CN115026561B - Full-automatic imbedding device for copper nut of optical filter switcher product - Google Patents

Abstract

The invention relates to a full-automatic copper nut embedding device, in particular to a full-automatic copper nut embedding device for a filter switcher product. The invention aims to provide a full-automatic embedding device for a copper nut of a filter switcher product, which can realize automatic blanking and automatic conveying. The technical proposal is as follows: the utility model provides a full-automatic device of burying of light filter switch product copper nut, includes base, cylinder, briquetting, first slide rail and puts thing board etc. the upper left side of base is connected with the cylinder, and cylinder telescopic link downside is connected with the briquetting that can press, and the equal bilateral symmetry in front and back both sides of base middle part upside is connected with first slide rail, and sliding type is connected with between 4 first slide rails and puts the thing board. The clamping plate can clamp the optical filter switcher, and can prevent the optical filter switcher from moving randomly when the copper nut is buried in the optical filter switcher, so that the working efficiency of people is influenced.

Description

Full-automatic imbedding device for copper nut of optical filter switcher product

Technical Field

The invention relates to a full-automatic copper nut embedding device, in particular to a full-automatic copper nut embedding device for a filter switcher product.

Background

The filter switcher is an infrared camera accessory for switching the filter to the non-infrared-sensing filter in daytime and to the infrared-sensing filter at night, a copper nut is required to be embedded into the filter switcher in the injection molding process of the filter switcher, and copper nuts are also required to be embedded into links such as feeding, discharging, stamping, riveting and assembling, the copper nuts are also required to be placed on the filter switcher, and then the copper nuts are embedded into the filter switcher.

Firstly, place the filter switch on the plane, then put the copper nut on the mould, then, people press down the copper nut for the copper nut buries into the filter switch, but this mode needs to consume a large amount of manpower and time, influences people's work efficiency, consequently, research and development can realize the full-automatic imbedding device of filter switch product copper nut of automatic unloading and automatic fortune material now.

Disclosure of Invention

In order to overcome the defect that a great deal of manpower and time are required to be consumed and the working efficiency of people is affected, the invention aims to provide the full-automatic embedding device for the copper nut of the optical filter switcher product, which can realize automatic blanking and automatic material conveying.

The technical proposal is as follows: the utility model provides a full-automatic imbedding device of light filter switch product copper nut, including the base, the cylinder, the briquetting, first slide rail, put thing board, a spring, mobile mechanism and feed mechanism, the upper left side of base is connected with the cylinder, cylinder telescopic link downside is connected with the briquetting that can press, the equal bilateral symmetry in front and back on the base is connected with the first slide rail of vertical setting, sliding type is connected with put thing board between 4 first slide rails, all be connected with a spring between putting thing board upside and the first slide rail inboard, it has the spout to put to open in the middle of the thing board, be connected with the mobile mechanism that can remove on the base, the upper right side of base is connected with feed mechanism.

As the improvement of above-mentioned scheme, moving mechanism is including elastic rope, first leading wheel, second leading wheel, first mounting, put thing slide and second spring, the base left side rotation is connected with first leading wheel, the base left side rotation is connected with the second leading wheel, the second leading wheel is located first leading wheel below, put thing slide on the thing board slidingtype connection has put thing slide, put thing slide left side intermediate connection has first mounting, around having elastic rope between first leading wheel and the second leading wheel, elastic rope upside and briquetting are connected, elastic rope downside and first mounting left side are connected, put thing slide left side intermediate and put and be connected with the second spring that has the reset effect between the thing board inner wall, the second spring is located first mounting below.

As the improvement of above-mentioned scheme, feed mechanism is including second mounting, blowing pipe, second slide rail, first L type slider and third spring, and the base upper right side is connected with the second mounting, and the second mounting left side is connected with the blowing pipe, and both sides all are connected with the second slide rail around the centre on second mounting upper portion, and sliding connection has the first L type slider that can keep off the material between the second slide rail, all is connected with the third spring between both sides and the second slide rail inner wall around the first L type slider left portion, and open in first L type slider top left side has the storage tank.

As the improvement of above-mentioned scheme, still including clamping mechanism, clamping mechanism is including third mounting, movable rod, splint and fourth spring, and both sides all are connected with the third mounting around putting thing slide upside, all are connected with the movable rod on the third mounting in a sliding manner, and the movable rod inboard all is connected with splint, all is connected with the fourth spring between movable rod outside and the third mounting outside.

As the improvement of above-mentioned scheme, still including heating mechanism, heating mechanism is including fourth mounting, first heating piece, connecting piece and second heating piece, and second mounting left side downside is connected with fourth mounting, and fourth mounting bottom is connected with 4 first heating pieces that can give off heat along the circumferencial direction, all is connected with 2 connecting pieces between the adjacent 2 first heating pieces, is connected with the second heating piece on the storage tank.

As the improvement of above-mentioned scheme, still including shake mechanism, shake mechanism is including third slide rail, second L type slider, the guide bar, fifth mounting, first lug and second lug, both sides all are connected with the third slide rail around the thing slide, all sliding connection has the second L type slider on the third slide rail, be connected with fifth mounting between 2 second L type slider downside, fifth mounting upside is connected with 5 first lugs, be connected with 4 second lugs in the middle of the thing board downside is put, both sides all are connected with the guide bar around the base upside, guide bar and second L type slider sliding connection.

As the improvement of above-mentioned scheme, still including temperature control mechanism, temperature control mechanism is including lid, bull stick, sixth mounting, rotatory piece and fifth spring, and the blowing pipe left side sideslip is connected with the bull stick and rotates, and the bull stick passes the blowing pipe, and the bull stick upside is connected with the lid, and lid downside and blowing pipe upside contact, and blowing pipe left side downside is connected with sixth mounting, and rotatory piece that can rotate is connected with in the sixth mounting, rotatory piece and bull stick slidingtype connection are connected with the fifth spring between rotatory piece downside and the bull stick downside.

As an improvement of the scheme, a chute is arranged in the middle of the object placing plate.

The invention has the following advantages: 1. the clamping plate can clamp the optical filter switcher, and can prevent the optical filter switcher from moving randomly when the copper nut is buried in the optical filter switcher, so that the working efficiency of people is influenced.

2. According to the invention, when the first lug bumps the second lug bumps the 5 first lug bumps on the upper side of the fifth fixing piece, the second lug bumps vibrate to drive the object placing plate to shake, so that the optical filter switcher shakes, and the optical filter switcher is attached to the copper nut more.

3. According to the cover on the upper side of the discharging pipe, the cover can cover the upper side of the discharging pipe, when the copper nut in the discharging pipe is heated, the upper side of the discharging pipe is covered, so that heat in the discharging pipe cannot be scattered, and the copper nut can be heated well more quickly.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic cross-sectional perspective view of the present invention.

Fig. 4 is a schematic perspective view of a first embodiment of a moving mechanism according to the present invention.

Fig. 5 is a schematic view of a second perspective structure of the moving mechanism of the present invention.

Fig. 6 is a schematic perspective view of a cross-section of a moving mechanism of the present invention.

Fig. 7 is a schematic view showing a first perspective structure of the feeding mechanism of the present invention.

Fig. 8 is a schematic view of a second perspective of the feeding mechanism of the present invention.

Fig. 9 is a schematic view of a third perspective structure of the feeding mechanism of the present invention.

Fig. 10 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 11 is a schematic perspective view of a heating mechanism according to the present invention.

Fig. 12 is a schematic cross-sectional perspective view of the heating mechanism of the present invention.

Fig. 13 is a schematic diagram of a first perspective structure of the dithering mechanism of the present invention.

Fig. 14 is a schematic diagram of a second perspective structure of the dithering mechanism of the present invention.

Fig. 15 is a schematic view of a third perspective structure of the dithering mechanism of the present invention.

Fig. 16 is a schematic perspective view of a temperature control mechanism according to the present invention.

Fig. 17 is a schematic view of a first cross-sectional perspective of the temperature control mechanism of the present invention.

Fig. 18 is a schematic view of a second cross-sectional perspective of the temperature control mechanism of the present invention.

Reference numerals in the figures: the device comprises a base, a 2-cylinder, a 3-pressing block, a 4-first sliding rail, a 5-object placing plate, a 51-sliding groove, a 52-first spring, a 6-moving mechanism, a 61-elastic rope, a 62-first guide wheel, a 63-second guide wheel, a 64-first fixing piece, a 65-object placing sliding plate, a 66-second spring, a 7-feeding mechanism, a 71-second fixing piece, a 72-discharging pipe, a 73-second sliding rail, a 74-first L-shaped sliding block, a 75-third spring, a 76-object placing groove, a 8-clamping mechanism, a 81-third fixing piece, a 82-moving rod, a 83-clamping plate, a 84-fourth spring, a 9-heating mechanism, a 91-fourth fixing piece, a 92-first heating block, a 93-connecting piece, a 94-second heating block, a 10-shaking mechanism, a 101-third sliding rail, a 102-second L-shaped sliding block, a 103-guide rod, a 104-fifth fixing piece, a 105-first bump, a 106-second bump, a 11-temperature control mechanism, a 111-cover, a 113-sixth block, a 113-sixth spring, a 115-fourth spring and a fifth fixing piece.

Detailed Description

The following describes the technical scheme with reference to specific embodiments, and it should be noted that: terms indicating orientations, such as up, down, left, right, etc., are used herein only with respect to the position of the illustrated structure in the corresponding drawings. The parts themselves are numbered herein, for example: first, second, etc. are used solely to distinguish between the described objects and do not have any sequential or technical meaning. And the application is said to be as follows: connection, coupling, unless specifically stated otherwise, includes both direct and indirect connection (coupling).

Example 1

The utility model provides a full-automatic imbedding device of filter switch product copper nut, as shown in fig. 1-9, including base 1, cylinder 2, briquetting 3, first slide rail 4, put thing board 5, first spring 52, moving mechanism 6 and feed mechanism 7, base 1 upper left side is connected with cylinder 2, cylinder 2 telescopic link downside is connected with briquetting 3, briquetting 3 can press the copper nut, the equal bilateral symmetry welding has the first slide rail 4 of vertical setting on base 1, sliding type is connected with put thing board 5 between 4 first slide rail 4, all be connected with first spring 52 between putting thing board 5 upside and the first slide rail 4 inboard, first spring 52 can make put thing board 5 reset, put thing board 5 intermediate opening has spout 51, be connected with moving mechanism 6 on the base 1, moving mechanism 6 can make the filter switch remove, base 1 right part upside is connected with feed mechanism 7, feed mechanism 7 can make things convenient for the feeding.

As shown in fig. 1, fig. 4, fig. 5 and fig. 6, the moving mechanism 6 includes an elastic rope 61, a first guide wheel 62, a second guide wheel 63, a first fixing piece 64, a storage slide plate 65 and a second spring 66, the left side of the base 1 is rotatably connected with the first guide wheel 62, the left side of the base 1 is rotatably connected with the second guide wheel 63, the second guide wheel 63 is located below the first guide wheel 62, the storage plate 5 is slidably connected with the storage slide plate 65 through a sliding groove 51, the optical filter switcher can be placed on the storage slide plate 65, the sliding groove 51 enables the storage slide plate 65 to move more smoothly, a first fixing piece 64 is welded in the middle of the left side of the storage slide plate 65, the elastic rope 61 is wound between the first guide wheel 62 and the second guide wheel 63, the upper side of the elastic rope 61 is connected with the pressing block 3, the lower side of the elastic rope 61 is connected with the left side of the first fixing piece 64, the second spring 66 is connected between the middle of the left side of the storage slide plate 65 and the inner wall of the storage plate 5, and the second spring 66 is located below the second fixing piece 66, and the second spring 66 can enable the storage slide plate 65 to reset.

As shown in fig. 1, fig. 7, fig. 8 and fig. 9, the feeding mechanism 7 comprises a second fixing piece 71, a discharging pipe 72, a second sliding rail 73, a first L-shaped sliding block 74 and a third spring 75, wherein the second fixing piece 71 is connected to the right upper side of the base 1 through bolts, the discharging pipe 72 is connected to the left side of the second fixing piece 71, the discharging pipe 72 can discharge a filter switcher, the front side and the rear side of the upper portion of the second fixing piece 71 are both connected with the second sliding rail 73 through bolts, a first L-shaped sliding block 74 is connected between the second sliding rails 73 in a sliding mode, the lower portion of the discharging pipe 72 can be blocked by the first L-shaped sliding block 74, the third spring 75 is connected between the front side and the rear side of the left portion of the first L-shaped sliding block 74 and the inner wall of the second sliding rail 73, the third spring 75 can enable the first L-shaped sliding block 74 to reset, and a storage groove 76 is formed in the left side of the top of the first L-shaped sliding block 74.

When one needs to embed the copper nut into the filter switcher, the device can be used for embedding the copper nut, firstly, the filter switcher needing to embed the copper nut is placed on the object placing slide plate 65, then the copper nut is placed in the discharging pipe 72, then the copper nut in the discharging pipe 72 falls into the filter switcher, initially, the third spring 75 is in a stretched state, the first L-shaped sliding block 74 is positioned at the position of right-hand pressing the object placing slide plate 65 to the rightmost side, the lower side of the discharging pipe 72 is in an opened state, then, the cylinder 2 is started, the telescopic rod of the cylinder 2 performs stretching motion, so that the pressing block 3 moves downwards, the elastic rope 61 is driven to move, the first guide wheel 62 and the second guide wheel 63 are driven to rotate, then the first fixing piece 64 and the object placing slide plate 65 are driven to move leftwards, the second spring 66 is compressed, when the object placing slide plate 65 is separated from the first L-shaped slide block 74, the first L-shaped slide block 74 is driven to move leftwards under the action of the third spring 75, the object placing groove 76 plugs the lower side of the discharging pipe 72, when the object placing slide plate 65 moves below the pressing block 3, the object placing slide plate 65 is propped against the object placing plate 5, the object placing slide plate 65 cannot move leftwards continuously, at the moment, the pressing block 3 can move downwards continuously, the elastic rope 61 is stretched, the pressing block 3 can press the copper nut on the optical filter switcher downwards, the copper nut is better embedded into the optical filter switcher, after the copper nut is embedded, the cylinder 2 is started reversely, the telescopic rod of the cylinder 2 is reset in a shrinkage motion mode, the elastic rope 61 is not pulled any more, the elastic rope 61 is reset, under the action of the second spring 66, the first fixing piece 64 and the object placing slide plate 65 can move rightwards to be reset, the elastic rope 61 is driven to move and reset, in the rightward transportation process of the object placing slide plate 65, a person can take down the optical filter switcher embedded with the copper nut, then place a new optical filter switcher on the object placing slide plate 65, then the object placing slide plate 65 pushes the first L-shaped slide block 74 rightward, the first L-shaped slide block 74 moves and resets rightward, the object placing groove 76 is driven to move and reset rightward, the object placing groove 76 can not block the lower side of the discharging pipe 72, at the moment, the copper nut falls onto the optical filter switcher again, the third spring 75 is stretched, and the above operation is repeated, so that the person can embed the copper nut into the optical filter switcher.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 10, the optical filter switch further comprises a clamping mechanism 8, the clamping mechanism 8 comprises a third fixing piece 81, a moving rod 82, clamping plates 83 and a fourth spring 84, the front side and the rear side of the upper side of the object placing sliding plate 65 are connected with the third fixing piece 81 through bolts, the moving rods 82 are connected to the third fixing piece 81 in a sliding mode, the clamping plates 83 are welded on the inner sides of the moving rods 82, the clamping plates 83 can clamp the optical filter switch, the fourth spring 84 is connected between the outer sides of the moving rods 82 and the outer sides of the third fixing pieces 81, and the moving rods 82 can be reset through the fourth springs 84.

When people embed copper nuts into the filter switcher, the filter switcher may move randomly, people can not conveniently embed copper nuts into the filter switcher to influence people to operate, therefore, the clamping mechanism 8 can be used for clamping, initially, the fourth spring 84 is in a stretched state, the clamping plate 83 is in an outward moving state, firstly, the filter switcher needing to be embedded with copper nuts is placed on the object placing sliding plate 65, then the copper nuts are placed in the discharging pipe 72, then the copper nuts in the discharging pipe 72 can fall into the filter switcher, then the moving rod 82 is loosened, at the moment, the moving rod 82 moves inwards under the action of the fourth spring 84 to drive the clamping plate 83 to move inwards, the clamping plate 83 clamps the filter switcher to avoid the random movement of the filter switcher, after the copper nuts are embedded into the filter switcher, the moving rod 82 moves outwards, the fourth spring 84 is stretched, then the clamping plate 83 is driven to move outwards, the clamping plate 83 does not clamp the filter switcher any more, and then the filter switcher can be repeatedly embedded with copper nuts, so that people can not clamp the filter switcher in the filter switcher, and the filter switcher can not be clamped when people can move the filter switcher.

As shown in fig. 1, 11 and 12, the heating device further comprises a heating mechanism 9, the heating mechanism 9 comprises a fourth fixing piece 91, a first heating block 92, a connecting piece 93 and a second heating block 94, the fourth fixing piece 91 is connected to the lower left side of the second fixing piece 71, 4 first heating blocks 92 are fixedly connected to the bottom of the fourth fixing piece 91 along the circumferential direction, the first heating blocks 92 can heat copper nuts in the discharge pipe 72, 2 connecting pieces 93 are connected between every two adjacent 2 first heating blocks 92, a second heating block 94 is connected to the storage groove 76, and the second heating block 94 can heat the lower side of the copper nuts.

The most common method for embedding copper nuts is to embed copper nuts by hot melting, heat the copper nuts, then embed the copper nuts into the filter switcher, because the inner wall of the filter switcher is provided with plastic parts, the heated copper nuts can be better pressed into the filter switcher, after the copper nuts are pressed in, the copper nuts are not easy to fall out of the filter switcher, therefore, the heating mechanism 9 can be used for heating the copper nuts, firstly, after the copper nuts are discharged into the pipe 72, the first heating block 92 and the second heating block 94 are opened, the copper nuts are heated by the first heating block 92, when the first L-shaped sliding block 74 moves leftwards, the second heating block 94 is driven to move leftwards, the second heating block 94 is blocked below the discharge pipe 72, meanwhile, the second heating block 94 can also heat the copper nuts, after the heating is completed, the first heating block 92 and the second heating block 94 are closed, then when the first L-shaped sliding block 74 moves rightwards to reset, the third spring 75 can be stretched, the second heating block 94 is driven to move rightwards, the second heating block 94 is easy to move rightwards, the second heating block 94 is not to fall out of the filter switcher, the copper nuts can be better cooled, the filter nuts can be cooled, and the filter nuts can not be buried into the filter nuts, the filter nuts can be better cooled, the filter nuts can be buried into the filter nuts, and the filter nuts can be better cooled, the filter can be cooled, and the filter nuts can be buried, and the filter can be better cooled, and the filter can be buried, and the filter can be well be cooled, and the filter can be well pressed down by the filter is buried, and the filter is better pressed.

As shown in fig. 1, fig. 13, fig. 14 and fig. 15, the device further comprises a shaking mechanism 10, the shaking mechanism 10 comprises a third sliding rail 101, a second L-shaped sliding block 102, a guide rod 103, a fifth fixing piece 104, a first protruding block 105 and a second protruding block 106, the front side and the rear side of the object placing sliding plate 65 are fixedly connected with the third sliding rail 101, the third sliding rail 101 is slidably connected with the second L-shaped sliding block 102, the second L-shaped sliding block 102 can slide on the third sliding rail 101, a fifth fixing piece 104 is welded between the lower sides of the 2 second L-shaped sliding blocks 102, 5 first protruding blocks 105 are welded on the upper side of the fifth fixing piece 104, 4 second protruding blocks 106 are welded in the middle of the lower side of the object placing plate 5, when the first protruding blocks 105 strike the second protruding blocks 106, the second protruding blocks 106 vibrate to drive the object placing plate 5 to shake, the front side and the rear side of the upper side of the base 1 are slidably connected with the guide rod 103 through bolts, and the guide rod 103 and the second L-shaped sliding block 102 are slidably connected, and the guide rod 103 can guide the second L-shaped sliding blocks 102.

When the copper nut is placed in the filter switcher, a certain gap is still reserved between the filter switcher and the copper nut, people need to shake the filter switcher to enable the copper nut to be better attached to the filter switcher, when the object placing slide plate 65 moves leftwards, the third slide rail 101, the second L-shaped slide block 102 and the fifth fixing piece 104 are driven to move leftwards, then the first protruding block 105 is driven to move leftwards, the first protruding block 105 impacts the second protruding block 106, at the moment, the second protruding block 106 moves upwards, the object placing plate 5 is driven to move upwards, thereby driving the object placing slide plate 65 and the filter switcher and the copper nut on the object placing slide plate 65 to move upwards, at the moment, the first spring 52 is compressed, when the first protruding block 105 does not impact the second protruding block 106, the object placing plate 5 is driven to move downwards to reset under the action of the first spring 52, then drive the object placing slide plate 65 and the filter switcher and copper nut on the object placing slide plate 65 to move downwards for resetting, then the first bump 105 moves leftwards continuously, so that the second bump 106 shakes upwards and downwards continuously, then the object placing plate 5 shakes upwards and downwards, the object placing slide plate 65 is driven to shake, the filter switcher shakes, since the object placing slide plate 65 continues to move leftwards, the first bump 105 continuously bumps the second bump 106, so that the filter switcher continues to shake, the copper nut and the filter switcher are attached to each other, when the object placing slide plate 65 moves below the pressing block 3, the object placing slide plate 65 stops moving, then the pressing block 3 continues to move downwards, the copper nut is buried in the filter switcher, after the copper nut is buried, the object placing slide plate 65 moves rightwards for resetting, and then the third slide rail 101 is driven, the second L-shaped slider 102 and the fifth fixing member 104 are moved rightward to reset.

As shown in fig. 1, 16, 17 and 18, the device further comprises a temperature control mechanism 11, the temperature control mechanism 11 comprises a cover 111, a rotating rod 112, a sixth fixing piece 113, a rotating block 114 and a fifth spring 115, the rotating rod 112 is connected to the left side of the discharging tube 72 in a sliding and rotating mode, the rotating rod 112 penetrates through the discharging tube 72, the cover 111 is fixedly connected to the upper side of the rotating rod 112, the rotating rod 112 can drive the cover 111 to rotate, the lower side of the cover 111 is in contact with the upper side of the discharging tube 72, the cover 111 can cover the upper side of the discharging tube 72, the sixth fixing piece 113 is welded to the left lower side of the discharging tube 72, the rotating block 114 is connected to the rotating rod 112 in a sliding mode, the fifth spring 115 is connected between the lower side of the rotating block 114 and the lower side of the rotating rod 112, and the fifth spring 115 can enable the rotating rod 112 to reset.

When the copper nut is heated, heat in the discharge tube 72 needs to be controlled, firstly, the cover 111 is moved upwards, the rotating rod 112 is driven to move upwards, the fifth spring 115 is compressed, then the cover 111 is rotated clockwise, the rotating rod 112 is driven to rotate, then the fifth spring 115 and the rotating block 114 are driven to rotate, the upper side of the discharge tube 72 is opened, then the copper nut is placed in the discharge tube 72, after the copper nut is placed, the cover 111 is reset in a anticlockwise rotation, the rotating rod 112 is driven to reset in a rotation mode, then the fifth spring 115 and the rotating block 114 are driven to reset in a rotation mode, then the rotating rod 112 moves downwards under the action of the fifth spring 115 to reset, the cover 111 is driven to reset in a downward movement mode, the cover 111 covers the discharge tube 72, heat in the discharge tube 72 is prevented from drifting away, meanwhile, the copper nut is also driven to be heated more quickly, when the copper nut is heated, the cover 111 can prevent the heat in the discharge tube 72 from drifting away, and the heat in the discharge tube 72 can be controlled in a temperature.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (6)

1. The utility model provides a full-automatic imbedding device of filter switcher product copper nut, including base (1), cylinder (2), briquetting (3), first slide rail (4), put thing board (5) and first spring (52), base (1) upper left side is connected with cylinder (2), cylinder (2) telescopic link downside is connected with briquetting (3) that can press, the front and back both sides on base (1) all bilateral symmetry are connected with first slide rail (4) of vertical setting, be connected with put thing board (5) between 4 first slide rails (4), put thing board (5) upside and first slide rail (4) inboard between all be connected with first spring (52), characterized by, still include moving mechanism (6) and feed mechanism (7), be connected with on base (1) and can carry out moving mechanism (6), base (1) upper right side is connected with feed mechanism (7);

the moving mechanism (6) comprises an elastic rope (61), a first guide wheel (62), a second guide wheel (63), a first fixing piece (64), a storage sliding plate (65) and a second spring (66), wherein the first guide wheel (62) is rotationally connected to the left side of the base (1), the second guide wheel (63) is positioned below the first guide wheel (62), the storage sliding plate (5) is slidingly connected with the storage sliding plate (65), the first fixing piece (64) is connected to the middle of the left side of the storage sliding plate (65), the elastic rope (61) is wound between the first guide wheel (62) and the second guide wheel (63), the upper side of the elastic rope (61) is connected with the pressing block (3), the lower side of the elastic rope (61) is connected to the left side of the first fixing piece (64), the second spring (66) with a reset function is connected between the middle of the left side of the storage sliding plate (65) and the inner wall of the storage sliding plate (5), and the second spring (66) is positioned below the first fixing piece (64);

the feeding mechanism (7) comprises a second fixing part (71), a discharging pipe (72), a second sliding rail (73), a first L-shaped sliding block (74) and a third spring (75), wherein the second fixing part (71) is connected to the right upper side of the base (1), the discharging pipe (72) is connected to the left side of the second fixing part (71), the second sliding rail (73) is connected to the front side and the rear side of the middle of the upper part of the second fixing part (71), a first L-shaped sliding block (74) capable of blocking materials is connected between the second sliding rails (73) in a sliding mode, the third spring (75) is connected between the front side and the rear side of the left part of the first L-shaped sliding block (74) and the inner wall of the second sliding rail (73), and a storage groove (76) is formed in the left side of the top of the first L-shaped sliding block (74);

when people need to embed copper nuts into the filter switcher, the device can be used for embedding the copper nuts, firstly, the filter switcher needing to embed the copper nuts is placed on the object placing sliding plate (65), then the copper nuts are placed in the discharging pipe (72), then the copper nuts in the discharging pipe (72) can fall into the filter switcher, initially, the third spring (75) is in a stretched state, the first L-shaped sliding block (74) is in a position pressed to the right side by the object placing sliding plate (65), and the lower side of the discharging pipe (72) is in an opened state, then, the air cylinder (2) is started, the telescopic rod stretches, so that the pressing block (3) moves downwards, the elastic rope (61) is driven to move, the first guide wheel (62) and the second guide wheel (63) are driven to rotate, then, the first fixing piece (64) and the object placing sliding plate (65) are driven to move leftwards, the second spring (66) is compressed, further, when the object placing sliding plate (65) moves leftwards, the object placing sliding plate (65) is driven to move the third sliding block (74) to move the object placing sliding plate (65) to the left, when the object placing sliding plate (65) moves the object placing sliding plate (65) to the left, the third sliding plate (76) to move leftwards, the object placing sliding plate (65) to separate the object placing sliding plate (65), the object placing slide plate (65) can not continue to move leftwards, at this moment, the pressing block (3) can continue to move downwards, the elastic rope (61) is stretched, the pressing block (3) can downwards press the copper nut on the optical filter switcher, the copper nut is better embedded in the optical filter switcher, after the copper nut is embedded, the reverse starting cylinder (2) is arranged, the telescopic rod of the cylinder (2) is retracted and moved to reset, the elastic rope (61) is not pulled any more, the elastic rope (61) is reset, under the action of the second spring (66), the first fixing piece (64) and the object placing slide plate (65) can move rightwards to reset, the elastic rope (61) is driven to move to reset, in the rightward transportation process of the object placing slide plate (65), people can take down the optical filter switcher with the embedded copper nut, then a new optical filter switcher is placed on the object placing slide plate (65), then the object placing slide plate (65) can push the first L-shaped slide block (74) rightwards, the first L-shaped slide block (74) moves rightwards to reset, the object placing slide plate (76) can be driven to move rightwards, the optical filter switcher can not be embedded in the optical filter switcher, and the optical filter switcher can be repeatedly placed on the copper nut (76) to the side of the optical filter switcher, and the optical filter switcher can be repeatedly moved rightwards, and the optical filter switcher can be repeatedly placed on the optical filter switcher (72).

2. The full-automatic embedding device for the copper nut of the optical filter switcher product as claimed in claim 1, further comprising a clamping mechanism (8), wherein the clamping mechanism (8) comprises a third fixing piece (81), a moving rod (82), clamping plates (83) and a fourth spring (84), the front side and the rear side of the upper side of the object placing sliding plate (65) are respectively connected with the third fixing piece (81), the moving rods (82) capable of moving are respectively connected to the third fixing piece (81) in a sliding mode, the clamping plates (83) are respectively connected to the inner sides of the moving rods (82), and the fourth springs (84) with a reset function are respectively connected between the outer sides of the moving rods (82) and the outer sides of the third fixing pieces (81).

3. The full-automatic embedding device for the copper nut of the optical filter switcher product as claimed in claim 2, further comprising a heating mechanism (9), wherein the heating mechanism (9) comprises a fourth fixing piece (91), a first heating block (92), a connecting piece (93) and a second heating block (94), the lower side of the left part of the second fixing piece (71) is connected with the fourth fixing piece (91), the bottom of the fourth fixing piece (91) is connected with 4 first heating blocks (92) capable of radiating heat along the circumferential direction, 2 connecting pieces (93) are connected between every two adjacent first heating blocks (92), and the second heating block (94) is connected to the object placing groove (76).

4. The full-automatic embedded device for the copper nut of the optical filter switcher product as claimed in claim 3, further comprising a shaking mechanism (10), wherein the shaking mechanism (10) comprises a third sliding rail (101), a second L-shaped sliding block (102), a guide rod (103), a fifth fixing piece (104), a first convex block (105) and a second convex block (106), wherein the front side and the rear side of the object placing sliding plate (65) are respectively connected with the third sliding rail (101), the second L-shaped sliding block (102) is respectively connected onto the third sliding rail (101), a fifth fixing piece (104) is connected between the lower sides of the 2 second L-shaped sliding blocks (102), 5 first convex blocks (105) are connected onto the upper side of the fifth fixing piece (104), 4 second convex blocks (106) are connected onto the middle of the lower side of the object placing plate (5), the guide rod (103) are respectively connected onto the front side and the rear side of the upper side of the base (1), and the guide rod (103) and the second L-shaped sliding block (102) are respectively connected.

5. The full-automatic embedding device for the copper nut of the optical filter switcher product as claimed in claim 4, further comprising a temperature control mechanism (11), wherein the temperature control mechanism (11) comprises a cover (111), a rotating rod (112), a sixth fixing piece (113), a rotating block (114) and a fifth spring (115), the rotating rod (112) is rotatably connected to the left side of the discharging tube (72), the rotating rod (112) penetrates through the discharging tube (72), the cover (111) is connected to the upper side of the rotating rod (112), the lower side of the cover (111) and the upper side of the discharging tube (72) are connected in contact, the sixth fixing piece (113) is rotatably connected with the rotating block (114) capable of rotating, the rotating block (114) is slidably connected with the rotating rod (112), and the fifth spring (115) is connected between the lower side of the rotating block (114) and the lower side of the rotating rod (112).

6. A fully automatic embedding device for copper nuts of optical filter switcher products as claimed in claim 1, characterized in that a chute (51) is arranged in the middle of the object placing plate (5).