CN217750314U - Assembly system of foam pump pressing assembly - Google Patents

Abstract

The utility model discloses an assembly system of a foam pump pressing component, which comprises an assembly device and a friction component; the assembling device comprises an upper moving plate, an upper moving rod wheel, an upper limiting track, a lower moving plate, a lower moving rod wheel and a lower limiting track, wherein the upper limiting track and the upper moving plate define a moving track of the pressing head, the lower limiting track and the lower moving plate define a moving track of the pump body, and the upper moving rod wheel and the lower moving rod wheel are opposite up and down; the friction assembly is arranged below the upper limiting rail and above the lower limiting rail, the friction assembly is provided with a friction arc surface capable of rubbing with the pump body, the lower walking rod wheel comprises a rod wheel body, a spring and a supporting head used for supporting the pump body, the supporting head is located above the rod wheel body, the upper end of the spring is connected with the supporting head, and the lower end of the spring is connected with the rod wheel body. The assembly system of the foam pump pressing assembly adopts the structural design, so that the pump main body provided with the shell can be accurately butted with the pressing head, and the pressing head is clamped with the shell.

Description

Assembly system of foam pump pressing assembly

Technical Field

The utility model relates to a mechanical assembly equipment technical field, in particular to foam pump presses equipment system of subassembly.

Background

The foam pump is commonly used for hand sanitizer, facial cleanser and the like, mainly comprises a pump main body, a shell, a pressing head and a liquid suction pipe, wherein in the assembling process, when the pump main body is assembled, the shell is installed on the pump main body, then the pressing head is installed on the pump main body, and finally the liquid suction pipe is installed on the pump main body.

At present, there are corresponding automatic apparatuses, such as a foam pump body mounting and assembling machine disclosed in chinese patent application No. 201920826831.2, and a full-automatic pressing foam pump assembling machine disclosed in chinese patent application No. 201922213549.X, which can automatically assemble various components of a micro foam pump, thereby improving the working efficiency. When the pressing head is installed on the pump main body with the shell, an upper walking rod wheel in the assembling mechanism exerts a pressing effect on the pressing head, the upper walking rod wheel exerts an upward pushing effect on the pump main body, and the inlet end of the pressing head is in butt joint with the outlet end of the pump main body to complete the assembling process.

To some foam pumps, not only need to install the press head in the pump main part, still must with press head joint in shell, prevent that the relative shell of press head from rotating. However, the housing and the pressing head need to be aligned during assembly, and the entire production efficiency of the foam pump is lowered due to a manual method.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an equipment system of subassembly is pressed to foam pump to solve one or more technical problem that exist among the prior art.

The technical scheme adopted for solving the technical problems is as follows:

the utility model discloses an assembly system of foam pump pressing assembly, including the assembly device, the assembly device includes the last charging tray, goes up walking pole wheel, last spacing track, moves down the charging tray, goes down walking pole wheel and lower spacing track, go up spacing track and last charging tray and prescribe a limit to the removal track of press head, lower spacing track prescribe a limit to the removal track of pump main part with the charging tray that moves down, go up walking pole wheel and lower walking pole wheel and be relative from top to bottom; the assembly system of the foam pump pressing assembly further comprises a friction assembly; the friction assembly is arranged below the upper limiting rail and above the lower limiting rail, the friction assembly is provided with a friction arc surface capable of rubbing with the pump body, the lower walking rod wheel comprises a rod wheel body, a spring and a supporting head for supporting the pump body, the supporting head is located above the rod wheel body, the upper end of the spring is connected with the supporting head, and the lower end of the spring is connected with the rod wheel body.

The utility model discloses following beneficial effect has at least: during the operation of the assembling device, the upper moving tray is used for conveying the pressing head, the upper limiting track is used for preventing the pressing head from falling off from the upper moving tray during the assembling, the lower moving tray is used for conveying the pump main body provided with the shell, the lower limiting track is used for preventing the pump main body from falling off from the lower moving tray during the assembling, the upper moving rod wheel, the upper moving tray, the lower moving rod wheel and the lower moving tray move synchronously, the upper moving rod wheel exerts a downward pressing effect on the pressing head, and the lower moving rod wheel exerts an upward pushing effect on the pump main body to enable the pressing head and the pump main body to be butted; a friction assembly is arranged between the upper limit track and the lower limit track, in the lower walking rod wheel structure, a spring is arranged between a rod wheel main body and a support head, so that the support head can move up and down relative to the rod wheel main body, and when the rod wheel main body rises, the support head pushes the pump main body to a pressing head; when the pump body is contacted with the pressing head, the pump body is also contacted with the friction arc surface of the friction assembly, and the pump body can also do circular motion along with the lower material moving disc, so the pump body rotates around the upper and lower axes under the friction action of the friction arc surface to adjust the angle of the pump body; the assembly system of the foam pump pressing assembly adopts the structural design, and can realize accurate butt joint of the pump main body provided with the shell and the pressing head, so that the pressing head is clamped with the shell.

As a further improvement of the technical scheme, the friction assembly comprises a support, an upper clamping block, a lower clamping block and a friction block, the friction block is clamped between the upper clamping block and the lower clamping block, the friction block is provided with a friction arc surface, the upper clamping block is detachably connected with the lower clamping block, and the lower clamping block is connected with the support. In friction pack's structure, lower clamp splice is established on the support, and the clutch splice presss from both sides between last clamp splice and lower clamp splice, and the clutch splice sets up the friction cambered surface to make the pump main part take place to rotate, and go up clamp splice and lower clamp splice releasable connection, conveniently demolish the clutch splice and change when the clutch splice wearing and tearing are serious, reduce friction pack's the maintenance degree of difficulty.

As a further improvement of the technical scheme, the friction block is an acrylic plate block. The friction block adopts the acrylic plate block, has higher surface hardness and better wear resistance, avoids the friction block from wearing and tearing too fast and needing frequent replacement, and is favorable to extending the service life of friction block.

As a further improvement of the above technical scheme, the support is provided with a pressure spring, one end of the pressure spring is connected with the support, and the other end of the pressure spring is connected with the lower clamping block to drive the lower clamping block to be close to the assembling device. The pressure spring is arranged between the support and the lower clamping block, and the lower clamping block is driven to drive the friction block to move towards the assembling device by utilizing the elastic force of the pressure spring, so that the friction block is tightly connected with the pump main body, the friction effect between the friction block and the pump main body is increased, and the pump main body is enabled to rotate quickly to be aligned to the pressing head.

As a further improvement of the technical scheme, the support is provided with an adjusting rod, one end of the adjusting rod is movably connected with the support, the lower clamping block is connected with the other end of the adjusting rod in a clamped mode, the lower clamping block can move in the length direction of the adjusting rod, and the pressure spring is sleeved on the adjusting rod. The adjusting rod is arranged between the support and the lower clamping block, the lower clamping block is clamped with the adjusting rod, the adjusting rod can move linearly relatively, the pressure spring is sleeved on the adjusting rod, and the position of the adjusting rod relative to the support is adjusted through adjustment to adjust the position of the friction block relative to the pump main body, so that the friction effect of the friction block on the pump main body is adjusted.

As a further improvement of the technical scheme, the adjusting rod is a bolt, the lower clamping block is provided with a first through hole, the support is provided with a second through hole, and the bolt penetrates through the first through hole and the second through hole and is connected with a nut. The adjusting rod is arranged as a bolt, sequentially penetrates through the first through hole of the lower clamping block and the second through hole of the support, is connected with the nut, and is screwed up or loosened to enable the adjusting rod to drive the lower clamping block to move linearly relative to the support, so that the position of the friction block is adjusted, better contact friction between the friction block and the pump main body is guaranteed, and the pump main body is guaranteed to rotate to the right position and is in butt joint with the pressing head.

As a further improvement of the above technical solution, the assembly system of the foam pump pressing assembly further comprises a feeding assembly for conveying the pump main body; the utility model discloses a pump, including the pump body, pay-off subassembly, pay-off track and feeder, pay-off subassembly is located move one side of charging tray down, the pay-off subassembly includes pay-off track and feeder, the orbital lower extreme of pay-off is open structure, so that the lower part of pump body exposes, the feeder is equipped with a plurality ofly along pay-off track interval, the feeder includes motor and adhesive tape, the output shaft of motor with the one end of adhesive tape is connected, in order to order about the adhesive tape is rotatory around the axis that extends from top to bottom, the adhesive tape is located the orbital below of pay-off.

The feeding assembly is arranged to convey the pump main body provided with the shell to the assembling device, in the structure of the feeding assembly, the lower end of the feeding rail is of an open structure, when the pump main body moves along the length direction of the feeding rail, the lower portion of the pump main body is enabled to be exposed, so that an acting force is applied to the lower portion of the pump main body through the rubber strips driven to rotate by the motor, and the pump main body is enabled to move towards the assembling device.

As a further improvement of the above technical solution, two adjacent feeders are arranged on the left side and the right side of the feeding track in a staggered manner. Two adjacent feeders are left and right staggered arrangement, and reasonable in design can avoid the adhesive tape of two adjacent feeders to bump and influence the feeder normal work.

Drawings

The present invention will be further explained with reference to the drawings and examples;

fig. 1 is a perspective view of an assembly system of a foam pump pressing assembly provided in accordance with an embodiment of the present invention;

fig. 2 is a perspective view of an assembly system of a foam pump pressing assembly provided in accordance with an embodiment of the present invention from another perspective;

FIG. 3 is an enlarged schematic view of portion A of FIG. 1;

FIG. 4 is an enlarged schematic view of portion B of FIG. 2;

fig. 5 is a schematic structural diagram of a friction assembly provided in an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a lower walking beam wheel according to an embodiment of the present invention.

The drawings are numbered as follows: 100. a support; 200. a feeding assembly; 210. a support rail; 220. positioning the rail; 300. a feeding mechanism; 400. assembling the device; 410. a lower limit track; 420. an upper limiting track; 430. a lower walking beam wheel; 431. a lever wheel body; 432. a spring; 433. a support head; 440. an upper walking beam wheel; 450. a lower walking plate; 460. an upper walking disc; 470. moving the material tray downwards; 480. moving a material tray upwards; 500. a friction assembly; 510. a support; 511. a chute; 520. a friction block; 531. an upper clamping block; 532. a lower clamping block; 540. adjusting a rod; 550. compressing the spring; 600. a motor; 700. an adhesive tape; 810. a pump body.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the directional descriptions, such as the directions or positional relationships indicated by upper, lower, front, rear, left, right, etc., are based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but not for indicating or implying that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are used, the meaning is one or more, the meaning of a plurality of words is two or more, the meaning of more than, less than, more than, etc. is understood as not including the number, and the meaning of more than, less than, more than, etc. is understood as including the number. If any description of first, second and third is only for the purpose of distinguishing technical features, it is not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 to 6, several embodiments of the assembling system of the foam pump pressing assembly of the present invention will be described.

As shown in fig. 1 to 6, a system for assembling a foam pump pressing assembly according to a first embodiment of the present invention includes an assembling device 400 and a friction assembly 500.

The assembling apparatus 400 is used to assemble the pump main body 810 to which the casing is attached and the pressing head. The assembly apparatus 400 is supported by the stand 100. The conventional assembly apparatus 400 is divided into an upper and a lower two-part structure.

The upper structure of the assembly apparatus 400 includes an upper track plate, an upper material moving plate 480, an upper traveling plate 460, an upper traveling bar wheel 440, and an upper limiting track 420.

The upper walking disc 460 is located below the upper track disc and above the upper material moving disc 480, the upper track disc is fixed, and the upper walking disc 460 is driven by the driving shaft to rotate around a central axis extending up and down. Go up walking dish 460 and be equipped with a plurality of guiding holes, go up walking rod wheel 440 and be equipped with many, many go up walking rod wheel 440 and set up corresponding to a plurality of guiding holes, go up walking rod wheel 440 and wear to establish the guiding hole at last walking dish 460, can follow up walking dish 460 and do circular motion. The upper end of the upper walking rod wheel 440 is movably connected with the uneven continuous track structure of the upper track plate, so that the upper walking rod wheel 440 moves up and down. The upper limit rail 420 is located outside the upper material moving tray 480 and defines a moving rail of the pressing head with the upper material moving tray 480 to prevent the pressing head from falling off the upper material moving tray 480 during assembly. The upper material moving disc 480 can move circularly with the pressing head.

The lower structure of the assembly apparatus 400 includes a lower rail plate, a lower feed plate 470, a lower travel plate 450, a lower travel bar wheel 430, and a lower limit rail 410.

The lower traveling plate 450 is located above the lower rail plate, which is fixed, and below the lower moving plate 470, and the lower traveling plate 450 is driven by the driving shaft to rotate around a central axis extending up and down. Specifically, the upper traveling disc 460 and the lower traveling disc 450 are connected with the same driving shaft, the driving shaft penetrates through the circle center positions of the upper traveling disc 460 and the lower traveling disc 450, the driving shaft is connected with the motor 600 through a gear transmission structure, the motor 600 drives the driving shaft to rotate, and the driving shaft simultaneously drives the upper traveling disc 460 and the lower traveling disc 450 to rotate around the driving shaft. The lower traveling disc 450 is provided with a plurality of guide holes, the lower traveling bar wheels 430 are provided with a plurality of guide holes, the plurality of lower traveling bar wheels 430 are arranged corresponding to the plurality of guide holes, and the lower traveling bar wheels 430 are arranged through the guide holes of the lower traveling disc 450 and can move circularly along with the lower traveling disc 450. The lower end of the lower traveling bar wheel 430 is movably connected with the uneven continuous track structure of the lower track plate, so that the lower traveling bar wheel 430 moves in the up-and-down direction.

The upper walking rod wheel 440 and the lower walking rod wheel 430 are opposite up and down, the upper walking rod wheel 440 can exert a pressing effect on the pressing head, and the lower walking rod wheel 430 can exert an upward pushing effect on the pump main body 810 provided with the shell, so that the pressing head is enabled to be in butt joint with the pump main body 810.

The structure of the lower walking beam wheel 430 is improved over the structure of the existing assembly apparatus 400. The lower traveling bar wheel 430 includes a bar wheel body 431, a spring 432, and a support head 433.

The support head 433 is positioned below the pump body 810 to provide support to the pump body 810. Specifically, the supporting head 433 is provided with a positioning groove with an upward opening, so that the pump body 810 can move into the positioning groove, and the pump body 810 can rotate around an axis extending up and down relative to the supporting head 433.

Support head 433 and be located the top of pole wheel main part 431, spring 432's upper end and support head 433 are connected fixedly, and spring 432's lower extreme and pole wheel main part 431 are connected fixedly, and is concrete, and pole wheel main part 431 is equipped with opening through-hole up, and the lower extreme of supporting head 433 is equipped with the guide arm, and the through-hole is worn to locate by the guide arm, makes to support head 433 and can stably go up and down, and spring 432 overlaps and establishes on the guide arm.

The lower stopper rail 410 is positioned outside the lower tray 470 and defines a moving rail of the pump body 810 to which a housing is mounted with the lower tray 470 to prevent the pump body 810 from falling off the lower tray 470 when assembled. The lower tray 470 can move in a circular motion with the pump body 810 mounted with the housing.

The friction assembly 500 is disposed below the upper limit rail 420, and the friction assembly 500 is disposed above the lower limit rail 410. The friction member 500 is provided with a friction arc surface capable of rubbing against the pump body 810.

Specifically, the friction assembly 500 includes a holder 510, an upper clamping block 531, a lower clamping block 532, and a friction block 520. The friction block 520 is sandwiched between the upper and lower clamping blocks 531 and 532, causing the friction block 520 to be stationary. Preferably, the friction block 520 is an acrylic plate block. The friction block 520 is provided with a friction arc surface, which is located at the outer side of the pump body 810. The upper clamping block 531 and the lower clamping block 532 are detachably connected through bolts, so that the friction block 520 is conveniently detached and replaced when the friction block 520 is seriously abraded, and the maintenance difficulty of the friction assembly 500 is reduced. The lower clamping block 532 is fixedly connected with the support 510 through bolts.

During operation of the assembly system of the foam pump pressing assembly, the rod wheel body 431 is raised along the rail structure of the lower rail plate, and at this time, the support head 433 pushes the pump body 810 upward toward the pressing head. When the upper end of the pump main body 810 contacts the lower end of the pressing head, the pump main body 810 also contacts the friction arc surface of the friction assembly 500, and specifically, the lower end of the pump main body 810 contacts the friction arc surface of the friction assembly 500. Because the pump body 810 also moves circularly along with the downward movement tray 470, the pump body 810 moves relative to the friction block 520, and the pump body 810 is subjected to the friction action of the friction arc surface to rotate around the vertical axis, so that the angle of the pump body 810 relative to the pressing head is adjusted, and meanwhile, as the rod wheel body 431 continues to ascend, and the pump body 810 is abutted against the pressing head, the support head 433 moves downwards relative to the rod wheel body 431; after the pump body 810 rotates a certain angle to align the pump body 810 with the pressing head, the supporting head 433 pushes the pump body 810 upwards under the elastic force of the spring 432, so that the pump body 810 is abutted with the pressing head.

The assembly system of the foam pump pressing assembly adopts the structural design, so that the pump main body 810 provided with the shell can be accurately butted with the pressing head, and the pressing head is clamped with the shell.

In some embodiments, the holder 510 is provided with a compression spring 550, and the compression spring 550 may be provided in plural. One end of the compression spring 550 is fixedly connected to the holder 510, and the other end of the compression spring 550 is fixedly connected to the lower clamping block 532, for example, by welding, so as to drive the lower clamping block 532 to approach the assembling device 400. Furthermore, the support 510 is provided with a sliding groove 511 to limit the lower clamping block 532, so that the lower clamping block 532 moves smoothly. The compression spring 550 is arranged between the support 510 and the lower clamping block 532, and the lower clamping block 532 is driven to drive the friction block 520 to move towards the assembling device 400 by the elastic force of the compression spring 550, so that the friction block 520 is tightly connected with the pump main body 810, the friction effect between the friction block 520 and the pump main body 810 is increased, and the pump main body 810 can rapidly rotate to be aligned with the pressing head.

Further, the holder 510 is provided with an adjustment lever 540.

One end of the adjusting rod 540 may be movably connected to the support 510 through a threaded structure, so that the adjusting rod 540 can rotate relative to the support 510, the lower clamping block 532 is clamped to the other end of the adjusting rod 540, and the lower clamping block 532 can move along the length direction of the adjusting rod 540. The adjusting rod 540 is sleeved with the pressure spring 550.

Specifically, the adjusting rod 540 is a bolt, the lower clamping block 532 is provided with a first through hole, the support 510 is provided with a second through hole, and the first through hole and the second through hole can be round holes, so that the adjusting rod 540 can rotate around the axis of the adjusting rod. The bolt passes through the first through hole and the second through hole and then is connected with a nut through a threaded structure.

By screwing or unscrewing the nut, the adjusting rod 540 is driven to drive the lower clamping block 532 to move linearly relative to the support 510, so that the position of the friction block 520 is adjusted, good contact friction between the friction block 520 and the pump main body 810 is ensured, and the pump main body 810 is ensured to rotate in place and is in butt joint with the pressing head.

In some embodiments, the assembly system of the foam pump pressing assembly further includes a feed assembly 200, the feed assembly 200 for delivering the pump body 810 with the housing mounted thereto. The feeding assembly 200 is disposed at one side of the lower tray 470 and can feed the pump body 810 to the feeding end of the lower tray 470.

The structure of the feeding assembly 200 includes a feeding track and a feeder. The lower end of the feed rail is open so that the lower portion of the pump body 810 is exposed. Specifically, the feeding track includes two supporting rails 210 and two positioning rails 220, in this embodiment, the supporting rails 210 are metal laths, the positioning rails 220 are metal round bars, and the two supporting rails 210 are arranged at intervals in the left-right direction to provide a supporting effect for the casing on the pump main body 810 and expose the lower end of the pump main body 810, and the two positioning rails 220 are arranged at intervals in the left-right direction to provide a limiting effect for the casing on the pump main body 810. The pump body 810 with the casing mounted thereon can be stably moved to the lower tray 470 by the cooperation of the support rail 210 and the positioning rail 220.

A plurality of feeders are provided at intervals along the longitudinal direction of the feed rail, and only two feeders are illustrated in this embodiment. Two adjacent feeders are arranged on the left side and the right side of the feeding track in a staggered mode. One feeder is positioned on the left side of the feeding track, the other feeder is positioned on the right side of the feeding track, and the two feeders are arranged at intervals along the feeding direction of the feeding track. By the design, the rubber strips 700 of two adjacent feeders can be prevented from colliding to influence the normal work of the feeders.

Specifically, the feeder includes a motor 600 and an adhesive tape 700, and an output shaft of the motor 600 extends in the vertical direction. An output shaft of the motor 600 is fixedly connected with one end of the rubber strip 700 so as to drive the rubber strip 700 to rotate around an axis extending up and down. The rubber strip 700 is located below the feeding track.

The motor 600 is started, the output shaft of the motor 600 drives the rubber strip 700 to rotate, and the rubber strip 700 exerts an acting force on the lower end of the pump main body 810 to drive the pump main body 810 to move towards the assembling device 400. Because the adhesive tape 700 has a certain flexibility, the pump main body 810 can be prevented from being damaged too much by the adhesive tape 700, so as to ensure that the appearance of the pump main body 810 is intact.

In addition, the assembling apparatus 400 further includes a feeding mechanism 300, and the feeding mechanism 300 feeds the pressing heads one by one to the feeding end of the upper transfer tray 480. It is understood that the feeding mechanism 300 is a prior art, and the feeding mechanism 300 is not modified by the present invention, and those skilled in the art should understand the specific structure and operation principle of the feeding mechanism 300, and will not be described in detail herein.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited to the details of the embodiments shown, but is capable of various modifications and substitutions without departing from the spirit of the invention.

Claims (8)

1. An assembly system of a foam pump pressing assembly comprises an assembly device, wherein the assembly device comprises an upper moving tray, an upper moving rod wheel, an upper limiting rail, a lower moving tray, a lower moving rod wheel and a lower limiting rail, the upper limiting rail and the upper moving tray limit a moving rail of a pressing head, the lower limiting rail and the lower moving tray limit a moving rail of a pump body, and the upper moving rod wheel and the lower moving rod wheel are opposite up and down; the assembling system of the foam pump pressing assembly is characterized by further comprising a friction assembly; the friction assembly is arranged below the upper limiting track and above the lower limiting track, the friction assembly is provided with a friction arc surface capable of rubbing with the pump body, the lower walking rod wheel comprises a rod wheel body, a spring and a supporting head for supporting the pump body, the supporting head is located above the rod wheel body, the upper end of the spring is connected with the supporting head, and the lower end of the spring is connected with the rod wheel body.

2. The assembly system of claim 1, wherein the friction assembly comprises a support, an upper clamping block, a lower clamping block and a friction block, the friction block is clamped between the upper clamping block and the lower clamping block, the friction block is provided with the friction arc surface, the upper clamping block and the lower clamping block are detachably connected, and the lower clamping block is connected with the support.

3. The assembly system of the foam pump press assembly of claim 2 wherein the friction block is an acrylic plate block.

4. The assembly system of claim 2 or 3, wherein the support is provided with a compression spring, one end of the compression spring is connected with the support, and the other end of the compression spring is connected with the lower clamping block to drive the lower clamping block to approach the assembly device.

5. The assembly system for the foam pump pressing assembly according to claim 4, wherein the support is provided with an adjusting rod, one end of the adjusting rod is movably connected with the support, the lower clamping block is clamped with the other end of the adjusting rod and can move along the length direction of the adjusting rod, and the pressure spring is sleeved on the adjusting rod.

6. The assembly system of claim 5, wherein the adjustment rod is a bolt, the lower clamping block is provided with a first through hole, the support is provided with a second through hole, and the bolt passes through the first through hole and the second through hole and is connected with a nut.

7. The assembly system of the foam pump pressing assembly of claim 1, further comprising a feeding assembly for feeding the pump body; the utility model discloses a pump, including the pump body, pay-off subassembly, pay-off track and feeder, pay-off subassembly is located move one side of charging tray down, the pay-off subassembly includes pay-off track and feeder, the orbital lower extreme of pay-off is open structure, so that the lower part of pump body exposes, the feeder is equipped with a plurality ofly along pay-off track interval, the feeder includes motor and adhesive tape, the output shaft of motor with the one end of adhesive tape is connected, in order to order about the adhesive tape is rotatory around the axis that extends from top to bottom, the adhesive tape is located the orbital below of pay-off.

8. The system of claim 7, wherein two adjacent feeders are staggered to the left and right of the feed track.

Images