CN215391423U - Reverse bottle washing device - Google Patents

Abstract

The utility model discloses a reverse bottle washing device which mainly comprises a conveying mechanism and a bottle clamping mechanism, wherein the bottle clamping mechanism comprises a rotating station, a plurality of guide frames and bottle clamps arranged on the guide frames are uniformly distributed on the rotating station, guide columns are connected below the bottle clamps, the bottle clamps are rotationally connected with the guide frames, spray heads are arranged on the guide frames, the reverse bottle washing device also comprises a reverse loop which is obliquely arranged around the rotating station, the tail ends of the guide columns walk along the path of the reverse loop in the process of driving the rotating station to rotate, the bottle clamps are provided with first springs and power arms, and the rotating station is provided with a convex clamping groove. The bottle clamping and cleaning device provided by the utility model has the advantages that the bottle clamping and cleaning work is completed by adopting the rotary station continuous conveying bottle clamping mechanism, the bottles can be reversely cleaned in the transportation process, the efficiency is high, the equipment cost is low, and the practicability is strong.

Description

Reverse bottle washing device

Technical Field

The utility model belongs to the technical field of filling and cleaning equipment, and particularly relates to a reverse bottle cleaning device.

Background

Bottle cleaning equipment is widely used in food and pharmaceutical industry, bottle cleaning equipment's style is numerous, the cleanliness factor of the purpose that different producers chose in the wash-bottle and the time that consumes, in order to ensure can the sanitization, most bottle cleaning equipment have the upset bottle generally to carry out abluent function, nevertheless all rely on bottle clamping device to overturn one by one or in bank on the production line, this kind of mode has certain spaced nature, efficiency is not high, and need a large amount of cylinders to assist, equipment cost is great.

Disclosure of Invention

In view of the above-mentioned deficiencies of the prior art, the present invention provides an inverted bottle washing device, which can complete the opening, clamping, turning and cleaning of a bottle clamping mechanism by means of a rotating station, and has high efficiency and low cost.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows:

the utility model relates to an inverted bottle washing device which mainly comprises a conveying mechanism and a bottle clamping mechanism, wherein the bottle clamping mechanism comprises a rotating station, a plurality of guide frames and bottle clamps arranged on the guide frames are uniformly distributed on the rotating station, guide columns are connected below the bottle clamps, the bottle clamps are rotationally connected with the guide frames, spray heads are arranged on the guide frames, the inverted ring path is obliquely arranged around the rotating station, the tail ends of the guide columns walk along the path of the inverted ring path in the process of driving the rotating station to rotate, the bottle clamps are provided with first springs and power arms, and the rotating station is provided with a protruding clamping groove.

The tail end of the power arm is provided with a pulley, and the pulley is matched with the clamping groove.

A water flow distributor is arranged above the rotating station and is connected with a spray head through a guide pipe.

The guide frame is horizontally arranged, and the guide frame is connected with the bottle clamp through a rotating shaft.

The tail end of the guide post is a fork-shaped guide block, the guide block is connected with the reversing loop, and a second spring is arranged between the guide block and the guide post.

The reversing loop surrounds the periphery of the rotating station and specifically consists of two arc-shaped rails which are staggered up and down and have the same circle center with the rotating station and arc-shaped bent channels connected to two sides of the arc-shaped rails at the upper end and the lower end.

A water tank is arranged on the rear side of the rotating station.

The bottle clamping and cleaning device adopts the rotary station continuous conveying bottle clamping mechanism to complete the clamping and cleaning work of the bottles, the action of the bottle clamping mechanism depends on the opening of the clamping groove, the inversion and the reset of the bottles are guided by the inversion loop, an air cylinder is not needed, the bottles can be inverted and cleaned in the clamping and conveying process, the production efficiency is effectively improved, and the equipment cost is reduced.

Description of the drawings:

FIG. 1 is a schematic diagram of a structure relating to the present invention;

FIG. 2 is a schematic of the path involved in the inverted loop of the present invention;

FIG. 3 is a schematic view of a bottle clip according to the present invention.

The specific implementation mode is as follows:

the utility model will be further described with reference to the accompanying drawings.

Referring to fig. 1, the inverted bottle washing device mainly comprises a conveying mechanism and a bottle clamping mechanism, wherein the bottle clamping mechanism comprises a rotating station 1, a plurality of guide frames 11 are uniformly distributed on the rotating station 1, bottle clamps 2 arranged on the guide frames 11 are connected with guide columns 21 below the bottle clamps 2, the bottle clamps 2 are rotatably connected with the guide frames 11, spray heads 3 are arranged on the guide frames 11, the inverted ring channel 4 is obliquely arranged around the rotating station 1, the tail ends of the guide columns 21 walk along the path of the inverted ring channel 4 in the process that the rotating station 1 drives the rotating station 1 to rotate, and the bottle clamps 2 can be guided to be inverted upwards for washing and then reset for bottle placing.

The guide frame 11 is connected with the bottle clamp 2 through a rotating shaft, the guide frame 11 is horizontally arranged, namely the rotating station 1 drives the horizontally arranged guide frame 11 to rotate, the bottle clamp 2 connected with the guide frame 11 is guided by the guide post 21, the bottle clamp 2 and the guide frame 11 rotate relatively when passing through the reversing loop 4, so that the clamped bottle can be reversed, the bottle opening is aligned to the spray head 3 on the guide frame 11, and high-pressure water columns sprayed by the spray head 3 are sprayed into the bottle opening to clean the bottle.

As shown in fig. 2, the reverse loop 4 surrounds the periphery of the rotary station 1, and specifically comprises two segments of arc-shaped tracks which are staggered up and down and are concentric with the rotary station 1, and arc-shaped curves connected to both sides of the arc-shaped tracks at the upper and lower ends, when the bottles are conveyed to the right by the input conveying mechanism, the bottle clamp 2 is opened to clamp the bottle mouth, the position is located in front of the rotary station 1, the segment of arc-shaped track is located at the lower side in front of the rotary station 1, during the continuous selection process of the rotary station 1, the bottles can slowly turn over along with the arc-shaped curve on the side surface of the reverse loop 4 which inclines upwards until entering the arc-shaped track behind the rotary station 1, the segment of arc-shaped track is located at the upper side behind the rotary station 1, the bottles are completely reversed to enter the cleaning process, finally slowly turn over downwards from the arc-shaped curve on the other side of the reverse loop 4 which inclines downwards, then the bottle clamp 2 is loosened, and the bottles are taken out by the output conveying mechanism, the bottle gripper 2 continues the next round of gripper bottle cleaning action.

A water flow distributor 6 is arranged above the rotary station 1, the water flow distributor 6 is connected with the spray head 3 through a guide pipe 61, the water flow distributor 6 is provided with a high-pressure water pump, the spray head 3 can spray high-pressure water columns through the guide pipe 61, and the interior of the bottle is rapidly cleaned.

A water tank 7 is arranged at the rear side of the rotating station 1, and water flow can directly fall into the water tank 7 to be collected and discharged in the process of reversely cleaning bottles.

Because the reversing loop 4 is irregular and round, and is similar to an inclined runway, when the bottle clamp 2 driven by the rotating station 1 rotates, if the guide post 21 has no telescopic function, the guide post is easy to be separated from the range of the reversing loop 4, the tail end of the guide post 21 is a fork-shaped guide block 24, the guide block 24 is connected with the reversing loop 4, and a second spring 28 is arranged between the guide block 24 and the guide post 21, through the elastic connection of the second spring 28, the guide block 24 can be stably connected with the reversing loop 4 in a sliding way, and the top-up overturning work of the bottle clamp 2 can be completed.

The bottle clamp 2 is provided with a first spring 22 and a power arm 20, as shown in fig. 3, the rotating station 1 is provided with a protruding clamping opening groove 8, the bottle clamp 2 is in a clamp shape, the bottle clamp 2 is in a normally closed state through the first spring 22, the power arm 20 is an opening end of the bottle clamp 2, when the power arm 20 enters the range of the clamping opening groove 8, the bottle clamp 2 is opened by overcoming the acting force of the first spring 22 under the compression of the clamping opening groove 8, and therefore the range of the clamping opening groove 8 is between a bottle placing position and a bottle clamping position, namely between an input end of the input mechanism and an output end of the output mechanism.

In order to prevent the resistance generated by the bottle clamp 2 in the opening process from influencing the rotation of the rotating station 1, the pulley 201 is assembled at the tail end of the power arm 20, and the pulley 201 is matched with the clamping opening groove 8, so that the power arm 20 is in sliding connection with the clamping opening groove 8, and the bottle clamp 2 can be opened under the unidirectional compression force of the clamping opening groove 8.

Conveying mechanism can adopt conveyer belt or screw rod propelling movement, combines to rotate into the bottle, rotatory bottle mechanism of going out, can bring the bottle into one by one, makes bottle clamp 2 can correspond one by one and press from both sides and get, and conveying mechanism has more applications in prior art, no longer gives details here.

It is to be understood that the technical scope of the present invention is not limited to the content of the specification, and that modifications or changes may be made by those skilled in the art based on the above description, and all such modifications and changes are intended to fall within the scope of the appended claims.

Claims (7)

1. The utility model provides a reverse bottle cleaning device, mainly includes conveying mechanism, presss from both sides a bottle mechanism, its characterized in that: the bottle clamping mechanism comprises a rotating station (1), a plurality of guide frames (11) are uniformly distributed on the rotating station (1), bottle clamps (2) arranged on the guide frames (11), guide columns (21) are connected below the bottle clamps (2), the bottle clamps (2) are rotatably connected with the guide frames (11), spray heads (3) are arranged on the guide frames (11), the bottle clamping mechanism further comprises an inverted loop (4) which is obliquely arranged around the rotating station (1), the tail ends of the guide columns (21) walk along the path of the inverted loop (4) in the process that the rotating station (1) drives rotation, the bottle clamps (2) are provided with first springs (22) and power arms (20), and the rotating station (1) is provided with a convex clamping groove (8).

2. An inverted bottle washing apparatus as set forth in claim 1 wherein: the tail end of the power arm (20) is provided with a pulley (201), and the pulley (201) is matched with the clamping opening groove (8).

3. An inverted bottle washing apparatus as claimed in claim 1 or claim 2, wherein: a water flow distributor (6) is arranged above the rotating station (1), and the water flow distributor (6) is connected with the spray head (3) through a guide pipe (61).

4. An inverted bottle washing apparatus as set forth in claim 3 wherein: the guide frame (11) is horizontally arranged, and the guide frame (11) is connected with the bottle clamp (2) through a rotating shaft.

5. An inverted bottle washing apparatus as set forth in claim 4 wherein: the tail end of the guide post (21) is a forked guide block (24), the guide block (24) is connected with the reversing loop (4), and a second spring (28) is arranged between the guide block (24) and the guide post (21).

6. An inverted bottle washing apparatus as set forth in claim 1 wherein: the reversing loop (4) surrounds the periphery of the rotating station (1), and specifically comprises two arc-shaped rails which are staggered up and down and have the same circle center with the rotating station (1), and arc-shaped bent channels connected to two sides of the arc-shaped rails at the upper end and the lower end.

7. An inverted bottle washing apparatus as claimed in claim 1 or 6, wherein: and a water tank (7) is arranged on the rear side of the rotating station (1).

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