CN218461411U - Zinc jacket lifting assembly devices - Google Patents

Abstract

The utility model belongs to the technical field of lighter equipment, especially, relate to a zinc sheathing lifting assembly devices. Including setting up the apical axis in straw locator below, apical axis top be equipped with the straw and stretch into the hole, the swivel mount on be equipped with can with the swivel mount synchronous revolution's ejector pin collar, the apical axis vertical wear to establish on the ejector pin collar, the apical axis on be connected with apical axis lifting unit. Compared with the prior art, this zinc sheathing lifting assembly devices's advantage lies in: 1. reasonable in design, the zinc sheathing lifting assembly of being convenient for. 2. The structure is simple, and the assembly can be completed without external power equipment.

Description

Zinc jacket lifting assembly devices

Technical Field

The utility model belongs to the technical field of lighter equipment, especially, relate to a zinc sheathing lifting assembly devices.

Background

At present, the lighter needs to be assembled by adopting various procedures during production and is completed by manual operation. The production area required to be occupied is large, and land resources are wasted; the number of workers is large, the efficiency is not high, the productivity and the yield are not high, and the waste and loss rate of parts is high; the whole factory production line has dispersed structure, a plurality of personnel management difficulties and huge operation cost. There is therefore a need for a device for automated assembly of a lighter that requires assembly by a lifting assembly mechanism when the zinc sheath and straw are assembled. However, there is currently no assembly mechanism suitable for this assembly process.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, a zinc sheathing lifting assembly devices is provided.

In order to achieve the above purpose, the utility model adopts the following technical proposal: this zinc sheathing lifting assembly devices, its characterized in that, including setting up the apical axis in straw locator below, apical axis top be equipped with the straw and stretch into the hole, the swivel mount on be equipped with can with swivel mount synchronous revolution's ejector pin collar, the apical axis vertical wear to establish on the ejector pin collar, the apical axis on be connected with apical axis lifting unit.

In the zinc jacket lifting assembly mechanism, the jacking shaft lifting assembly comprises an annular slide rail arranged below the jacking rod mounting ring, a jacking boss is arranged on the annular slide rail between the zinc jacket feeding mechanism and the finished product discharging mechanism, and a jacking shaft axial resetting assembly is arranged between the jacking rod mounting ring and the jacking shaft.

In foretell zinc sheathing lifting assembly devices, jacking boss and annular slide rail between be equipped with the linking transition structure that can be convenient for the apical axis march.

In the zinc jacket lifting assembly mechanism, the jacking shaft axial resetting component comprises a jacking shaft spring arranged between the jacking rod mounting ring and the jacking shaft.

In the zinc jacket lifting assembly mechanism, a wear-resistant mounting sleeve is further arranged between the ejector rod mounting ring and the ejector shaft.

In the zinc jacket lifting assembly mechanism, the lower end of the jack spring is arranged on the jack spring seat, and the upper end of the jack spring is arranged at the bottom of the wear-resistant mounting sleeve

In the zinc sleeve lifting assembly mechanism, a jacking shaft circumferential limiting structure is arranged between the wear-resistant mounting sleeve and the jacking shaft.

In foretell zinc sheathing lifting assembly devices, apical axis circumference limit structure including set up the axially extended spacing plane on the apical axis outer wall, wear-resisting installation cover inner wall be equipped with spacing plane adapted spacing wall.

In foretell zinc sheathing lifting assembly devices, apical axis upper end be equipped with the apical cover that sets up on the straw stretches into the hole, the apical cover link to each other with the apical axis through apical cover fixing base, be equipped with a mouth on the apical cover, the apical cover on wear to be equipped with the straw perforation, be equipped with zinc sheathing jacking inner ledge in the straw perforation upper end.

In the zinc jacket lifting assembly mechanism, the bottom of the top shaft is provided with a pulley capable of sliding on an annular slide rail.

Compared with the prior art, this zinc sheathing lifting assembly devices's advantage lies in: 1. reasonable in design, the zinc sheathing lifting assembly of being convenient for. 2. The structure is simple, and the assembly can be completed without external power equipment.

Drawings

Fig. 1 is a schematic structural diagram provided by the present invention.

Fig. 2 is a cross-sectional view provided by the present invention.

Fig. 3 is a schematic view of the enlarged partial cross-sectional structure provided by the present invention.

In the figure, the zinc jacket lifting assembly mechanism 600, a straw insertion hole 620, a top shaft 610, a top rod mounting ring 630, a top shaft lifting assembly 640, an annular sliding rail 641, a lifting boss 643, an inclined portion 644, a top shaft spring 651, a wear-resistant mounting sleeve 660, a mounting sleeve mounting hole 661, a top shaft spring seat 652, a top shaft circumferential limiting structure 670, a limiting plane 671, a limiting wall 672, a top sleeve 611, a top sleeve fixing seat 612, a top nozzle 613, a straw through hole 614, a zinc jacket lifting inner step 615, a pulley 642, a rotating frame 120, a rotating cylinder 121, a central column 122, an upper rotating table plate 110, a rotating driving mechanism 130, a straw positioner 200, a driven gear 131, a rotating transmission assembly 140, a transmission gear 141, a transmission shaft 142, a bottom plate 144 and a transmission shaft support 145.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-3, the zinc jacket lifting assembly mechanism 600 includes a top shaft 610 disposed below the straw positioner 200, a straw insertion hole 620 is disposed at the top of the top shaft 610, a top rod installation ring 630 capable of rotating synchronously with the rotating frame 120 is disposed on the rotating frame 120, the top shaft 610 vertically penetrates through the top rod installation ring 630, and a top shaft lifting assembly 640 is connected to the top shaft 610.

More specifically, the top shaft lifting assembly 640 includes an annular slide rail 641 disposed below the top shaft mounting ring 630, a jacking boss 643 is disposed on the annular slide rail 641 between the zinc jacket feeding mechanism 500 and the finished product discharging mechanism 400, an engagement transition structure capable of facilitating the advance of the top shaft 610 is disposed between the jacking boss 643 and the annular slide rail 641, and a top shaft axial resetting assembly 650 is disposed between the top shaft mounting ring 630 and the top shaft 610.

Preferably, the linking transition structure includes inclined portions 644 respectively disposed between two ends of the lifting boss 643 and the annular sliding rail 641.

Apical axis axial reset subassembly 650 is including setting up the apical axis spring 651 between ejector pin collar 630 and apical axis 610, still be equipped with wear-resisting installation cover 660 between ejector pin collar 630 and apical axis 610, wear-resisting installation cover 660 is fixed in the wear-resisting installation cover mounting hole 661 of ejector pin collar 630, apical axis 610 wears to establish on wear-resisting installation cover 660 rather than sliding connection, apical axis spring 651 lower extreme sets up on apical axis spring holder 652, the upper end sets up in wear-resisting installation cover 660 bottom, be equipped with apical axis circumference limit structure 670 between wear-resisting installation cover 660 and the apical axis 610.

Be equipped with wear-resisting mounting sleeve limit structure between wear-resisting mounting sleeve 660 and ejector pin collar 630, wear-resisting mounting sleeve limit structure is including setting up on wear-resisting mounting sleeve 660 and being located the protruding edge of ejector pin collar 630 bottom, and ejector pin collar 630 top is equipped with wear-resisting mounting sleeve briquetting, and ejector pin collar 630 inlays and establishes in the wear-resisting mounting sleeve briquetting draw-in groove at wear-resisting mounting sleeve 660 top.

The top shaft circumferential limiting structure 670 comprises an axially extending limiting plane 671 arranged on the outer wall of the top shaft 610, the inner wall of the wear-resistant mounting sleeve 660 is provided with a limiting wall surface 672 matched with the limiting plane 671, the upper end of the top shaft 610 is provided with a top sleeve 611 arranged on the suction pipe extending hole 620, the top sleeve 611 is connected with the top shaft 610 through a top sleeve fixing seat 612, a top nozzle 613 is arranged on the top sleeve 611, a suction pipe penetrating hole 614 is arranged on the top nozzle 613 in a penetrating mode, a zinc sleeve jacking inner step 615 is arranged at the upper end of the suction pipe penetrating hole 614, and the inner end of the jacking inner step 615 is accommodated to be gradually enlarged from the inner end to the outer end.

Preferably, the bottom of the top shaft 610 is provided with a pulley 642 capable of sliding on the endless slide rail 641.

Specific use scenarios are as follows: the rotating frame 120 comprises a rotating cylinder 121, the rotating cylinder 121 is connected with a central column 122, bearings respectively located at the upper end and the lower end are arranged between the central column 122 and the rotating cylinder 121, the upper end of the rotating cylinder 121 is connected with the upper rotating platen 110, the lower end of the rotating cylinder 121 is connected with a rotary driving mechanism 130, a mandril installation ring 630 fixed with the rotating cylinder 121 is further sleeved on the rotating cylinder 121, a plurality of sucker locators 200 evenly distributed in the circumferential direction are arranged on the upper rotating platen 110, and the sucker locators 200 are arranged in the same number with the mandril 610 and are arranged in a one-to-one correspondence manner.

The rotation driving mechanism 130 includes a driven gear 131 provided at a lower end of the rotating frame 120, the driven gear 131 being connected to the rotation driver through a rotation transmission assembly 140; the rotary transmission assembly 140 comprises a transmission gear 141 connected with the driven gear 131, the transmission gear 141 is arranged on a transmission shaft 142, the transmission shaft 142 is connected with a gear box 143 through a transmission shaft gear and a transmission chain, and the gear box 143 is connected with a rotary driver; the transmission shaft 142 penetrates through the bottom plate 144, the transmission shaft is further arranged between the transmission shaft 142 and the bottom plate 144, bearings are respectively arranged between the transmission shaft and the bottom plate 144 as well as between the transmission shaft and the transmission shaft bracket 145, the transmission shaft gear, the transmission chain, the gear box 143 and the rotary driver are located below the bottom plate 144, and the rotary driver is a driving motor.

The working principle is as follows: the top rod mounting ring 630 rotates synchronously with the rotating frame 120, the pulley 642 at the bottom of the top shaft 610 slides on the annular slide rail 641, when the top shaft 610 passes through the jacking boss 643, the top shaft 610 moves axially upwards, the lower end of the suction pipe enters the suction pipe insertion hole 620 through the suction pipe through hole 614 of the top nozzle 613, and the zinc jacket is jacked upwards through the top nozzle 613, so that the assembly of the zinc jacket 1 and the suction pipe 2 is completed.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the zinc jacket lifting assembly 600, the straw insertion hole 620, the top shaft 610, the top rod mounting ring 630, the top shaft lifting assembly 640, the annular slide rail 641, the lifting boss 643, the inclined portion 644, the top shaft spring 651, the wear-resistant mounting sleeve 660, the mounting sleeve mounting hole 661, the top shaft spring seat 652, the top shaft circumferential limiting structure 670, the limiting plane 671, the limiting wall 672, the top sleeve 611, the top sleeve fixing seat 612, the top nozzle 613, the straw through hole 614, the zinc jacket lifting inner step 615, the pulley 642, the rotating frame 120, the rotating cylinder 121, the central column 122, the upper rotating platen 110, the rotating driving mechanism 130, the straw positioner 200, the driven gear 131, the rotating transmission assembly 140, the transmission gear 141, the transmission shaft 142, the bottom plate 144, the transmission shaft bracket 145, and the like are more used herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any one of the additional limitations of the present invention.

Claims (10)

1. The utility model provides a zinc sheathing lifting assembly devices, its characterized in that, is including setting up apical axis (610) in straw locator (200) below, still includes swivel mount (120), apical axis (610) top be equipped with straw and stretch into hole (620), swivel mount (120) on be equipped with can with swivel mount (120) synchronous revolution's ejector pin collar (630), apical axis (610) vertical wear to establish on ejector pin collar (630), apical axis (610) on be connected with apical axis lifting unit (640).

2. The zinc jacket lifting assembly mechanism according to claim 1, wherein the top shaft lifting assembly (640) comprises an annular slide rail (641) arranged below the top shaft mounting ring (630), a lifting boss (643) is arranged on the annular slide rail (641) between the zinc jacket feeding mechanism (500) and the finished product discharging mechanism (400), and a top shaft axial reset assembly (650) is arranged between the top shaft mounting ring (630) and the top shaft (610).

3. The zinc jacket lifting assembly mechanism of claim 2, wherein a connection transition structure capable of facilitating the advance of the top shaft (610) is arranged between the lifting boss (643) and the annular slide rail (641).

4. The zinc jacket lifting assembly mechanism of claim 2, wherein said top shaft axial return assembly (650) comprises a top shaft spring (651) disposed between the top shaft mounting ring (630) and the top shaft (610).

5. The zinc jacket lifting assembly mechanism of claim 4, wherein a wear-resistant mounting sleeve (660) is further arranged between the ejector rod mounting ring (630) and the ejector shaft (610).

6. The zinc jacket lifting assembly mechanism of claim 5, wherein the top shaft spring (651) is disposed at a lower end on the top shaft spring seat (652) and at an upper end on the bottom of the wear-resistant mounting sleeve (660).

7. The zinc jacket lifting assembly mechanism according to claim 5, wherein a top shaft circumferential limiting structure (670) is arranged between the wear-resistant mounting sleeve (660) and the top shaft (610).

8. The zinc jacket lifting assembly mechanism according to claim 7, wherein the top shaft circumferential limiting structure (670) comprises an axially extending limiting plane (671) arranged on the outer wall of the top shaft (610), and the inner wall of the wear-resistant mounting sleeve (660) is provided with a limiting wall surface (672) corresponding to the limiting plane (671).

9. The zinc jacket lifting assembly mechanism as claimed in any one of claims 1 to 8, wherein a top sleeve (611) arranged on a straw insertion hole (620) is arranged at the upper end of the top shaft (610), the top sleeve (611) is connected with the top shaft (610) through a top sleeve fixing seat (612), a top nozzle (613) is arranged on the top sleeve (611), a straw through hole (614) is arranged on the top nozzle (613), and a zinc jacket lifting inner step (615) is arranged at the upper end of the straw through hole (614).

10. The zinc jacket lifting assembly mechanism according to any one of claims 2 to 8, wherein the bottom of the top shaft (610) is provided with a pulley (642) capable of sliding on the annular slide rail (641).

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