CN219836930U - Bottle flushing device - Google Patents

Abstract

The utility model discloses a bottle flushing device, which comprises a CIP liquid cavity, a flushing liquid cavity and at least one flushing assembly arranged between the CIP liquid cavity and the flushing liquid cavity; each group of flushing components comprises a diaphragm valve arranged in the flushing liquid cavity, a flushing bottle clamp connected with the diaphragm valve and a flushing cup connected with the CIP liquid cavity; when the flushing cup is not covered on the nozzle of the bottle flushing clamp, flushing liquid in the flushing liquid cavity flows to the nozzle through the diaphragm valve so as to realize bottle flushing; when the flushing cup is covered on the nozzle, the nozzle is communicated with the CIP liquid cavity, and flushing liquid in the flushing liquid cavity flows into the CIP liquid cavity through the diaphragm valve, the bottle flushing clamp and the flushing cup in sequence to realize cleaning. According to the utility model, the flushing cup connected with the CIP liquid cavity is additionally arranged, so that flushing liquid circularly flows in the bottle flushing device in a CIP cleaning mode, the inside of the bottle flushing device is flushed, and the sanitary condition of the inside of the bottle flushing device is effectively improved.

Description

Bottle flushing device

Technical Field

The utility model belongs to the technical field of filling machinery, and particularly relates to a bottle flushing device.

Background

The bottles blown from the bottle blowing machine need to be washed by a bottle washing device before filling, so that small scraps, dust and other impurities in the bottles are removed, and the interior of the bottles is ensured to be clean. When the traditional bottle flushing device is used for flushing, the bottle is clamped by the bottle clamp and turned over by 180 degrees until the bottle mouth is downward, flushing liquid is sprayed into the bottle through the bottle flushing clamp for cleaning, and the bottle is turned over by 180 degrees for conveying and filling after flushing and draining are finished.

However, the bottle cleaning device is limited by the prior art, the inside of the bottle cleaning device cannot be cleaned, bacteria and microorganisms can be bred in a distributor, a ring cavity, a pipeline and the like, a large amount of scale can be accumulated in the diaphragm valve and the bottle cleaning clamp, and the sanitation condition of the inside of the bottle cleaning device cannot be guaranteed.

Disclosure of Invention

In view of the above, an object of the present utility model is to provide a bottle flushing device, in which a flushing cup connected to a CIP liquid chamber is added to circulate a flushing liquid in the bottle flushing device in a CIP cleaning manner, thereby flushing the inside of the bottle flushing device and effectively improving the sanitary condition of the inside of the bottle flushing device.

The bottle flushing device comprises a CIP liquid cavity, a flushing liquid cavity and at least one flushing assembly arranged between the CIP liquid cavity and the flushing liquid cavity; each group of flushing components comprises a diaphragm valve arranged in the flushing liquid cavity, a flushing bottle clamp connected with the diaphragm valve and a flushing cup connected with the CIP liquid cavity; when the flushing cup is not covered on the nozzle of the bottle flushing clamp, flushing liquid in the flushing liquid cavity flows to the nozzle through the diaphragm valve so as to realize bottle flushing; when the flushing cup is covered on the nozzle, the nozzle is communicated with the CIP liquid cavity, and flushing liquid in the flushing liquid cavity flows into the CIP liquid cavity through the diaphragm valve, the bottle flushing clamp and the flushing cup in sequence to realize cleaning.

Preferably, the system also comprises a plurality of liquid inlet pipelines, a plurality of liquid return pipelines, a CIP liquid inlet pipe, a CIP liquid outlet pipe and a distributor respectively connected with the CIP liquid inlet pipe and the CIP liquid outlet pipe; one end of each liquid inlet pipeline is connected with the flushing liquid cavity, and the other end of each liquid inlet pipeline is connected with the CIP liquid inlet pipe through a distributor; one end of each liquid return pipeline is connected with the CIP liquid cavity, and the other end of each liquid return pipeline is connected with the CIP liquid outlet pipe through a distributor.

Preferably, the distributor comprises an outer sleeve and an inner mandrel rotatably arranged in the outer sleeve, an annular liquid inlet cavity, an annular liquid outlet cavity, a plurality of liquid inlet channels and a plurality of liquid return channels are formed between the outer sleeve and the inner mandrel, two ends of the annular liquid inlet cavity are respectively connected with the CIP liquid inlet pipe and all liquid inlet channels, and two ends of the annular liquid outlet cavity are respectively connected with the CIP liquid outlet pipe and all liquid return channels; all liquid inlet channels are communicated with all liquid inlet pipelines in one-to-one correspondence, and all liquid return channels are communicated with all liquid return pipelines in one-to-one correspondence.

Preferably, the inner side wall of the outer sleeve is provided with a liquid inlet annular groove and a liquid outlet annular groove, the liquid inlet annular groove and the outer side wall of the inner mandrel are surrounded to form an annular liquid inlet cavity, and the liquid outlet annular groove and the outer side wall of the inner mandrel are surrounded to form a liquid outlet annular groove; all liquid inlet channels and all liquid return channels are C-shaped and are all arranged on the inner core shaft.

Preferably, a rotary support member for supporting the outer sleeve and the inner mandrel to rotate relative to each other is arranged between the outer sleeve and the inner mandrel.

Preferably, each liquid inlet pipeline is provided with a flushing cavity discharge valve.

Preferably, each return line is provided with a CIP chamber drain valve.

Preferably, the diaphragm valve is communicated with the liquid inlet of the bottle flushing clamp through a flushing pipe.

Preferably, the CIP liquid cavity is communicated with the flushing cup through a cleaning pipe.

Preferably, a sealing ring is arranged between the flushing cup and the nozzle.

Compared with the background art, the bottle flushing device provided by the utility model has the advantages that at least one group of flushing components is arranged in the CIP liquid cavity and the flushing liquid cavity, each group of flushing components comprises the diaphragm valve, the bottle flushing clamp and the flushing cup, the bottle flushing clamp is connected with the diaphragm valve, the diaphragm valve is arranged in the flushing liquid cavity, and the flushing cup is connected with the CIP liquid cavity.

When the flushing cup is not covered on the nozzle of the bottle flushing clamp, the bottle flushing clamp is not communicated with the CIP liquid cavity, flushing liquid in the flushing liquid cavity flows to the nozzle of the bottle flushing clamp through the diaphragm valve, and the flushing liquid is sprayed to the bottle through the nozzle, so that the bottle is flushed.

When the flushing cup is covered on the nozzle of the flushing clamp, the flushing clamp is communicated with the CIP liquid cavity through the flushing cup, and flushing liquid in the flushing liquid cavity flows into the CIP liquid cavity through the diaphragm valve, the flushing clamp and the flushing cup in sequence, so that the inside of the flushing device is flushed.

According to the utility model, the flushing cup connected with the CIP liquid cavity is additionally arranged, so that flushing liquid circularly flows in the bottle flushing device in a CIP cleaning mode, the inside of the bottle flushing device is flushed, and the sanitary condition of the inside of the bottle flushing device is effectively improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a cross-sectional view of a bottle-flushing device according to an embodiment of the present utility model.

The reference numerals are as follows:

a CIP liquid cavity 1, a flushing liquid cavity 2, a diaphragm valve 3, a bottle flushing clamp 4, a flushing cup 5, a liquid inlet pipeline 6, a liquid return pipeline 7, a CIP liquid inlet pipe 8, a CIP liquid outlet pipe 9, a distributor 10, a flushing cavity discharge valve 11, a CIP cavity discharge valve 12, a flushing pipe 13 and a cleaning pipe 14;

a nozzle 41;

outer sleeve 101, inner mandrel 102, annular inlet 103, annular outlet 104, inlet 105, return 106 and rotary support 107.

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.

In order that those skilled in the art will better understand the present utility model, the following description will be given in detail with reference to the accompanying drawings and specific embodiments.

First, the CIP (Cleaning In Place, i.e., cleaning in place) liquid chamber is described herein.

The embodiment of the utility model discloses a bottle flushing device, which comprises a CIP liquid cavity 1, a flushing liquid cavity 2 and at least one group of flushing components, wherein all the flushing components are arranged between the CIP liquid cavity 1 and the flushing liquid cavity 2 as shown in figure 1. The CIP liquid cavity 1 and the flushing liquid cavity 2 can be annular cavities, the CIP liquid cavity 1 is used for collecting flushing liquid after the bottle flushing device is cleaned, and the flushing liquid cavity 2 stores flushing liquid for cleaning the interior of the bottle flushing device and the bottle.

Each set of flushing assemblies comprises a membrane valve 3, a bottle clip 4 and a flushing cup 5. The diaphragm valve 3 is provided in the rinse liquid chamber 2, and controls the on/off of the rinse liquid flow path in the rinse liquid chamber 2. When the diaphragm valve 3 is open, flushing liquid can flow to the bottle clip 4, otherwise flushing liquid does not circulate. The construction and operation of the diaphragm valve 3 are described in detail with reference to the prior art and will not be described in detail herein. The bottle-flushing clamp 4 is used for clamping a bottle and has a nozzle 41. The structure and operation of the bottle clip 4 are specifically referred to in the prior art, and will not be described in detail herein.

The bottle flushing clamp 4 is connected with the diaphragm valve 3, so that flushing liquid can flow from the diaphragm valve 3 to the bottle flushing clamp 4. Specifically, the diaphragm valve 3 is communicated with the liquid inlet of the bottle clip 4 through the flushing pipe 13, and the flushing pipe 13 may be a polytetrafluoroethylene hose, but the material of the flushing pipe 13 is not limited thereto.

The rinse cup 5 is connected to the CIP liquid chamber 1 such that rinse liquid can flow from the rinse cup 5 to the CIP liquid chamber 1. Specifically, the rinse cup 5 is communicated with the CIP liquid chamber 1 through the cleaning tube 14, and the cleaning tube 14 may be a polytetrafluoroethylene hose, but is not limited thereto. The arrows in fig. 1 indicate the flow direction of the rinse solution.

When the flushing cup 5 is not covered on the nozzle 41 of the bottle flushing clamp 4, the bottle flushing clamp 4 is not communicated with the CIP liquid cavity 1, flushing liquid in the flushing liquid cavity 2 flows to the nozzle 41 of the bottle flushing clamp 4 through the diaphragm valve 3, and the flushing liquid is sprayed to the bottle through the nozzle 41, so that the bottle flushing is realized.

When the flushing cup 5 covers the nozzle 41 of the bottle flushing clamp 4, the bottle flushing clamp 4 is communicated with the CIP liquid cavity 1 through the flushing cup 5, and flushing liquid in the flushing liquid cavity 2 flows into the CIP liquid cavity 1 through the diaphragm valve 3, the bottle flushing clamp 4 and the flushing cup 5 in sequence, so that the inside of the bottle flushing device is flushed.

In summary, the flushing cup 5 connected with the CIP liquid cavity 1 is additionally arranged, so that flushing liquid circularly flows in the bottle flushing device in a CIP cleaning mode, the inside of the bottle flushing device is flushed, and the sanitary condition of the inside of the bottle flushing device is effectively improved.

The bottle flushing device further comprises a plurality of liquid inlet pipelines 6, a plurality of liquid return pipelines 7, a CIP liquid inlet pipe 8, a CIP liquid outlet pipe 9 and a distributor 10 respectively connected with the CIP liquid inlet pipe 8 and the CIP liquid outlet pipe 9, wherein the distributor 10 is used for distributing flushing liquid flow directions. The CIP liquid inlet pipe 8 and the CIP liquid outlet pipe 9 can be connected with a CIP liquid storage tank, so that the circulating cleaning is realized, and the environmental protection is facilitated. One end of each liquid inlet pipeline 6 is connected with the flushing liquid cavity 2, and the other end is connected with the CIP liquid inlet pipe 8 through the distributor 10, so that the flushing liquid flowing from the CIP liquid inlet pipe 8 uniformly flows into each liquid inlet pipeline 6 after being distributed by the distributor 10, and then flows into the flushing liquid cavity 2 along each liquid inlet pipeline 6. One end of each liquid return pipeline 7 is connected with the CIP liquid cavity 1, and the other end is connected with the CIP liquid outlet pipe 9 through a distributor 10, so that flushing liquid of the CIP liquid cavity 1 flows into the distributor 10 through all the liquid return pipelines 7, and then is converged to the CIP liquid outlet pipe 9 through the distributor 10.

Dispenser 10 includes an outer sleeve 101 and an inner mandrel 102 rotatably disposed within outer sleeve 101, with both outer sleeve 101 and inner mandrel 102 being coaxially disposed. An annular liquid inlet cavity 103, an annular liquid outlet cavity 104, a plurality of liquid inlet channels 105 and a plurality of liquid return channels 106 are formed between the outer sleeve 101 and the inner mandrel 102, and the annular liquid inlet cavity 103 and the annular liquid outlet cavity 104 are mutually independent.

The two ends of the annular liquid inlet cavity 103 are respectively connected with the CIP liquid inlet pipe 8 and all liquid inlet channels 105, and all liquid inlet channels 105 are communicated with all liquid inlet pipelines 6 in a one-to-one correspondence manner. The rinse liquid flowing out of the CIP liquid inlet pipe 8 flows into the annular liquid inlet cavity 103, flows into each liquid inlet channel 105 after being distributed, flows into the connected liquid inlet pipelines 6 along the liquid inlet channels 105, and finally converges to the rinse liquid cavity 2 along each liquid inlet pipeline 6.

The two ends of the annular liquid outlet cavity 104 are respectively connected with the CIP liquid outlet pipe 9 and all liquid return channels 106, and all liquid return channels 106 are communicated with all liquid return pipelines 7 in a one-to-one correspondence. The flushing liquid in the CIP liquid cavity 1 flows into the connected liquid return channels 106 through the liquid return pipelines 7, and flows out through the CIP liquid outlet pipe 9 after being converged in the annular liquid outlet cavity 104.

Specifically, the inner side wall of the outer sleeve 101 is provided with a liquid inlet annular groove and a liquid outlet annular groove, the liquid inlet annular groove and the outer side wall of the inner mandrel 102 are surrounded to form an annular liquid inlet cavity 103, and the liquid outlet annular groove and the outer side wall of the inner mandrel 102 are surrounded to form a liquid outlet annular groove. All the liquid inlet channels 105 and all the liquid return channels 106 are C-shaped and are all arranged on the inner mandrel 102.

A rotary support 107 is provided between outer sleeve 101 and inner mandrel 102, the rotary support 107 may be a bearing in particular for supporting rotation of the inner mandrel 102 relative to outer sleeve 101. Of course, a sealing member is further provided between the outer sleeve 101 and the inner mandrel 102, so as to prevent liquid leakage and avoid series flow between the annular liquid inlet cavity 103 and the annular liquid outlet cavity 104.

Each liquid inlet pipeline 6 is provided with a flushing cavity discharge valve 11, so that the flushing cavity 2 and the liquid inlet pipeline 6 realize low-level liquid storage discharge. Each liquid return pipeline 7 is provided with a CIP cavity discharge valve 12, so that the CIP liquid cavity 1 and the liquid return pipeline 7 realize low-level liquid storage discharge. The structure and operation of both the flushing lumen drain valve 11 and the CIP lumen drain valve 12 are referred to in the prior art and will not be described in detail herein.

A sealing ring is arranged between the flushing cup 5 and the nozzle 41 to prevent liquid leakage between the flushing cup 5 and the nozzle 41. The sealing ring may be an O-type rubber ring, but is not limited thereto.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The bottle flushing device is characterized by comprising a CIP liquid cavity (1), a flushing liquid cavity (2) and at least one flushing assembly arranged between the CIP liquid cavity (1) and the flushing liquid cavity (2); each group of flushing components comprises a diaphragm valve (3) arranged in the flushing liquid cavity (2), a bottle flushing clamp (4) connected with the diaphragm valve (3) and a flushing cup (5) connected with the CIP liquid cavity (1); when the flushing cup (5) is not covered on the nozzle (41) of the bottle flushing clamp (4), flushing liquid in the flushing liquid cavity (2) flows to the nozzle (41) through the diaphragm valve (3) so as to realize bottle flushing; when the flushing cup (5) is covered on the nozzle (41), the nozzle (41) is communicated with the CIP liquid cavity (1), and flushing liquid in the flushing liquid cavity (2) flows into the CIP liquid cavity (1) through the diaphragm valve (3), the bottle flushing clamp (4) and the flushing cup (5) in sequence to realize cleaning.

2. The bottle flushing device according to claim 1, further comprising a plurality of liquid inlet pipelines (6), a plurality of liquid return pipelines (7), a CIP liquid inlet pipe (8), a CIP liquid outlet pipe (9) and a distributor (10) respectively connected with the CIP liquid inlet pipe (8) and the CIP liquid outlet pipe (9); one end of each liquid inlet pipeline (6) is connected with the flushing liquid cavity (2) and the other end is connected with the CIP liquid inlet pipe (8) through the distributor (10); one end of each liquid return pipeline (7) is connected with the CIP liquid cavity (1) and the other end is connected with the CIP liquid outlet pipe (9) through the distributor (10).

3. The bottle flushing device according to claim 2, wherein the distributor (10) comprises an outer sleeve (101) and an inner mandrel (102) rotatably arranged in the outer sleeve (101), an annular liquid inlet cavity (103), an annular liquid outlet cavity (104), a plurality of liquid inlet channels (105) and a plurality of liquid return channels (106) are formed between the outer sleeve (101) and the inner mandrel (102), two ends of the annular liquid inlet cavity (103) are respectively connected with the CIP liquid inlet pipe (8) and all the liquid inlet channels (105), and two ends of the annular liquid outlet cavity (104) are respectively connected with the CIP liquid outlet pipe (9) and all the liquid return channels (106); all the liquid inlet channels (105) are communicated with all the liquid inlet pipelines (6) in a one-to-one correspondence manner, and all the liquid return channels (106) are communicated with all the liquid return pipelines (7) in a one-to-one correspondence manner.

4. A bottle flushing device according to claim 3, wherein the inner side wall of the outer sleeve (101) is provided with a liquid inlet annular groove and a liquid outlet annular groove, the liquid inlet annular groove and the outer side wall of the inner mandrel (102) are surrounded to form the annular liquid inlet cavity (103), and the liquid outlet annular groove and the outer side wall of the inner mandrel (102) are surrounded to form the liquid outlet annular groove; all the liquid inlet channels (105) and all the liquid return channels (106) are C-shaped and are all arranged on the inner mandrel (102).

5. A bottle-flushing device according to claim 3, characterized in that a swivel support (107) is provided between the outer sleeve (101) and the inner spindle (102) for supporting the two in rotation relative to each other.

6. A bottle-flushing device according to any one of claims 2 to 5, characterized in that each of the feed lines (6) is provided with a flushing chamber discharge valve (11).

7. Bottle-flushing device according to any one of claims 2 to 5, characterized in that each of the return lines (7) is provided with a CIP cavity drain valve (12).

8. Bottle flushing device according to any one of claims 1 to 5, characterized in that the membrane valve (3) communicates with the liquid inlet of the bottle flushing clip (4) via a flushing pipe (13).

9. Bottle-flushing device according to any of claims 1 to 5, characterized in that the CIP liquid chamber (1) communicates with the flushing cup (5) via a cleaning tube (14).

10. Bottle-flushing device according to any one of claims 1 to 5, characterized in that a sealing ring is provided between the flushing cup (5) and the nozzle (41).