CN218260617U - Positioning and conveying mechanism of capacitor splitting machine - Google Patents

Abstract

The utility model relates to a capacitor distributing technical field, in particular to a positioning and conveying mechanism of a capacitor splitting machine, which comprises a feeding mechanism for jacking a distributing plate one by one, wherein the feeding mechanism comprises a positioning jig for positioning the distributing plate, a positioning platform is arranged beside the feeding mechanism, the positioning platform is provided with a material shifting component for transferring the distributing plate from the feeding mechanism to the positioning platform, and the positioning platform is provided with a positioning structure for guiding the distributing plate to slide in; jacking the positioning jig to be flush with the positioning platform, transversely moving the whole material shifting piece, and transferring the positioning jig into a positioning structure of the positioning platform; after the positioning jig is positioned, the positioning platform can move to the next procedure; the positioning jig is adopted to position the material distributing plate, so that the phenomenon of deformation of the material distributing plate during transferring can be reduced, and the capacitor plug-in unit of the material distributing plate can be protected; the material stirring piece can quickly and transversely transfer the positioning jig to the positioning structure for positioning, so that the offset probability of the positioning jig can be reduced, the transfer accuracy is improved, and the subsequent processing is facilitated.

Description

Positioning and conveying mechanism of capacitor splitting machine

Technical Field

The utility model relates to an electric capacity divides material technical field, especially relates to location conveying mechanism of electric capacity cutting machine.

Background

With the rapid development of the 3C electronic industry, 3C electronic products are upgraded towards high integration and high precision, the components in the products are smaller and smaller, the precision and the electronic integration are higher and higher, most of the capacitor plug-ins are packaged on the material distribution plate before being used, and the capacitor plug-ins need to be transferred to a punching station to be punched and separated by a punching cutter one by one, and then are independently installed on the products for use.

Before entering the punching station, the material is required to pass through a section of transferring station, and before entering the transferring station, the material distributing plate is required to be correspondingly loaded.

The utility model CN201520866129.0 discloses a marching type feeder, including the frame and locate the translation slip table of its top, the slip table is lifted in the installation on the translation slip table, lifts slip table top installation mould frame, through translation slip table and lift the linkage of slip table, can realize the back-and-forth movement of mould frame and lift the motion from top to bottom, the tail end of mould frame docks with the manipulator of the reclaimer of assembly machine.

Most divide flitch material loading to the position after, all adopt belt transport's mode to carry die-cut station one by one, because belt transport piece location guide structure is less when carrying, the phenomenon of skew appears easily, lead to the product to carry the back can appear with the circumstances of die-cut station misalignment, influence subsequent die-cut quality.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a location conveying mechanism of electric capacity cutting machine to prior art's not enough.

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

the positioning and conveying mechanism of the capacitance splitting machine comprises a feeding mechanism for jacking the material distributing plates one by one, wherein the feeding mechanism comprises a positioning jig for positioning the material distributing plates, a positioning platform is arranged beside the feeding mechanism, a material shifting assembly for transferring the material distributing plates from the feeding mechanism to the positioning platform is mounted on the positioning platform, and a positioning structure for guiding the material distributing plates to slide in is arranged on the positioning platform; the material shifting assembly comprises material shifting parts and a transverse driving part, wherein the material shifting parts are used for positioning two ends of the material distributing plate, and the transverse driving part is used for driving the material shifting parts to transversely move.

Further: the feeding mechanism further comprises a tray and a longitudinal clamping plate which is longitudinally arranged at the top of the tray, the longitudinal clamping plate is provided with a plurality of bottom supporting plates which are arranged at intervals along the length direction of the longitudinal clamping plate, the two sides of each bottom supporting plate are respectively provided with a left clamping plate and a right clamping plate, and the distance between the left clamping plate and the right clamping plate can be used for the positioning jig to slide through.

And further: the feeding mechanism further comprises a lifting driving piece positioned at the bottom of the tray, the lifting driving piece comprises a first supporting plate and a second supporting plate which are positioned below the tray, the second supporting plate is positioned above the first supporting plate, the first supporting plate is provided with a guide rod which penetrates through the second supporting plate and is connected with the tray and a first screw rod piece which penetrates through the second supporting plate and is connected with the tray, and the first screw rod piece can be rotatably matched with the second supporting plate in a threaded transmission manner and drives the second supporting plate to move up and down along the guide rod; the second support plate is provided with a support rod which passes through the tray and is connected with the bottommost bottom tray.

And further: the positioning structure comprises an enclosing frame for performing side positioning on adjacent three side walls of the positioning jig, an opening for the positioning jig to slide into is formed in the enclosing frame, the width of the opening is matched with the width of the positioning jig, and the enclosing frame is provided with a sensor in place.

Further: the bottom of the positioning platform is provided with a bottom driving piece, the bottom driving piece comprises a second screw rod piece perpendicular to the movement direction of the material stirring assembly, and the bottom of the positioning platform is provided with a transmission seat in threaded fit with the second screw rod piece.

Further: the bottom driving piece further comprises a forward and reverse rotating motor in transmission connection with one end of the second screw rod piece, and a bearing seat is installed at the other end of the second screw rod piece.

Further: the bottom of the positioning platform is provided with a slide rail assembly, the slide rail assembly comprises more than two parallel bottom guide rails which are arranged at intervals, and the bottom of the positioning platform is provided with a bottom sliding seat which is in sliding fit with the bottom guide rails.

Further: the transverse driving piece comprises a telescopic cylinder arranged on a pull plate at the top of the positioning platform and parallel to the pull plate, the driving end of the telescopic cylinder is connected with the pull plate, the material stirring piece is a pair of material stirring rods arranged on the pull plate in a parallel mode at intervals, and the two material stirring rods respectively abut against the two ends of the positioning jig.

Further: the top of the positioning platform is provided with a sliding guide rail parallel to the pulling plate, and the bottom of the pulling plate is provided with a top sliding seat in sliding fit with the sliding guide rail.

Further: the positioning platform is provided with a plurality of guide grooves which are used for the capacitor plug-in units of the distributing plates to drop and pass after being punched.

The utility model has the advantages that: the feeding mechanism lifts the positioning jig provided with the material distributing plate to be flush with the positioning platform, the material shifting piece of the material shifting assembly moves to the feeding mechanism, so that the material shifting piece positions two ends of the positioning jig, the whole material shifting piece moves transversely, and the positioning jig is transferred into a positioning structure of the positioning platform; after the positioning jig is positioned, the positioning platform can move to the next procedure; the positioning jig is adopted to position the material distributing plate, so that the phenomenon of deformation of the material distributing plate during transferring can be reduced, and the capacitor plug-in unit of the material distributing plate can be protected; the material stirring piece quickly and transversely transfers the positioning jig to the positioning structure for positioning, so that the deviation probability of the positioning jig can be reduced, the transfer accuracy is improved, and the subsequent processing is facilitated.

Drawings

Fig. 1 is a schematic structural view of a positioning conveying mechanism.

Fig. 2 is a schematic structural diagram of the feeding mechanism.

Fig. 3 is a schematic structural view of the connection between the positioning platform and the material pulling assembly.

Fig. 4 is another view structure diagram of the positioning platform and the kick-off assembly connected with each other.

Fig. 5 is a schematic structural diagram of the kick-out assembly.

The reference numerals include:

1-a feeding mechanism,

11-positioning jig, 12-positioning groove, 13-falling groove, 14-tray, 15-longitudinal clamping plate,

16-bottom supporting plate, 17-left clamping plate, 18-right clamping plate, 19-side positioning plate,

2-lifting driving piece,

21-a first supporting plate, 22-a second supporting plate, 23-an electric machine member, 24-a first screw member,

25-guide rod, 26-support rod, 27-guide hole,

3-a positioning platform,

30-a positioning structure, 31-an enclosing frame, 32-a bottom driving piece, 33-a second screw rod piece, 34-a bearing seat,

35-a positive and negative rotation motor, 36-a transmission seat, 37-a bottom guide rail, 38-a bottom sliding seat,

39-distance sensor,

4-a material poking component,

41-telescopic cylinder, 42-pulling plate, 43-material-pulling rod, 44-sliding guide rail and 45-top sliding seat.

46-guide groove.

Detailed Description

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

As shown in fig. 1-5, the positioning and conveying mechanism of the capacitor splitting machine comprises a feeding mechanism 1 and a positioning platform 3, the positioning platform 3 is arranged beside the feeding mechanism 1, the feeding mechanism 1 comprises a positioning jig 11 for positioning and installing a material distributing plate, the positioning jig 11 is formed with an inward concave positioning groove 12, the positioning groove 12 is formed with a plurality of dropping grooves 13 for dropping capacitor plug-ins on the material distributing plate, the positioning jig 11 is adopted to position the material distributing plate, the phenomenon of deformation of the material distributing plate during transferring can be reduced, and the capacitor plug-ins on the material distributing plate can be protected; and the punched capacitor plug-in units can pass through the dropping groove 13 and drop; the feeding mechanism 1 further comprises a tray 14 and a longitudinal clamping plate 15 longitudinally arranged at the top of the tray 14, the longitudinal clamping plate 15 is provided with a plurality of bottom supporting plates 16 arranged at intervals along the length direction, two adjacent bottom trays 14 are arranged at equal intervals, the tray 14 is vertically provided with a side positioning plate 19 for the longitudinal clamping plate 15 to lift and slide, and the longitudinal clamping plate 15 cannot shift when the top of the tray 14 lifts; left cardboard 17 and right cardboard 18 are installed respectively to bottom bracket board 16 both sides, and left cardboard 17 vertically installs at bottom bracket board 16 left side wall, and right cardboard 18 vertically installs at bottom bracket board 16 right side wall, and positioning jig 11 is located between left cardboard 17 and the right cardboard 18, and the interval between left cardboard 17 and the right cardboard 18 can supply positioning jig 11 to slide to pass through.

The feeding mechanism 1 further comprises a lifting driving part 2 positioned at the bottom of the tray 14, the lifting driving part 2 comprises a first supporting plate 21 and a second supporting plate 22 positioned below the tray 14, the second supporting plate 22 is positioned above the first supporting plate 21, the first supporting plate 21 is provided with a guide rod 25 penetrating through the second supporting plate 22 and connected with the tray 14 and a first screw rod part 24 penetrating through the second supporting plate 22 and connected with the tray 14, and the first screw rod part 24 can be rotatably matched with the second supporting plate 22 in a threaded transmission manner and drives the second supporting plate 22 to move up and down along the guide rod 25; the second support plate 22 is fitted with a support rod 26 which passes through the tray 14 and is connected to the bottommost bottom tray 14.

The first support plate 21 is provided with an electric machine part 23, the electric machine part 23 is in transmission connection with a first screw rod part 24, the second support plate 22 is provided with a threaded sleeve in threaded transmission fit with the first screw rod part 24, the top end of the first screw rod part 24 is connected with the tray 14 through a bearing seat 34, the tray 14 is connected with the first support plate 21 through a guide rod 25, and therefore the distance between the tray 14 and the first support plate 21 is a fixed value; the second supporting plate 22 is formed with a guiding hole 27 in sliding fit with the guiding rod 25, when the first screw rod piece 24 rotates, the first screw rod piece is in threaded fit with a threaded sleeve on the second supporting plate 22, the second supporting plate 22 can do lifting motion along the guiding rod 25, the supporting rod 26 installed on the second supporting plate 22 penetrates through the tray 14 to be connected with the bottommost bottom supporting plate 16, the bottom supporting plate 16 is driven to lift, and the positioning jigs 11 arranged at intervals can be continuously jacked up to be aligned with the positioning platform 3 one by one.

The positioning platform 3 is provided with a material stirring assembly 4 for transferring the material distributing plate from the feeding mechanism 1 to the positioning platform 3, and the positioning platform 3 is provided with a positioning structure 30 for guiding and sliding the material distributing plate; the positioning structure 30 comprises an enclosing frame 31 for laterally positioning three adjacent side walls of the positioning jig 11, an opening for the positioning jig 11 to slide into is formed in the enclosing frame 31, the width of the opening is matched with that of the positioning jig 11, an in-place sensor is installed on the enclosing frame 31 and is an existing distance sensor 39, the positioning jig 11 is transversely shifted into the enclosing frame 31 of the positioning platform 3 from the bottom supporting plate 16 by a shifting piece, and the distance sensor 39 recognizes that the positioning jig 11 enters the enclosing frame 31 and can output an in-place signal; the positioning jig 11 entering the enclosure frame 31 can be positioned, so that the phenomenon of displacement does not occur, and the subsequent punching accuracy can be further ensured.

The positioning platform 3 is formed with a plurality of guide grooves 46 through which the capacitor plug-in units of the material distributing plate fall after being punched, and the capacitor plug-in units can fall through the positioning platform 3 from the positioning jig 11 after being punched.

Specifically, 3 bottoms of locating platform are provided with and drive locating platform 3 and 11 group material direction vertically bottom drive piece 32 of location tool, group material subassembly 4 is including the group material piece of dividing flitch both ends location and drive the horizontal drive piece of group material piece lateral shifting, horizontal drive piece is including installing in 3 tops arm-tie 42 of locating platform and parallel and arm-tie 42's telescopic cylinder 41, telescopic cylinder 41's drive end and arm-tie 42 are connected, group material piece is a pair of parallel interval ground of each other and installs in arm-tie 42's group material pole 43, interval between two group material poles 43 is the length of location tool 11, can support 11 both ends of location tool respectively.

When the positioning jig 11 rises to be flush with the positioning platform 3, the positioning platform 3 is driven by the bottom driving part 32 to move outwards, the positioning structure 30 and the positioning jig 11 deviate, the material stirring rod 43 correspondingly moves outwards, then the telescopic cylinder 41 drives the pull plate 42 to move horizontally, so that the material stirring rod 43 is close to the positioning jig 11 to move until being aligned with two ends of the positioning jig 11, the positioning platform 3 moves inwards under the drive of the bottom driving part 32, the two material stirring rods 43 guide two ends of the positioning jig 11, the positioning structure 30 is aligned with the positioning jig 11, then the telescopic cylinder 41 drives the pull plate 42 to move horizontally, the material stirring part transversely stirs the positioning jig 11 on the bottom supporting plate 16 into the surrounding frame 31 of the positioning platform 3 to be positioned, the whole process is extremely fast in conveying speed, the positioning precision is ensured, the deviation probability of the positioning jig 11 can be reduced, the conveying precision is improved, and the subsequent processing is facilitated.

Preferably, the top of the positioning platform 3 is provided with a sliding guide rail 44 parallel to the pulling plate 42, the bottom of the pulling plate 42 is provided with a top sliding seat 45 in sliding fit with the sliding guide rail 44, and the pulling plate 42 can more accurately match the positioning jig 11 with the positioning structure 30 on the positioning platform 3 when being transversely transferred through the sliding fit between the sliding guide rail 44 and the top sliding seat 45, and can be accurately sent into the enclosure frame 31 for positioning.

Specifically, positioning platform 3 bottom is provided with bottom driving piece 32, and bottom driving piece 32 includes with 4 motion direction looks vertically second silk pole piece 33 of group material subassembly, and driving seat 36 is installed to positioning platform 3 bottom, and driving seat 36 installs the swivel nut with 33 screw-thread fit of second silk pole piece, the positive and negative motor 35 of being connected of 33 one end transmissions of second silk pole piece, and bearing frame 34 is installed to the 33 other end of second silk pole piece. Under the drive of motor 35 that just reverses, second silk member piece 33 rotates correspondingly, and the locating platform 3 of installing driving seat 36 correspondingly along the length direction reciprocating motion of second silk member piece 33, drives the material piece of dialling of installing on locating platform 3 and removes correspondingly, can cooperate with positioning jig 11, dials the material to positioning jig 11 and transfers and fix a position in enclosing frame 31 of locating platform 3.

The bottom of the positioning platform 3 is provided with a slide rail assembly, the slide rail assembly comprises two bottom guide rails 37 which are arranged in parallel at intervals, a bottom sliding seat 38 which is in sliding fit with the bottom guide rails 37 is installed at the bottom of the positioning platform 3, and when the positioning platform 3 reciprocates, the sliding stability of the positioning platform can be further improved through the sliding fit of the bottom sliding seat 38 and the bottom guide rails 37, and the positioning accuracy is improved.

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 (10)

1. Location conveying mechanism of electric capacity cutting machine, including the feed mechanism to flitch jacking one by one, feed mechanism is including carrying out the positioning jig who fixes a position, its characterized in that to the flitch: a positioning platform is arranged beside the feeding mechanism, a material shifting assembly for transferring the material distributing plate from the feeding mechanism to the positioning platform is mounted on the positioning platform, and a positioning structure for guiding and sliding the material distributing plate is arranged on the positioning platform; the material stirring component comprises material stirring pieces positioned at two ends of the material distributing plate and a transverse driving piece driving the material stirring pieces to transversely move.

2. The positioning and conveying mechanism of the capacitive dividing and cutting machine according to claim 1, characterized in that: the feeding mechanism further comprises a tray and a longitudinal clamping plate which is longitudinally arranged at the top of the tray, the longitudinal clamping plate is provided with a plurality of bottom supporting plates which are arranged at intervals along the length direction of the longitudinal clamping plate, the two sides of each bottom supporting plate are respectively provided with a left clamping plate and a right clamping plate, and the distance between the left clamping plate and the right clamping plate can be used for the positioning jig to slide through.

3. The positioning and conveying mechanism of the capacitive dividing and cutting machine according to claim 2, characterized in that: the feeding mechanism further comprises a lifting driving piece positioned at the bottom of the tray, the lifting driving piece comprises a first supporting plate and a second supporting plate which are positioned below the tray, the second supporting plate is positioned above the first supporting plate, the first supporting plate is provided with a guide rod which penetrates through the second supporting plate and is connected with the tray and a first screw rod piece which penetrates through the second supporting plate and is connected with the tray, and the first screw rod piece can be rotatably matched with the second supporting plate in a threaded transmission manner and drives the second supporting plate to move up and down along the guide rod; the second support plate is provided with a support rod which passes through the tray and is connected with the bottommost bottom tray.

4. The positioning and conveying mechanism of the capacitive splitting machine according to claim 1, wherein: the location structure includes that the three adjacent lateral walls to the positioning jig carry out the frame that encloses of side location, encloses the frame shaping and has the opening that supplies the positioning jig to slide to get into, and open-ended width and positioning jig's width phase-match enclose the frame and install the sensor that targets in place.

5. The positioning and conveying mechanism of the capacitive dividing and cutting machine according to claim 1, characterized in that: the bottom of the positioning platform is provided with a bottom driving piece, the bottom driving piece comprises a second screw rod piece perpendicular to the movement direction of the material stirring assembly, and the bottom of the positioning platform is provided with a transmission seat in threaded fit with the second screw rod piece.

6. The positioning and conveying mechanism of the capacitive dividing and cutting machine according to claim 5, characterized in that: the bottom driving piece further comprises a forward and reverse rotating motor in transmission connection with one end of the second screw rod piece, and a bearing seat is installed at the other end of the second screw rod piece.

7. The positioning and conveying mechanism of the capacitive splitting machine according to claim 1, wherein: the bottom of the positioning platform is provided with a slide rail assembly, the slide rail assembly comprises more than two bottom guide rails which are arranged in parallel at intervals, and the bottom of the positioning platform is provided with a bottom sliding seat which is in sliding fit with the bottom guide rails.

8. The positioning and conveying mechanism of the capacitive dividing and cutting machine according to claim 1, characterized in that: the horizontal driving piece comprises a pull plate arranged on the top of the positioning platform and a telescopic cylinder parallel to the pull plate, the driving end of the telescopic cylinder is connected with the pull plate, the material stirring pieces are a pair of material stirring rods arranged on the pull plate in a parallel mode at intervals, and the two material stirring rods respectively abut against the two ends of the positioning jig.

9. The positioning and conveying mechanism of the capacitive dividing and cutting machine according to claim 8, characterized in that: and the top of the positioning platform is provided with a sliding guide rail parallel to the pulling plate, and the bottom of the pulling plate is provided with a top sliding seat in sliding fit with the sliding guide rail.

10. The positioning and conveying mechanism of the capacitive splitting machine according to claim 1, wherein: the positioning platform is provided with a plurality of guide grooves which are formed in a penetrating mode and used for the capacitor plug-in units of the distributing plates to fall through after punching.

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