A filling device for bottled water

By combining clamping and translation components, the problem of aligning the water bucket mouth with the filling valve is solved, enabling precise positioning and efficient filling of empty water buckets, preventing water leakage, and improving filling quality.

CN224466273UActive Publication Date: 2026-07-07XINXIAN FUSHANYUAN BEVERAGE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINXIAN FUSHANYUAN BEVERAGE CO LTD
Filing Date
2025-06-24
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Vibration during the conveyor chain transport of empty water barrels causes the water barrel opening and filling valve to misalign, affecting the filling quality.

Method used

The system employs a clamping assembly, a translation assembly, and a limiting assembly. An empty water bucket is conveyed to the bottom of the water injection pipe via a belt conveyor. An electric push rod and a motor drive the clamping plates to center the water, and the limiting assembly is inserted between the clamping plates for precise positioning, ensuring that the water bucket and the water injection pipe are aligned.

Benefits of technology

It achieves precise centering of the empty water bucket, avoids slight displacement during the filling process, ensures no water leakage, and improves filling quality and efficiency.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224466273U_ABST
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Abstract

The utility model relates to the field of barreled water filling technology discloses a barreled water filling device, including the fixed frame, the bottom end fixed mounting of water tank is a plurality of water injection pipe, the top of fixed frame is equipped with the clamping assembly, the bottom of fixed frame is equipped with the translation component, the side end of translation component is equipped with a plurality of limiting components, the utility model discloses the setting of clamping assembly first carries out the location fixed to each empty water bucket, and the position of empty water bucket is automatically centered, makes the empty water bucket in the middle part of belt conveyor, finally through the translation component drive limiting component and insert between the side end of clamping assembly, limiting component can carry out the location to each empty water bucket at this moment, and limiting component automatically aims at the bottom end of water injection pipe empty water bucket, avoids the case that empty water bucket appears slight displacement, thereby facilitating empty water bucket to fill water, avoids the water flow to leak out, avoids the influence filling quality.
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Description

Technical Field

[0001] This utility model relates to the field of bottled water filling technology, specifically to a bottled water filling device. Background Technology

[0002] Bottled water filling equipment is a specialized device for automated bottled water filling. It mainly consists of an empty bottle conveying mechanism, a cleaning system, a filling machine, a capping device, and a control system. Empty bottles are fed in via a conveyor belt and first undergo internal and external cleaning and disinfection through spraying or high-pressure rinsing to ensure cleanliness. They then enter the filling machine, where a high-precision liquid level sensor monitors the water level in real time. A solenoid valve controls the water flow to achieve quantitative filling, preventing overflow or underfilling. After filling, the capping device automatically presses or screws a cap onto the bottle opening to ensure a tight seal. The entire process is coordinated by a PLC control system, which can precisely control the filling speed and volume. It is suitable for mass production of standard bottled water such as 18.9L bottles and is widely used in drinking water production enterprises. It features high efficiency, hygiene, and a high degree of automation, effectively improving the efficiency and quality of bottled water production. The position of the empty bottle in the filling area is entirely determined by the conveyor chain; when the conveyor chain stops, the empty bottle stops and is positioned accordingly.

[0003] During the process of conveying empty water barrels, the empty water barrels often slip slightly relative to the conveyor chain due to the vibration of the conveyor chain. Therefore, the bottle mouth of the water barrel that is being filled in the filling area may not be accurately aligned with the filling valve. Once the water barrel mouth and the filling valve are not accurately aligned, it will affect the filling quality. Therefore, a bottled water filling device is needed to solve the above problems. Utility Model Content

[0004] The purpose of this utility model is to provide a bottled water filling device to solve the problem in the prior art where, during the process of conveying empty water barrels, the empty water barrels often slip slightly relative to the conveyor chain due to the vibration of the conveyor chain during operation. As a result, the mouth of the water barrel that is being filled in the filling area may not be accurately aligned with the filling valve, and once the mouth of the water barrel and the filling valve are not accurately aligned, the filling quality will be affected.

[0005] This utility model provides the following technical solution: a bottled water filling device, including a fixed frame, a belt conveyor installed on the inner side of the fixed frame, a plurality of fixed plates fixedly connected to the top of the fixed frame, a water tank fixedly connected between the tops of the plurality of fixed plates, a water supply pipe fixedly connected to the side end of the water tank, a plurality of water injection pipes fixedly installed at the bottom end of the water tank, a clamping component provided at the top of the fixed frame, a translation component provided at the bottom end of the fixed frame, and a plurality of limiting components provided at the side end of the translation component.

[0006] As a preferred embodiment of the above technical solution, the clamping assembly includes two vertical plates, both of which are fixedly connected to the top of the fixing frame. Each vertical plate has an electric push rod installed on its side end, and each electric push rod has a clamping plate fixedly connected to its telescopic end.

[0007] As a preferred embodiment of the above technical solution, each of the clamping plates has a number of slots spaced apart on its side.

[0008] As a preferred embodiment of the above technical solution, the bottom end of the fixing frame is fixedly connected with a plurality of upright plates one and a plurality of upright plates two.

[0009] As a preferred embodiment of the above technical solution, the translation component includes a motor, which is fixedly installed on the side end of the left upright plate one. A bidirectional threaded rod is installed on the output end of the motor. The side end of the bidirectional threaded rod is rotatably disposed on the side end of the right upright plate one. A guide rod is fixedly connected between every two side ends of the upright plates two. Two threaded sleeves are threadedly connected to the outer end of the bidirectional threaded rod.

[0010] As a preferred embodiment of the above technical solution, the side ends of the two threaded sleeves are both sleeved on the outer end of each guide rod, and each limiting component is located at the side end of each threaded sleeve.

[0011] As a preferred embodiment of the above technical solution, the limiting component includes two extension plates, both of which are fixedly connected to the side end of the left threaded sleeve, and a connecting plate is fixedly connected to the top of each of the two extension plates. Several partitions are fixedly connected to the side end of each connecting plate.

[0012] Compared with the prior art, the beneficial effects of this utility model are:

[0013] This invention involves placing several empty water buckets on a belt conveyor. Upon starting the conveyor, each empty bucket is transported to the bottom of a water filling pipe. A clamping component first limits and fixes each empty bucket, automatically centering its position so that it is in the middle of the conveyor. Finally, a translation component and a limiting component work together. The translation component moves the limiting component between the sides of the clamping component, thus limiting each empty bucket and automatically aligning it at the bottom of the water filling pipe. This prevents slight displacement of the buckets, facilitating water filling and preventing leakage, thus ensuring filling quality. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the overall structure of a bottled water filling device.

[0015] Figure 2 A bottom view schematic diagram of a bottled water filling device;

[0016] Figure 3 for Figure 2 A magnified schematic diagram of the structure of part A in the diagram;

[0017] Figure 4 This is a side view of a bottled water filling device.

[0018] In the diagram: 1. Fixed frame; 101. Belt conveyor; 102. Fixed plate; 103. Water tank; 104. Water supply pipe; 105. Water injection pipe; 106. Vertical plate one; 107. Vertical plate two; 2. Clamping assembly; 201. Vertical plate; 202. Electric push rod; 203. Clamping plate; 204. Groove; 3. Translation assembly; 301. Motor; 302. Bidirectional threaded rod; 303. Guide rod; 304. Threaded sleeve; 4. Limiting assembly; 401. Extension plate; 402. Connecting plate; 403. Partition plate. Detailed Implementation

[0019] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.

[0020] like Figures 1-4 As shown, this utility model provides a technical solution: a bottled water filling device, including a fixed frame 1, a belt conveyor 101 installed on the inner side of the fixed frame 1, a plurality of fixed plates 102 fixedly connected to the top of the fixed frame 1, a water tank 103 fixedly connected between the tops of the plurality of fixed plates 102, a water pipe 104 fixedly connected to the side end of the water tank 103, a plurality of water injection pipes 105 fixedly installed at the bottom end of the water tank 103, each water injection pipe 105 being equipped with a solenoid valve, a clamping assembly 2 provided at the top of the fixed frame 1, a plurality of upright plates 106 and a plurality of upright plates 107 fixedly connected to the bottom end of the fixed frame 1, a translation assembly 3 provided at the bottom end of the fixed frame 1, and a plurality of limiting assemblies 4 provided on the side end of the translation assembly 3, thereby controlling the filling of the bottled water by means of a clamping assembly 2. An empty water bucket is placed on a belt conveyor 101. After the belt conveyor 101 is started, each empty water bucket is transported to the bottom of each water injection pipe 105. Then, the clamping component 2 first limits and fixes each empty water bucket, automatically centering the position of the empty water bucket so that it is in the middle of the belt conveyor 101. Finally, through the cooperation of the translation component 3 and the limiting component 4, the translation component 3 drives the limiting component 4 to insert between the side ends of the clamping component 2. At this time, the limiting component 4 can limit each empty water bucket, automatically aligning the empty water bucket with the bottom of the water injection pipe 105, preventing slight displacement of the empty water bucket, thus facilitating water filling and preventing water leakage, which would affect the filling quality.

[0021] As one implementation method in this embodiment, such as Figure 2As shown, the clamping assembly 2 includes two vertical plates 201, both of which are fixedly connected to the top of the fixed frame 1. Each vertical plate 201 has an electric push rod 202 installed on its side end, and each electric push rod 202 has a clamping plate 203 fixedly connected to its telescopic end. Each clamping plate 203 has several slots 204 spaced apart on its side end. In practice, several empty water buckets are placed on the belt conveyor 101. After starting the belt conveyor 101, each empty water bucket is transported to the bottom end of each water injection pipe 105. In order to facilitate the alignment of the water inlet of the empty water bucket with the water injection pipe 105, each electric push rod 202 is started to extend and drive each clamping plate 203 to move toward the side end of the empty water bucket. At this time, the two clamping plates 203 automatically center the position of the empty water bucket, so that the empty water bucket is automatically located in the middle of the belt conveyor 101. This facilitates the more precise alignment of the empty water bucket with the translation assembly 3 and the limiting assembly 4.

[0022] As one implementation method in this embodiment, such as Figure 1 , Figure 2 and Figure 3 As shown, the translation component 3 includes a motor 301, which is fixedly installed on the side end of the left vertical plate 106. A bidirectional threaded rod 302 is installed at the output end of the motor 301. The side end of the bidirectional threaded rod 302 is rotatably disposed on the side end of the right vertical plate 106. A guide rod 303 is fixedly connected between the side ends of every two vertical plates 107. Two threaded sleeves 304 are threadedly connected to the outer end of the bidirectional threaded rod 302. The side ends of the two threaded sleeves 304 are fitted onto the outer end of each guide rod 303. Each limiting component 4 is located at the side end of each threaded sleeve 304. The limiting component 4 includes two extension plates 401, both of which are fixedly connected to the side end of the left threaded sleeve 304. A connecting plate 402 is fixedly connected to the top end of each extension plate 401. Several partition plates 403 are fixedly connected to the side end of each connecting plate 402. In the process, the starting motor 301 drives the bidirectional threaded rod 302 to rotate. Due to the limiting of the threaded sleeve 304 by the guide rod 303, the two threaded sleeves 304 can move horizontally and approach each other at the outer end of the bidirectional threaded rod 302. When the two threaded sleeves 304 approach each other, the limiting component 4 at the side end of each threaded sleeve 304 moves towards the side end of each clamping plate 203. At this time, each partition 403 can be inserted between the two clamping plates 203 through each slot 204. When several partitions 403 limit the empty water bucket between the two clamping plates 203, the slight displacement of the empty water bucket can be avoided. At this time, the limiting of the partition 403 makes the water inlet at the top of each empty water bucket automatically aligned with the bottom end of each water inlet pipe 105, which facilitates the filling of water into the empty water bucket, avoids water leakage, and avoids affecting the filling quality.

[0023] Working principle: Several empty water buckets are placed on the belt conveyor 101. After starting the belt conveyor 101, each empty water bucket is transported to the bottom of each water inlet pipe 105. To facilitate alignment between the water inlet of the empty water bucket and the water inlet pipe 105, each electric push rod 202 extends and drives each clamping plate 203 to move towards the side of the empty water bucket. At this time, the two clamping plates 203 automatically center the position of the empty water bucket, placing it in the middle of the belt conveyor 101. Then, the motor 301 drives the bidirectional threaded rod 302 to rotate. Due to the limiting effect of the guide rod 303 on the threaded sleeve 304, the two threaded sleeves 304 can move horizontally and approach each other at the outer end of the bidirectional threaded rod 302. As the two threaded sleeves 304 approach each other, the limiting component 4 at the side of each threaded sleeve 304 moves towards the side of each clamping plate 203. This allows each partition 403 to pass through each slot 204 and be inserted between two clamping plates 203. When several partitions 403 limit the empty water bucket between the two clamping plates 203, slight displacement of the empty water bucket can be avoided. At this time, the limiting of the partitions 403 allows the water inlet at the top of each empty water bucket to automatically align with the bottom of each water inlet pipe 105, which facilitates the filling of the empty water bucket with water and avoids water leakage, thus avoiding affecting the filling quality. At this time, by opening the solenoid valve on each water inlet pipe 105, the water in the water tank 103 flows through the water inlet pipe 105 into the empty water bucket for filling. The water supply pipe 104 facilitates the replenishment of water to the water tank 103. After the empty water bucket is filled, by activating the electric push rod 202 and the motor 301, the clamping plates 203 and the limiting component 4 are controlled to reset as a whole, which facilitates the continued transportation of the filled water bucket.

[0024] The above embodiments are only used to illustrate the technical solution of this utility model, and are not intended to limit it.

Claims

1. A bottled water filling device, comprising a fixed frame (1), a belt conveyor (101) installed on the inner side of the fixed frame (1), a plurality of fixed plates (102) fixedly connected to the top of the fixed frame (1), a water tank (103) fixedly connected between the tops of the plurality of fixed plates (102), a water supply pipe (104) fixedly connected to the side end of the water tank (103), and a plurality of water injection pipes (105) fixedly installed at the bottom end of the water tank (103), characterized in that: The top of the fixed frame (1) is provided with a clamping component (2), the bottom of the fixed frame (1) is provided with a translation component (3), and the side of the translation component (3) is provided with several limiting components (4). The clamping assembly (2) includes two vertical plates (201), both of which are fixedly connected to the top of the fixing frame (1). Each vertical plate (201) has an electric push rod (202) installed on its side end. Each electric push rod (202) has a clamping plate (203) fixedly connected to its telescopic end. Each clamping plate (203) has several slots (204) spaced apart on its side end. The bottom end of the fixing frame (1) is fixedly connected to several upright plates one (106) and several upright plates two (107). The translation component (3) includes a motor (301), which is fixedly installed on the side end of the left upright plate (106). The output end of the motor (301) is equipped with a bidirectional threaded rod (302). The side end of the bidirectional threaded rod (302) is rotatably set on the side end of the right upright plate (106). A guide rod (303) is fixedly connected between the side ends of each pair of upright plates (107). The outer end of the bidirectional threaded rod (302) is threadedly connected to two threaded sleeves (304).

2. The bottled water filling device according to claim 1, characterized in that: The two threaded sleeves (304) are fitted onto the outer end of each guide rod (303), and each limiting component (4) is located at the side end of each threaded sleeve (304).

3. The bottled water filling device according to claim 2, characterized in that: The limiting component (4) includes two extension plates (401), both extension plates (401) are fixedly connected to the side end of the left screw sleeve (304), and the top end of both extension plates (401) is fixedly connected to a connecting plate (402), and the side end of each connecting plate (402) is fixedly connected to several partitions (403).