CN112170213A - Automatic vibration screening equipment for clamp spring - Google Patents

Abstract

The invention discloses automatic vibration screening equipment for clamp springs, which comprises a bottom plate, a rotating device and a correcting device, wherein the correcting device is arranged on the bottom plate through the rotating device, and the rotating device drives the correcting device to rotate to realize the correcting operation of a coil spring; the bottom plate is a rectangular plate, a through hole for the rotating device to be embedded and rotated is formed in the bottom plate, and a limit stop block for limiting the rotating device is arranged on the bottom plate; the rotating device comprises a driving gear and a driven gear which are meshed with each other, the driven gear is driven to rotate under the action of the handle, a disc which is integrated with the driven gear is arranged on the driven gear, a support for supporting the correcting device is arranged on the disc, the driven gear and the disc are sleeved on a fixed shaft arranged on the bottom plate, and the fixed shaft is sleeved with a fixed disc; the correcting device is arranged on the bottom plate through the rotating device, the correcting device is driven to rotate through the rotating device, the correcting operation of the coil spring is realized by combining corresponding scales, and the product quality is improved.

Description

Automatic vibration screening equipment for clamp spring

The technical field is as follows:

the invention relates to clamp spring screening equipment, in particular to automatic vibration screening equipment for clamp springs.

Background art:

circlips (foreign language name circlips), also called retainer rings or snap rings, belong to one type of fasteners, are arranged in shaft grooves or hole grooves of machines and equipment and play a role in preventing parts on shafts or holes from moving axially. The Yuhua ordinary jump ring is larger than an opening, but a steel wire used for manufacturing the jump ring is thinner, deformation (overlarge opening) is easy to occur in the processes of transportation, packaging and manufacturing, so that the qualification rate is reduced, in order to improve the qualification rate, the size of the opening of the jump ring needs to be measured when packaging is carried out, the original detection method is manual visual sorting, but the method is easy to cause eye marks and is unclear so that deformation is missed, a simple die is manufactured afterwards, deformation detection (comparison) is carried out in a mode that the simple die passes through the opening of the jump ring, but the method also needs manual sorting corresponding to the die, and eye fatigue is easy to cause.

The invention content is as follows:

the technical problem to be solved by the invention is as follows: overcome prior art's not enough, through increase the sieving mechanism on current vibrations loading attachment's basis, realize the automatic feed to the sieving mechanism, and filter and distinguish to deposit different open-ended jump rings through the smooth pole of unidimensional in the sieving mechanism, accomplish the automatic feeding and the screening operation to the jump ring, convenient and fast reduces the automatic vibrations screening installation that is used for the jump ring of labour cost.

The technical scheme of the invention is as follows: the utility model provides an automatic vibrations screening installation for jump ring, includes vibrations loading attachment and sieving mechanism, characterized by: vibrations loading attachment is including moving base and vibrations case, the sieving mechanism passes through the vibrations case sets up on the vibrations base, drive vibrations case and sieving mechanism through the vibrations base and shake, realize storing the jump ring in the vibrations case is automatic to get into one by one the sieving mechanism carries out the screening operation:

the vibration box is connected with a vibration base with a vibration motor arranged inside, a spiral upward guide groove is formed in the inner wall of the vibration box, the feeding end of the guide groove is communicated with the bottom of the vibration box, and the discharging end of the guide groove is communicated with a screening device arranged on the vibration box;

the screening device comprises an extension plate, a sliding rod and a material conveying channel, wherein the extension plate is arranged on the vibration box, one end of the extension plate is communicated with the discharge end of the guide groove, the other end of the extension plate is communicated with one end of the sliding rod, the sliding rod is wound on the outer side of the vibration box and is laid in a suspended mode downwards, the other end of the sliding rod is fixed to the outer wall of the vibration box through a connecting rod, and the sliding rod corresponds to the material conveying channel to complete conveying of the screened clamp spring.

Furthermore, the sliding rod comprises a first sliding rod, a second sliding rod, a third sliding rod and a fourth sliding rod which are sequentially connected, the first sliding rod is in a strip plate shape, the second sliding rod, the third sliding rod and the fourth sliding rod are all in a cylindrical shape, the diameters of the second sliding rod and the fourth sliding rod are the same, and the diameter of the third sliding rod is smaller than the diameters of the first sliding rod and the fourth sliding rod and larger than the standard opening size of the clamp spring.

Furthermore, the material conveying channel comprises a first channel, a second channel and a third channel, the first channel is obliquely fixed on the outer wall of the vibration box at the lower sides of the first sliding rod and the second sliding rod, the second channel is obliquely fixed on the outer wall of the vibration box at the lower side of the third sliding rod, and the third channel is obliquely fixed on the outer wall of the vibration box at the lower side of the fourth sliding rod through a support rod.

Furthermore, the bottom end of the first channel penetrates through the side wall of the vibration box and is communicated with the interior of the vibration box, the bottom end of the second channel is communicated with the second collection box, and the bottom end of the third channel is communicated with the third collection box.

Furthermore, be provided with between litter and the first slide and prevent stifled metal strip, its one end is the unsettled setting of arcuation form and is in first litter and the junction of second litter, its other end is connected the top of first slide.

Furthermore, the connecting rod is L-shaped, one end of the connecting rod is fixed on the outer wall of the vibration box, and the other end of the connecting rod is fixed on the upper side of the slide rod.

Furthermore, the extension plate is in a twisted inclined shape from one end to the other end, and a blocking piece is arranged at the end part of the extension plate connected with the slide rod.

Furthermore, the vibration box is internally provided with an arc dispersing rib in an inclined manner, one end of the arc dispersing rib is connected with the bottom of the vibration box, and the other end of the arc dispersing rib is suspended.

The invention has the beneficial effects that:

1. according to the automatic feeding device, the screening device is added on the basis of the existing vibration feeding device, so that automatic feeding of the screening device is realized, snap springs with different openings are screened and stored in a distinguishing mode through sliding rods with different sizes in the screening device, automatic feeding and screening operations of the snap springs are completed, convenience and rapidness are realized, and labor cost is reduced.

2. The vibrating box is arranged on the vibrating base, the inner wall of the vibrating box is provided with the spiral upward guide groove, the feeding end of the guide groove is communicated with the bottom of the vibrating box, the discharging end of the guide groove extends to the outer side of the vibrating box, so that the vibrating feeding device in the prior art is formed, the screening device is arranged on the vibrating box and is communicated with the discharging end of the guide groove, the clamp springs stored in the vibrating box automatically enter the screening device one by one through the guide groove to be screened, and the automatic feeding operation of the screening device is realized.

3. The sliding rod is laid around the outer side of the vibration box in a downward hanging mode, so that the clamp springs can conveniently slide downwards along the sliding rod under the action of self gravity, one end of the sliding rod is communicated with the discharge end of the guide groove through the extension plate, the other end of the sliding rod is fixed on the outer wall of the vibration box through the connecting rod and corresponds to the material conveying channel, and the clamp springs screened by the sliding rod are conveyed through the material conveying channel to finish automatic screening and conveying of the clamp springs.

4. The sliding rod comprises a first sliding rod, a second sliding rod, a third sliding rod and a fourth sliding rod which are sequentially connected, wherein the first sliding rod is in a strip plate shape, the second sliding rod, the third sliding rod and the fourth sliding rod are in a cylindrical shape, the diameters of the second sliding rod and the fourth sliding rod are the same, the diameter of the third sliding rod is smaller than the diameters of the first sliding rod and the fourth sliding rod and larger than the standard opening size of a clamp spring, the width of the first sliding rod is smaller than the standard opening size of the clamp spring, the clamp spring is sleeved on the first sliding rod through an opening, the clamp spring sleeved on the first sliding rod does not fall off, the opening faces downwards, after a clamping groove slides onto the second sliding rod, the opening faces upwards, a clamping buckle is clamped on the second sliding rod and slides downwards, and as the diameter of the third sliding rod is slightly larger than the standard opening size of the clamp spring, the standard opening and the clamp spring smaller than the opening enter the fourth sliding rod through the third sliding rod, and the rest of the clamp springs fall off, and finishing automatic screening of the snap springs.

5. The feeding channel comprises a first channel, a second channel and a third channel, wherein the first channel is obliquely fixed on the outer wall of the vibration box at the lower sides of a first sliding rod and a second sliding rod, the second channel is obliquely fixed on the outer wall of the vibration box at the lower side of a third sliding rod, the third channel is obliquely fixed on the outer wall of the vibration box at the lower side of a fourth sliding rod through a support rod, the first channel collects and conveys clamp springs falling from the first sliding rod into the vibration box, the second channel collects and conveys unqualified clamp springs falling from the third sliding rod into a second collection box, and the third channel collects and conveys qualified clamp springs falling from the fourth sliding rod into a third collection box to finish automatic collection and conveying of clamp springs with unknown sizes.

6. An anti-blocking metal strip is arranged between the sliding rod and the first slide way, one end of the anti-blocking metal strip is suspended at the joint of the first sliding rod and the second sliding rod in an arc shape, the other end of the anti-blocking metal strip is connected to the top end of the first slide way, the first slide way drives the anti-blocking metal strip to vibrate, the snap spring blocked at the joint of the first sliding rod and the second sliding rod is dispersed, meanwhile, due to the effect of the anti-blocking metal strip, the snap spring can conveniently rotate on the second sliding rod, the opening of the snap spring is upwards clamped on the second sliding rod, and subsequent screening operation is facilitated.

7. The connecting rod is L-shaped, one end of the connecting rod is fixed on the outer wall of the vibration box, the other end of the connecting rod is fixed on the upper side of the sliding rod, the diameter of the connecting rod at the joint of the connecting rod and the sliding rod is smaller than the standard opening size of the clamp spring, the clamp spring can pass through the connecting rod conveniently, and the clamp spring is prevented from being blocked while the sliding rod is supported.

8. The extension plate is twisted and inclined from one end to the other end, so that the clamp springs entering the extension plate from the guide groove are gathered together, the gathered clamp springs correspond to the slide rod, the clamp springs are conveniently sleeved on the slide rod, and meanwhile, the end part of the extension plate connected with the slide rod is provided with the blocking piece, so that one side of the clamp springs is limited, the probability that the clamp springs are sleeved on the slide rod is increased, and the working efficiency is improved.

9. The arc-shaped dispersing ribs are obliquely arranged in the vibrating box, one end of each dispersing rib is connected with the bottom of the vibrating box, the other end of each dispersing rib is suspended, so that the clamp springs stored in the vibrating box move along the arc-shaped dispersing ribs, the clamp springs are prevented from being buckled with each other to form a pile, the clamp springs are inconvenient to enter the guide grooves, and the working efficiency is reduced.

Description of the drawings:

fig. 1 is a front view of the present application.

Fig. 2 is a top view of the present application.

Fig. 3 is a partially enlarged view of fig. 1.

Fig. 4 is a schematic structural view of the slide rod.

Fig. 5 is a front view of the extension plate.

Fig. 6 is a right side view of the extension plate.

FIG. 7 is a schematic view of the connection between the first and second slide bars.

Fig. 8 is a left side view of fig. 7.

Fig. 9 is a schematic structural diagram of the snap spring on the third slide rod.

Fig. 10 is a sectional view B-B of fig. 9.

Fig. 11 is a schematic structural diagram of the snap spring.

The specific implementation mode is as follows:

example (b): referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10 and fig. 11, in the drawings, 1-vibration base, 2-vibration box, 3-guide groove, 4-extension plate, 5-slide rod (5 a-first slide rod, 5 b-second slide rod, 5 c-third slide rod, 5 d-fourth slide rod), 6-connecting rod, 7-first channel, 8-second channel, 9-third channel, 10-supporting rod, 11-second collecting box, 12-third collecting box, 13-anti-blocking metal strip, 14-blocking piece, 15-arc dispersion rib, a-snap spring.

A automatic vibrations screening installation for jump ring, including vibrations loading attachment and sieving mechanism, vibrations loading attachment is including moving base and vibrations case, and the sieving mechanism passes through the vibrations case setting on vibrations base, drives vibrations case and sieving mechanism through vibrations base and shakes, realizes that the jump ring that stores in the vibrations incasement gets into the sieving mechanism one by one automatically and screens the operation: according to the automatic feeding device, the screening device is added on the basis of the existing vibration feeding device, so that automatic feeding of the screening device is realized, snap springs with different openings are screened and stored in a distinguishing mode through sliding rods with different sizes in the screening device, automatic feeding and screening operations of the snap springs are completed, convenience and rapidness are realized, and labor cost is reduced.

The following detailed description of the application refers to the accompanying drawings and examples.

The screening device is arranged on the vibration base 1 through the vibration box 2, the vibration box 2 and the screening device are driven to vibrate through the vibration base 1, and the clamp springs A stored in the vibration box 2 automatically enter the screening device one by one to be screened;

the vibration box 2 is connected with a vibration base 1 with a vibration motor arranged inside, a spiral upward guide groove 3 is arranged on the inner wall of the vibration box 2, the feeding end of the guide groove 3 is communicated with the bottom of the vibration box 2, and the discharging end of the guide groove 3 is communicated with a screening device arranged on the vibration box 2;

the screening device comprises an extension plate 4, a sliding rod 5 and a material conveying channel, wherein the extension plate 4 is arranged on the vibration box 2, one end of the extension plate is communicated with the discharge end of the guide groove 3, the other end of the extension plate is communicated with one end of the sliding rod 5, the sliding rod 5 is laid around the outer side of the vibration box 2 in a hanging mode downwards, the other end of the sliding rod 5 is fixed on the outer wall of the vibration box 2 through a connecting rod 6 and corresponds to the material conveying channel, and the screened clamp spring A is conveyed.

The sliding rod 5 comprises a first sliding rod 5a, a second sliding rod 5b, a third sliding rod 5c and a fourth sliding rod 5d which are connected in sequence, the first sliding rod 5a is in a strip plate shape, the second sliding rod 5b, the third sliding rod and the fourth sliding rod are in a cylindrical shape, the diameters of the second sliding rod 5b and the fourth sliding rod 5d are the same, and the diameter of the third sliding rod 5c is smaller than the diameters of the first sliding rod 5a and the fourth sliding rod 5d and larger than the standard opening size of the clamp spring A.

The material conveying channel comprises a first channel 7, a second channel 8 and a third channel 9, the first channel 7 is obliquely fixed on the outer wall of the vibration box 2 at the lower sides of the first sliding rod 5a and the second sliding rod 5b, the second channel 8 is obliquely fixed on the outer wall of the vibration box 2 at the lower side of the third sliding rod 5c, and the third channel 9 is obliquely fixed on the outer wall of the vibration box 2 at the lower side of the fourth sliding rod 5d through a support rod 10.

The bottom end of the first channel 7 penetrates through the side wall of the vibration box 2 to be communicated with the interior of the vibration box 2, the bottom end of the second channel 8 is communicated with the second collection box 11, and the bottom end of the third channel 9 is communicated with the third collection box 12.

An anti-blocking metal strip 13 is arranged between the slide rod 5 and the first slide way 7, one end of the anti-blocking metal strip is suspended at the joint of the first slide rod 5a and the second slide rod 5b in an arc shape, and the other end of the anti-blocking metal strip is connected to the top end of the first slide way 7.

The link rod 6 is L-shaped, and has one end fixed to the outer wall of the vibration box 2 and the other end fixed to the upper side of the slide rod 5.

The extension plate 4 is twisted and inclined from one end to the other end, and a stopper 14 is provided at the end of the extension plate 4 connected to the rod 5.

The vibrating box 2 is provided with an arc dispersing rib 15 in an inclined way, one end of the dispersing rib is connected with the bottom of the vibrating box 2, and the other end of the dispersing rib is suspended.

When the vibrating screen is used, the vibrating base 1 drives the vibrating box 2 and the screening device to vibrate together, the clamp spring A in the vibrating box 2 moves upwards along the guide groove 3 in a spiral mode and enters the extension plate 4 from the discharge end, the clamp spring A collects towards one side in the extension plate 4 and moves towards the first sliding rod 5a, the clamp spring A can be sleeved on the first sliding rod 5a through the opening (the clamp spring A which is not sleeved on the first sliding rod 5a falls on the first slide rail 7 and slides into the vibrating box 2) as the width of the first sliding rod 5a is smaller than the standard opening size of the clamp spring A), the clamp spring A moves downwards along the first sliding rod 5a to the second sliding rod 5b, the clamp spring A rotates under the action of the anti-blocking metal strip 13, the clamp spring A is clamped on the second sliding rod 5b upwards at the opening of the second sliding rod 5b and slides towards the third sliding clamp spring 5c, and when the third sliding rod 5c slides onto the third sliding rod 5c, the clamp spring a with the opening larger than the diameter of the third slide rod 5c falls on the second slide way 8 (the clamp spring with the opening too large and unqualified) and slides into the second collection box 11 along the second slide way 8, and the clamp spring S with the opening equal to or smaller than the diameter of the third slide rod 5c moves onto the fourth slide rod 5d (the qualified clamp spring) and falls on the third slide way 9 and slides into the third collection box 12 along the third slide way 9.

Wherein, the slope is provided with arc dispersion muscle 15 in vibrations case 2, and its one end is connected with vibrations case 2 bottoms, and its other end is unsettled, makes 2 inside jump ring A who stores of vibrations case remove along arc dispersion muscle 15, prevents that jump ring A each other lock from forming one pile together, and jump ring A that is not convenient for gets into guide way 3.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications, equivalent variations and modifications made to the above embodiment according to the technical spirit of the present invention still fall within the scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides an automatic vibrations screening installation for jump ring, includes vibrations loading attachment and sieving mechanism, characterized by: vibrations loading attachment is including moving base and vibrations case, the sieving mechanism passes through the vibrations case sets up on the vibrations base, drive vibrations case and sieving mechanism through the vibrations base and shake, realize storing the jump ring in the vibrations case is automatic to get into one by one the sieving mechanism carries out the screening operation:

the vibration box is connected with a vibration base with a vibration motor arranged inside, a spiral upward guide groove is formed in the inner wall of the vibration box, the feeding end of the guide groove is communicated with the bottom of the vibration box, and the discharging end of the guide groove is communicated with a screening device arranged on the vibration box;

the screening device comprises an extension plate, a sliding rod and a material conveying channel, wherein the extension plate is arranged on the vibration box, one end of the extension plate is communicated with the discharge end of the guide groove, the other end of the extension plate is communicated with one end of the sliding rod, the sliding rod is laid around the outer side of the vibration box in a hanging mode downwards, the other end of the sliding rod is fixed on the outer wall of the vibration box through a connecting rod and corresponds to the material conveying channel, and the screened snap springs are conveyed;

the sliding rod comprises a first sliding rod, a second sliding rod, a third sliding rod and a fourth sliding rod which are sequentially connected, the first sliding rod is in a strip plate shape, the second sliding rod, the third sliding rod and the fourth sliding rod are all in a cylindrical shape, the diameters of the second sliding rod and the fourth sliding rod are the same, and the diameter of the third sliding rod is smaller than the diameters of the first sliding rod and the fourth sliding rod and larger than the standard opening size of the clamp spring; an anti-blocking metal strip is arranged between the sliding rod and the first slide way, one end of the anti-blocking metal strip is in an arc-shaped suspension arrangement at the joint of the first sliding rod and the second sliding rod, and the other end of the anti-blocking metal strip is connected to the top end of the first slide way.

2. The automatic vibratory screening apparatus for circlips of claim 1 wherein: the material conveying channel comprises a first channel, a second channel and a third channel, the first channel is obliquely fixed on the outer wall of the vibration box at the lower sides of the first sliding rod and the second sliding rod, the second channel is obliquely fixed on the outer wall of the vibration box at the lower side of the third sliding rod, and the third channel is obliquely fixed on the outer wall of the vibration box at the lower side of the fourth sliding rod through a support rod.

3. The automatic vibratory screening apparatus for circlips of claim 2 wherein: the bottom end of the first channel penetrates through the side wall of the vibration box and is communicated with the interior of the vibration box, the bottom end of the second channel is communicated with the second collection box, and the bottom end of the third channel is communicated with the third collection box.

4. The automatic vibratory screening apparatus for circlips of claim 1 wherein: the connecting rod is L-shaped, one end of the connecting rod is fixed on the outer wall of the vibration box, and the other end of the connecting rod is fixed on the upper side of the sliding rod.

5. The automatic vibratory screening apparatus for circlips of claim 1 wherein: the extension plate is in a twisted inclined shape from one end to the other end, and a blocking piece is arranged at the end part of the extension plate connected with the slide rod.

6. The automatic vibratory screening apparatus for circlips of claim 1 wherein: the vibration box is internally provided with an arc dispersing rib in an inclined mode, one end of the arc dispersing rib is connected with the bottom of the vibration box, and the other end of the arc dispersing rib is suspended.

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