CN219991127U - Multi-station bottle conveying rotary table for hand sanitizer - Google Patents

Abstract

The utility model discloses a multi-station bottle conveying rotary table for hand sanitizers, and belongs to the field of hand sanitizer conveying. A multi-station bottle delivery rotary station for hand sanitizer, comprising: a rotating disc; the top end of the rotating disc is provided with a plurality of slots; the placing cylinders are used for placing the bottle bodies, a plurality of placing cylinders are arranged, and the placing cylinders are respectively arranged in the groove positions; the elastic reset mechanisms are arranged at the bottom end of the rotating disc, are provided with a plurality of elastic reset mechanisms and correspond to the number of the placing cylinders, and each elastic reset mechanism is fixedly connected with each placing cylinder respectively; this scheme has set up elasticity canceling release mechanical system, can snatch the bottle through the manpower, then after accomplishing filling or other operations, only need simple placing, elasticity canceling release mechanical system can drive the bottle automatically and reset to carrying out rotatory conveying on the rotary disk, still fixes the liquid soap bottle through the suction that the air pump produced simultaneously, prevents that the liquid soap bottle from dropping in the conveying process.

Description

Multi-station bottle conveying rotary table for hand sanitizer

Technical Field

The utility model belongs to the field of hand sanitizer conveying and relates to a hand sanitizer multi-station bottle conveying rotary table.

Background

Hand sanitizers are a common cleaning product used in our lives.

When the hand sanitizer is produced, the hand sanitizer is generally filled into the bottle body through an automatic instrument, and the filled bottle body needs to be conveyed through the automatic instrument, so that the hand sanitizer is packaged.

The existing automatic hand sanitizer bottle conveying appliance generally needs complicated electrical control to finish, such as grabbing, positioning and the like of the hand sanitizer bottle, and the automatic appliances need larger cost investment, and because electronic components are unstable compared with a mechanical system, individual electronic components are often problematic in the production and conveying of the hand sanitizer bottle, paralysis of the whole automatic conveying system can be caused, the conveying of the hand sanitizer bottle is greatly influenced, the hand sanitizer bottle is conveyed by manpower, and waste of manpower resources is easily caused, so that the hand sanitizer multi-station bottle conveying rotary table is required, and the hand sanitizer bottle conveying rotary table is simple in structure, convenient to operate and low in stability and failure rate.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a hand sanitizer multi-station bottle conveying rotary table, which can realize simple structure, convenient operation, strong stability and low failure rate.

The utility model relates to a multi-station bottle conveying rotary table for hand sanitizer, which comprises the following components:

a rotating disc; the top end of the rotating disc is provided with a plurality of slots;

the placing cylinders are used for placing the bottle bodies, a plurality of placing cylinders are arranged, and the placing cylinders are respectively arranged in the groove positions;

the elastic reset mechanism is arranged at the bottom end of the rotating disc, is provided with a plurality of elastic reset mechanisms and corresponds to the number of the placing cylinders, each elastic reset mechanism is fixedly connected with each placing cylinder, each elastic reset mechanism comprises a connecting element, each connecting element is connected with the corresponding placing cylinder, the placing cylinders can move out of the corresponding groove through stretching the connecting elements, and the connecting elements can move into the corresponding groove through elasticity.

As a further improvement of the utility model, the groove comprises a placing cavity which is in an inverted cone shape, the side wall of the placing cavity is provided with a through groove, and the through groove is in sliding connection with the connecting element.

As a further improvement of the utility model, the bottom end of the placing cylinder is fixedly provided with a matching base, the outer circular surface of the matching base is matched with the inverted cone shape of the placing cavity, and when the matching base stretches into the placing cavity, the outer end surface of the matching base is attached to the wall surface of the placing cavity.

As a further improvement of the utility model, the elastic reset mechanism comprises a coiling wheel, and the bottom end of the elastic reset mechanism is fixedly provided with a supporting plate;

the connecting element comprises a pull rope, and the pull rope is in sliding connection with the through groove;

the coiling wheel is rotatably connected with the supporting plate, the outer circular surface of the coiling wheel is connected with the stay cord in a winding mode, and the stay cord can be wound and stored when the coiling wheel rotates.

As a further improvement of the utility model, the elastic reset mechanism also comprises a torsion spring, wherein the torsion spring is arranged at the joint of the coiling wheel and the supporting plate, and the torsion spring drives the coiling wheel to rotate and reset to an initial state when the coiling wheel is not stressed.

As a further improvement of the utility model, the bottom end of the rotating disc is fixedly provided with an air pump, and the air pump comprises an air suction end and an air discharge end;

the bottom end of the placing cavity is provided with a pipeline cavity which is positioned at one side of the through groove;

the air suction end of the air pump is fixedly provided with a plurality of connecting air pipes which are respectively communicated with each pipeline cavity.

As a further improvement of the utility model, an upward opening is arranged in the placing cylinder, the opening is used for placing the bottle body, the bottom end of the opening is communicated with an air passage which is communicated up and down, and the air passage is communicated with the pipeline cavity.

As a further improvement of the utility model, the central shaft of the rotating disc is connected with an external driving system to control the rotating disc to rotate around the central shaft thereof.

Compared with the prior art, the utility model has the advantages that: this scheme has set up elasticity canceling release mechanical system, can snatch the bottle through the manpower, then after accomplishing filling or other operations, only need simple placing, elasticity canceling release mechanical system can drive the bottle automatically and reset to carrying out rotatory conveying on the rotary disk, still fixes the liquid soap bottle through the suction that the air pump produced simultaneously, prevents that the liquid soap bottle from dropping in the conveying process, easy operation, with low costs to compare in the great promotion of stability of automatic pipelined conveyor, also can not cause the waste of manpower.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of another overall structure of the present utility model;

FIG. 3 is a schematic diagram of the present utility model in full section;

FIG. 4 is a schematic view of the motion state structure of FIG. 3;

fig. 5 is an enlarged schematic view of the structure of a of fig. 3.

The reference numerals in the figures illustrate:

21. a rotating disc; 22. placing a cylinder; 23. a base is matched; 24. a placement cavity; 25. a conduit cavity; 26. an airway; 300. an elastic reset mechanism; 31. a winding wheel; 32. a pull rope; 33. an air pump; 34. and is connected with an air pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, a multi-station bottle delivery rotary table for cleaning solution, comprising: a rotating disc 21; the top end of the rotating disc 21 is provided with a plurality of slots;

the placing cylinders 22 are used for placing the bottle bodies, a plurality of placing cylinders 22 are arranged, and the placing cylinders 22 are respectively arranged in the groove positions;

the elastic reset mechanism 300, the elastic reset mechanism 300 sets up in the rolling disc 21 bottom, and elastic reset mechanism 300 is equipped with a plurality ofly and is corresponding with the quantity of placing a section of thick bamboo 22, and every elastic reset mechanism 300 is respectively with every and is placed a section of thick bamboo 22 fixed connection, and elastic reset mechanism 300 includes connecting element, and connecting element is connected with placing a section of thick bamboo 22, and placing a section of thick bamboo 22 accessible tensile connecting element and remove outside the trench, connecting element accessible elasticity will place a section of thick bamboo 22 and remove to the trench.

It will be appreciated that the slot is used to receive the placement barrel 22, and that when the placement barrel 22 is forced out of the slot, the connecting element is pulled to follow the placement barrel 22, and when the placement barrel 22 is unstressed, the connecting element pulls the placement barrel 22 back into the slot by the spring force, and that a plurality of spring return mechanisms 300 are provided, so that a plurality of placement barrels 22 can be moved simultaneously.

The groove position comprises a placing cavity 24, the placing cavity 24 is in an inverted cone shape, a through groove is formed in the side wall of the placing cavity 24, and the through groove is in sliding connection with the connecting element.

The bottom end of the placing cylinder 22 is fixedly provided with a matching base 23, the outer circular surface of the matching base 23 is matched with the inverted cone of the placing cavity 24, and when the matching base 23 stretches into the placing cavity 24, the outer end surface of the matching base 23 is attached to the wall surface of the placing cavity 24.

It will be appreciated that the above-mentioned placement cavity 24 is configured as an inverted cone, and the outer circumferential surface of the mating base 23 is also configured as an inverted cone, so that the placement cavity 24 and the mating base 23 are attached to each other, and at the same time, a guiding function is provided, so that the mating base 23 does not need to be placed particularly accurately.

In a preferred embodiment, the shape of the placement cavity 24 and mating base 23 is not limited to an inverted cone, but rather, can be adapted to fit and guide, such as an inverted trapezoid.

The elastic reset mechanism 300 comprises a coiling wheel 31, and a supporting plate is fixedly arranged at the bottom end;

the connecting element comprises a pull rope 32, and the pull rope 32 is in sliding connection with the through groove;

the coiling wheel 31 is rotatably connected with the supporting plate, the outer circular surface of the coiling wheel 31 is in winding connection with the stay cord 32, and the stay cord 32 can be wound and stored when the coiling wheel 31 rotates.

The elastic reset mechanism 300 further comprises a torsion spring, wherein the torsion spring is arranged at the joint of the coiling wheel 31 and the supporting plate, and the torsion spring drives the coiling wheel 31 to rotate and reset to an initial state when not stressed.

It will be appreciated that the elastic return mechanism 300 described above is comprised of a coiled wheel 31, a pull cord 32, a support plate and a torsion spring, wherein the pull cord 32 connects the coiled wheel 31 and the placement barrel 22, so that the placement barrel 22 can be controlled to return to the slot position when in an unstressed state, the slot is used for the moving movement of the pull cord 32, wherein the coiled wheel 31 rotates to retract the pull cord 32, and the torsion spring provides a torsion force to drive the coiled wheel 31 to rotate after being twisted.

In a preferred embodiment, the elastic restoring mechanism 300 may be replaced by a fixed elastic cord, so that the movement of the placement barrel 22 may be controlled only by the elastic cord, for example, the elastic cord is deformed when the placement barrel 22 is pulled so that the placement barrel 22 may be moved, and the placement barrel 22 can be pulled back into the slot by the elastic force of the elastic cord when the placement barrel 22 is in an unstressed state, but the elastic cord has the defect of deformation after long-time use.

An air pump 33 is fixedly arranged at the bottom end of the rotating disc 21, and the air pump 33 comprises an air suction end and an air discharge end;

the bottom end of the placing cavity 24 is provided with a pipeline cavity 25, and the pipeline cavity 25 is positioned at one side of the through groove;

the air suction end of the air pump 33 is fixedly provided with a plurality of connecting air pipes 34, and the connecting air pipes 34 are respectively communicated with the pipeline cavities 25.

The placing cylinder 22 is internally provided with an upward opening, the opening is used for placing a bottle body, the bottom end of the opening is communicated with an air passage 26 which is communicated up and down, and the air passage 26 is communicated with the pipeline cavity 25.

It will be appreciated that the connecting air pipe 34 extends into the placing cavity 24 to be communicated with the placing cavity 24, the suction force generated by the air pump 33 can be transmitted into the pipeline cavity 25 through the connecting air pipe 34, and the suction force can directly act on the placing cylinder 22 due to the mutual communication among the placing cavity 24, the pipeline cavity 25 and the air channel 26, and when the bottle body is placed in the placing cylinder 22, the suction force generated by the air pump 33 can directly adsorb the bottle body on the bottom wall of the opening of the placing cylinder 22, so that the hand sanitizer can be transported or filled conveniently.

The central shaft of the rotating disc 21 is connected with an external driving system to control the rotating disc 21 to rotate around the central shaft thereof.

It will be appreciated that the external drive system described above may be a motor or the like to control the selection of the rotatable disc 21.

Working principle: when the liquid soap needs to be poured into the bottle body, or when the filled liquid soap bottle body needs to be conveyed, the torsion of the torsion spring is manually overcome to take out the placing barrel 22 from the placing cavity 24, the disc winding wheel 31 is pulled to slide in the through groove, the torsion spring is stressed to deform and accumulate the torsion force, the disc winding wheel 31 synchronously rotates, then the bottle body is placed into the opening of the placing barrel 22, after the liquid soap is placed, the bottle body is placed towards the placing cavity 24, the inner wall of the placing cavity 24 and the matched base 23 are guided to slide, the torsion force of the torsion spring can pull the matched base 23 to be attached to the placing cavity 24, so that the placing is completed, meanwhile, the air pump 33 is started to generate suction force, and the suction force sequentially passes through the connecting air pipe 34, the pipeline cavity 25, the placing cavity 24 and the air channel 26 until acting on the opening of the placing barrel 22, so that the bottle body is adsorbed on the bottom wall of the placing barrel 22 to be fixed, and the method is more stable and more manpower-saving cost compared with the traditional method through electric control transportation.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a liquid soap multistation bottle conveys revolving stage which characterized in that includes:

a rotating disc (21); the top end of the rotating disc (21) is provided with a plurality of slots;

the placing cylinders (22) are used for placing the bottle bodies, the placing cylinders (22) are provided with a plurality of placing cylinders (22), and the placing cylinders (22) are respectively arranged in the groove positions;

the elastic reset mechanism (300), elastic reset mechanism (300) sets up in rolling disc (21) bottom, elastic reset mechanism (300) are equipped with a plurality ofly and with place the quantity correspondence of section of thick bamboo (22), every elastic reset mechanism (300) respectively with every place section of thick bamboo (22) fixed connection, elastic reset mechanism (300) include connecting element, connecting element is connected with placing section of thick bamboo (22), place section of thick bamboo (22) accessible tensile connecting element and remove outside the trench, connecting element accessible elasticity will place section of thick bamboo (22) and remove to the trench.

2. The multi-station bottle conveying rotary table for hand sanitizer according to claim 1, wherein the groove comprises a placing cavity (24), the placing cavity (24) is in an inverted cone shape, a through groove is formed in the side wall of the placing cavity (24), and the through groove is connected with the connecting element in a sliding mode.

3. The multi-station bottle conveying rotary table for hand sanitizer according to claim 2, wherein a matching base (23) is fixedly arranged at the bottom end of the placement barrel (22), the outer circular surface of the matching base (23) is matched with the inverted cone of the placement cavity (24), and when the matching base (23) stretches into the placement cavity (24), the outer circular surface of the matching base (23) is attached to the wall surface of the placement cavity (24).

4. A multi-station bottle delivery turret for hand sanitizer according to claim 2, characterized in that the elastic reset mechanism (300) comprises a coiling wheel (31), and a support plate is fixedly arranged at the bottom end;

the connecting element comprises a pull rope (32), and the pull rope (32) is in sliding connection with the through groove;

the coiling wheel (31) is rotatably connected with the supporting plate, the outer circular surface of the coiling wheel (31) is in winding connection with the stay cord (32), and the stay cord (32) can be wound and stored when the coiling wheel (31) rotates.

5. The multi-station bottle body transferring rotary table for hand sanitizer according to claim 4, wherein the elastic reset mechanism (300) further comprises a torsion spring, the torsion spring is arranged at the joint of the coiling wheel (31) and the supporting plate, and the torsion spring drives the coiling wheel (31) to rotate and reset to an initial state when not stressed.

6. The multi-station bottle body conveying rotary table for hand sanitizer according to claim 2, wherein an air pump (33) is fixedly arranged at the bottom end of the rotary plate (21), and the air pump (33) comprises an air suction end and an air discharge end;

a pipeline cavity (25) is formed at the bottom end of the placement cavity (24), and the pipeline cavity (25) is positioned at one side of the through groove;

the air suction end of the air pump (33) is fixedly provided with a plurality of connecting air pipes (34), and the connecting air pipes (34) are respectively communicated with each pipeline cavity (25).

7. The multi-station bottle conveying rotary table for hand sanitizer according to claim 6, wherein an upward opening is formed in the accommodating cylinder (22), the opening is used for accommodating the bottle, an air passage (26) penetrating up and down is formed in the bottom end of the opening in a communicating manner, and the air passage (26) is communicated with the pipeline cavity (25).

8. A multi-station bottle delivery turret for hand sanitizer according to claim 1, wherein the central axis of the rotating plate (21) is connected with an external driving system to control the rotating plate (21) to rotate around its central axis.