CN217045372U - Foam pump main part assembly manufacturing line - Google Patents

Abstract

The utility model discloses a foam pump main body assembly production line, which comprises a frame, a body glass bead assembling machine, a body conveying channel and a press-fit assembling machine, wherein the body glass bead assembling machine and the press-fit assembling machine are respectively arranged on the frame; the pressing and assembling machine comprises a second rotary feeding device, seven sleeve feeding channels, a jacking device and a main body discharging channel. The assembly production line for the foam pump main body can automatically and continuously load the glass beads in the main body, and combine the main body with the seven pieces of glass beads to form the foam pump main body, so that the production efficiency is high, the processing precision is high, and the production cost of the foam pump is reduced.

Description

Foam pump main part assembly line

Technical Field

The utility model relates to an kludge, in particular to foam pump main part assembly line.

Background

The foam pump is quite common in daily life of people, provides great convenience for our life, and is widely applied to daily chemicals and medical industries. When the foam pump is used, a large amount of foam can be generated by pressing with hands, the interior of the foam pump is assembled by a plurality of fine parts, and the main components for sucking up liquid of the foam pump are glass beads arranged in the body.

At present, when a foam pump main body is assembled, a manual assembly method is generally adopted to load glass beads into a body, and the body provided with the glass beads and seven sets (the seven sets comprise a lower piston, a spring seat, a spring, an auxiliary column, a main column, a small blade and an upper piston) are assembled to form the foam pump main body. However, the manual assembly is not only inefficient and requires a large amount of manpower, but also requires a large space to complete the assembly, and the assembly precision is not high, so that the glass beads are easy to drop in the assembly process, thereby causing waste products and increasing the production cost.

Disclosure of Invention

The utility model aims to solve the technical problem that a foam pump main part assembling line is provided, this kind of foam pump main part assembling line can be automatic, constantly pack into the glass pearl in the body to the body and seven sets of combination that will accomplish the glass pearl installation become the foam pump main part, and its production efficiency is high, the machining precision is high, has reduced the manufacturing cost of foam pump.

In order to solve the technical problems, the technical scheme is as follows:

the utility model provides a foam pump main part assembling line, includes frame, body glass bead kludge, body conveyer belt way and pressfitting kludge, and body glass bead kludge and pressfitting kludge are installed in the frame respectively, and the body conveyer belt is said and is connected between body glass bead kludge and pressfitting kludge, its characterized in that: the body glass bead assembling machine comprises a first rotary feeding device, a body feeding channel, a glass bead blanking device, a glass bead pressing device and a body oil brushing device; the first rotary feeding device is arranged on the rack, and the feeding ends of the body feeding channel, the glass bead blanking device, the glass bead pressing device, the body oil brushing device and the body conveying channel are sequentially arranged at the peripheral edge of the first rotary feeding device along the conveying direction of the first rotary feeding device; the press-fit assembling machine comprises a second rotary feeding device, seven sleeve feeding channels, a jacking device and a main body discharging channel, wherein the second rotary feeding device is mounted on the frame, the feeding ends of the seven sleeve feeding channels, the discharging ends of the body conveying channels and the feeding ends of the main body discharging channels are sequentially arranged at the peripheral edge of the second rotary feeding device along the conveying direction of the second rotary feeding device, and the jacking device corresponds to the peripheral edge of the second rotary feeding device in position and can coaxially rotate with the second rotary feeding device.

In the foam pump main body assembly production line, the body is conveyed to the first rotary feeding device through the body feeding channel, and then the body is conveyed to the glass bead blanking device along with the first rotary feeding device, and the glass beads are added into the body by the glass bead blanking device; then the body rotates to the position of the glass bead pressing device, and the glass bead pressing device presses the glass beads in the body into the corresponding buckling positions; then the body rotates to the body oil brushing device, and the body oil brushing device brushes oil on the sealing position in the body; then seven sets are conveyed to a second rotary feeding device through a seven-set feeding channel, when the seven sets rotate to a discharge port of a body conveying channel along with the second rotary feeding device, the body is conveyed to the second rotary feeding device from the body conveying channel (usually, the body conveying channel can change the body from an opening upward to an opening downward along with conveying), the body is positioned above the seven sets, in the process that the body and the seven sets rotate along with the second rotary feeding device together, a jacking device gradually presses the body and the seven sets together, and after the body and the seven sets are pressed together to form a foam pump main body, the foam pump main body is discharged from a main body discharge channel.

In a preferred scheme, the first rotary feeding device comprises a first body conveying turntable, a first body protection plate and a first rotary driving device capable of driving the first body conveying turntable, the first rotary driving device is mounted on the rack, and the first body conveying turntable is in transmission connection with a power output end of the first rotary driving device; the outer edge of the first body conveying rotary disc is provided with a plurality of first body bayonets which are uniformly distributed, and the feeding ends of the body feeding channel, the glass bead feeding device, the glass bead pressing device, the body oil brushing device and the body conveying channel respectively correspond to the first body bayonets; first body backplate carries the circumference setting of carousel and certainly along first body the body pan feeding says and extends to the body and carries the material way.

In a further preferred scheme, the first rotary driving device comprises a motor and a divider, the motor and the divider are respectively installed on the rack, an input shaft of the divider is in transmission connection with a power output end of the motor, and the first body conveying turntable is fixedly installed on an output shaft of the divider. When the body is sent into first rotation material feeding unit from body feeding way on, the body will fall into first body bayonet socket, and first body backplate can avoid the body to fall out from first body bayonet socket, and the motor can carry out intermittent type and rotate through the first body transport carousel of decollator drive to make the body rotate when corresponding the position with each device, can stop moving and correspond the equipment operation.

In a preferred scheme, the glass bead blanking device comprises a glass bead box, a lifting seat lifting driving device, a glass bead limiting and conveying device and at least one glass bead conveying pipe, wherein the glass bead box and the lifting seat lifting driving device are respectively installed on the rack, the lifting seat is in transmission connection with the power output end of the lifting seat lifting driving device, and the glass bead box is positioned above the glass bead limiting and conveying device; the glass bead limiting and conveying device comprises a fixed plate, a lower bead plate and a lower bead plate front-back translation driving device, wherein the fixed plate is arranged on a lifting seat, a front-back moving limiting groove is formed in the fixed plate, at least one bead inlet hole and at least one bead inlet hole are formed in the fixed plate, the bead inlet hole extends into the limiting groove from the upper surface of the fixed plate, and the bead inlet hole extends to the lower surface of the fixed plate from the limiting groove; the lower bead plate front-back translation driving device is installed on the fixed plate, the lower bead plate front-back translation driving device is arranged in the limiting groove and is in transmission connection with a power output end of the lower bead plate front-back translation driving device, at least one lower bead hole which is through from top to bottom is formed in the lower bead plate, the bead inlet holes, the bead outlet holes and the bead conveying pipes are identical in quantity and in one-to-one correspondence, the bead inlet holes and the bead inlet holes are arranged in a staggered mode from front to back, the lower end opening of the bead inlet holes and the upper surface of the lower bead plate are located on the same plane, a feeding port in the upper end of the bead conveying pipe is communicated with the bead box, and the lower end of the bead conveying pipe is fixed on the fixed plate and communicated with the corresponding bead inlet holes. The glass bead boxes convey the glass beads to the corresponding bead inlet holes through the glass bead conveying pipes, and therefore the lower bead holes in the lower bead plate are aligned with the bead inlet holes, and the glass beads can fall into the lower bead holes; when the first rotary feeding device drives the body to be conveyed to a position corresponding to the glass bead blanking device, the lifting seat lifting driving device drives the lifting seat to descend to drive the fixed plate to descend to be in contact with the body, and at the moment, the bead inlet hole in the fixed plate corresponds to the opening position in the body; subsequently, the bead plate is driven to move backwards by the front and rear movement driving device of the lower bead plate, so that the lower bead hole on the lower bead plate is aligned with the bead inlet hole, the beads in the lower bead hole can fall into the body through the bead inlet hole, then the lifting seat lifting driving device ascends through the driving lifting seat, the bead limiting and conveying device is driven to ascend, the bead plate is driven to move forwards by the front and rear movement driving device of the lower bead plate, the lower bead hole on the lower bead plate is aligned with the bead inlet hole again, and the beads can be continuously conveyed into the lower bead hole. The lower end opening of the bead inlet hole and the upper surface of the lower bead plate are positioned on the same plane, when the lower bead plate is driven by the lower bead plate forward and backward translation driving device to translate backwards, the lower end opening of the bead inlet hole is blocked by the upper surface of the corresponding lower bead plate, and the beads cannot be conveyed continuously (namely, when the lower end opening of the bead inlet hole is aligned with the corresponding lower bead hole, the lower bead hole is not aligned with the bead inlet hole, and when the lower bead hole is aligned with the bead inlet hole, the lower end opening of the bead inlet hole is blocked by the upper surface of the corresponding lower bead plate). The front and back directions of the glass bead blanking device are determined according to the central position of the first rotary feeding device, the central position far away from the first rotary feeding device is front, and the central position close to the first rotary feeding device is back.

In a preferable scheme, the glass bead pressing device comprises a first pressing plate, a first pressing plate lifting driving device, at least one pressing rod and at least one first compression spring, the first pressing plate lifting driving device is installed on the rack, the first pressing plate is in transmission connection with a power output end of the first pressing plate lifting driving device, a protruding block is arranged on the rack and is positioned below the first pressing plate, at least one first guide hole in the vertical direction is arranged on the protruding block, the first guide hole, the pressing rod and the first compression spring are in one-to-one correspondence, the pressing rod penetrates through the first guide hole and faces downwards, the upper end of the pressure lever is connected with the lower surface of the first pressure plate, the lower end of the pressure lever is provided with a glass bead thimble, a first compression spring is sleeved on the pressure lever, and the upper end of the first compression spring is in close contact or connection with the lower surface of the first pressure plate, and the lower end of the first compression spring is in close contact or connection with the upper surface of the bump. When the first rotary feeding device drives the body for placing the glass beads to be conveyed to the position below the glass bead pressing device, the first pressing plate lifting driving device drives the pressing rod to press down through the first pressing plate, so that the glass bead ejector pin at the lower end of the pressing rod extends into the body, and the glass beads are pressed into the buckling position in the body.

In the preferred scheme, body brushing oil device includes oil feed bucket, defeated oil pipe way, second clamp plate lift drive and at least one brush, and oil feed bucket and second clamp plate lift drive install respectively in the frame, the oil circuit output of oil feed bucket passes through defeated oil pipe way and connects the brush, and the second clamp plate is connected with second clamp plate lift drive's power take off end transmission, and the brush is installed on the lower surface of second clamp plate to the brush is towards below. When the first rotary feeding device drives the body to be conveyed to the position below the body oil brushing device, the second pressing plate lifting driving device drives the oil brush to descend through the second pressing plate, so that the oil brush extends into the body to brush oil on the inner wall of the body. Typically, a cotton swab may be used for the oil brush.

In a preferred scheme, the jacking device comprises a cylindrical cam, a mandril turntable and a plurality of mandrils, the cylindrical cam is fixedly mounted on the rack, the mandril turntable is positioned above the cylindrical cam, each mandrils are mounted on the mandril turntable and can move up and down relative to the mandril turntable, each mandrils are distributed along the circumferential direction of the mandril turntable, and the lower ends of the mandrils are provided with rollers matched with the curve outline of the upper end surface of the cylindrical cam; the second rotary feeding device comprises a body conveying top disc, a second body conveying rotary disc, seven rotary discs, a disc-shaped groove cam, a second rotary driving device and a plurality of seven sliding blocks, wherein the second rotary driving device and the seven sliding blocks can drive the body conveying top disc, the second body conveying rotary disc, the seven rotary discs and the ejector rod rotary disc to synchronously rotate; the disk-shaped groove cam is fixedly arranged on the rack, a curve groove is formed in the upper surface of the disk-shaped groove cam, a plurality of guide grooves distributed along the circumferential direction of the seven-piece turnplate are formed in the lower surface of the seven-piece turnplate, the direction of each guide groove is consistent with the radial direction of the seven-piece turnplate, the guide grooves are identical to the seven-piece sliding blocks in number and correspond to the seven-piece sliding blocks one by one, guide blocks matched with the guide grooves are arranged on the upper surface of the seven-piece sliding blocks, the seven-piece sliding blocks are arranged in the corresponding guide grooves through the guide blocks and can move along the guide grooves in the radial direction, and cam bearings are arranged at the rear ends of the seven-piece sliding blocks and are positioned in the curve groove; the seven sets of sliding blocks correspond to the seven sets of bayonets one by one in the same number, a main body push-out bayonet is arranged at the front end of each of the seven sets of sliding blocks, and the feeding end of the main body discharge channel corresponds to the position of the main body push-out bayonet. The body and the seven sets of glass beads are respectively conveyed to a second rotary feeding device through a body conveying material channel and a seven set feeding material channel, the second body conveying turntable can effectively position the body through a second body bayonet, and the seven sets of turntables can effectively position the seven sets through seven set bayonets; the body conveying top disc, the second body conveying rotary disc, the seven sets of rotary discs and the top rod rotary disc synchronously rotate under the driving of the second rotation driving device, and the disc-shaped groove cam is fixed; along with the rotation of the ejector rod rotating disc, the ejector rod gradually rises along the curve profile of the upper end face of the cylindrical cam and upwards pushes and presses the seven sleeves, and the seven sleeves are gradually close to the body under the action of the ejector rod; when the ejector rod reaches the position of the highest point of the curve profile of the cylindrical cam, the seven sets of the ejector rods and the body are tightly combined under the common pressure action of the ejector rod and the body conveying ejection disc to complete the assembly of the foam pump main body; with the continuous rotation of the seven sets of turntables, when the foam pump main body moves to the feeding end of the main body discharging channel, the seven sets of sliding blocks can move forwards along the seven sets of turntables to push the foam pump main body out of the main body discharging channel, and at the moment, the ejector rod moves from a high point to a low point of the curve profile of the cylindrical cam. Because the radius of the curved groove is constantly changed, when the cam bearing moves along the curved groove of the disc-shaped groove cam, the corresponding seven sets of sliding blocks can radially move along the seven sets of rotating discs, and the radius of each position of the curved groove is designed according to the radial position of the seven sets of sliding blocks required to reach the corresponding position, for example: when the ejector rod rises to enable the seven sets of sliding blocks to approach and be pressed with the body, the seven sets of sliding blocks gradually move backwards, the pressing of the seven sets of sliding blocks and the body cannot be hindered, and the radius of the curve groove is gradually reduced; when the foam pump main body is moved to the position of the main body discharging channel after being assembled, the seven sets of sliding blocks move outwards to eject out the foam pump main body, and the radius of the curve groove is gradually increased. The front and back directions of the second rotary feeding device are determined according to the axis of the second body conveying turntable, the position far away from the axis of the second body conveying turntable is front, and the position close to the axis of the second body conveying turntable is back. The second rotation driving means may employ a motor. The seven sets can be fed in from the seven-set feeding channel through the vibrating disk.

In a further preferred scheme, the second rotary feeding device further comprises a second body guard plate and seven sets of guard plates, wherein the second body guard plate is arranged along the circumferential direction of the second body conveying turntable and extends from the body conveying channel to the main body discharging channel; seven sets of backplate set up and extend to main part material way from seven sets of pan feeding material ways along the circumference of seven sets of carousels. The second body guard plate can prevent the body from falling out of the second body bayonet, and the seven sets of guard plates can prevent the seven sets from falling out of the seven sets of bayonet.

The lifting seat lifting driving device, the first pressing plate lifting driving device and the second pressing plate lifting driving device can adopt cylinders.

The beneficial effects of the utility model reside in that: the assembly production line for the foam pump main body can automatically and continuously load the glass beads in the main body, and combine the main body with the seven pieces of glass beads to form the foam pump main body, so that the production efficiency is high, the processing precision is high, and the production cost of the foam pump is reduced.

Drawings

FIG. 1 is a schematic structural view of an assembly line of a foam pump main body according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the main body bead assembling machine according to the embodiment of the present invention;

fig. 3 is a schematic structural diagram of the press-fitting and assembling machine according to the embodiment of the present invention;

FIG. 4 is a schematic structural view of a bead discharging device in an embodiment of the present invention;

FIG. 5 is a schematic structural view of a bead pressing device according to an embodiment of the present invention;

FIG. 6 is a schematic structural view of a body oil brushing device according to an embodiment of the present invention;

fig. 7 is a schematic structural view of seven sets of turntables, disc-shaped grooved cams and seven sets of sliders according to an embodiment of the present invention;

fig. 8 is a schematic structural view of the main body conveying top plate, the top pressing device and the second rotation driving device in the embodiment of the present invention;

fig. 9 is an exploded view of the foam pump body.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

as shown in fig. 9, the body 5, the bead 6 and the seven-piece sleeve 7 are arranged from top to bottom.

A foam pump main body assembly production line as shown in fig. 1-8, which comprises a frame 1, a body bead assembling machine 2, a body conveying channel 3 and a press-fit assembling machine 4, wherein the body bead assembling machine 2 and the press-fit assembling machine 4 are respectively installed on the frame 1, the body conveying channel 3 is connected between the body bead assembling machine 2 and the press-fit assembling machine 4, and the body bead assembling machine 2 comprises a first rotary feeding device 201, a body feeding channel 202, a bead discharging device 203, a bead pressing device 204 and a body brushing device 205; the first rotary feeding device 201 is arranged on the frame 1, and the feeding ends of the body feeding channel 202, the glass bead blanking device 203, the glass bead pressing device 204, the body oil brushing device 205 and the body feeding channel 3 are sequentially arranged at the peripheral edge of the first rotary feeding device 201 along the conveying direction of the first rotary feeding device 201; the press-fit assembling machine 4 comprises a second rotary feeding device 401, seven sets of feeding channels 402, a jacking device 403 and a main body discharging channel 404, wherein the second rotary feeding device 401 is mounted on the frame 1, the feeding ends of the seven sets of feeding channels 402, the discharging ends of the body conveying channel 3 and the feeding ends of the main body discharging channels 404 are sequentially arranged on the peripheral edge of the second rotary feeding device 401 along the conveying direction of the second rotary feeding device 401, and the jacking device 403 corresponds to the peripheral edge of the second rotary feeding device 401 and can coaxially rotate with the second rotary feeding device 401.

In the assembly production line of the main body of the foam pump, the main body is conveyed to a first rotary feeding device 201 through a main body feeding channel 202, and then the main body is conveyed to a bead blanking device 203 along with the first rotary feeding device 201, and the bead blanking device 203 adds beads into the main body; then the body is rotated to the bead pressing device 204, and the bead pressing device 204 presses the beads in the body into the corresponding buckling positions; then the body rotates to the body oil brushing device 205, and the body oil brushing device 205 brushes the oil on the sealing position in the body; subsequently, seven sleeves are conveyed to the second rotary feeding device 401 through the seven sleeve feeding channel 402, when the seven sleeves rotate to the position of a discharge hole of the body conveying channel 3 along with the second rotary feeding device 401, the body is conveyed to the second rotary feeding device 401 from the body conveying channel 3 (the body conveying channel 3 can change the body from an opening upward to a downward along with conveying), the body is positioned above the seven sleeves, in the process that the body and the seven sleeves rotate along with the second rotary feeding device 401, the pressing device 403 gradually presses the body and the seven sleeves together, and after the body and the seven sleeves are pressed together to form a foam pump main body, the foam pump main body is sent out through the main body discharge channel 404.

The first rotary feeding device 201 comprises a first body conveying turntable 2011, a first body guard plate 2012 and a first rotary driving device 2013 capable of driving the first body conveying turntable 2011, the first rotary driving device 2013 is installed on the rack 1, and the first body conveying turntable 2011 is in transmission connection with a power output end of the first rotary driving device 2013; a plurality of first body bayonets 20111 which are uniformly distributed are arranged on the outer edge of the first body conveying turntable 2011, and the feeding ends of the body feeding channel 202, the glass bead feeding device 203, the glass bead pressing device 204, the body brushing device 205 and the body conveying channel 3 respectively correspond to the first body bayonets 20111; the first body guard 2012 is disposed along the circumferential direction of the first body conveying turntable 2011 and extends from the body feeding channel 202 to the body conveying channel 3; the first rotary driving device 2013 comprises a motor 20131 and a divider 20132, the motor 20131 and the divider 20132 are respectively installed on the rack 1, an input shaft of the divider 20132 is in transmission connection with a power output end of the motor 20131, and the first body conveying turntable 2011 is fixedly installed on an output shaft of the divider 20132. When the body is fed into the first rotary feeding device 201 from the body feeding channel 202, the body falls into the first body bayonet 20111, the first body guard plate 2012 can prevent the body from falling out of the first body bayonet 20111, and the motor 20131 can drive the first body conveying turntable 2011 to intermittently rotate through the divider 20132, so that the body can stop moving and perform corresponding assembly operation when rotating to the position corresponding to each device.

The bead blanking device 203 comprises a bead box 2031, a lifting seat 2032, a lifting seat lifting drive device 2033, a bead limit conveying device 2034 and two bead conveying pipes 2035, wherein the bead box 2031 and the lifting seat lifting drive device 2033 are respectively installed on the frame 1, the lifting seat 2032 is in transmission connection with the power output end of the lifting seat lifting drive device 2033, and the bead box 2031 is positioned above the bead limit conveying device 2034; the bead limiting and conveying device 2034 comprises a fixing plate 20341, a lower bead plate 20342 and a lower bead plate forward and backward translation driving device 20343, the fixing plate 20341 is mounted on the lifting seat 2032, the fixing plate 20341 is provided with a forward and backward moving limiting groove (not visible in the figure), the fixing plate 20341 is provided with two bead inlet holes (not visible in the figure) and two bead inlet holes (not visible in the figure), the bead inlet holes extend from the upper surface of the fixing plate 20341 to the limiting groove, and the bead inlet holes extend from the limiting groove to the lower surface of the fixing plate 20341; the lower bead plate front-rear translation driving device 20343 is mounted on the fixing plate 20341, the lower bead plate 20342 is arranged in the limiting groove in a front-rear movable manner and is in transmission connection with the power output end of the lower bead plate front-rear translation driving device 20343, the lower bead plate 20342 is provided with two vertically through lower bead holes (not visible in the figure), the bead inlet holes, the lower bead holes and the bead delivery pipes 2035 are identical in number and are in one-to-one correspondence, the bead inlet holes and the bead inlet holes are arranged in a front-rear staggered manner, the lower end openings of the bead inlet holes and the upper surface of the lower bead plate 20342 are in the same plane, the feeding port at the upper end of the bead delivery pipe 2035 is communicated with the bead box 2031, and the lower end of the bead delivery pipe 2035 is fixed on the fixing plate 20341 and is communicated with the corresponding bead inlet holes. The bead box 2031 delivers the beads to the corresponding bead inlet hole through the bead delivery tube 2035, and the lower bead holes on the lower bead plate 20342 are aligned with the bead inlet holes, so that the beads can fall into the lower bead holes; when the first rotary feeding device 201 drives the body to be conveyed to a position corresponding to the bead discharging device 203, the lifting seat lifting driving device 2033 drives the lifting seat 2032 to descend to drive the fixing plate 20341 to descend to be contacted with the body, and at this time, the bead inlet hole on the fixing plate 20341 corresponds to the opening position on the body; then, the lower bead plate front-rear translation driving device 20343 drives the lower bead plate 20342 to translate backwards, so that the lower bead holes on the lower bead plate 20342 are aligned with the bead inlet holes, the beads in the lower bead holes can fall into the body through the bead inlet holes, then the lifting seat lifting driving device 2033 drives the lifting seat 2032 to ascend, so as to drive the bead limiting and conveying device 2034 to ascend, the lower bead plate front-rear translation driving device 20343 drives the lower bead plate 20342 to translate forwards, so that the lower bead holes on the lower bead plate 20342 are aligned with the bead inlet holes again, and the beads can be conveyed into the lower bead holes continuously. The lower end opening of the bead inlet hole is in the same plane with the upper surface of the lower bead plate 20342, when the lower bead plate front-back translation driving device 20343 drives the lower bead plate 20342 to translate backwards, the lower end opening of the bead inlet hole is blocked by the upper surface of the corresponding lower bead plate 20342, and the beads cannot be conveyed continuously (i.e., when the lower end opening of the bead inlet hole is aligned with the corresponding lower bead hole, the lower bead hole is not aligned with the bead inlet hole, and when the lower bead hole is aligned with the bead inlet hole, the lower end opening of the bead inlet hole is blocked by the upper surface of the corresponding lower bead plate 20342). The front and back directions of the bead feeding device 203 are determined according to the center position of the first rotary feeding device 201, the center position far away from the first rotary feeding device 201 is front, and the center position near the first rotary feeding device 201 is back.

The bead pressing device 204 comprises a first pressing plate 2041, a first pressing plate lifting driving device 2042, two pressing rods 2043 and two first compression springs 2044, the first pressing plate lifting driving device 2042 is installed on the frame 1, the first pressing plate 2041 is in transmission connection with the power output end of the first pressing plate lifting driving device 2042, a convex block 101 is arranged on the frame 1, the convex block 101 is positioned below the first pressing plate 2041, two first guide holes in the vertical direction are arranged on the convex block 101, the first guide holes, the pressing rods 2043 and the first compression springs 2044 are in one-to-one correspondence, the pressing rods 2043 are arranged in the first guide holes in a penetrating manner and face downwards, the upper end of the pressure rod 2043 is connected to the lower surface of the first pressure plate 2041, the lower end of the pressure rod 2043 is provided with a glass bead thimble 20431, the first compression spring 2044 is sleeved on the pressure rod 2043, the upper end of the first compression spring 2044 is in close contact or connection with the lower surface of the first pressing plate 2041, and the lower end of the first compression spring 2044 is in close contact or connection with the upper surface of the bump 101. When the first rotary feeding device 201 drives the body on which the beads are placed to be conveyed below the bead pressing device 204, the first pressing plate lifting driving device 2042 drives the pressing rod 2043 to press down through the first pressing plate 2041, so that the bead ejector pin 20431 at the lower end of the pressing rod 2043 extends into the body, and the beads are pressed into the buckling position in the body.

Body brushing device 205 includes oil supply bucket 2051, defeated oil pipe way 2052, second clamp plate 2053, second clamp plate lift drive 2054 and two brushes 2055, oil supply bucket 2051 and second clamp plate lift drive 2054 install respectively in frame 1, the oil circuit output of oil supply bucket 2051 passes through defeated oil pipe way 2052 and connects brush 2055, second clamp plate 2053 is connected with second clamp plate lift drive 2054's power take off transmission, brush 2055 is installed on the lower surface of second clamp plate 2053, and brush 2055 is towards the below. When the first rotary feeding device 201 drives the body to be conveyed below the body brushing device 205, the second pressing plate lifting driving device 2054 drives the oil brush 2055 to descend through the second pressing plate 2053, so that the oil brush 2055 extends into the body to brush oil on the inner wall of the body. Generally, the squeegee 2055 may be a cotton swab.

The jacking device 403 comprises a cylindrical cam 4031, a jacking rod turntable 4032 and a plurality of jacking rods 4033, wherein the cylindrical cam 4031 is fixedly mounted on the rack 1, the jacking rod turntable 4032 is positioned above the cylindrical cam 4031, each jacking rod 4033 is mounted on the jacking rod turntable 4032 and can move up and down relative to the jacking rod turntable 4032, each jacking rod 4033 is distributed along the circumferential direction of the jacking rod turntable 4032, and the lower end of each jacking rod 4033 is provided with a roller 40331 matched with the curve profile of the upper end face of the cylindrical cam 4031; the second rotary feeding device 401 comprises a body conveying top disc 4011, a second body conveying turntable 4012, a seven-piece turntable 4013, a disc-shaped groove cam 4014, a second body guard 4015, a seven-piece guard 4016, a second rotary driving device 4017 capable of driving the second body conveying turntable 4012, the seven-piece turntable 4013 and the push rod turntable 4032 to synchronously rotate, and a plurality of seven-piece sliders 4018, wherein the body conveying top disc 4011, the second body conveying turntable 4012, the seven-piece turntable 4013 and the push rod turntable 4032 are sequentially arranged from top to bottom, a plurality of second body bayonets 40121 are arranged on the outer edge of the second body conveying turntable 4012 along the circumferential direction, a plurality of seven-piece bayonets 40131 are arranged on the outer edge of the seven-piece turntable 4013 along the circumferential direction, the second body bayonets 40121, the number of the second body bayonets 40121, the seven-piece bayonets 40131 and the push rods 4033 are the same and correspond one-to-one, the discharge end of the body conveying channel 3 corresponds to the position of the seven-piece bayonets 40131, the second body guard 4015 is disposed along the circumferential direction of the second body conveying turntable 4012 and extends from the body conveying channel 3 to the main body discharge channel 404; the seven protective plates 4016 are arranged along the circumference of the seven rotating disks 4013 and extend from the seven material feeding channels 402 to the main body material discharging channel 404; a disc-shaped groove cam 4014 is fixedly installed on the machine frame 1, a curved groove 40141 is arranged on the upper surface of the disc-shaped groove cam 4014, a plurality of guide grooves (not visible in the figure) distributed along the circumferential direction of the lower surface of the seven-piece turntable 4013 are arranged on the lower surface of the seven-piece turntable 4013, the directions of the guide grooves are consistent with the radial direction of the seven-piece turntable 4013, the guide grooves and the seven-piece sliding blocks 4018 are in the same number and are in one-to-one correspondence, guide blocks 40181 matched with the guide grooves are arranged on the upper surface of the seven-piece sliding blocks 4018, the seven-piece sliding blocks 4018 are arranged in the corresponding guide grooves through the guide blocks 40181 and can move radially along the guide grooves, a cam bearing 40182 is arranged at the rear end of the seven-piece sliding blocks 4018, and the cam bearing 40182 is positioned in the curved groove 40141; the seven sets of sliding blocks 4018 correspond to the seven sets of bayonets 40131 in the same number one by one, a main body push-out bayonet 40183 is arranged at the front end of the seven sets of sliding blocks 4018, and the feeding end of the main body discharging channel 404 corresponds to the position of the main body push-out bayonet 40183. The body and the seven sets of glass beads which are installed are respectively conveyed to a second rotary feeding device 401 through a body conveying material channel 3 and a seven-set feeding material channel 402, the second body conveying turntable 4012 can effectively position the body through a second body bayonet 40121, and the seven-set turntable 4013 can effectively position the seven sets through a seven-set bayonet 40131; the body transport top disk 4011, the second body transport turntable 4012, the seven-piece turntable 4013, and the push rod turntable 4032 are synchronously rotated by the driving of the second rotation driving device 4017, while the disk-shaped groove cam 4014 is stationary; with the rotation of the push rod turntable 4032, the push rod 4033 gradually rises along the curve profile of the upper end surface of the cylindrical cam 4031 and pushes up seven sets of push rods, and the seven sets gradually approach the body under the action of the push rod 4033; when the push rod 4033 reaches the position of the highest point of the curve profile of the cylindrical cam 4031, the seven pieces of the sleeve and the body are tightly combined under the common pressure action of the push rod 4033 and the body conveying top disc 4011, and the assembly of the foam pump main body is completed; with the continuous rotation of the seven-piece turntable 4013, when the foam pump body moves to the feeding end of the main body discharge channel 404, the seven-piece sliding block 4018 can move forward along the seven-piece turntable 4013 to push out the foam pump body into the main body discharge channel 404 for discharge, and at this time, the push rod 4033 moves from the high point to the low point of the curved profile of the cylindrical cam 4031. As the radius of the curved groove 40141 is constantly changed, the cam bearing 40182 moves along the curved groove 40141 of the disc-shaped groove cam 4014, so that the corresponding seven-piece slide block 4018 moves radially along the seven-piece rotary table 4013, and the radius of each position of the curved groove 40141 is designed according to the radial position of the seven-piece slide block 4018 at the corresponding position, for example: when the push rod 4033 rises to enable the seven-piece set to be close to and pressed on the body, the seven-piece set sliding block 4018 gradually moves backwards, the pressing of the seven-piece set and the body is not hindered, and the radius of the curve groove 40141 is gradually reduced; when the foam pump body is moved to the position of the body outlet channel 404 after the foam pump body is assembled, the seven-piece slide 4018 is moved outward to eject the foam pump body, where the radius of the curved groove 40141 gradually increases. The front and rear directions of the second rotary feeding device 401 are determined according to the axis of the second body transport turntable 4012, the position far away from the axis of the second body transport turntable 4012 is front, and the position near the axis of the second body transport turntable 4012 is rear. The second rotation driving device 4017 employs a motor.

The second body guard 4015 prevents the body from falling out of the second body bayonet 40121, and the seven-piece guard 4016 prevents the seven-piece set from falling out of the seven-piece bayonet 40131.

The lifting seat lifting drive device 2033, the first pressing plate lifting drive device 2042 and the second pressing plate lifting drive device 2054 can all adopt cylinders.

Claims (8)

1. The utility model provides a foam pump main part equipment production line, includes frame, body glass bead kludge, body material conveyor way and pressfitting kludge, and body glass bead kludge and pressfitting kludge install respectively in the frame, and the body material conveyor way is connected between body glass bead kludge and pressfitting kludge, its characterized in that: the body glass bead assembling machine comprises a first rotary feeding device, a body feeding channel, a glass bead blanking device, a glass bead pressing device and a body oil brushing device; the first rotary feeding device is arranged on the rack, and the feeding ends of the body feeding channel, the glass bead blanking device, the glass bead pressing device, the body oil brushing device and the body conveying channel are sequentially arranged at the peripheral edge of the first rotary feeding device along the conveying direction of the first rotary feeding device; the press-fit assembling machine comprises a second rotary feeding device, seven sleeve feeding channels, a jacking device and a main body discharging channel, wherein the second rotary feeding device is mounted on the frame, the feeding ends of the seven sleeve feeding channels, the discharging ends of the body conveying channels and the feeding ends of the main body discharging channels are sequentially arranged at the peripheral edge of the second rotary feeding device along the conveying direction of the second rotary feeding device, and the jacking device corresponds to the peripheral edge of the second rotary feeding device in position and can coaxially rotate with the second rotary feeding device.

2. A foam pump body assembly line as recited in claim 1, wherein: the first rotary feeding device comprises a first body conveying turntable, a first body protection plate and a first rotary driving device capable of driving the first body conveying turntable, the first rotary driving device is mounted on the rack, and the first body conveying turntable is in transmission connection with a power output end of the first rotary driving device; the outer edge of the first body conveying rotary disc is provided with a plurality of first body bayonets which are uniformly distributed, and the feeding ends of the body feeding channel, the glass bead feeding device, the glass bead pressing device, the body oil brushing device and the body conveying channel respectively correspond to the first body bayonets; first body backplate carries the circumference setting of carousel and certainly along first body the body pan feeding says and extends to the body and carries the material way.

3. A foam pump body assembly line as claimed in claim 2, wherein: the first rotary driving device comprises a motor and a divider, the motor and the divider are respectively installed on the rack, an input shaft of the divider is in transmission connection with a power output end of the motor, and the first body conveying turntable is fixedly installed on an output shaft of the divider.

4. A foam pump body assembly line as recited in claim 1, wherein: the glass bead discharging device comprises a glass bead box, a lifting seat lifting driving device, a glass bead limiting conveying device and at least one glass bead conveying pipe, wherein the glass bead box and the lifting seat lifting driving device are respectively installed on the rack; the glass bead limiting and conveying device comprises a fixing plate, a lower bead plate and a lower bead plate forward and backward translation driving device, the fixing plate is installed on a lifting seat, a forward and backward moving limiting groove is formed in the fixing plate, at least one bead inlet hole and at least one bead inlet hole are formed in the fixing plate, the bead inlet hole extends into the limiting groove from the upper surface of the fixing plate, and the bead inlet hole extends to the lower surface of the fixing plate from the limiting groove; the lower bead plate front-back translation driving device is installed on the fixed plate, the lower bead plate front-back translation driving device is arranged in the limiting groove and is in transmission connection with a power output end of the lower bead plate front-back translation driving device, at least one lower bead hole which is through up and down is formed in the lower bead plate, the bead inlet holes, the bead outlet holes and the bead conveying pipes are identical in quantity and correspond to one another one by one, the bead inlet holes and the bead inlet holes are arranged in a staggered mode front and back, the lower end opening of the bead inlet holes and the upper surface of the lower bead plate are located on the same plane, a feeding port in the upper end of the bead conveying pipe is communicated with the bead box, and the lower end of the bead conveying pipe is fixed on the fixed plate and is communicated with the corresponding bead inlet holes.

5. A foam pump body assembly line as recited in claim 1, wherein: the glass bead pressing device comprises a first pressing plate, a first pressing plate lifting driving device, at least one pressing rod and at least one first compression spring, the first pressing plate lifting driving device is installed on the machine frame, the first pressing plate is in transmission connection with a power output end of the first pressing plate lifting driving device, a protruding block is arranged on the machine frame and is positioned below the first pressing plate, at least one first guide hole which runs up and down is arranged on the protruding block, the first guide hole, the pressing rod and the first compression spring are in one-to-one correspondence, the pressing rod penetrates through the first guide hole and faces downwards, the upper end of the pressure lever is connected with the lower surface of the first pressure plate, the lower end of the pressure lever is provided with a glass bead thimble, a first compression spring is sleeved on the pressure lever, and the upper end of the first compression spring is in close contact or connection with the lower surface of the first pressure plate, and the lower end of the first compression spring is in close contact or connection with the upper surface of the bump.

6. A foam pump body assembly line as recited in claim 1, wherein: the body oil brushing device comprises an oil supply barrel, an oil conveying pipeline, a second pressing plate lifting driving device and at least one oil brush, wherein the oil supply barrel and the second pressing plate lifting driving device are respectively installed on the frame, the oil circuit output end of the oil supply barrel is connected with the oil brush through the oil conveying pipeline, the second pressing plate is connected with the power output end of the second pressing plate lifting driving device in a transmission mode, the oil brush is installed on the lower surface of the second pressing plate, and the oil brush faces downwards.

7. A foam pump body assembly line as recited in claim 1, wherein: the jacking device comprises a cylindrical cam, a mandril turntable and a plurality of mandrils, the cylindrical cam is fixedly arranged on the rack, the mandrils turntable is positioned above the cylindrical cam, each mandrils are arranged on the mandrils turntable and can move up and down relative to the mandrils turntable, each mandrils are distributed along the circumferential direction of the mandrils turntable, and the lower ends of the mandrils are provided with rollers matched with the curve outline of the upper end surface of the cylindrical cam; the second rotary feeding device comprises a body conveying top disc, a second body conveying rotary disc, seven sets of rotary discs, a disc-shaped groove cam, a second rotary driving device and a plurality of seven sets of sliding blocks, wherein the second rotary driving device can drive the body conveying top disc, the second body conveying rotary disc, the seven sets of rotary discs and the ejector rod rotary disc to synchronously rotate; the disk-shaped groove cam is fixedly arranged on the rack, a curve groove is formed in the upper surface of the disk-shaped groove cam, a plurality of guide grooves distributed along the circumferential direction of the seven-piece turnplate are formed in the lower surface of the seven-piece turnplate, the direction of each guide groove is consistent with the radial direction of the seven-piece turnplate, the guide grooves are identical to the seven-piece sliding blocks in number and correspond to the seven-piece sliding blocks one by one, guide blocks matched with the guide grooves are arranged on the upper surface of the seven-piece sliding blocks, the seven-piece sliding blocks are arranged in the corresponding guide grooves through the guide blocks and can move along the guide grooves in the radial direction, and cam bearings are arranged at the rear ends of the seven-piece sliding blocks and are positioned in the curve groove; the seven sets of sliding blocks correspond to the seven sets of bayonets one by one in the same number, a main body push-out bayonet is arranged at the front end of each of the seven sets of sliding blocks, and the feeding end of the main body discharge channel corresponds to the position of the main body push-out bayonet.

8. The foam pump body assembly line of claim 7, wherein: the second rotary feeding device also comprises a second body guard plate and seven sets of guard plates, wherein the second body guard plate is arranged along the circumferential direction of the second body conveying turntable and extends from the body conveying channel to the main body discharging channel; seven sets of backplate set up and extend to main part material way from seven sets of pan feeding material ways along the circumference of seven sets of carousels.

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