CN219408375U - Feeding mechanism for electronic component production - Google Patents

Abstract

The utility model discloses a feeding mechanism for producing electronic components, which relates to the technical field of electronic components production and comprises a bearing frame and a carrier plate arranged at the top end of the bearing frame, wherein a lifting table is movably arranged at the top end of the carrier plate, a plurality of layers of jigs are stacked and placed on the upper part of the lifting table, a plurality of electronic components are placed in each layer of jigs, a lifting module is arranged at the bottom end of the carrier plate, the lifting end of the lifting module is connected with the bottom end of the lifting table, and a detection module is commonly connected with the bottom ends of the carrier plate and the lifting table. This feeding mechanism that electronic components production was used can intermittent type nature carry out the pay-off to electronic components with the mode of jacking, compares with current conveyer belt and shake the charging tray mode of carrying out the pay-off, takes up an area of littleer, and can not appear card material problem.

Description

Feeding mechanism for electronic component production

Technical Field

The utility model relates to the technical field of electronic component production, in particular to a feeding mechanism for electronic component production.

Background

In the production process of electronic components, such as capacitors, accessories need to be conveyed to a processing area, but the existing feeding mechanism for electronic components is usually completed in the form of a conveying belt or a vibrating tray, when the conveying belt feeds the electronic components, the span of the conveying belt is relatively large, so that the occupied area is large, and when the vibrating tray feeds the electronic components, the electronic components are easy to clamp, so that a feeding mechanism for producing the electronic components is provided by one skilled in the art.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a feeding mechanism for producing electronic components, which solves the problems that the prior conveying belt or vibration tray for feeding the electronic components has large volume and is easy to clamp when in use.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a feeding mechanism that electronic components production was used, includes the carrier frame and installs the carrier plate on the carrier frame top, the top activity of carrier plate is provided with the elevating platform, a plurality of layers of tool has been placed to the upper portion stack of elevating platform, and a plurality of electronic components has all been placed to the inside of every layer of tool, the lifting module is installed to the bottom of carrier plate, the lifting end of lifting module is connected with the bottom of elevating platform, the carrier plate is connected with the detection module jointly with the bottom of elevating platform;

the feeding mechanism is matched with the lifting module and the detecting module, feeding can be intermittently performed, and the detecting module is used for controlling the feeding height of the lifting module every time, so that the feeding height of the lifting module every time is identical to the feeding height of each layer of jig.

Further, the lifting module comprises an equipment box arranged at the bottom end of the carrier plate, a motor arranged on the side wall of the equipment box, and a drive bevel gear arranged at the driving end of the motor and positioned in the equipment box.

Further, the lifting module further comprises a bearing seat arranged at the bottom end of the equipment box, an internal thread cylinder connected to the top end of the bearing seat, a driven bevel gear sleeved outside the internal thread cylinder and a screw rod in the internal thread cylinder in threaded connection, wherein the driven bevel gear is meshed with the driving bevel gear, and the top end of the screw rod is connected with the lifting table.

Further, the lifting module further comprises a guide rod connected to the bottom end of the lifting table, the guide rod extends to the inside of the bearing frame, and the bottom end of the guide rod is connected with a limiting piece.

Further, the inside of support plate is seted up respectively and is equipped with first through-hole, a plurality of second through-hole, the top edge connection of elevating platform has the spacing that is used for preventing the tool skew.

Further, the detection module comprises a mounting frame arranged on the carrier plate and a lifting plate arranged on the lifting table, a distance sensor is arranged on the mounting frame, and a plurality of notches are formed in the side wall of the lifting plate.

Further, the number of the gaps corresponds to the number of the jigs, the side walls of the lifting plates are attached to the detection end faces of the distance sensors, and the distance between two adjacent gaps is the same as the height of the jigs.

The utility model provides a feeding mechanism for producing electronic components. Compared with the prior art, the method has the following beneficial effects:

this feeding mechanism that electronic components production was used can intermittent type nature carry out the pay-off to electronic components with the mode of jacking, compares with current conveyer belt and shake the charging tray mode of carrying out the pay-off, takes up an area of littleer, and can not appear card material problem.

Drawings

FIG. 1 is a schematic diagram of an exploded construction of the present utility model;

FIG. 2 is a schematic diagram of a combined structure of the present utility model;

FIG. 3 is a side view of FIG. 2;

FIG. 4 is a schematic diagram of a lifting module according to the present utility model;

FIG. 5 is a schematic diagram of a detection module according to the present utility model.

In the figure: 1. a load-bearing frame; 2. a carrier plate; 21. a first through hole; 22. a second through hole; 3. a lifting table; 31. a limiting frame; 4. a jig; 41. an electronic component; 5. a lifting module; 51. an equipment box; 52. a motor; 53. a drive bevel gear; 54. a bearing seat; 55. an internal thread cylinder; 56. a driven bevel gear; 57. a screw rod; 58. a guide rod; 59. a limiting piece; 6. a detection module; 61. a mounting frame; 62. a lifting plate; 63. a distance sensor; 64. and (5) a notch.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides a feeding mechanism that electronic components production was used, including bearing frame 1 and installing carrier plate 2 (first through-hole 21, a plurality of second through-hole 22 have been seted up to the inside of carrier plate 2 respectively) on bearing frame 1 top, carrier plate 2's top activity is provided with elevating platform 3 (elevating platform 3's top edge connection has the spacing 31 that is used for preventing tool 4 skew), a plurality of layers of tool 4 have been placed in elevating platform 3's upper portion stack, a plurality of electronic components 41 have all been placed to the inside of every layer of tool 4, lifting module 5 is installed to carrier plate 2's bottom, lifting module 5's lift end is connected with elevating platform 3's bottom, carrier plate 2 and elevating platform 3's bottom are connected with detection module 6 jointly (detection module 6 extends to bearing frame 1 from the inside of first through-hole 21).

According to the feeding mechanism of the embodiment, through the mutual matching of the lifting module 5 and the detection module 6, feeding can be intermittently performed, and the detection module 6 is used for controlling the feeding height of the lifting module 5 every time, so that the feeding height of the lifting module 5 every time is ensured to be identical to the height of each layer of jig 4.

Referring to fig. 4, the lifting module 5 includes a device box 51 installed at the bottom end of the carrier plate 2, a motor 52 installed at the side wall of the device box 51, a driving bevel gear 53 installed at the driving end of the motor 52 and located inside the device box 51, the lifting module 5 further includes a bearing seat 54 installed at the bottom end of the device box 51, an internal thread cylinder 55 connected to the top end of the bearing seat 54, a driven bevel gear 56 sleeved outside the internal thread cylinder 55, and a screw rod 57 screwed inside the internal thread cylinder 55, the driven bevel gear 56 is engaged with the driving bevel gear 53, the top end of the screw rod 57 is connected with the lifting table 3, the lifting module 5 further includes a guide rod 58 connected to the bottom end of the lifting table 3 (the screw rod 57 and the guide rod 58 are both moved up and down inside the second through hole 22), the guide rod 58 extends to the inside of the carrier frame 1, and the bottom end is connected with a limiting member 59 (the limiting member 59 functions to constrain when the feeding height is maximized).

Referring to fig. 5, the detection module 6 includes a mounting frame 61 mounted on the carrier 2 and a lifting plate 62 mounted on the lifting table 3, a distance sensor 63 is mounted on the mounting frame 61 (the model of the distance sensor 63 is BX-442, which has a power control switch used in a matched manner, which is the prior art and will not be described in detail herein), a plurality of notches 64 are provided on the side wall of the lifting plate 62, the number of the notches 64 corresponds to the number of the jig 4, the side wall of the lifting plate 62 is attached to the detection end surface of the distance sensor 63, and the distance between two adjacent notches 64 is the same as the height of the jig 4.

When in use, the jig 4 with a plurality of electronic components 41 is placed on the lifting platform 3, when in feeding, the motor 52 in the lifting module 5 works to drive the driving bevel gear 53 to rotate, and the driven bevel gear 56 is meshed with the driving bevel gear 53 to drive the driven bevel gear 56 to rotate, under the action of the bearing seat 54, the driven bevel gear 56 drives the internal thread cylinder 55 to rotate, and the internal thread cylinder 55 is in threaded connection with the screw rod 57, so that when the internal thread cylinder 55 rotates, the screw rod 57 moves upwards to jack up the lifting platform 3, in the upward movement process, the lifting platform 3 can drive the lifting plate 62 to synchronously move, the plurality of notches 64 formed on the lifting plate 62 are used as a distance sensor 63 to judge the upward movement height basis of the lifting plate 62, the detection end face of the distance sensor 63 is 0cm away from the lifting plate 62, when the lifting plate 62 moves, the gap 64 is present, the distance can be increased, when the distance is increased, the distance sensor 62 transmits the signal to a controller (not shown in the figure), the controller controls the motor 52 to stop working, so that the whole feeding mechanism can convey the height of one jig 4 each time, namely, after the jig 4 at the uppermost layer is taken away, the next layer can replace the position of the last layer, when all jigs 4 are taken away, and when the feeding height reaches the maximum, the power supply of the distance sensor 63 is disconnected, the motor 52 is controlled to reversely rotate, and finally the lowest height is reduced, the jigs 4 are put into again, and the feeding process of the electronic components 41 during production can be fully automatically completed by circulation in sequence.

Claims (7)

1. The utility model provides a feeding mechanism that electronic components production was used, includes load-bearing frame (1) and installs carrier plate (2) on load-bearing frame (1) top, its characterized in that, the top activity of carrier plate (2) is provided with elevating platform (3), a plurality of layers of tool (4) have been placed to the upper portion stack of elevating platform (3), and a plurality of electronic components (41) have all been placed to the inside of every layer of tool (4), lifting module (5) are installed to the bottom of carrier plate (2), the lifting end of lifting module (5) is connected with the bottom of elevating platform (3), the bottom of carrier plate (2) and elevating platform (3) is connected with detection module (6) jointly;

feeding mechanism passes through the cooperation of lifting module (5), detection module (6), can carry out the pay-off intermittently, detection module (6) are used for controlling the pay-off height at every turn of lifting module (5), ensure the pay-off height at every turn of lifting module (5) is the same with the height of every layer tool (4).

2. The feeding mechanism for producing electronic components according to claim 1, wherein the lifting module (5) comprises a device box (51) arranged at the bottom end of the carrier plate (2), a motor (52) arranged on the side wall of the device box (51), and a drive bevel gear (53) arranged at the driving end of the motor (52) and positioned in the device box (51).

3. The feeding mechanism for electronic component production according to claim 2, wherein the lifting module (5) further comprises a bearing seat (54) arranged at the bottom end of the equipment box (51), an internal thread cylinder (55) connected to the top end of the bearing seat (54), a driven bevel gear (56) sleeved outside the internal thread cylinder (55) and a screw rod (57) in threaded connection with the internal thread cylinder (55), the driven bevel gear (56) is meshed with the driving bevel gear (53), and the top end of the screw rod (57) is connected with the lifting table (3).

4. Feeding mechanism for electronic component production according to claim 2, characterized in that the lifting module (5) further comprises a guide rod (58) connected to the bottom end of the lifting table (3), the guide rod (58) extends to the inside of the bearing frame (1), and the bottom end is connected with a limiting piece (59).

5. The feeding mechanism for electronic component production according to claim 1, wherein the carrier plate (2) is internally provided with a first through hole (21) and a plurality of second through holes (22) respectively, and the top edge of the lifting table (3) is connected with a limiting frame (31) for preventing the jig (4) from shifting.

6. The feeding mechanism for electronic component production according to claim 1, wherein the detection module (6) comprises a mounting frame (61) mounted on the carrier plate (2) and a lifting plate (62) mounted on the lifting table (3), the mounting frame (61) is provided with a distance sensor (63), and a plurality of notches (64) are formed in the side wall of the lifting plate (62).

7. The feeding mechanism for electronic component production according to claim 6, wherein the number of the notches (64) corresponds to the number of the jigs (4), the side wall of the lifting plate (62) is attached to the detection end face of the distance sensor (63), and the distance between two adjacent notches (64) is the same as the height of the jigs (4).