpendicularly with the second conveyer trough, and set up the corresponding catch bar that the drive sample slided at the corresponding end of conveyer trough, set gradually corresponding drilling mechanism, corresponding tapping mechanism action, corresponding feed mechanism in the corresponding side of each conveyer trough, realize the processing to sample trompil, fluting, tapping. The control system can control the corresponding drilling mechanism, the corresponding tapping mechanism and the corresponding feeding mechanism of each station to perform corresponding working procedure processing at a specific position of the sample according to the information of the sample detected by the sensor. The beneficial effects are that, the utility model discloses the structure can be realized automizing and process the LED lamp shade.

The utility model discloses be particularly useful for the sample processing or the square sample processing that have the geometry limit.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

Referring to fig. 1, the embodiment includes a full-automatic lampshade processing apparatus, which includes a frame 1, a first conveying trough 2, a second conveying trough 3 vertically connected to the first conveying trough 2, and a third conveying trough 4 vertically connected to the second conveying trough 3.

The end of the first conveying groove 2 is provided with a first push rod 21 for pushing the sample to feed.

And a second conveying groove 3 for pushing the sample to continuously advance is arranged at the end of the second conveying groove 3 connected with the first conveying groove 2.

The end of the third conveying groove 4 connected with the second conveying groove 3 is provided with a third push rod 41 for pushing the sample to move forward continuously.

One side or/and both sides of first conveyer trough 2 be equipped with at least one first drilling mechanism 22, at least one first tapping mechanism 23 in proper order, first drilling mechanism 22, first tapping mechanism 23 be equipped with the first feed mechanism that drives first drilling mechanism 22, first tapping mechanism 23 feed drilling, tapping respectively.

And at least one second drilling mechanism 32 and at least one second tapping mechanism 33 are sequentially arranged on one side or/and two sides of the second conveying trough 3, and the second drilling mechanism 32 and the second tapping mechanism 33 are respectively provided with a second feeding mechanism for driving the second drilling mechanism 32 and the second tapping mechanism 33 to feed, drill and tap.

And at least one third drilling mechanism and at least one third tapping mechanism are sequentially arranged on one side or/and two sides of the third conveying groove 4, and the third drilling mechanism and the third tapping mechanism are respectively provided with a third feeding mechanism for driving the third drilling mechanism and the third tapping mechanism to feed, drill and tap.

During the use, put into the sample in the end of first conveyer trough 2 one by one, promote the sample through first catch bar 21 and advance, the in-process that advances is detected by the sensor, and corresponding drilling mechanism, tapping mechanism, feed mechanism are controlled to corresponding side to the sample processing such as drilling, tapping to the clearance of first catch bar 21 when rolling back. The sample enters the second conveying groove 3 in sequence through the position vertical to the first conveying groove and under the action of the second push rod 31, the control system controls the corresponding drilling mechanism, the tapping mechanism and the feeding mechanism to perform drilling, tapping and other machining on the corresponding side face of the sample when the gap of the first push rod 31 retreats, and the sample enters the third conveying groove 3 in the same mode until the corresponding machining process is completed and finally output.

The groove bottoms of the first conveying groove, the second conveying groove and/or the third conveying groove are formed by more than two supporting rods arranged along the conveying direction.

The first, second or/and third push rods are pneumatic, hydraulic or screw rod push rods.

The end of the third conveying groove 4 is open.

And a material receiving box 5 is arranged at the bottom of the outlet end of the third conveying groove 4.

The two sides of the first conveying groove, the second conveying groove and/or the third conveying groove are provided with baffle plates 6 for forming the conveying grooves, the baffle plate on at least one side is provided with an adjusting structure 8 for controlling the baffle plates to slide, and the position of the baffle plates 6 can be controlled by adjusting a screw rod through a hand wheel, so that the width of the corresponding conveying groove is changed, and the corresponding sample can be adapted conveniently.

The two sides of the first conveying groove, the second conveying groove and/or the third conveying groove are provided with baffle plates 6 which form the conveying grooves, the baffle plates on at least one side are provided with drivers which control the baffle plates to slide, the baffle plates 6 can be driven to move through the drivers, such as a screw rod controlled by a motor, and the baffle plates 6 can also be driven by air pressure and a hydraulic push rod.

And a control panel 7 connected with the control system.

Claims

1. The utility model provides a full automatic processing equipment of lamp shade which characterized in that: the device comprises a rack, a first conveying trough, a second conveying trough vertically connected with the first conveying trough, and a third conveying trough vertically connected with the second conveying trough;

the end of the first conveying groove is provided with a first push rod for pushing the sample to feed;

a second conveying groove for pushing the sample to continue to advance is arranged at the end head of the second conveying groove connected with the first conveying groove;

the end head of the third conveying groove connected with the second conveying groove is provided with a third push rod for pushing the sample to continue to advance;

at least one first drilling mechanism and at least one first tapping mechanism are sequentially arranged on one side or/and two sides of the first conveying groove, and the first drilling mechanism and the first tapping mechanism are respectively provided with a first feeding mechanism for driving the first drilling mechanism and the first tapping mechanism to feed drilling and tapping;

at least one second drilling mechanism and at least one second tapping mechanism are sequentially arranged on one side or/and two sides of the second conveying groove, and the second drilling mechanism and the second tapping mechanism are respectively provided with a second feeding mechanism for driving the second drilling mechanism and the second tapping mechanism to feed drilling and tapping;

at least one third drilling mechanism and at least one third tapping mechanism are sequentially arranged on one side or/and two sides of the third conveying groove, and the third drilling mechanism and the third tapping mechanism are respectively provided with a third feeding mechanism for driving the third drilling mechanism and the third tapping mechanism to feed, drill and tap;

sensors for detecting samples are arranged on the first conveying groove, the second conveying groove and the third conveying groove at the positions corresponding to the drilling mechanisms;

2. The full-automatic processing equipment of the lampshade of claim 1, characterized in that: the groove bottoms of the first conveying groove, the second conveying groove and/or the third conveying groove are formed by more than two supporting rods arranged along the conveying direction.

3. The full-automatic lampshade processing equipment as recited in claim 1, characterized in that: the first, second or/and third push rods are pneumatic, hydraulic or screw rod push rods.

4. The full-automatic processing equipment of the lampshade of claim 1, characterized in that: the tail end of the third conveying groove is arranged in an open mode.

5. The full-automatic processing equipment of the lampshade of claim 1, characterized in that: and a material receiving box is arranged at the bottom of the outlet end of the third conveying groove.

6. The full-automatic processing equipment of the lampshade of claim 1, characterized in that: the two sides of the first conveying groove, the second conveying groove and/or the third conveying groove are provided with baffle plates for forming the conveying grooves, and the baffle plate on at least one side is provided with an adjusting structure for controlling the baffle plates to slide.

7. The full-automatic lampshade processing equipment as recited in claim 1, characterized in that: the two sides of the first, second and/or third conveying grooves are provided with baffle plates forming the conveying grooves, and the baffle plate on at least one side is provided with a driver for controlling the baffle plates to slide.

8. The full-automatic lampshade processing equipment as recited in claim 1, characterized in that: the control panel is connected with the control system.