CN218111792U - Automatic assembly equipment for human body scale - Google Patents

Abstract

The utility model belongs to the technical field of electronic product automatic production equipment, and discloses automatic assembly equipment for a human body scale, which comprises a frame, a bottom shell lamination conveying device, a turntable device, a vibrating disc device, a moving module and a hot melting device; the bottom shell stacking and conveying device is arranged on the rack and used for separating the stacked bottom shells layer by layer and pushing the bottom shells to a battery piece bottom shell assembling station; the turntable device is arranged on one side of the bottom shell stacking and conveying device and used for transferring the battery pieces to a battery piece bottom shell assembly station and assembling the battery pieces with the bottom shell; the vibration disc device is used for providing scale feet; the mobile module is arranged on one side of the vibrating disc device and is positioned at the downstream of the battery piece bottom shell assembly station, and the mobile module is used for transferring and assembling the scale feet supplied by the vibrating disc device onto the bottom shell; the hot melting device is used for carrying out hot melting on the scale feet in the bottom shell. The utility model discloses a human body scale automatic assembly equipment improves degree of automation with battery piece and balance foot drain pan of packing into, reduces labour cost, guarantees production efficiency.

Description

Automatic assembly equipment for human body scale

Technical Field

The utility model relates to an electronic product automated production equipment technical field especially relates to a human body scale automatic assembly equipment.

Background

The human body scale is an automatic weighing device for weighing a human body or goods and is formed by assembling a plurality of parts, when the human body scale is assembled and produced, scale feet and a battery piece need to be manually placed into a bottom shell, then the bottom shell is respectively placed into single-machine equipment for the battery piece and hot melting, and the scale feet and the battery piece are manually taken out after the scale feet and the battery piece are manually placed into the single-machine equipment. The battery piece and the scale feet are fixedly arranged on the bottom shell, the battery piece and the scale feet are required to be completed by three workers, the labor cost is increased, the repeated work is required to be performed manually by the workers, the labor intensity is increased, the assembly precision cannot be guaranteed, and the production requirement cannot be met.

Therefore, a human body scale automatic assembly device is needed to be used for loading the battery piece and the scale feet into the bottom shell, so that the automation degree is improved, the labor cost is reduced, and the production efficiency is ensured.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: the automatic assembly equipment for the human body scale is used for loading the battery piece and the scale feet into the bottom shell, so that the automation degree is improved, the labor cost is reduced, and the production efficiency is ensured.

To achieve the purpose, the utility model adopts the following technical proposal:

an automatic assembly device for a human body scale, comprising:

a frame;

the bottom shell stacking and conveying device is arranged on the rack and used for separating the stacked bottom shells layer by layer and pushing the bottom shells to a battery piece bottom shell assembly station;

the rotating disc device is arranged on one side of the bottom shell lamination conveying device and is used for transferring the battery pieces to the battery piece bottom shell assembly station and assembling the battery pieces with the bottom shell;

the vibration disc device is used for providing a scale foot;

the mobile module is arranged on one side of the vibrating disc device and is positioned at the downstream of the battery piece bottom shell assembly station, and the mobile module is used for transferring and assembling the scale feet supplied by the vibrating disc device onto the bottom shell;

and the hot melting device is used for carrying out hot melting on the scale feet in the bottom shell.

As an optional technical solution, a guide sliding plate is disposed at the top of the rack, the bottom casing is stacked above the guide sliding plate, the guide sliding plate is used for guiding and conveying the bottom casing, the bottom casing stacking and conveying device includes a casing supporting driving assembly, a casing pushing driving assembly and a first positioning column, the casing supporting driving assembly is mounted on the guide sliding plate, the first positioning column is used for limiting the offset of the stacked bottom casings in the horizontal plane, the casing supporting driving assembly can support the bottom casing stacked on the second bottom layer, and the casing pushing driving assembly is used for pushing the bottom casing stacked on the first bottom layer to the battery piece bottom casing assembling station.

As an optional technical scheme, a battery piece loading station is arranged on one side of the battery piece bottom shell assembling station, a protective cover is arranged on the battery piece loading station, and a battery piece storage groove is formed in the protective cover.

As an optional technical scheme, the carousel device includes first rotary driving piece, location frock, first elastic component and first jacking drive assembly, first jacking drive assembly install in the protection casing, the location frock install in first rotary driving piece's output, first rotary driving piece is used for the drive the location frock is in battery piece drain pan assembly station with reciprocating motion between the station is packed into to the battery piece, first elastic component set up in the bottom of location frock, first jacking drive assembly is used for the jacking location frock extremely the top of protection casing, the location frock is in the top of protection casing is packed into the battery piece, first elastic component with the location frock is connected, first elastic component is used for driving the location frock resets.

As an optional technical solution, the turntable device further includes a positioning driving assembly, a second jacking driving assembly and a third jacking driving assembly, the second jacking driving assembly and the third jacking driving assembly are both disposed below the battery piece bottom shell assembly station, the second jacking driving assembly is used for jacking and contacting the positioning tool with the bottom shell, the third jacking driving assembly is used for inserting the battery piece into the positioning tool with the bottom shell, and the positioning driving assembly is used for limiting the rotation of the positioning tool.

As an optional technical solution, a battery piece bending driving device is arranged at the battery piece bottom shell assembly station, and the battery piece bending driving device is used for bending the battery pieces inserted into the bottom shell.

As an optional technical scheme, a scale foot bottom shell assembly station is arranged at the downstream of the battery piece bottom shell assembly station, a scale foot correction device is arranged between the scale foot bottom shell assembly station and the vibration disc device, and the scale foot correction device is used for correcting the scale foot clamped on the movable module.

As an optional technical scheme, the mobile module comprises a screw rod driving assembly, a lifting driving assembly, a material-removing driving assembly and a magnetic suction assembly, wherein the lifting driving assembly is installed at the output end of the screw rod driving assembly, the magnetic suction assembly and the material-removing driving assembly are both installed at the output end of the lifting driving assembly, the magnetic suction assembly is used for adsorbing the scale feet supplied by the vibration disc device, and the material-removing driving assembly is used for driving the scale feet to be separated from the magnetic suction assembly.

As an optional technical scheme, the subassembly is inhaled to magnetism is including leading positive cover and magnet, magnet set up in lead positive cover, magnet is used for adsorbing the balance foot, the bottom of leading positive cover is provided with triangle direction pointed end, triangle direction pointed end is used for inserting the balance foot is in order to drive the balance foot is rotatory.

As an optional technical scheme, take off material drive assembly including taking off the material driving piece, taking off material spare and locating part, take off the material driving piece set up in lift drive assembly's output, take off the material spare install in take off the output of material driving piece, it is used for the drive to take off the material spare and support from the top and push the balance foot, the one end of locating part install in take off the material spare, the other end of locating part extends to lift drive assembly's output, the locating part is used for injecing take off the material spare court the displacement distance of balance foot.

The beneficial effects of the utility model reside in that:

the utility model provides a human scale automatic assembly equipment, which comprises a frame, drain pan stromatolite conveyor, the carousel device, the vibration dish device, remove module and hot melting device, drain pan stromatolite conveyor can release battery piece drain pan assembly station one by one with the drain pan that piles up, the drain pan is packed into to battery piece drain pan assembly station and with the battery piece that the workman provided to the carousel device, the drain pan that later is equipped with the battery piece removes to the below of removing the module, it shifts the scale foot of vibration dish device supply to the drain pan on to remove the module, the drain pan that is equipped with battery piece and scale foot continues to remove to the below of hot melting device, hot melting device carries out the hot melt to the scale foot reference column of scale foot, make the scale foot can be fixed in on the drain pan, guarantee the installation stability of scale foot on the drain pan. The utility model discloses only need one-bit manual work to pack into the carousel device with the battery piece, low in labor strength, low in labor cost, battery piece and balance foot all are the drain pan of automatic packing into, and degree of automation is high, can guarantee production efficiency, and carries out the hot melt through the balance foot reference column of hot melt device to the balance foot, can be fixed in the balance foot on the drain pan, guarantees the installation stability of balance foot on the drain pan.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples;

FIG. 1 is a top view of an embodiment of an automated body scale assembly apparatus;

FIG. 2 is a front view of an automatic assembly apparatus for a body scale according to an embodiment;

FIG. 3 is a rear view of an automatic assembly apparatus for a body scale according to an embodiment;

FIG. 4 is a schematic structural diagram of an automatic assembly device of a human body scale according to an embodiment;

FIG. 5 is a schematic partial structure diagram of a bottom-shell stacking and conveying device and a turntable device according to an embodiment;

FIG. 6 is a schematic view of a part of the structure of a turntable device according to an embodiment;

fig. 7 is a sectional view of the first elastic member and the first lift pin according to the embodiment;

fig. 8 is a schematic structural diagram of the mobile module according to the embodiment;

FIG. 9 is a cross-sectional view of an exemplary mobile module;

FIG. 10 is a schematic structural view of a guide sleeve according to an embodiment;

FIG. 11 is a schematic structural diagram of a heat fusion apparatus according to an embodiment;

FIG. 12 is a schematic view of the protective cover according to the embodiment;

FIG. 13 is a cross-sectional view of an automatic assembly apparatus for a body scale according to an embodiment;

FIG. 14 is an enlarged view of a portion of FIG. 13 at position A;

fig. 15 is a schematic structural view of a scale foot correction device according to an embodiment;

fig. 16 is a schematic structural diagram of a bottom case transfer device according to an embodiment.

In the figure:

100. a bottom case; 200. weighing feet; 300. a battery piece;

1. a frame; 11. a guide slide plate;

2. a bottom shell lamination conveying device; 21. a cradle drive assembly; 211. a first cylinder; 212. a support plate; 22. a push shell drive assembly; 221. a second cylinder; 222. pushing the plate; 23. a first positioning post;

3. a turntable device; 31. a first rotary drive member; 32. positioning a tool; 33. a first elastic member; 34. a first jacking driving assembly; 341. a first jacking cylinder; 342. a first support plate; 35. positioning the driving assembly; 351. a first positioning cylinder; 352. positioning the inserted rod; 36. a second jacking driving assembly; 361. a second jacking cylinder; 362. a second support plate; 37. a third jacking driving assembly; 371. a third jacking cylinder; 372. a second lift pin; 38. a first lift pin; 39. a second positioning cylinder; 310. positioning a plate; 311. a rotating plate;

4. a vibration disk device;

5. a moving module; 51. a screw rod driving assembly; 52. a lift drive assembly; 521. a lifting cylinder; 522. a lifting plate; 523. a guide tube; 53. a stripping drive assembly; 531. a material removal driving member; 532. stripping the material; 533. a stopper; 534. a material pushing rod; 54. a magnetic component; 541. a guide sleeve; 542. a magnet; 543. a triangular guide tip;

6. a hot melting device; 61. a hot melting lifting cylinder; 62. fixing the mounting plate; 63. heating the mounting plate; 64. heating a rod; 65. a thermocouple; 66. a heating block; 67. a hot melt rod; 68. a second elastic member;

7. a protective cover; 71. a battery piece storage groove; 72. a cover body; 73. a protective baffle; 74. a position avoiding through groove;

8. a battery piece bending driving device; 81. bending the air cylinder; 82. bending a piece;

9. a scale foot correction device; 91. a straightening cylinder; 92. a rectification block;

10. a bottom shell transfer device; 101. a belt module; 102. a vacuum generator; 103. a negative pressure gauge; 104. a second rotary drive; 105. a vacuum chuck; 106. a chute supporting plate.

Detailed Description

In order to make the technical problems, technical solutions and technical effects achieved by the present invention more clear, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the recitation of a first feature "on" or "under" a second feature may include the recitation of the first and second features being in direct contact, and may also include the recitation of the first and second features not being in direct contact, but being in contact with another feature between them. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description herein, it is to be understood that the terms "upper", "lower", "left", "right", and the like are used in an orientation or positional relationship based on that shown in the drawings for convenience of description and simplicity of operation, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be in any way understood as limiting the present invention. Furthermore, the terms "first" and "second" are used merely for descriptive purposes and are not intended to have any special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 16, the present embodiment provides an automatic assembly apparatus for a human body scale, which includes a frame 1, a bottom case stacking conveying device 2, a turntable device 3, a vibrating tray device 4, a moving module 5, and a heat-melting device 6; the bottom shell stacking conveying device 2 is mounted on the rack 1, and the bottom shell stacking conveying device 2 is used for separating the stacked bottom shells 100 layer by layer and pushing the bottom shells 100 to a battery piece bottom shell assembling station; the turntable device 3 is arranged on one side of the bottom shell stacking and conveying device 2, and the turntable device 3 is used for transferring the battery pieces 300 to a battery piece bottom shell assembly station and assembling the battery pieces with the bottom shell 100; the vibration disc device 4 is used for providing a scale foot 200; the moving module 5 is arranged at one side of the vibrating tray device 4 and is located at the downstream of the battery piece bottom shell assembly station, and the moving module 5 is used for transferring and assembling the scale feet 200 supplied by the vibrating tray device 4 onto the bottom shell 100; the heat fusion device 6 is used for heat fusing the scale foot 200 in the bottom shell 100.

Specifically, the bottom-shell stacking conveyor 2 of the present embodiment can push out the stacked bottom shells 100 one by one to the battery bottom shell assembly station, the turntable device 3 transfers the battery piece 300 provided by the worker to the battery bottom shell assembly station and loads the battery piece 300 into the bottom shell 100, then the bottom shell 100 with the battery piece 300 is moved to the lower side of the moving module 5, the moving module 5 transfers the scale foot 200 supplied by the vibrating tray device 4 onto the bottom shell 100, the bottom shell 100 with the battery piece 300 and the scale foot 200 continues to move to the lower side of the heat-melting device 6, and the heat-melting device 6 performs heat melting on the scale foot positioning column of the scale foot 200, so that the scale foot 200 can be fixed on the bottom shell 100, and the mounting stability of the scale foot 200 on the bottom shell 100 is ensured. The utility model discloses only need one-bit manual work to pack into carousel device 3 with battery piece 300, low in labor strength, low in labor cost, battery piece 300 and balance foot 200 all are automatic drain pan 100 of packing into, and degree of automation is high, can guarantee production efficiency, and carries out the hot melt through hot melting device 6 to the balance foot reference column of balance foot 200, can be fixed in drain pan 100 with balance foot 200 on, guarantee the installation stability of balance foot 200 on drain pan 100.

Optionally, a guide sliding plate 11 is disposed at the top of the rack 1, the bottom case 100 is stacked above the guide sliding plate 11, the guide sliding plate 11 is used for guiding and conveying the bottom case 100, the bottom case stacking and conveying device 2 includes a supporting case driving assembly 21 mounted on the guide sliding plate 11, a pushing case driving assembly 22, and a first positioning column 23, the first positioning column 23 is used for limiting the offset of the stacked bottom case 100 in the horizontal plane, the supporting case driving assembly 21 can support the bottom case 100 stacked in the second bottom layer, and the pushing case driving assembly 22 is used for pushing the bottom case 100 stacked in the first bottom layer to the battery piece bottom case assembling station.

Specifically, direction slide 11 extends along the Y axle direction and sets up, has seted up the direction spout along the Y axle direction on the direction slide 11, and the both sides of drain pan 100 respectively with the lateral wall butt of direction spout to inject the rotation of drain pan 100, guarantee that drain pan 100 can only remove to the extending direction of direction spout. The stacked bottom cases 100 are placed on the guide sliding plate 11, the first positioning posts 23 are disposed on four sides of the bottom case 100, the bottom case 100 can be accurately positioned, the supporting case driving assembly 21 includes a first cylinder 211 and a supporting plate 212, the pushing case driving assembly 22 includes a second cylinder 221 and a pushing plate 222, the supporting case driving assembly 21 can be set to two groups or three groups or four groups, the supporting case driving assembly 21 is disposed on two sides of the guide sliding groove, the first cylinder 211 can drive the supporting plate 212 to press the bottom case 100 stacked on the second bottom layer along the X-axis direction, so that the bottom cases 100 on the second layer and above are supported, the second cylinder 221 drives the pushing plate 222 to press the bottom case 100 stacked on the first bottom layer along the Y-axis direction, and because the bottom cases 100 on the second layer and above are all supported by the supporting case driving assembly 21 and limited by the first positioning posts 23, the stacked bottom cases 100 cannot collapse, and other bottom cases 100 cannot flow downstream along with the bottom case 100 on the first bottom layer. After the bottom shell 100 of the first layer at the bottom is pushed away, the first cylinder 211 drives the supporting plate 212 to leave the bottom shell 100, the stacked bottom shells 100 fall into the guiding chute, the first cylinder 211 drives the supporting plate 212 again to support the bottom shell 100 of the second layer at the bottom, the second cylinder 221 drives the pushing plate 222 again to push the bottom shell 100 of the first layer at the bottom downstream, and the operation is repeated.

Optionally, a sensor for detecting the bottom case 100 is disposed below the first positioning column 23, and the sensor can control the operations of the tray driving assembly 21 and the push driving assembly 22.

Optionally, a battery piece loading station is arranged on one side of the battery piece bottom shell assembly station, a protective cover 7 is arranged on the battery piece loading station, and a battery piece storage groove 71 is arranged on the protective cover 7.

Specifically, the protective cover 7 includes a cover body 72 and a protective baffle 73, the cover body 72 is covered above the turntable device 3, the battery sheet storage slot 71 is arranged at the top of the cover body 72, the battery sheet storage slot 71 is used for storing a battery sheet 300, a position avoiding through slot 74 is further arranged at the top of the cover body 72, a worker can insert the battery sheet 300 stored in the battery sheet storage slot 71 into the turntable device 3 right below the position avoiding through slot 74 through the position avoiding through slot 74, and the cover body 72 can prevent the worker from being hit by the turntable device 3, so as to ensure the operation safety of the worker; the protective baffle 73 is arranged around the edge of one side of the cover body 72 close to the guide sliding plate 11 to separate a worker from other parts on one side of the guide sliding plate 11, so that the worker is prevented from being hit, and the operation safety of the worker is ensured.

Optionally, the turntable device 3 includes a first rotary driving element 31, a positioning tool 32, a first elastic element 33 and a first jacking driving element 34, the first jacking driving element 34 is installed in the protective cover 7, the positioning tool 32 is installed at an output end of the first rotary driving element 31, the first rotary driving element 31 is used for driving the positioning tool 32 to reciprocate between a battery cell bottom case assembly station and a battery cell loading station, the first elastic element 33 is arranged at the bottom of the positioning tool 32, the first jacking driving element 34 is used for jacking the positioning tool 32 to the top of the protective cover 7, the positioning tool 32 loads the battery cell 300 into the top of the protective cover 7, the first elastic element 33 is connected with the positioning tool 32, and the first elastic element 33 is used for driving the positioning tool 32 to reset.

Specifically, the first jacking driving assembly 34 is fixedly mounted on the frame 1, the first jacking driving assembly 34 includes a first jacking cylinder 341 and a first supporting plate 342, the first elastic member 33 is a spring, the first rotary driving member 31 is a rotary cylinder, an output end of the rotary cylinder is provided with a rotary plate 311, two ends of the rotary plate 311 are respectively provided with a positioning tool 32, and the rotary cylinder can drive the two positioning tools 32 to switch positions between a battery piece bottom case assembling station and a battery piece loading station in a reciprocating manner through the rotary plate 311; the two ends of the rotating plate 311 are respectively provided with a first lifting rod 38 in a penetrating manner, the top end of the first lifting rod 38 is fixedly connected with the positioning tool 32, the first elastic member 33 is sleeved on the periphery of the first lifting rod 38, the top end of the first elastic member 33 is connected with the rotating plate 311, the bottom end of the first elastic member 33 is connected with the first lifting rod 38, when the unloaded positioning tool 32 is driven to the position avoiding through groove 74 by the rotating plate 311, the first lifting cylinder 341 drives the first supporting plate 342 upwards, the first supporting plate 342 lifts the first lifting rod 38 from the bottom, the first elastic member 33 sleeved on the periphery of the first lifting rod 38 is compressed, the first lifting rod 38 drives the positioning tool 32 to pass through the position avoiding through groove 74 and ascend to the top of the cover body 72, a worker can conveniently and quickly insert the battery piece 300 into the positioning tool 32, after the battery piece 300 is inserted into the positioning tool 32, the first lifting cylinder 342 drives the first supporting plate 342 to be far away from the first lifting rod 38, and the first elastic member 33 recovers to push the first lifting rod 38 and the positioning tool 32 to the original position.

Optionally, the turntable device 3 further includes a positioning driving assembly 35, a second jacking driving assembly 36 and a third jacking driving assembly 37, the second jacking driving assembly 36 and the third jacking driving assembly 37 are both disposed below the assembly station of the battery cell bottom case, the second jacking driving assembly 36 is used for jacking the positioning fixture 32 to contact the bottom case 100, the third jacking driving assembly 37 is used for inserting the battery cell 300 installed in the positioning fixture 32 into the bottom case 100, and the positioning driving assembly 35 is used for limiting the rotation of the positioning fixture 32.

Specifically, the second jacking driving assembly 36 includes a second jacking cylinder 361 and a second supporting plate 362, the third jacking driving assembly 37 includes a third jacking cylinder 371 and a second jacking rod 372, the positioning driving assembly 35 includes a first positioning cylinder 351 and a positioning insertion rod 352, when the positioning tool 32 with the battery piece 300 is moved below the assembly station of the battery piece bottom shell, the first positioning cylinder 351 drives the positioning insertion rod 352 to be inserted into the side wall of the rotating plate 311, so that the positioning tool 32 can be accurately positioned below the assembly station of the battery piece bottom shell, the second jacking cylinder 361 drives the second supporting plate 362 to ascend, the second supporting plate 362 jacks the first jacking rod 38 from the bottom, the first elastic piece 33 sleeved on the periphery of the first jacking rod 38 is compressed, the first jacking rod 38 drives the positioning tool 32 to ascend and contact with the bottom shell 100, the third jacking cylinder 371 drives the second jacking rod 372 to ascend, the second jacking rod 372 inserts the battery piece 300 in the positioning tool 32 into the bottom shell 100, and then the third jacking driving assembly 37 and the second jacking driving assembly 36 to restore the elastic piece 33, and the elastic piece to restore the position of the bottom shell 32 to the original position, and restore the position of the first jacking rod 32.

Specifically, the guide sliding plate 11 is provided with an avoiding through hole, the avoiding through hole is communicated with the guide sliding groove, and the positioning tool 32 is abutted to the bottom case 100 after penetrating through the avoiding through hole.

Optionally, a second positioning cylinder 39 and a positioning plate 310 are disposed above the avoidance through hole, and the second positioning cylinder 39 can drive the positioning plate 310 to move downward and abut against the bottom case 100, so as to prevent the bottom case 100 from being lifted away from the guide sliding plate 11 by the second lifting drive assembly 36 or the third lifting drive assembly 37.

Optionally, a battery piece bending driving device 8 is arranged at the assembly station of the battery piece bottom case, and the battery piece bending driving device 8 is used for bending the battery pieces 300 inserted into the bottom case 100.

Specifically, the battery piece bending driving device 8 includes a bending cylinder 81 and a bending piece 82, the bending cylinder 81 is obliquely arranged, the bending piece 82 is installed at the output end of the bending cylinder 81, the bending cylinder 81 drives the bending piece 82 to bend the battery piece 300 on the bottom case 100, and the battery piece 300 is in fixed contact with the battery piece.

Optionally, the low reaches of battery piece drain pan assembly station are provided with scale foot drain pan assembly station, are provided with scale foot orthotic devices 9 between scale foot drain pan assembly station and the vibration dish device 4, and scale foot orthotic devices 9 is used for correcting the scale foot 200 of centre gripping on removing module 5.

Specifically, the foot-measuring correction device 9 comprises a correction cylinder 91 and a correction block 92, the correction block 92 is mounted at the output end of the correction cylinder 91, and the correction cylinder 91 can drive the correction block 92 to correct the edge of the foot-measuring 200 on the mobile module 5.

Optionally, the moving module 5 includes a screw rod driving component 51, a lifting driving component 52, a material-removing driving component 53 and a magnetic-attracting component 54, the lifting driving component 52 is installed at an output end of the screw rod driving component 51, the magnetic-attracting component 54 and the material-removing driving component 53 are both installed at an output end of the lifting driving component 52, the magnetic-attracting component 54 is used for attracting the scale foot 200 supplied by the vibration plate device 4, and the material-removing driving component 53 is used for driving the scale foot 200 to be separated from the magnetic-attracting component 54.

Specifically, when the bottom chassis 100 with the battery cells 300 is moved to the lower side of the moving module 5, the lead screw driving component 51 drives the lifting driving component 52 to move to the output line of the vibration tray device 4, the lifting driving component 52 drives the magnetic attraction component 54 to move downward to attract the scale feet 200 on the output line of the vibration tray device 4, the lifting driving component 52 drives the magnetic attraction component 54 to lift the scale feet 200, the lead screw driving component 51 drives the lifting driving component 52 to move to the upper side of the bottom chassis 100, the lifting driving component 52 drives the magnetic attraction component 54 to drive the scale feet 200 to approach the bottom chassis 100, the stripping driving component 53 drives the scale feet 200 to be separated from the magnetic attraction component 54, and the scale feet 200 fall into the bottom chassis 100.

Optionally, the magnetic component 54 includes a guiding sleeve 541 and a magnet 542, the magnet 542 is disposed on the guiding sleeve 541, the magnet 542 is used for adsorbing the scale foot 200, a triangular guiding tip 543 is disposed at a bottom end of the guiding sleeve 541, and the triangular guiding tip 543 is used for inserting the scale foot 200 to drive the scale foot 200 to rotate.

Specifically, the periphery of balance foot 200 is circular structure, the middle part of balance foot 200 is provided with cross strengthening rib and steel sheet, magnet 542 can adsorb the steel sheet, thereby adsorb balance foot 200 in leading the bottom of cover 541, it is provided with four triangle direction pointed ends 543 to lead the bottom of cover 541, set up between two adjacent triangle direction pointed ends 543 and form the draw-in groove, lead when cover 541 is close to the balance foot 200 that is located the output line of vibration dish device 4, the cross strengthening rib of the side butt balance foot 200 of the pointed end 543 of triangle direction, make balance foot 200 rotatory, finally, balance foot 200's cross strengthening rib card is gone into and is located the draw-in groove between two adjacent triangle direction pointed ends 543, balance foot 200 obtains just swaying, balance foot 200 after the gesture is just swayed can directly carry out the hot melt after being shifted to drain pan 100 by removal module 5.

Optionally, the lifting driving assembly 52 includes a lifting cylinder 521, a lifting plate 522 and a guide pipe 523, the lifting cylinder 521 is disposed at an output end of the screw driving assembly 51, the lifting plate 522 is mounted at the output end of the lifting cylinder 521, the guide pipe 523 is mounted on the lifting plate 522, and the guide sleeve 541 is fixedly mounted at the bottom of the guide pipe 523.

Optionally, the material-removing driving assembly 53 includes a material-removing driving member 531, a material-removing member 532 and a limiting member 533, the material-removing driving member 531 is disposed at an output end of the lifting driving assembly 52, the material-removing member 532 is installed at an output end of the material-removing driving member 531, the material-removing driving member 531 is used for driving the material-removing member 532 to abut against and push the scale foot 200 from the top, one end of the limiting member 533 is installed at the material-removing member 532, the other end of the limiting member 533 extends to an output end of the lifting driving assembly 52, the limiting member 533 is used for limiting a moving distance of the material-removing member 532 towards the scale foot 200, and the scale foot 200 is prevented from being damaged by pressure.

Specifically, when the moving module 5 drives the scale foot 200 to move to the upper side of the bottom case 100, the material-removing driving member 531 is used for driving the material-removing member 532 to push the scale foot 200 from the top, and the scale foot 200 is loaded into the bottom case 100; the top end of the stopper 533 extends above the lifting plate 522, and when the other end of the stopper 533 abuts against the lifting plate 522, the position of the stripper 532 is limited.

Optionally, a material pushing rod 534 is installed at the top end of the limiting member 533, the material pushing rod 534 sequentially penetrates through the lifting plate 522, the guide tube 523, the guiding sleeve 541 and the magnet 542 from top to bottom, the material pushing rod 534 directly pushes the steel sheet on the scale foot 200 through the through hole of the magnet 542 from the inside of the guiding sleeve 541, it is ensured that the steel sheet and the scale foot 200 are separated from the magnetic attraction component 54 together, and finally the scale foot 200 is installed in the bottom case 100.

Optionally, the hot melting device 6 includes a hot melting lifting cylinder 61, a fixing mounting plate 62, a heating mounting plate 63, a heating rod 64, a thermocouple 65, a heating block 66, a hot melting rod 67 and a second elastic member 68, the fixing mounting plate 62 is mounted on the rack 1, the hot melting lifting cylinder 61 is mounted on the fixing mounting plate 62, the heating mounting plate 63 is mounted at an output end of the hot melting lifting cylinder 61, the heating rod 64, the thermocouple 65, the heating block 66, the hot melting rod 67 and the second elastic member 68 are both mounted on the heating mounting plate 63, the heating rod 64 is used for performing energization heating and providing a heating source, the thermocouple 65 is used for detecting the temperature of the heating block 66, the heating block 66 is used for heat conduction, the hot melting rod 67 is used for contacting with a scale foot 200 mounted on the bottom shell 100 to perform hot melting on the scale foot 200, and the second elastic member 68 is used for pre-pressing the scale foot 200.

Specifically, after heating block 66 is heated to preset temperature, heat transfer to hot melt pole 67, hot melt lift cylinder 61 drive heating mounting panel 63 descends, and second elastic component 68 is to the scale foot 200 pre-compaction of below, and after hot melt pole 67 finishes the hot melt of scale foot 200, hot melt lift cylinder 61 drive heating mounting panel 63 rises and resets.

Optionally, a bottom case transfer device 10 is provided downstream of the heat fusion device 6, and the bottom case transfer device 10 is used for transferring the bottom case 100 loaded with the scale feet 200 and the battery cells 300 from the rack 1 to the blanking line.

Optionally, the bottom case transferring device 10 includes a belt module 101, a vacuum generator 102, a negative pressure gauge 103, a second rotary driving member 104, a vacuum chuck 105 and a chute supporting plate 106, the vacuum generator 102 and the negative pressure gauge 103 are both installed on the belt module 101, the second rotary driving member 104 is installed at an output end of the belt module 101, the chute supporting plate 106 is installed at an output end of the second rotary driving member 104, the vacuum chuck 105 is installed on the chute supporting plate 106, the belt module 101 is configured to drive the second rotary driving member 104, the vacuum chuck 105 and the chute supporting plate 106 to reciprocate between a tail end of the guide sliding plate 11 and the blanking conveying line, when the belt module 101 drives the chute supporting plate 106 to move to the tail end of the guide sliding plate 11, the vacuum generator 102 starts to operate, so that the vacuum chuck 105 releases the bottom case 100 on the chute supporting plate 106, and when the belt module 101 drives the chute supporting plate 106 to move to a position above the blanking conveying line, the second rotary driving member 104 drives the chute supporting plate 106 to rotate 180 degrees, and the vacuum generator 102 stops operating, so that the vacuum chuck 105 releases the bottom case 100 to the blanking conveying line to a next station. The second rotary drive 104 is a rotary cylinder.

Optionally, the frame 1 is further covered with a protective cover, and the protective cover can prevent dust and protect personal safety.

In addition, the foregoing is only the preferred embodiment of the present invention and the technical principles applied thereto. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious modifications, rearrangements and substitutions without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. An automatic assembly device for a human body scale, comprising:

a frame (1);

the bottom shell stacking and conveying device (2) is installed on the rack (1), and the bottom shell stacking and conveying device (2) is used for separating stacked bottom shells (100) layer by layer and pushing the bottom shells (100) to a battery piece bottom shell assembly station;

the turntable device (3) is arranged on one side of the bottom shell stacking and conveying device (2), and the turntable device (3) is used for transferring the battery pieces (300) to the battery piece bottom shell assembly station and assembling the battery pieces with the bottom shell (100);

a vibrating pan device (4), the vibrating pan device (4) being configured to provide a scale foot (200);

the moving module (5) is arranged on one side of the vibrating disc device (4) and is positioned at the downstream of the battery piece bottom shell assembly station, and the moving module (5) is used for transferring and assembling the scale feet (200) supplied by the vibrating disc device (4) onto the bottom shell (100);

the hot melting device (6) is used for carrying out hot melting on the scale feet (200) in the bottom shell (100).

2. Human scale automatic assembly equipment according to claim 1, wherein a guiding slide plate (11) is provided on the top of the frame (1), the bottom shells (100) are stacked above the guiding slide plate (11), the guiding slide plate (11) is used for guiding and conveying the bottom shells (100), the bottom shell stacking and conveying device (2) comprises a shell supporting driving component (21) mounted on the guiding slide plate (11), a shell pushing driving component (22) and a first positioning column (23), the first positioning column (23) is used for limiting the offset of the stacked bottom shells (100) in the horizontal plane, the shell supporting driving component (21) can support the bottom shells (100) stacked on the bottom second layer, and the shell pushing driving component (22) is used for pushing the bottom shells (100) stacked on the bottom first layer to the battery piece bottom shell assembly station.

3. The automatic assembly equipment of the human body scale according to claim 1, wherein a battery piece loading station is arranged on one side of the battery piece bottom shell assembly station, a protective cover (7) is arranged on the battery piece loading station, and a battery piece storage groove (71) is arranged on the protective cover (7).

4. The automatic assembly equipment of the human body scale according to claim 3, wherein the turntable device (3) comprises a first rotary driving part (31), a positioning tool (32), a first elastic part (33) and a first jacking driving component (34), the first jacking driving component (34) is installed in the protective cover (7), the positioning tool (32) is installed at the output end of the first rotary driving part (31), the first rotary driving part (31) is used for driving the positioning tool (32) to reciprocate between the battery piece bottom shell assembly station and the battery piece loading station, the first elastic part (33) is arranged at the bottom of the positioning tool (32), the first jacking driving component (34) is used for jacking the positioning tool (32) to the top of the protective cover (7), the positioning tool (32) is loaded into the battery piece (300) at the top of the protective cover (7), the first elastic part (33) is connected with the positioning tool (32), and the first elastic part (33) is used for driving the positioning tool (32) to reset.

5. The automatic assembly equipment of human body scale according to claim 4, wherein the turntable device (3) further comprises a positioning driving assembly (35), a second jacking driving assembly (36) and a third jacking driving assembly (37), the second jacking driving assembly (36) and the third jacking driving assembly (37) are both arranged below the cell bottom shell assembly station, the second jacking driving assembly (36) is used for jacking the positioning tool (32) to contact the bottom shell (100), the third jacking driving assembly (37) is used for inserting the cell (300) installed in the positioning tool (32) into the bottom shell (100), and the positioning driving assembly (35) is used for limiting the rotation of the positioning tool (32).

6. The automatic assembly equipment of human body scale according to claim 5, wherein the battery piece bottom shell assembly station is provided with a battery piece bending driving device (8), and the battery piece bending driving device (8) is used for bending the battery pieces (300) inserted into the bottom shell (100).

7. The automatic assembly equipment for the human body scale according to claim 1, wherein a scale foot bottom shell assembly station is arranged at the downstream of the battery piece bottom shell assembly station, a scale foot correction device (9) is arranged between the scale foot bottom shell assembly station and the vibration disc device (4), and the scale foot correction device (9) is used for correcting the scale foot (200) clamped on the moving module (5).

8. The automatic assembly equipment of human body scale according to claim 1, wherein the moving module (5) comprises a screw rod driving component (51), a lifting driving component (52), a material-removing driving component (53) and a magnetic-attracting component (54), the lifting driving component (52) is installed at the output end of the screw rod driving component (51), the magnetic-attracting component (54) and the material-removing driving component (53) are both installed at the output end of the lifting driving component (52), the magnetic-attracting component (54) is used for attracting the scale feet (200) supplied by the vibrating disk device (4), and the material-removing driving component (53) is used for driving the scale feet (200) to be separated from the magnetic-attracting component (54).

9. The human body scale automatic assembly equipment according to claim 8, wherein the magnetic attraction component (54) comprises a guide sleeve (541) and a magnet (542), the magnet (542) is arranged on the guide sleeve (541), the magnet (542) is used for adsorbing the scale foot (200), a triangular guide tip (543) is arranged at the bottom end of the guide sleeve (541), and the triangular guide tip (543) is used for inserting the scale foot (200) to drive the scale foot (200) to rotate.

10. The automatic human body scale assembling device of claim 9, wherein the material removing driving assembly (53) comprises a material removing driving member (531), a material removing member (532), and a limiting member (533), the material removing driving member (531) is disposed at an output end of the lifting driving assembly (52), the material removing member (532) is mounted at the output end of the material removing driving member (531), the material removing driving member (531) is configured to drive the material removing member (532) to push the scale foot (200) from the top, one end of the limiting member (533) is mounted at the material removing member (532), the other end of the limiting member (533) extends to the output end of the lifting driving assembly (52), and the limiting member (533) is configured to limit a moving distance of the material removing member (532) towards the scale foot (200).

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