CN211055553U - Full-automatic encapsulation check out test set - Google Patents

Abstract

The utility model discloses a full-automatic packaging detection device, which comprises a frame, wherein a detection device, a feeding device, a hot melting device, a first feeding device, a second feeding device and a suction device are respectively arranged on the frame, the first feeding device is transversely arranged on the frame, a fixed mounting plate, the detection device and the feeding device are sequentially arranged at the rear side of the first feeding device from left to right, the second feeding device and the hot melting device are both arranged on the fixed mounting plate, the output end of the hot melting device is vertically downwards connected on the first feeding device, the output end of the feeding device is arranged above the first feeding device, the right side of the output end of the feeding device is provided with the suction device, and the suction device is used for sucking and placing products conveyed by the feeding device on the first feeding device, thereby reducing the reject ratio of the products and the cost, high productivity, small occupied area and good market application value.

Description

Full-automatic encapsulation check out test set

Technical Field

The utility model relates to an encapsulation detects the processing field, especially relates to a full-automatic encapsulation check out test set.

Background

SMD: it is an abbreviation for Surface Mounted Devices, meaning: a surface Mount device (SMT) is one of SMT (surface Mount technology) components, in the primary stage of electronic circuit board production, via hole assembly is completely completed by manual work, after a first batch of automatic machines are pushed out, simple pin elements can be placed on the SMT device, but complex elements still need to be placed manually for reflow soldering, and SMD processed in the prior art is mostly packaged and detected by manual processing, and the processing mode is large in manual labor force, high in reject ratio, high in production cost, large in occupied area and low in production efficiency.

The prior art has defects and needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the defect that prior art exists, the utility model provides a full-automatic encapsulation check out test set.

The utility model provides a technical document, a full-automatic encapsulation check out test set, which comprises a frame, detection device, loading attachment, hot melt device, first material feeding unit, second material feeding unit and suction means have been set up respectively in the frame, first material feeding unit transversely set up in the frame, turn right from a left side and set gradually fixed mounting board, detection device and loading attachment in first material feeding unit rear side, second material feeding unit and hot melt device all set up in on the fixed mounting board, the hot melt device output is connected down perpendicularly on the first material feeding unit, the material feeding unit output set up in first material feeding unit top, loading attachment output right side sets up suction means, and suction means is used for absorbing the product that loading attachment carried and places on first material feeding unit.

Preferably, the first feeding device comprises a feeding bottom plate, a material supporting bottom plate, a first feeding roller, a second feeding roller, a feeding motor, a feeding frame, a feeding disc, an adjusting wheel and a guide groove wheel, the feeding frame is arranged on the frame, the material supporting bottom plate is arranged on the feeding frame, the left end of the material supporting bottom plate is connected with the feeding bottom plate, the rear side surface of the feeding bottom plate is vertically connected with the front side surface of a turntable mounting plate, the front side surface of the turntable mounting plate is respectively provided with the first feeding roller, the second feeding roller and the feeding disc, the first feeding roller is arranged on the left side of the feeding bottom plate, the second feeding roller is arranged below the feeding bottom plate, the feeding disc is arranged below the second feeding roller, the inner side surface of the feeding frame is provided with a feeding motor fixing end, the feeding motor is arranged below the suction device, and the output end of the feeding motor is connected with one end of a, the other end of the feeding rotating shaft sequentially penetrates through the feeding frame and the guide groove wheel and is connected with the adjusting wheel.

Preferably, the feeding device comprises a feeding frame, a feeding vibration disc, a feeding straight vibration rail, a feeding straight vibration device and a material waiting frame, the feeding frame is arranged on the frame, the bottom end of the feeding vibration disc is arranged on the feeding frame, the output end of the feeding vibration disc is connected with one end of the feeding straight vibration rail, the other end of the feeding straight vibration rail is connected with a material waiting seat on the material waiting frame, the output end of the feeding straight vibration device is connected with the lower surface of the feeding straight vibration rail, and the output end of the feeding straight vibration device is arranged on the frame.

Preferably, suction means is including absorbing the frame, absorbing the motor, absorbing the rocking arm, absorbing board, action wheel and follow the driving wheel, the frame is arranged in to absorb in the frame, the absorption motor stiff end set up in absorb on the frame leading flank, it connects to absorb the motor output the action wheel, set up driving shaft one end in the action wheel, the driving shaft other end is connected perpendicularly absorb rocking arm one end, absorb the rocking arm other end and connect driven shaft one end, the driven shaft other end set up in from the driving wheel in, absorb rocking arm lateral surface installation absorbing board, it sets up a plurality of heads of absorbing on the absorbing board.

Preferably, the hot melting device comprises a hot melting gun plate, a hot melting motor, a hot melting track, a hot melting cylinder, a hot melting sliding plate, a hot melting connecting plate, a heat insulation block, a hot melting aluminum plate and a hot sealing knife, wherein the inner surface of the hot melting gun plate is arranged on the fixed mounting plate, the hot melting motor and the hot melting track are both arranged on the outer surface of the hot melting gun plate, the hot melting motor is arranged above the hot melting track, the hot melting sliding plate and the hot melting connecting plate are arranged from top to bottom, the inner side surfaces of the hot melting sliding plate and the hot melting connecting plate are respectively arranged on the hot melting track through a first hot melting slider and a second hot melting slider, a hot melting cylinder fixed end is arranged on the hot melting sliding plate, the output end of the hot melting motor is connected with the upper end, the thermal insulation block lower extreme sets up hot melt aluminum plate, hot melt aluminum plate lower extreme sets up the hot sealing sword, hot melt aluminum plate both sides set up first hot melt splint and second hot melt splint respectively, first hot melt splint and second hot melt splint top all connect the thermal insulation block lower extreme.

Preferably, detection device is including detecting the post, detecting connecting plate, light source mounting panel, detecting light source, detection camera lens and detecting the camera, detect the post perpendicular to in the frame, detect connecting plate one end and cup joint perpendicularly on detecting the post, detect the installation of the connecting plate other end detecting the light source, detect the connecting plate upper surface perpendicular and set up the light source mounting panel, light source mounting panel leading flank installation detecting the camera, it connects to detect the camera output detecting the camera lens, the detection camera lens below sets up detecting the light source.

The beneficial effects of the utility model, the utility model discloses set up detection device, loading attachment, hot melting device, first material feeding unit, second material feeding unit and suction means, realized the full automated processing of equipment, the processing of equipment has reduced the hand labor simultaneously, reduces the defective rate of product, the cost is reduced, productivity ratio is high, and area is little, has good market using value.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the hot melting device of the present invention;

fig. 3 is the schematic view of the structure of the suction device of the present invention.

Detailed Description

It should be noted that the above technical features are continuously combined with each other to form various embodiments which are not listed above, and all the embodiments are regarded as the scope of the present invention described in the specification; moreover, modifications and variations will occur to those skilled in the art in light of the foregoing description, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

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

An embodiment as described in fig. 1 to 3: a full-automatic packaging detection device comprises a rack 1, wherein a detection device 2, a feeding device 3, a hot melting device 4, a first feeding device 5, a second feeding device 6 and an absorbing device 7 are respectively arranged on the rack 1, the first feeding device 5 is transversely arranged on the rack 1, a fixed mounting plate, the detection device 2 and the feeding device 3 are sequentially arranged on the rear side of the first feeding device 5 from left to right, the second feeding device 6 and the hot melting device 4 are both arranged on the fixed mounting plate, the output end of the hot melting device 4 is vertically downwards connected with the first feeding device 5, the output end of the feeding device is arranged above the first feeding device 5, the absorbing device 7 is arranged on the right side of the output end of the feeding device 3, and the absorbing device 7 is used for absorbing and placing products conveyed by the feeding device 3 on the first feeding device 5, firstly, a first feeding device 5 starts to work, then a feeding device 3 works, the feeding device 3 conveys products into a waiting seat, a suction device 7 sucks and places the products onto the first feeding device 5, the first feeding device 5 conveys the products to different stations in sequence for processing, when the products are conveyed to the position below a detection device 2, the detection device 2 detects the products on the first feeding device 5, after the detection is finished, the first feeding device 5 conveys the products to the next station again, a second feeding device 6 works, the second feeding device 6 conveys the products onto the products on the first feeding device 5, after the placement is finished, the first feeding device 5 conveys the materials to the position below a hot melting device 4 again, the hot melting device 4 seals the first feeding device 5 and the second feeding device 6, the sealed products are arranged in bags sealed by the first feeding device 5 and the second feeding device 6, in order to encapsulate the product, the encapsulated product is taken out manually or by a robot.

The first feeding device 5 comprises a feeding bottom plate, a material supporting bottom plate, a first feeding roller, a second feeding roller, a feeding motor, a feeding frame, a feeding disc, an adjusting wheel and a guide groove wheel, the feeding frame is arranged on the frame 1, the material supporting bottom plate is arranged on the feeding frame, the left end of the material supporting bottom plate is connected with the feeding bottom plate, the rear side surface of the feeding bottom plate is vertically connected with the front side surface of a turntable mounting plate, the front side surface of the turntable mounting plate is respectively provided with the first feeding roller, the second feeding roller and the feeding disc, the first feeding roller is arranged on the left side of the feeding bottom plate, the second feeding roller is arranged below the feeding bottom plate, the feeding disc is arranged below the second feeding roller, the inner side surface of the feeding frame is provided with a feeding motor fixing end, the feeding motor is arranged below the suction device 7, and the output end of the feeding motor is connected with one end of, the other end of the feeding rotating shaft sequentially penetrates through the feeding frame and the guide groove wheel and is connected with the adjusting wheel, firstly, the lower-layer packaging belt is conveyed to the feeding frame through the second feeding roller by the feeding disc, then the feeding motor drives the feeding rotating shaft to work, the feeding rotating shaft drives the guide groove wheel to slowly convey the lower packaging belt on the feeding bottom plate forwards, and the adjusting wheel is used for adjusting the height of the guide groove wheel on the shaft.

The feeding device 3 comprises a feeding frame, a feeding vibration disc, a feeding straight vibration rail, a feeding straight vibration device and a material waiting frame, the feeding frame is arranged on the frame 1, the bottom end of the feeding vibration disc is arranged on the feeding frame, the output end of the feeding vibration disc is connected with one end of the feeding straight vibration rail, the other end of the feeding straight vibration rail is connected with a material waiting seat on the material waiting frame, the output end of the feeding straight vibration device is connected with the lower surface of the feeding straight vibration rail, the output end of the feeding straight vibration device is arranged on the frame 1, the feeding vibration disc firstly conveys products into the feeding straight vibration rail, and the feeding straight vibration device conveys the products in the feeding straight vibration rail into the material waiting frame.

The suction device 7 comprises a suction frame 71, a suction motor 72, a suction rocker arm 73, a suction plate 74, a driving wheel 75 and a driven wheel 76, wherein the suction frame 71 is arranged on the frame 1, the fixed end of the suction motor 72 is arranged on the front side surface of the suction frame 71, the output end of the suction motor 72 is connected with the driving wheel 75, one end of a driving shaft is arranged in the driving wheel 75, the other end of the driving shaft is vertically connected with one end of the suction rocker arm 73, the other end of the suction rocker arm 73 is connected with one end of a driven shaft, the other end of the driven shaft is arranged in the driven wheel 76, the suction plate 74 is arranged on the outer side surface of the suction rocker arm 73, a plurality of suction heads are arranged on the suction plate 74, firstly, the suction motor 72 drives the suction driving wheel 75 to work, the suction driving wheel 75 drives the driven wheel 76 to work, the suction rocker arm 73 drives the suction plate 74 to move, and the suction plate 74 drives the plurality of suction heads to suck and place the product in the material waiting seat of the feeding device 3 onto the lower-layer packaging belt conveyed by the first feeding device 5.

The hot melting device 4 comprises a hot melting gun plate 41, a hot melting motor 42, a hot melting rail 43, a hot melting air cylinder 44, a hot melting sliding plate 45, a hot melting connecting plate 46, a heat insulation block 47, a hot melting aluminum plate 48 and a heat sealing knife 49, wherein the inner surface of the hot melting gun plate 41 is arranged on the fixed mounting plate, the hot melting motor 42 and the hot melting rail 43 are both arranged on the outer surface of the hot melting gun plate 41, the hot melting motor 42 is arranged above the hot melting rail 43, the hot melting sliding plate 45 and the hot melting connecting plate 46 are arranged from top to bottom, the inner side surfaces of the hot melting sliding plate 45 and the hot melting connecting plate 46 are respectively arranged on the hot melting rail 43 through a first hot melting sliding block and a second hot melting sliding block, the hot melting sliding plate 45 is provided with a fixed end of the hot melting air cylinder 44, the output end of the, the hot melt connecting plate 46 lower extreme sets up heat insulating block 47, heat insulating block 47 lower extreme sets up hot melt aluminum plate 48, hot melt aluminum plate 48 lower extreme sets up hot sealing cutter 49, hot melt aluminum plate 48 both sides set up first hot melt splint and second hot melt splint respectively, first hot melt splint and second hot melt splint top are all connected heat insulating block 47 lower extreme, at first hot melt motor 42 drive hot melt sliding plate 45 slide from top to bottom on hot melt track 43, and hot melt sliding plate 45 drives hot melt cylinder 44 slide from top to bottom, and hot melt cylinder 44 drives hot melt connecting plate 46 slide from top to bottom on hot melt track 43, and hot melt connecting plate 46 drives hot melt block and carries out work, and hot melt aluminum plate drives hot melt aluminum plate 48 and carries out hot melt processing to the encapsulation product in its first material feeding unit 5 mountain.

Detection device 2 is including detecting the post, detecting connecting plate, light source mounting panel, testing light source, detection camera lens and detection camera, detect the post perpendicular to in frame 1, detect connecting plate one end and cup joint perpendicularly on detecting the post, detect the installation of the connecting plate other end the testing light source, detect the connecting plate upper surface perpendicular and set up the light source mounting panel, light source mounting panel leading flank installation the detection camera, the detection camera output is connected the detection camera lens, the detection camera lens below sets up testing light source, the detection camera drives detection camera lens work, and the detection camera lens passes and detects the product on the pay-off frame with detecting the light source.

The second embodiment is different from the above embodiments in that the second feeding device 6 includes a feeding rotating disc, a plurality of feeding rollers, a guiding member and a feeding roller, the feeding rotating disc conveys the product into the plurality of feeding rollers, the guiding member is disposed below the plurality of feeding rollers, the product is conveyed to the feeding roller below the guiding member through the guiding member, and the feeding roller conveys the product to the product on the feeding bottom plate below the feeding roller.

The third embodiment is different from the above embodiments in that at least two or more feeding rollers and at least two or more suction heads are provided.

In the fourth embodiment, different from the above, a protective cover is arranged on the machine frame 1.

The fifth embodiment is different from the above embodiments in that a temperature control box is disposed on a side surface of the hot melting device.

The utility model discloses a theory of operation: firstly, a first feeding device 5 starts to work, a feeding disc firstly conveys a lower layer packaging belt to a feeding frame through a second feeding roller, then a feeding motor drives a feeding rotating shaft to work, the feeding rotating shaft drives a guide groove wheel to slowly convey the lower packaging belt on a feeding bottom plate forwards, an adjusting wheel is used for adjusting the axial height of the guide groove wheel, then a feeding device 3 works, a feeding vibration disc conveys a product to a feeding straight vibration track, then the feeding straight device conveys the product in the feeding straight vibration track to a material waiting frame, the feeding device 3 conveys the product to a material waiting seat, a suction device 7 sucks and places the product on the first feeding device 5, a suction motor 72 drives a suction driving wheel 75 to work, the suction driving wheel 75 drives a driven wheel 76 to work through a synchronous belt, and drives a suction rocker arm 73 to move back and forth when the driving wheel 75 and the driven wheel 76 rotate, the suction rocker arm 73 drives the suction plate 74 to move, the suction plate 74 drives a plurality of suction heads to suck and place products in a material seat of the feeding device 3 on a lower layer packaging belt conveyed by the first feeding device 5, the first feeding device 5 conveys the products to different stations in sequence for processing, when the products are conveyed below the detection device 2, the detection device 2 detects the products on the first feeding device 5, the detection camera drives the detection lens to work, the detection lens passes through the detection light source to detect the products on the feeding frame, after the detection is finished, the first feeding device 5 conveys the products to the next station again, the second feeding device 6 works, the second feeding device 6 conveys the materials to the products on the first feeding device 5, after the placement is finished, the first feeding device 5 conveys the materials below the hot melting device 4 again, and the hot melting device 4 seals the first feeding device 5 and the second feeding device 6, the hot-melting motor 42 drives the hot-melting sliding plate 45 to slide up and down on the hot-melting rail 43, the hot-melting sliding plate 45 drives the hot-melting cylinder 44 to slide up and down, the hot-melting cylinder 44 drives the hot-melting connecting plate 46 to slide up and down on the hot-melting rail 43, the hot-melting connecting plate 46 drives the hot-melting block to work, the hot-melting block drives the hot-melting aluminum plate 48 to work, the hot-melting aluminum plate 48 drives the hot-sealing cutter 49 to perform hot-melting processing on an encapsulated product of the first feeding device 5 mountain, the sealed product is a product, the product on the feeding device 3 is in a bag sealed by the first feeding device 5 and the second feeding device 6, and for the encapsulated product, the encapsulated.

It should be noted that the above technical features are continuously combined with each other to form various embodiments which are not listed above, and all the embodiments are regarded as the scope of the present invention described in the specification; moreover, modifications and variations will occur to those skilled in the art in light of the foregoing description, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The utility model provides a full-automatic encapsulation check out test set, includes the frame, its characterized in that, detection device, loading attachment, hot melt device, first material feeding unit, second material feeding unit and suction means have been set up respectively in the frame, first material feeding unit transversely set up in the frame, turn right from a left side and set gradually mounting panel, detection device and loading attachment in first material feeding unit rear side, second material feeding unit and hot melt device all set up in on the mounting panel, the hot melt device output is connected down perpendicularly on the first material feeding unit, the material feeding unit output set up in first material feeding unit top, loading attachment output right side sets up suction means, and suction means is used for absorbing the product that loading attachment carried and places first material feeding unit on.

2. The full-automatic packaging detection device according to claim 1, wherein the first feeding device comprises a feeding bottom plate, a material supporting bottom plate, a first feeding roller, a second feeding roller, a feeding motor, a feeding frame, a feeding tray, a regulating wheel and a guide groove wheel, the feeding frame is arranged on the frame, the material supporting bottom plate is arranged on the feeding frame, the left end of the material supporting bottom plate is connected with the feeding bottom plate, the rear side surface of the feeding bottom plate is vertically connected with the front side surface of the turntable mounting plate, the front side surface of the turntable mounting plate is respectively provided with the first feeding roller, the second feeding roller and the feeding tray, the first feeding roller is arranged on the left side of the feeding bottom plate, the second feeding roller is arranged below the feeding bottom plate, the feeding tray is arranged below the second feeding roller, and the inner side surface of the feeding frame is provided with a feeding motor fixing end, the feeding motor is arranged below the suction device, the output end of the feeding motor is connected with one end of a feeding rotating shaft, and the other end of the feeding rotating shaft sequentially penetrates through the feeding frame and the guide groove wheel and is connected with the adjusting wheel.

3. The apparatus according to claim 1, wherein the feeding device comprises a feeding frame, a feeding vibration tray, a feeding vertical vibration rail, a feeding vertical vibration device, and a material waiting frame, the feeding frame is disposed on the frame, a bottom end of the feeding vibration tray is disposed on the feeding frame, an output end of the feeding vibration tray is connected to one end of the feeding vertical vibration rail, another end of the feeding vertical vibration rail is connected to a material waiting seat on the material waiting frame, an output end of the feeding vertical vibration device is connected to a lower surface of the feeding vertical vibration rail, and an output end of the feeding vertical vibration device is disposed on the frame.

4. The full-automatic packaging detection device of claim 1, characterized in that, suction means includes the frame of absorbing, absorbs the motor, absorbs the rocking arm, absorbs board, action wheel and follows the driving wheel, the frame of absorbing is arranged in the frame, absorb the motor stiff end set up in on the frame leading flank, it connects to absorb the motor output the action wheel, set up driving shaft one end in the action wheel, the driving shaft other end is connected perpendicularly absorb rocking arm one end, absorb rocking arm other end and connect driven shaft one end, the driven shaft other end set up in from the driving wheel in, absorb rocking arm lateral surface installation and absorb the board, it sets up a plurality of heads of absorbing on the board to absorb.

5. The full-automatic packaging detection device according to claim 1, wherein the hot melting device comprises a hot melting gun plate, a hot melting motor, a hot melting rail, a hot melting cylinder, a hot melting sliding plate, a hot melting connecting plate, a heat insulation block, a hot melting aluminum plate and a hot sealing knife, the inner surface of the hot melting gun plate is arranged on the fixed mounting plate, the hot melting motor and the hot melting rail are both arranged on the outer surface of the hot melting gun plate, the hot melting motor is arranged above the hot melting rail, the hot melting sliding plate and the hot melting connecting plate are arranged from top to bottom, the inner side surfaces of the hot melting sliding plate and the hot melting connecting plate are respectively arranged on the hot melting rail through a first hot melting slider and a second hot melting slider, a hot melting cylinder fixing end is arranged on the hot melting sliding plate, the output end of the hot melting motor is connected with, the hot melt connecting plate lower extreme sets up the heat insulating block, the heat insulating block lower extreme sets up hot melt aluminum plate, hot melt aluminum plate lower extreme sets up the hot seal sword, hot melt aluminum plate both sides set up first hot melt splint and second hot melt splint respectively, first hot melt splint and second hot melt splint top are all connected the heat insulating block lower extreme.

6. The full-automatic packaging detection device according to claim 1, wherein the detection device comprises a detection column, a detection connecting plate, a light source mounting plate, a detection light source, a detection lens and a detection camera, the detection column is perpendicular to the rack, one end of the detection connecting plate is vertically sleeved on the detection column, the other end of the detection connecting plate is provided with the detection light source, the upper surface of the detection connecting plate is vertically provided with the light source mounting plate, the front side surface of the light source mounting plate is provided with the detection camera, the output end of the detection camera is connected with the detection lens, and the detection light source is arranged below the detection lens.

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