CN218057260U - Equidistant conveying mechanism for mobile phone detection frame - Google Patents

Abstract

The utility model relates to the technical field of electronic product conveying, in particular to an equidistant conveying mechanism for detecting a mobile phone frame, which comprises a conveying part and supporting parts arranged at two sides of the advancing direction of the conveying part, wherein two ends of the supporting parts are respectively provided with a positioning component, the positioning component comprises more than two guiding parts arranged on one of the supporting parts and a clamping part arranged on the other supporting part, and the clamping part comprises a pair of clamping blocks which respectively reciprocate along the direction perpendicular to the conveying direction of the conveying part; the cell-phone frame advances the transport through carrying the piece, before carrying, is fixed a position by guide and holder for two adjacent cell-phone frames continue to advance after by preliminary interval and carry, when carrying the end, continue to carry out the equidistance interval by guide and holder cooperation with two adjacent cell-phone frames, can supply two tong centre gripping simultaneously to transfer accurately afterwards, guarantee conveying efficiency.

Description

Equidistance conveying mechanism for detecting mobile phone frame

Technical Field

The utility model relates to an electronic product carries technical field, especially relates to an equidistance conveying mechanism who detects cell-phone frame.

Background

The mobile phone is assembled by a plurality of parts such as upper frame, center, PCBA board, camera, fingerprint module, screen, all kinds of sensors, fingerprint module, button, etc. along with the vertical development of trade, the mobile phone assembly is developing to the direction of automation, unmanned, and in the mobile phone indulges multiunit and assembles the process, the quality of cell-phone frame is one of its key process.

The mobile phone frame is conveyed to a designated position by the conveying mechanism for storage after being detected to be good or defective, and is transferred to the storage frame through the clamping hands during storage; the current conveying mechanism for carrying cell-phone frame is when carrying, and the interval of two adjacent cell-phone frames can't be fixed, when the tong was got a pair of cell-phone frame simultaneously to the clamp, appears pressing from both sides the phenomenon of getting the dislocation easily, leads to can't accurately get two cell-phone frames simultaneously and presss from both sides, influences conveying efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a not enough the equidistance conveying mechanism who detects cell-phone frame to prior art.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides an equidistance conveying mechanism of detection cell-phone frame, includes the transport piece and sets up in the support piece of transport piece direction of advance both sides, and the support piece both ends are provided with locating component respectively, and locating component is including setting up at the more than two guide of one of them support piece and setting up the holder at another support piece, and the holder includes a pair of clamp splice of following perpendicular to transport piece direction of delivery reciprocating motion respectively.

And further: the clamping piece further comprises a clamping seat used for installing the clamping block and a driving piece driving the clamping seat to reciprocate along the direction perpendicular to the conveying direction of the conveying piece.

Further: the driving piece is a telescopic cylinder, one supporting piece is provided with a supporting seat which is transversely arranged, the driving piece is arranged on the supporting seat, and the clamping seat is arranged at the driving end of the driving piece.

And further: the guide member includes a guide block disposed along the length of the support member and a pair of inductors mounted on the guide block at intervals, one of the inductors being transversely aligned with one of the clamping blocks.

Further: the conveying part comprises a belt part and conveying shafts positioned at two ends of the belt part, two ends of each conveying shaft are respectively and rotatably arranged on the supporting part, and belt pulleys in transmission connection with the belt part are nested on the conveying shafts.

And further: support piece includes along carrying the aluminium alloy that a direction of delivery arranged and installing the transmission seat at the aluminium alloy both ends, and the transmission seat shaping has the transmission groove that supplies to carry axle male.

Further: the conveying shaft is provided with a rotating hole in a penetrating mode, a rotating rod is inserted into the rotating hole, the outer end of the rotating rod is provided with a square strip, the transmission groove is a rectangular long groove with the width matched with the square strip, and the square strip can be installed in a sliding mode along the length direction of the transmission groove.

Further: the slot wall of the transmission groove is formed with a first adjusting hole arranged along the conveying direction of the conveying piece in a penetrating mode, and the square strip is formed with a second adjusting hole coaxially matched with the first adjusting hole in a penetrating mode.

And further: a bottom supporting plate is arranged below the conveying piece along the conveying direction.

The utility model has the advantages that: the cell-phone frame advances to carry through carrying the piece, before carrying, is fixed a position by guide part and holder for two adjacent cell-phone frames continue to advance after by preliminary interval and carry, when carrying the end, continue to carry out the equidistance interval by guide part and holder cooperation with two adjacent cell-phone frames, can supply two tong centre gripping simultaneously to transfer accurately afterwards, guarantee conveying efficiency.

Drawings

Fig. 1 is a schematic structural diagram of an equidistant conveying mechanism.

Fig. 2 is another perspective view of the isometric transport mechanism, hiding the cell phone frame.

Fig. 3 is a partial structural schematic view of the conveying member.

The reference numerals include:

1-a conveying member,

11-belt piece, 12-conveying shaft, 13-belt pulley, 14-driving motor, 15-rotating hole,

16-rotating rod, 17-square strip, 18-tabling block, 19-mobile phone frame,

2-a support member,

21-aluminum section bar, 22-transmission seat, 23-transmission groove, 24-first regulation hole, 25-second regulation hole,

26-adjusting handle, 27-bottom supporting plate,

3-a positioning component,

31-clamping piece, 32-guiding piece, 33-clamping block, 34-clamping groove, 35-driving piece, 36-supporting seat,

37-clamping seat, 38-guide block and 39-inductor.

Detailed Description

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

As shown in fig. 1-3, an equidistant conveying mechanism for detecting a mobile phone frame comprises a conveying part 1 and supporting parts 2 arranged on two sides of the advancing direction of the conveying part 1, wherein the conveying part 1 comprises a belt 11 and conveying shafts 12 located at two ends of the belt 11, two ends of each conveying shaft 12 are respectively and rotatably mounted on the supporting parts 2, belt pulleys 13 for nesting the belt 11 are nested on the conveying shafts 12, one of the belt pulleys 13 is in transmission connection with a driving motor 14, the driving motor 14 drives the belt pulley 13 to rotate so as to drive the belt 11 to move forward, and the mobile phone frame 19 can be conveyed forward. In addition, the belt 11 is formed with the convex embedded blocks 18 along the length direction at equal intervals on the surface, the mobile phone frame 19 is formed with the embedded grooves embedded with the embedded blocks 18, when the mobile phone frame 19 is placed into the conveying mechanism, the embedded grooves are just matched with the embedded blocks 18, the mobile phone frame 19 can be just positioned by the embedded blocks 18, the phenomenon of displacement can not occur during conveying, and the conveying stability is ensured.

Support piece 2 includes aluminium alloy 21 along carrying 1 direction of delivery and installing the transmission seat 22 at aluminium alloy 21 both ends, and the shaping of transmission seat 22 has the drive groove 23 that supplies transport shaft 12 to insert, and cell-phone frame 19 when advancing the transport, can contact with aluminium alloy 21 to advance along aluminium alloy 21 with aluminium alloy 21 sliding fit, by aluminium alloy 21 sliding support.

Specifically, carry axle 12 to run through the shaping and have rotation hole 15, it has dwang 16 to insert in the rotation hole 15, carry axle 12 to rotate round dwang 16, dwang 16 outer end is square strip 17, transmission groove 23 is the width and square strip 17 assorted rectangle elongated slot, transmission groove 23 cell wall runs through the shaping and has the first regulation hole 24 of arranging along transport member 1 direction of delivery, square strip 17 runs through the shaping and has the second regulation hole 25 with the coaxial complex of first regulation hole 24, the adjustment handle 26 has been inserted through first regulation hole 24 knob in the transmission seat 22, adjustment handle 26 simultaneously with second regulation hole 25 screw-thread fit, it slides at transmission groove 23 to drive square strip 17 through rotating adjustment handle 26, adjust the position of square strip 17 at transmission groove 23, thereby adjust the position of carrying axle 12 at transmission groove 23, can adjust the elasticity degree of belt spare 11, prevent that belt spare 11 is not hard up to lead to the conveying effect reduction.

The two ends of the supporting parts 2 are respectively provided with a positioning assembly 3, the positioning assembly 3 comprises two guide parts 32 arranged on one of the supporting parts 2 and a clamping part 31 arranged on the other supporting part 2, the clamping part 31 comprises a pair of clamping blocks 33 which respectively reciprocate along the direction vertical to the conveying direction of the conveying part 1, and the clamping blocks 33 are formed with clamping grooves 34 with the width slightly larger than that of the mobile phone frame 19.

The clamping member 31 further comprises a clamping seat 37 for mounting the clamping block 33 and a driving member 35 for driving the clamping seat 37 to reciprocate along the direction perpendicular to the conveying direction of the conveying member 1, the driving member 35 is a telescopic cylinder, one of the supporting members 2 is provided with a supporting seat 36 which is transversely arranged, the driving member 35 is mounted on the supporting seat 36, and the clamping seat 37 is mounted at the driving end of the driving member 35.

The guide member 32 includes a guide block 38 disposed along the length of the support member 2 and a pair of sensors 39 mounted on the guide block 38 at intervals, the sensors 39 being in signal communication with the telescopic cylinders, one of the sensors 39 being transversely aligned with one of the clamping blocks 33. The sensor 39 is an existing GTB6-P1212 mini-type photoelectric sensor, the photoelectric sensor and the telescopic cylinder are existing hardware, and after the sensor is programmed by a software engineer, a functional module framework is established, and a computer system is controlled by a computer program instruction to complete the sensing control function of the sensor.

When the mobile phone frame 19 is clamped to the starting end of the belt 11 of the conveying part 1 through a mechanical arm, the two mobile phone frames 19 are respectively arranged between the clamping block 33 and the sensor 39, when the sensor 39 senses that the mobile phone frames 19 pass through photoelectric signals, the telescopic cylinders receive signals and quickly pop up, the two mobile phone frames 19 are clamped at equal intervals, after primary equal-interval positioning, the clamping block 33 is driven by the telescopic cylinders to retract outwards, the belt 11 continues to advance and convey the mobile phone frames 19 to the tail end, on the way of conveying, the adjacent two mobile phone frames 19 always guarantee equal intervals, when the distance reaches the tail end, the adjacent two mobile phone frames 19 sequentially pass through the sensor 39, when the sensor frames 19 at the tail end reach, the telescopic cylinders continue to push out, the two mobile phone frames 19 at the tail end are equidistantly framed through the clamping grooves 34, at the moment, the mobile phone frames 19 cannot continue to advance, namely, the clamping grooves 34 of the clamping block 33 are used for limiting, and the standby mechanical arm can accurately clamp the two mobile phone frames 19 simultaneously and convey to the next process, the distance between the two mobile phone frames 19 is a fixed value, and the clamping efficiency is not guaranteed, and the dislocation processing efficiency is not to appear.

A bottom support plate 27 is arranged below the conveying piece 1 along the conveying direction, and the bottom support plate 27 can be used for accommodating the dropped mobile phone frame 19 for collection by workers.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the effectiveness of the prior art and has practicability, and thus it is a product with practical value.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (9)

1. The utility model provides an equidistance conveying mechanism of detection cell-phone frame, includes the conveying and sets up in the support piece of conveying direction of advance both sides, its characterized in that: the two ends of the supporting pieces are respectively provided with a positioning assembly, the positioning assembly comprises more than two guide pieces arranged on one supporting piece and a clamping piece arranged on the other supporting piece, and the clamping piece comprises a pair of clamping blocks which respectively reciprocate along the conveying direction vertical to the conveying piece.

2. An equidistant transport mechanism of a detection cell phone frame according to claim 1, characterized in that: the clamping piece further comprises a clamping seat used for installing the clamping block and a driving piece driving the clamping seat to reciprocate along the direction perpendicular to the conveying direction of the conveying piece.

3. The isometric conveying mechanism of detection cell-phone frame of claim 2 characterized in that: the driving piece is telescopic cylinder, and transverse arrangement's supporting seat is installed to one of them support piece, and the driving piece is installed on the supporting seat, and the holder is installed in the drive end of driving piece.

4. The isometric conveying mechanism of detection cell-phone frame of claim 1 characterized in that: the guide member includes a guide block disposed along a length of the support member and a pair of inductors mounted on the guide block at spaced intervals, one of the inductors being transversely aligned with one of the clamping blocks.

5. An equidistant transport mechanism of a detection cell phone frame according to claim 1, characterized in that: the conveying part comprises a belt part and conveying shafts positioned at two ends of the belt part, two ends of each conveying shaft are respectively and rotatably arranged on the supporting part, and belt pulleys in transmission connection with the belt part are nested on the conveying shafts.

6. The isometric conveying mechanism of detection cell-phone frame of claim 5 characterized in that: the support piece includes the aluminium alloy of arranging along carrying a direction of delivery and installs the transmission seat at the aluminium alloy both ends, and the transmission seat shaping has the transmission groove that supplies to carry the axle male.

7. The isometric conveying mechanism of detection cell-phone frame of claim 6 characterized in that: the conveying shaft is provided with a rotating hole in a penetrating mode, a rotating rod is inserted into the rotating hole, the outer end of the rotating rod is a square strip, the transmission groove is a rectangular long groove with the width matched with the square strip, and the square strip can be installed in a sliding mode in the length direction of the transmission groove.

8. An equidistant transport mechanism of a test handset frame according to claim 7, characterized in that: the groove wall of the transmission groove is formed with a first adjusting hole arranged along the conveying direction of the conveying piece in a penetrating mode, and the square strip is formed with a second adjusting hole coaxially matched with the first adjusting hole in a penetrating mode.

9. The isometric conveying mechanism of detection cell-phone frame of claim 1 characterized in that: and a bottom supporting plate is arranged below the conveying piece along the conveying direction.

Images