CN113460348A

CN113460348A - Bottled solder paste packaging production line

Info

Publication number: CN113460348A
Application number: CN202110894609.8A
Authority: CN
Inventors: 邓有杰
Original assignee: Dongguan Jiezhen Machinery Equipment Co ltd
Current assignee: Dongguan Jiezhen Machinery Equipment Co ltd
Priority date: 2021-08-05
Filing date: 2021-08-05
Publication date: 2021-10-01

Abstract

The invention discloses a bottled solder paste packaging production line, which comprises a production line body, wherein the production line body comprises a material conveying mechanism, a packaging mechanism, a transmission mechanism and a group of vibrating disk feeding mechanisms, the production line body also comprises a mechanical base for mounting the material conveying mechanism and the packaging mechanism, and a feeding mechanism hood for packaging the group of vibrating disk feeding mechanisms in the production line body, the solder paste bottles are placed on a conveying belt to realize the movement in the axial direction, meanwhile, when the solder paste bottles reach a preset position and are detected by an inductor, a turntable driving motor drives a separation turntable to rotate, the edge of the separation turntable is provided with an arc-shaped groove, the arc-shaped groove is attached to the solder paste bottles, the separation turntable blocks the next solder paste bottle, and the automatic solder paste bottle packaging is realized by the transmission mechanism, a first capping mechanism, a second capping mechanism and a capping mechanism which are matched with each other, the whole process does not need manual operation, and the packaging efficiency of the solder paste bottle is high.

Description

Bottled solder paste packaging production line

Technical Field

The invention relates to the technical field of bottled solder paste packaging, in particular to a bottled solder paste packaging production line.

Background

Tin cream production is through the batching, mix the stirring, grind and carry out the filling through the liquid filling machine after the dispersion to the tin cream, pack after packing in the storage bucket of packing into, the mode of artifical spiral cover is mainly adopted at present, carry out the closing cap to the tin cream storage bucket that the filling is good, but adopt the artifical mode of getting lid and spiral cover usually in large batch production process, and the storage bucket weight that is equipped with the tin cream is great, it is not very convenient to take, degree of automation is low, the packing efficiency of bottled tin cream is extremely low, consequently, can't satisfy the large batch production packing of tin cream bottle.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a bottled solder paste packaging production line.

The technical scheme adopted by the invention for solving the technical problems is as follows: a bottled solder paste packaging production line comprises a production line body, wherein the production line body comprises a material conveying mechanism, a packaging mechanism, a transmission mechanism and a group of vibrating disk feeding mechanisms, and meanwhile, the production line body also comprises a mechanical base for mounting the material conveying mechanism and the packaging mechanism and a feeding mechanism hood for wrapping the group of vibrating disk feeding mechanisms inside the mechanical base;

the material conveying mechanism comprises a conveying belt, a driving wheel, a driven wheel, a conveying motor and a mechanism mounting assembly, wherein a plurality of solder paste bottles to be packaged are placed on the conveying belt, and a first air cylinder mounting plate, a second air cylinder mounting plate, a material separating mechanism and an empty groove are further arranged on the side edge of the mechanism mounting assembly;

the packaging mechanism comprises a first cover mounting mechanism, a second cover mounting mechanism and a cover screwing mechanism which are sequentially arranged on the table board of the mechanical base from left to right;

the transmission mechanism comprises a first cylinder arranged on a first cylinder mounting plate and used for pushing a solder paste bottle to a first capping mechanism processing position, a fifth cylinder arranged on a second cylinder mounting plate and used for pushing the solder paste bottle to a second capping mechanism processing position from the first capping mechanism processing position, a group of second cylinders symmetrically distributed and used for positioning when the solder paste bottle is filled with an outer cover, a sixth cylinder arranged on the side edge of a mechanism mounting assembly, a telescopic cylinder and a telescopic plate used for pushing the solder paste bottle to the capping mechanism processing position, a third cylinder used for pushing the solder paste bottle to be tight in the process of screwing the outer cover, a fourth cylinder used for pushing the solder paste bottle to a conveying belt after the capping process is completed, and a third sensor used for detecting whether the solder paste bottle reaches the preset position on the conveying belt.

Preferably, the first capping mechanism comprises a first feeding rail, a first driving cylinder, a first capping head and a group of inner cap supporting claws which are symmetrically distributed, wherein one end of the first feeding rail is arranged between the inner cap supporting claws, and the first driving cylinder is in driving connection with the first capping head;

the second cap loading mechanism comprises a second feeding rail, a second driving cylinder, a second cap pressing head and a group of outer cap material supporting claws which are symmetrically distributed, wherein one end of the second feeding rail is arranged between the outer cap material supporting claws, and the second driving cylinder is in driving connection with the second cap pressing head;

the cap screwing mechanism comprises a lifting cylinder, a mounting seat connected with the telescopic end of the lifting cylinder, a guide rod and a linear bearing which assist the mounting seat to lift smoothly, a cap screwing motor arranged on the end face of the mounting seat, a first synchronizing wheel connected with the rotating shaft of the cap screwing motor, a second synchronizing wheel in transmission connection with the first synchronizing wheel and a cap screwing shaft driven to rotate through the second synchronizing wheel.

Preferably, it is a set of vibration dish feeding mechanism shakes for the first dish feeding mechanism that shakes that realizes the autoloading inner cup and the second that realizes the autoloading enclosing cover respectively and coils feeding mechanism, the feeding mechanism cover is equipped with a set of discharge gate, is first discharge gate and second discharge gate respectively, first feeding track runs through first discharge gate and shakes a set of feeding mechanism butt joint with first, second feeding track runs through the second discharge gate and shakes a set of mechanism butt joint with the second.

Preferably, the driven wheel is arranged at one end of the mechanism mounting assembly, the driving wheel is arranged at the other end of the mechanism mounting assembly, the conveying belt surrounds between the driving wheel and the driven wheel, and the conveying motor is fixedly arranged at the side edge of the mechanism mounting assembly and is in driving connection with the driving wheel;

the material separating mechanism comprises a turntable driving motor and a separating turntable, the outer edge of the separating turntable penetrates through a hollow groove, and a coupler which can synchronously rotate with the turntable driving motor is arranged at the bottom of the separating turntable.

Preferably, mechanical base sets up the spout that supplies expansion plate axial slip and vertical flexible, the one end of expansion plate and telescopic cylinder's flexible end fastening connection, and the expansion plate runs through out the spout in its other one end under telescopic cylinder's drive.

Preferably, a first inductor and a first inductor mounting block are arranged at the tail end of the first feeding track, a second inductor and a second inductor mounting block are arranged at the tail end of the second feeding track, the first inductor is in control connection with the first driving cylinder, and the second inductor is in control connection with the second driving cylinder;

a group of first L-shaped limiting parts which are symmetrically distributed are formed on the side edge of the first feeding track, and a group of second L-shaped limiting parts which are symmetrically distributed are formed on the side edge of the second feeding track.

Compared with the prior art, the invention has the beneficial effects that:

the tin cream bottle realizes the movement of the axial direction by being placed on a conveying belt, and meanwhile, when the tin cream bottle reaches a preset position and is detected by a sensor, a turntable driving motor drives a separation turntable to rotate, the edge of the separation turntable is provided with an arc-shaped groove which is attached to the tin cream bottle, and the separation turntable blocks the next tin cream bottle, and the transmission mechanism comprises a first cylinder which is arranged on a first cylinder mounting plate and pushes the tin cream bottle to a first capping mechanism processing position, a fifth cylinder which is arranged on a second cylinder mounting plate and pushes the tin cream bottle from the first capping mechanism processing position to a second capping mechanism processing position, a group of second cylinders which are symmetrically distributed and realize the positioning of the tin cream bottle outer cover, a sixth cylinder which is arranged at the side edge of a mechanism mounting component, a telescopic cylinder and a telescopic plate which push the tin cream bottle to the capping mechanism processing position, and a third cylinder which pushes the tin cream bottle tightly in the process of the tin cream bottle outer cover screwing, The solder paste bottle after the capping process is completed is pushed to the fourth cylinder of the conveying belt and is used for detecting whether the solder paste bottle reaches the third sensor at the preset position on the conveying belt, the automatic solder paste bottle packaging is realized by the aid of the first capping mechanism, the second capping mechanism and the capping mechanism which are arranged through the transmission mechanism in a matched mode, manual operation is not needed in the whole process, and the packaging efficiency of the solder paste bottle is high.

Drawings

FIG. 1 is a schematic structural view of the whole machine of the present invention;

FIG. 2 is another schematic structural diagram of the complete machine of the present invention;

FIG. 3 is a schematic structural diagram of the material conveying mechanism of the present invention;

FIG. 4 is another schematic structural view of the material conveying mechanism of the present invention;

FIG. 5 is a schematic structural view of the transmission mechanism of the present invention;

FIG. 6 is a schematic structural view of the expansion plate of the present invention;

FIG. 7 is a schematic structural view of a first capping mechanism according to the present invention;

FIG. 8 is a schematic structural view of a second capping mechanism according to the present invention;

FIG. 9 is a schematic structural view of the cap screwing mechanism of the present invention;

FIG. 10 is a schematic view of another embodiment of the capping mechanism of the present invention;

fig. 11 is a cross-sectional view of the capping mechanism of the present invention.

Reference numbers in the figures:

the device comprises a material conveying mechanism 1, a feeding mechanism hood 2, a first cover installing mechanism 3, a vibrating disc feeding mechanism 4, a material separating mechanism 5, an electric cabinet 6, a mechanical base 7, a second cover installing mechanism 8, a cover screwing mechanism 9, a conveying motor 10, a first feeding rail 11, a second feeding rail 12, a conveying belt 13, a separating turntable 14, a turntable driving motor 15, a mechanism installing component 16, a driving wheel 17, a driven wheel 18, a hollow groove 19, a first air cylinder 20, a second air cylinder 21, a third air cylinder 22, a fourth air cylinder 23, a fifth air cylinder 24, a sixth air cylinder 25, a third inductor 27, a telescopic air cylinder 28, a telescopic plate 29, a first cover pressing head 30, a second cover pressing head 31, a first L-shaped limiting part 32, a second L-shaped limiting part 33, a first driving air cylinder 34, a second driving air cylinder 35, an inner cover material supporting claw 36, an outer cover material supporting claw 37, a first inductor 38, a second inductor 39, a mechanical cover installing mechanism 8, a cover screwing mechanism 9, a conveying motor 10, a first feeding rail 11, a second feeding rail 12, a conveying belt 13, a separating turntable driving motor 14, a turntable driving motor 15, a mechanism driving motor driving assembly 15, a mechanism driving assembly 16, a mechanism, a driving assembly 16, a driving assembly 17, a driving assembly, a driving wheel 28, a driving mechanism, a driving plate 29, a driving plate, a driving mechanism, a driving plate assembly, a driving plate, a driving mechanism, a driving plate assembly, a driving plate assembly, a driving assembly, the capping machine comprises a capping motor 40, a mounting seat 41, a capping shaft 42, a guide rod 43, a linear bearing 44, a lifting cylinder 45, a first synchronizing wheel 46 and a second synchronizing wheel 47.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-11, the present invention provides a bottled solder paste packaging production line, which comprises a production line body, wherein the production line body comprises a material conveying mechanism 1, a packaging mechanism, a transmission mechanism and a group of vibrating disk feeding mechanisms 4, and also comprises a mechanical base 7 for mounting the material conveying mechanism 1 and the packaging mechanism, and a feeding mechanism hood 2 for wrapping the group of vibrating disk feeding mechanisms 4 inside the mechanical base;

the material conveying mechanism 1 comprises a conveying belt 13, a driving wheel 17, a driven wheel 18, a conveying motor 10 and a mechanism mounting assembly 16, a plurality of solder paste bottles to be packaged are placed on the conveying belt 13, and a first cylinder mounting plate, a second cylinder mounting plate, a material separating mechanism 5 and an empty groove 19 are further arranged on the side edge of the mechanism mounting assembly 16;

the packaging mechanism comprises a first cover installing mechanism 3, a second cover installing mechanism 8 and a cover screwing mechanism 9 which are sequentially arranged on the table-board of the mechanical base 7 from left to right;

the transmission mechanism comprises a first cylinder 20 arranged on a first cylinder mounting plate and used for pushing a solder paste bottle to the processing position of the first capping mechanism 3, a fifth cylinder 24 arranged on a second cylinder mounting plate and used for pushing the solder paste bottle to the processing position of the second capping mechanism 8 from the processing position of the first capping mechanism 3, a group of second cylinders 21 symmetrically distributed and used for realizing positioning of an outer cap of the solder paste bottle, a sixth cylinder 25 arranged on the side of the mechanism mounting assembly 16, a telescopic cylinder 28 and a telescopic plate 29 for pushing the solder paste bottle to the processing position of the cap screwing mechanism 9, a third cylinder 22 for pushing the solder paste bottle tightly in the cap screwing process, a fourth cylinder 23 for pushing the solder paste bottle after the cap screwing process to the conveying belt 13 and a third sensor 27 for detecting whether the solder paste bottle on the conveying belt 13 reaches a preset position.

The first cap loading mechanism 3 comprises a first feeding rail 11, a first driving cylinder 34, a first cap pressing head 30 and a group of inner cap supporting claws 36 which are symmetrically distributed, the inner cap supporting claws 36 are used for fixing the first feeding rail 11, one end of the first feeding rail 11 is arranged between the inner cap supporting claws 36, and the first driving cylinder 34 is in driving connection with the first cap pressing head 30;

the second cap loading mechanism 8 comprises a second feeding rail 12, a second driving cylinder 35, a second cap pressing head 31 and a group of outer cap material supporting claws 37 which are symmetrically distributed, the outer cap material supporting claws 37 are used for fixing the second feeding rail 12, one end of the second feeding rail 12 is arranged between the outer cap material supporting claws 37, and the second driving cylinder 35 is in driving connection with the second cap pressing head 31;

the cap screwing mechanism 9 comprises a lifting cylinder 45, a mounting seat 41 connected with the telescopic end of the lifting cylinder 45, a guide rod 43 and a linear bearing 44 for assisting the smooth lifting of the mounting seat 41, a cap screwing motor 40 arranged on the end surface of the mounting seat 41, a first synchronizing wheel 46 connected with a rotating shaft of the cap screwing motor 40, a second synchronizing wheel 47 in transmission connection with the first synchronizing wheel 46 and a cap screwing shaft 42 driven to rotate by the second synchronizing wheel 47.

A set of vibration dish feeding mechanism 4 shakes for the first dish feeding mechanism that shakes that realizes the autoloading inner cup and the second that realizes the autoloading enclosing cover respectively and coils feeding mechanism, feeding mechanism aircraft bonnet 2 is equipped with a set of discharge gate, is first discharge gate and second discharge gate respectively, first feeding track 11 runs through first discharge gate and shakes a set of feeding mechanism butt joint with first, second feeding track 12 runs through the second discharge gate and shakes a set of mechanism butt joint with the second.

The driven wheel 18 is arranged at one end of the mechanism mounting component 16, the driving wheel 17 is arranged at the other end of the mechanism mounting component 16, the conveying belt 13 surrounds between the driving wheel 17 and the driven wheel 18, and the conveying motor 10 is fixedly arranged at the side edge of the mechanism mounting component 16 and is in driving connection with the driving wheel 17;

the material separating mechanism 5 comprises a turntable driving motor 15 and a separating turntable 14, the outer edge of the separating turntable 14 penetrates through a hollow groove 19, and a coupler which can synchronously rotate with the turntable driving motor 15 is arranged at the bottom of the separating turntable 14.

Mechanical base 7 offers and supplies expansion plate 29 endwise slip and vertical flexible spout, the flexible end fastening connection of one end and telescopic cylinder 28 of expansion plate 29, and its other end runs through out the spout under telescopic cylinder 28's drive of expansion plate 29.

A first inductor 38 and a first inductor mounting block are arranged at the tail end of the first feeding rail 11, a second inductor 39 and a second inductor mounting block are arranged at the tail end of the second feeding rail 12, the first inductor 38 is in control connection with the first driving cylinder 34, and the second inductor 39 is in control connection with the second driving cylinder 35;

the side edge of the first feeding track 11 is formed with a group of first L-shaped limiting portions 32 which are symmetrically distributed, the side edge of the second feeding track 12 is formed with a group of second L-shaped limiting portions 33 which are symmetrically distributed, meanwhile, the first feeding track 11 and the second feeding track 12 are both provided with blanking holes, the inner cover slides in from the first feeding track 11, after the first sensor 38 detects that the inner cover reaches a preset position, the first driving cylinder 34 drives the first gland head 30 to descend and press the inner cover on the upper end of a solder paste bottle, the outer cover slides in from the second feeding track 12, after the second sensor 39 detects that the outer cover reaches the preset position, the second driving cylinder 35 drives the second gland head 31 to descend and press the outer cover on the upper end of the solder paste bottle, and meanwhile, the outer cover is sleeved on the inner cover.

Be equipped with the first support subassembly that is used for installing automatic dress lid device spare part on the mechanical base mesa, first support subassembly includes bottom plate, track mounting panel, bracing piece, roof and a set of backup pad, the backup pad is installed perpendicularly on the terminal surface of bottom plate, and equidistant distribution of a set of backup pad, the track mounting panel is located between a set of backup pad, first feeding track erects on the track mounting panel with the orbital one end of second feeding, the bracing piece is vertical on locating track mounting panel terminal surface, and on the top surface of backup pad and bracing piece was located to the roof simultaneously, the roof bottom surface was equipped with the support material claw fixed block that is used for installing inner cup support material claw and enclosing cover support material claw respectively, first drive actuating cylinder and second and drive actuating cylinder all with roof fixed connection.

Be equipped with the second bracket component that is used for installing automatic spiral cover device spare part on the mechanical base mesa, the second bracket component includes supporting seat and limit for height board, the lift cylinder is fixed on locating the terminal surface of supporting seat, the head and the tail both ends of guide bar are connected with supporting seat and limit for height board respectively, the mount pad is equipped with a plurality of dead eye that are used for installing linear bearing, and the mount pad passes through linear bearing and guide bar sliding connection.

The mechanical base is characterized in that an electric cabinet is arranged on the table top of the mechanical base and provided with a display screen and a plurality of operating buttons.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A bottled solder paste packaging production line is characterized by comprising a production line body, wherein the production line body comprises a material conveying mechanism, a packaging mechanism, a transmission mechanism and a group of vibrating disc feeding mechanisms, and meanwhile, the production line body also comprises a mechanical base for mounting the material conveying mechanism and the packaging mechanism and a feeding mechanism hood for wrapping the group of vibrating disc feeding mechanisms inside the mechanical base;

2. The bottled solder paste packaging production line of claim 1, wherein the first capping mechanism comprises a first feeding rail, a first driving cylinder, a first capping head and a group of inner cap holding claws which are symmetrically distributed, one end of the first feeding rail is arranged between the inner cap holding claws, and the first driving cylinder is in driving connection with the first capping head;

3. The bottled solder paste packaging production line of claim 1, wherein one set of the vibration disk feeding mechanisms is a first vibration disk feeding mechanism for automatically conveying the inner cover and a second vibration disk feeding mechanism for automatically conveying the outer cover, the feeding mechanism housing is provided with a set of discharge ports which are a first discharge port and a second discharge port, the first feeding track penetrates through the first discharge port and is in butt joint with the first vibration disk feeding mechanism, and the second feeding track penetrates through the second discharge port and is in butt joint with the second vibration disk feeding mechanism.

4. The bottled solder paste packaging production line of claim 1, wherein the driven wheel is arranged at one end of the mechanism mounting assembly, the driving wheel is arranged at the other end of the mechanism mounting assembly, the conveying belt surrounds between the driving wheel and the driven wheel, and the conveying motor is fixedly arranged at the side edge of the mechanism mounting assembly and is in driving connection with the driving wheel;

5. The bottled solder paste packaging production line of claim 1, wherein the mechanical base is provided with a chute for axially sliding and vertically extending and retracting the retractable plate, one end of the retractable plate is tightly connected with the retractable end of the retractable cylinder, and the other end of the retractable plate penetrates out of the chute under the driving of the retractable cylinder.

6. The bottled solder paste packaging production line of claim 2, wherein a first sensor and a first sensor mounting block are arranged at the tail end of the first feeding rail, a second sensor and a second sensor mounting block are arranged at the tail end of the second feeding rail, the first sensor is in control connection with a first driving cylinder, and the second sensor is in control connection with a second driving cylinder;