CN110900184A - Full-automatic assembling machine for pressing foam pump - Google Patents

Abstract

The invention discloses a full-automatic assembling machine for a pressing foam pump, which comprises a machine base, a first assembling mechanism, a second assembling mechanism and a third assembling mechanism, wherein the first assembling mechanism is connected with the second assembling mechanism through a first conveying channel, and the second assembling mechanism is connected with the third assembling mechanism through a second conveying channel. According to the full-automatic press foam pump assembling machine, the engine pump body, the screw teeth, the press head and the dust cover are automatically fed, and the engine pump body, the screw teeth, the press head and the dust cover are respectively assembled through the first assembling mechanism, the second assembling mechanism and the third assembling mechanism, and are automatically collected, so that full-automatic assembling is realized, all assembling processes are combined, the equipment cost is reduced, manual operation is reduced, the assembling efficiency is improved, and the occupied area is reduced.

Description

Full-automatic assembling machine for pressing foam pump

Technical Field

The invention relates to the technical field of automatic assembling equipment, in particular to a full-automatic assembling machine for a pressing foam pump.

Background

With the improvement of living standards, people also pursue the convenience of daily life, and daily living articles also seek the convenience of use, for example, bottled liquid is generally connected with a pressing foam pump at the outlet of a bottle, the liquid in the bottle can be pressed out only by pressing the pump, the bottled liquid is in a liquid state when used, such as hand sanitizer, liquid detergent, cosmetics and the like, and in the production of the pressing foam pump, all parts of the pressing foam pump are required to be assembled; the existing assembling machine still has some defects when in use, for example, when the existing assembling machine is used for assembling, each assembling process is separated and cannot be continuous, each assembling process needs to be manually operated and then transferred to the next assembling process, and because each assembling process needs to be manually operated, the manual labor intensity is high, and the assembling efficiency is low; because each assembly process is discontinuous, a plurality of assembly devices are needed, the cost is high, and the occupied area of the devices is large, so that the design of a full-automatic assembly device is necessary

Disclosure of Invention

The invention aims to provide a full-automatic press foam pump assembling machine which reduces labor, improves assembling efficiency and occupies a small area.

In order to solve the above technical problems, the present invention can be implemented by adopting the following technical scheme:

a full-automatic assembling machine for a pressing foam pump, which comprises a machine base, a first assembling mechanism, a second assembling mechanism and a third assembling mechanism, the first assembly mechanism is connected with the second assembly mechanism through a first conveying channel, the second assembly mechanism is connected with the third assembly mechanism through a second conveying channel, the first assembly mechanism comprises a first fixed seat, a first base, a first cam track, a first rotating disc and a first thimble disc, the first fixed seat, the first base and the first cam track are respectively arranged on the machine base, the first rotating disc and the first thimble tray are respectively connected with the first base in a rotating way, the first rotating disc is arranged above the first thimble disc, a first positioning groove is arranged at the edge of the first rotating disc, the first thimble tray is provided with a first movable thimble matched with the first positioning groove, and the first thimble tray drives the first movable thimble to move along the first cam track.

Further, second assembly device includes second fixing base, second cam track, second carousel, second thimble board and location carousel, second fixing base, second base and second cam track set up respectively on the frame, second carousel, second thimble board and location carousel rotate with the second base respectively and are connected, second thimble board top is located to the second carousel to locate the location carousel below, second carousel edge is equipped with the second constant head tank, be equipped with the draw-in groove on the location carousel, the draw-in groove cooperatees with the second constant head tank, be equipped with the second activity thimble with second constant head tank matched with on the second thimble board, second thimble board drives the second activity thimble and removes along second cam track.

Further, third equipment constructs including third fixing base, third cam track, third carousel and third thimble board, third fixing base and third base are located on the frame, third carousel and third thimble board rotate with the third base respectively and are connected, just third carousel top is located to the third thimble board, third cam track is located on the third fixing base to locate third thimble board top, third carousel edge is equipped with the third constant head tank, the third thimble board is equipped with the third activity thimble with third constant head tank matched with, the third thimble board drives the third activity thimble and removes along third cam track.

Furthermore, the first movable ejector pin and the second movable ejector pin are respectively provided with an ejector sleeve, and the third movable ejector pin is provided with a pressing plate.

Furthermore, a first feeding channel and a second feeding channel are respectively arranged at the first assembling mechanism, the first feeding channel and the second feeding channel are respectively matched with the first positioning groove, a third feeding channel is arranged at the second assembling mechanism, and the third feeding channel is respectively matched with the second positioning groove and the clamping groove.

Furthermore, a fourth feeding channel and a material receiving channel are further arranged at the third assembling mechanism respectively, and a material shifting rod is arranged between the material receiving channel and the third assembling mechanism.

The invention has the beneficial effects that: the invention relates to a full-automatic press foam pump assembling machine which automatically loads materials through a first loading channel, a second loading channel, a third loading channel and a fourth loading channel when being assembled, assembles an engine pump body and a screw thread through a first assembling mechanism respectively, assembles a press head through a second assembling mechanism, assembles a dust cover through a third assembling mechanism, and finally collects the assembled press foam pump through a material receiving channel, thereby realizing full automation, reducing manual operation and improving assembling efficiency.

Drawings

FIG. 1 is a first structural schematic diagram of a full-automatic assembling machine for a pressing foam pump according to the present invention;

FIG. 2 is a schematic structural diagram of a second embodiment of the fully automatic assembling machine for a pressing foam pump according to the present invention;

FIG. 3 is a third schematic structural view of a full-automatic assembling machine for a pressing foam pump according to the present invention;

FIG. 4 is a fourth schematic structural view of the fully automatic assembling machine for the pressing foam pump according to the present invention;

FIG. 5 is a top view of the fully automatic assembly machine for a push foam pump according to the present invention;

FIG. 6 is a side view of the fully automatic assembly machine for a push foam pump according to the present invention;

FIG. 7 is an enlarged view of the pressing foam pump full-automatic assembling machine of the present invention at the point C in FIG. 3;

FIG. 8 is an enlarged view of the portion B of the fully automatic assembling machine for a push foam pump according to the present invention;

FIG. 9 is an enlarged view of the portion A of FIG. 1 of the fully automatic assembling machine for the push foam pump according to the present invention.

As shown in the attached drawings: 1. a machine base; 2. a first assembly mechanism; 3. a second assembly mechanism; 4. a third assembly mechanism; 5. a first transfer channel; 6. a second transfer channel; 7. a first feeding channel; 8. a second feeding channel; 9. a third feeding channel; 10. a fourth feeding channel; 11. a material receiving channel; 12. a top cylinder; 13. pressing a plate; 14. a material poking rod; 21. a first fixed seat; 22. a first base; 23. a first cam track; 24. a first turntable; 25. a first thimble plate; 26. a first positioning groove; 27. a first movable thimble; 31. a second fixed seat; 32. a second base; 33. a second cam track; 34. a second turntable; 35. A second thimble plate; 36. positioning a turntable; 37. a second positioning groove; 38. a card slot; 39. a second movable thimble; 41. a third fixed seat; 42. a third base; 43. a third cam track; 44. a third turntable; 45. a third thimble plate; 46. a third positioning groove; 47. and a third movable thimble.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the following detailed description of the present invention is provided with reference to the accompanying drawings.

As shown in fig. 1 to 9, a full-automatic assembling machine for a pressing foam pump comprises a machine base 1, a first assembling mechanism 2, a second assembling mechanism 3 and a third assembling mechanism 4, wherein the first assembling mechanism 2 is connected with the second assembling mechanism 3 through a first conveying channel 5, the second assembling mechanism 3 is connected with the third assembling mechanism 4 through a second conveying channel 6, the first assembling mechanism 2 comprises a first fixing seat 21, a first base 22, a first cam track 23, a first rotating disk 24 and a first thimble disk 25, the first fixing seat 21, the first base 22 and the first cam track 23 are respectively arranged on the machine base 1, the first rotating disk 24 and the first thimble disk 25 are respectively connected with the first base 22 in a rotating manner, the first rotating disk 24 is arranged above the first thimble disk 25, a first positioning groove 26 is arranged at the edge of the first rotating disk 24, a first movable thimble 27 matched with the first positioning groove 26 is arranged on the first thimble disk 25, the first thimble plate 25 drives the first movable thimble 27 to move along the first cam track 23.

In the embodiment, when the pressing foam pump is assembled, the engine pump body and the screw threads are assembled through the first assembling mechanism 2, after the assembly is completed, the engine pump body is conveyed to the second assembling mechanism 3 through the first conveying channel 5, the pressing heads are assembled, after the assembly is completed, the engine pump body is conveyed to the third assembling mechanism 4 through the second conveying channel 6, the dust cover is assembled, manual operation is reduced through automatic assembly, and the assembling efficiency is improved; the assembling process of the engine pump body and the screw thread is as follows: firstly, an engine pump body is fed into a first positioning groove 26 of a first rotating disc 24, the first rotating disc 24 rotates clockwise and drives the engine pump body to rotate to a thread feeding position, threads are fed above the engine pump body and are matched with the engine pump body, the first rotating disc 24 continues to rotate, while the first rotating disc 24 rotates, a first thimble disc 25 also rotates clockwise and rotates in coordination with the first rotating disc 24, while the first thimble disc 25 rotates, a first movable thimble 27 on the first thimble disc is driven to move along a first cam track 23, due to the different line heights of the first cam track 23, the first movable thimble 27 moves up and down when moving, and when the first movable thimble 27 moves to the high point of the line of the first cam track 23, the engine pump body is pushed into the threads through the upward movement of the first movable thimble 27, so that the automatic assembly of the engine pump body and the threads is realized, in the process, manual operation is not needed, so that the assembly efficiency is improved; the first assembly mechanism 2, the second assembly mechanism 3 and the third assembly mechanism 4 are connected through the first conveying channel 5 and the second conveying channel 6 respectively, so that the three assembly mechanisms are combined into one device, the cost of the device is reduced, and the occupied area is reduced.

As shown in fig. 1 to 6 and 8, the second assembling mechanism 3 includes a second fixed seat 31, a second base 32, a second cam track 33, a second rotating disk 34, a second thimble disk 35 and a positioning rotating disk 36, the second fixed seat 31, the second base 32 and the second cam track 33 are respectively arranged on the machine base 1, the second turntable 34, the second thimble plate 35 and the positioning turntable 36 are respectively connected with the second base 32 in a rotating way, the second turntable 34 is arranged above the second thimble plate 35, and is arranged below the positioning rotary table 36, the edge of the second rotary table 34 is provided with a second positioning slot 37, a clamping groove 38 is arranged on the positioning rotary disc 36, the clamping groove 38 is matched with the second positioning groove 37, a second movable thimble 39 matched with the second positioning slot 37 is arranged on the second thimble plate 35, the second thimble plate 35 drives the second movable thimble 39 to move along the second cam track 33.

In this embodiment, after the engine pump body and the screw thread are assembled, the assembled engine pump body and the screw thread are conveyed into the second positioning groove 37 of the second rotary table 34 through the first conveying passage 5, the second rotary table 34 rotates counterclockwise, the assembled engine pump body and the screw thread are rotated to the head loading position, the head loading is carried out, the head is conveyed to the upper side of the engine pump body and the screw thread through the clamping groove 38 of the positioning rotary table 36 and is positioned and matched with the engine pump body and the screw thread, the second thimble plate 35 rotates counterclockwise similarly while the second rotary table 34 rotates, the second thimble plate 35 drives the second movable thimble 39 to move along the second cam track 33, similarly, when the second movable thimble 39 moves to a high point due to the difference of the line height of the second cam track 33, the head is assembled with the engine pump body and the screw thread through the upward movement of the second movable thimble 39, similarly, in the assembling process, manual operation is not needed, so that the assembling efficiency is improved.

As shown in fig. 1 to 6 and 9, the third assembling mechanism 4 includes a third fixing seat 41, a third base 42, a third cam track 43, a third rotating disk 44 and a third thimble plate 45, the third fixing seat 41 and the third base 42 are disposed on the base 1, the third rotating disk 44 and the third thimble plate 45 are respectively rotatably connected to the third base 42, the third thimble plate 45 is disposed above the third rotating disk 44, the third cam track 43 is disposed on the third fixing seat 41 and is disposed above the third thimble plate 45, a third positioning slot 46 is disposed on an edge of the third rotating disk 44, the third thimble plate 45 is provided with a third movable thimble 47 matched with the third positioning slot 46, and the third thimble plate 45 drives the third movable thimble 47 to move along the third cam track 43.

In this embodiment, after the assembly of the engine pump body, the screw threads and the button is completed, the assembled engine pump body, the screw threads and the button are conveyed into the third positioning groove 46 of the third rotary table 44 through the second conveying passage 6, the third rotary table 44 rotates counterclockwise to drive the engine pump body, the screw threads and the button to rotate to the loading position of the dust shield, the dust shield is loaded above the engine pump body, the screw threads and the button and is matched with the engine pump body, the third thimble plate 45 rotates to drive the third movable thimble 47 to move along the third cam track 43, because the line height of the third cam track 43 is different, and the third cam track 43 is arranged on the third fixed seat 41, when the third movable thimble 47 moves to a high point, the third movable thimble 47 moves downward to assemble the dust shield with the engine pump body, the screw threads and the button, so as to complete the assembly of the dust shield, and the assembly process does not need manual operation, and the assembling efficiency can be improved.

As shown in fig. 7 to 9, the first movable thimble 27 and the second movable thimble 39 are respectively provided with a top cylinder 12, and the third movable thimble 47 is provided with a pressing plate 13.

In this embodiment, when the engine pump body is loaded into the first positioning groove 26 of the first rotary disk 24, the engine pump body is held by the top cylinder 12 of the first movable ejector pin 27, and is lifted and pressed for assembly, so that the engine pump body is assembled with the screw threads, and similarly, when the engine pump body and the screw threads are transferred into the second positioning groove 37 of the second rotary disk 34 after the assembly is completed, the engine pump body and the screw threads are held by the top cylinder 12 of the second movable ejector pin 39, and are lifted and pressed for assembly, so that the press head is assembled with the engine pump body and the screw threads, and after the assembly is completed, the engine pump body and the screw threads are transferred into the third rotary disk 44 and the third positioning groove 46, and the press plate 13 of the third movable ejector pin 47 is pressed downward, so that the dust cover is assembled with the engine pump body, the screw threads, and the press head, thereby completing the overall assembly of the foam pump, and making.

As shown in fig. 3 or 5, a first feeding channel 7 and a second feeding channel 8 are respectively disposed at the first assembling mechanism 2, the first feeding channel 7 and the second feeding channel 8 are respectively matched with the first positioning groove 26, a third feeding channel 9 is disposed at the second assembling mechanism 3, and the third feeding channel 9 is respectively matched with the second positioning groove 37 and the clamping groove 38.

In this embodiment, the engine pump body is first transferred into the first positioning groove 26 of the first rotary disc 24 through the first feeding channel 7, the first rotary disc 24 is rotated to the second feeding channel 8 to transfer the screw threads into the first positioning groove 26, and the third feeding channel 9 is used for feeding the button and transferring the button into the second positioning groove 37 of the second rotary disc 34; simultaneously, the vibration dish is connected respectively to the one end of first material loading passageway 7, second material loading passageway 8 and third material loading passageway 9, through the vibration dish with the engine pump body, screw tooth and according to the head vibrate respectively to first material loading passageway 7, second material loading passageway 8 and third material loading passageway 9 in to realize automatic material loading, reduce manual operation, thereby improve the packaging efficiency.

As shown in fig. 5, a fourth feeding channel 10 and a material receiving channel 11 are further disposed at the third assembling mechanism 4, and a material pushing rod 14 is disposed between the material receiving channel 11 and the third assembling mechanism 4.

In this embodiment, convey the dust cover to the third constant head tank 46 of third carousel 44 in through fourth material loading passageway 10, set up in one side of third assembly devices 4 simultaneously and receive material passageway 11, and set up between and dial material pole 14, after pressing down the foam pump equipment and accomplishing, third constant head tank 46 changes to receiving material passageway 11 department after, dial material pole 14 and rotate the pressing foam pump that the equipment was accomplished in the third constant head tank 46 and dial out, and collect by receiving material passageway 11, reduce artifical receipts material, thereby improve the packaging efficiency.

The foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. The present invention may be readily implemented by those skilled in the art as illustrated in the accompanying drawings and described above; however, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention; meanwhile, any changes, modifications, and evolutions of the equivalent changes of the above embodiments according to the actual techniques of the present invention are still within the protection scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides a press full-automatic kludge of foam pump, includes frame, first equipment mechanism, second equipment mechanism and third equipment mechanism, first equipment mechanism is connected with second equipment mechanism through first transfer passage, second equipment mechanism passes through second transfer passage and is connected its characterized in that with third equipment mechanism: first assembly devices includes first fixing base, first cam track, first carousel and first thimble board, first fixing base, first base and first cam track set up respectively on the frame, first carousel and first thimble board rotate with first base respectively and are connected, first thimble board top is located to first carousel, first carousel edge is equipped with first constant head tank, be equipped with on the first thimble board with first constant head tank matched with first activity thimble, first thimble board drives first activity thimble and removes along first cam track.

2. The full-automatic assembling machine for the pressing foam pump according to claim 1, characterized in that: the second assembly mechanism comprises a second fixing seat, a second base, a second cam track, a second turntable, a second thimble plate and a positioning turntable, the second fixing seat, the second base and the second cam track are respectively arranged on the base, the second turntable, the second thimble plate and the positioning turntable are respectively connected with the second base in a rotating manner, the second turntable is arranged above the second thimble plate and below the positioning turntable, a second positioning groove is arranged at the edge of the second turntable, a clamping groove is arranged on the positioning turntable and matched with the second positioning groove, a second movable thimble matched with the second positioning groove is arranged on the second thimble plate, and the second thimble plate drives the second movable thimble to move along the second cam track.

3. The full-automatic assembling machine for the pressing foam pump according to claim 2, is characterized in that: third assembly devices includes third fixing base, third cam track, third carousel and third thimble board, third fixing base and third base are located on the frame, third carousel and third thimble board rotate with the third base respectively and are connected, just third carousel top is located to the third thimble board, third cam track is located on the third fixing base to locate third thimble board top, third carousel edge is equipped with the third constant head tank, the third thimble board is equipped with the third activity thimble with third constant head tank matched with, the third thimble board drives the third activity thimble and removes along third cam track.

4. The full-automatic assembling machine for the pressing foam pump according to claim 3, characterized in that: and the first movable ejector pin and the second movable ejector pin are respectively provided with an ejector sleeve, and the third movable ejector pin is provided with a pressing plate.

5. The full-automatic assembling machine for the pressing foam pump according to claim 4, wherein: the first assembly mechanism is provided with a first feeding channel and a second feeding channel, the first feeding channel and the second feeding channel are matched with the first positioning groove respectively, the second assembly mechanism is provided with a third feeding channel, and the third feeding channel is matched with the second positioning groove and the clamping groove respectively.

6. The full-automatic assembling machine for the pressing foam pump according to claim 5, wherein: the third assembly mechanism is also provided with a fourth feeding channel and a material receiving channel respectively, and a material shifting rod is arranged between the material receiving channel and the third assembly mechanism.

Images