A bottle conveying device
By setting springs and elastic components at both ends of the auger, combined with sensing and driving mechanisms, the problem of bottle squeezing and queuing during auger bottle feeding is solved, realizing continuous bottle feeding and increased production capacity of the auger.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TRUKING TECH LTD
- Filing Date
- 2025-06-18
- Publication Date
- 2026-07-07
AI Technical Summary
In existing technologies, when ampoules are pushed into the auger by the conveyor belt, the bottles are prone to being squeezed out and the bottles are not in a balanced state, resulting in missing bottles in the auger and affecting production efficiency.
The system uses springs and elastic components at both ends of the auger, combined with a sensing mechanism and a drive mechanism. The springs trigger the sensing mechanism, which drives the bottle-pushing block to move back and forth, changing the bottle-squeezing state when the auger feeds the bottle, thus ensuring continuous bottle feeding.
This enabled continuous bottle feeding via the auger, increased the production capacity of the equipment, avoided bottle shortages, and improved production efficiency.
Smart Images

Figure CN224466767U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of pharmaceutical equipment technology, and in particular relates to an infusion bottle device. Background Technology
[0002] In the field of pharmaceutical equipment technology, after being sterilized and dried in a dryer, the ampoules are fed into a conveyor belt bottle inlet device. The conveyor belt transports the bottles to the bottle inlet auger, and then the auger feeds them one by one into the filling station for filling. During bottle feeding, as more and more bottles enter the auger inlet under the push of the conveyor belt, a state of bottle squeezing and equilibrium occurs. The pushing force of the conveyor belt is insufficient to break this equilibrium, and bottles do not enter the auger, resulting in a bottle shortage situation. Utility Model Content
[0003] The technical problem to be solved by this utility model is to overcome the shortcomings of the prior art and provide a bottle conveying device that changes the bottle queuing balance state when the auger feeds the bottle, so that the auger feeds the bottle continuously and improves the production capacity.
[0004] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0005] A bottle conveying device includes a conveying channel and an auger connected to the conveying channel. Springs and elastic components are respectively provided on both sides of the conveying channel. The springs and elastic components are respectively located at both ends of the auger. A sensing mechanism is provided on one side of the spring. The elastic component includes a bottle-pushing block and a second elastic element. A driving mechanism is provided on one side of the elastic component. When the spring continuously triggers the sensing mechanism, the driving mechanism drives the bottle-pushing block to reciprocate and push the bottle, changing the bottle-squeezing balance state during auger bottle feeding, enabling continuous bottle feeding by the auger and increasing production capacity.
[0006] As a further improvement to the above technical solution:
[0007] The conveying channel is a mesh belt. One end of the spring is connected to the railing of the conveying channel, and the other end of the spring is tilted towards the auger side. When the bottles are being squeezed and lined up, the spring can more sensitively trigger the sensing mechanism.
[0008] The sensing mechanism is a proximity switch, which is installed between the railing and the spring in the conveying channel. When the sensing mechanism senses the spring, it triggers a queuing signal.
[0009] The fixed end of the bottle pusher is hinged to the railing of the conveying channel, and the movable end of the bottle pusher faces the auger side. A drive mechanism is provided on one side of the movable end of the bottle pusher. A second elastic element is sleeved on the output shaft of the drive mechanism. The second elastic element abuts between the bottle pusher and the railing, which facilitates the installation of the drive mechanism. By pushing the bottle with the bottle pusher, the bottle queuing state can be changed more quickly.
[0010] The drive mechanism is a threaded cylinder, which is easy to install.
[0011] The entrance to the conveying channel is located on the side, and the entrance to the conveying channel is equipped with a transition plate, which is suitable for workshop layout.
[0012] Compared with the prior art, the advantages of this utility model are:
[0013] This utility model discloses a bottle conveying device, comprising a conveying channel and an auger connected to the conveying channel. Springs and elastic components are respectively provided on both sides of the conveying channel. The springs and elastic components are respectively located at both ends of the auger, enabling them to quickly detect and change the queuing state of the bottles on the auger, ensuring continuous bottle feeding. A sensing mechanism is provided on one side of the spring, allowing for more sensitive detection of bottle queuing phenomena. The elastic component includes a bottle-pushing block and a second elastic element. A driving mechanism is provided on one side of the elastic component. When the spring continuously triggers the sensing mechanism, the driving mechanism drives the bottle-pushing block to reciprocate and push the bottles. The bottle-pushing block has greater contact with the bottles, enabling faster changes in the bottle queuing balance state during auger bottle feeding, thus ensuring continuous bottle feeding and improving equipment productivity. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the structure of a bottle conveying device according to the present invention.
[0015] The reference numerals in the figures of this utility model are as follows: 1. Conveying channel; 2. Screwdriver; 3. Spring; 4. Elastic component; 5. Sensing mechanism; 6. Driving mechanism; 7. Barrier; 8. Bottle pusher block; 9. Second elastic element; 10. Transition plate. Detailed Implementation
[0016] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.
[0017] like Figure 1As shown, a bottle conveying device includes a conveying channel 1 and an auger 2 connected to the conveying channel 1. Springs 3 and elastic components 4 are respectively provided on both sides of the conveying channel 1. The springs 3 and elastic components 4 are respectively located at both ends of the auger 2, close to the auger 2, and can quickly react to the queuing state of two bottles on the auger and quickly change the queuing state. When bottles are queuing on the auger 2, the bottles are arranged outside the groove of the auger 2 without entering the groove. Subsequent bottles will compress the springs 3. A sensor is provided on one side of the spring 3. In the structure 5, the spring 3 is sensed by the sensing mechanism 5, and the controller obtains the signal to determine that the auger 2 is not feeding bottles and there is a bottle shortage. The elastic component 4 includes a bottle pushing block 8 and a second elastic element 9. A driving mechanism 6 is provided on one side of the elastic component 4. When the spring 3 continuously triggers the sensing mechanism 5, the driving mechanism 6 drives the bottle pushing block 9 to move back and forth to push the bottle. Since the bottle pushing block 9 has a large contact area with the bottle, the bottle pushing block 9 will push the bottle to move when it moves back and forth, which can change the bottle queuing balance state when the auger feeds the bottle more quickly, so that the auger feeds the bottle continuously and improves the equipment's production capacity.
[0018] The conveying channel 1 is a mesh belt. One end of the spring piece 3 is connected to the fence 7 of the conveying channel 1, and the other end of the spring piece 3 is tilted towards the auger 2. When the bottles are lined up on the auger 2 and the bottles on the mesh belt are squeezed, the end of the spring piece 3 that is tilted towards the auger 2 continues to tilt towards the fence 7, thereby triggering the sensing mechanism 5. The structure is simple and the layout is reasonable.
[0019] The sensing mechanism 5 is a proximity switch, which is set between the fence 7 and the spring 3 in the conveying channel 1. The proximity switch can be a mechanical trigger switch or a photoelectric switch. The sensing light is very short, and the sensing is triggered when the spring 3 is about to contact the photoelectric switch.
[0020] The fixed end of the bottle pusher block 8 is hinged to the railing 7 of the conveying channel 1. The movable end of the bottle pusher block 8 faces the auger 2. A drive mechanism 6 is provided on one side of the movable end of the bottle pusher block 8. A second elastic element 9 is sleeved on the output shaft of the drive mechanism 6. The second elastic element 9 abuts between the bottle pusher block 8 and the railing 7. When the conveying channel 1 conveys the bottle, the bottle contacts the bottle pusher block 8. Under the pushing action of the second elastic element 9 and the bottle, the bottle pusher block 8 will move back and forth slightly to assist the bottle into the auger 2. When the belt push is insufficient and a force imbalance occurs, a bottle queuing and squeezing signal will appear in front of the auger. When the spring continuously triggers the sensing mechanism, the drive mechanism drives the bottle pusher block to move back and forth to push the bottle, breaking the balance and allowing the bottle head to continuously enter the auger, avoiding bottle shortage and improving production capacity.
[0021] The drive mechanism 6 is a threaded cylinder, which is installed on the fence 7 through the thread on the threaded cylinder. The threaded cylinder is a small cylinder, which is easy to install, requires only a small space, and does not affect the reciprocating movement of the bottle pusher block 8.
[0022] The entrance of the conveying channel 1 is located on the side. The entrance of the conveying channel 1 is equipped with a transition plate 10. The transition plate 10 is not powered and will form a dead zone for conveying the bottles. The larger the dead zone, the smaller the thrust for conveying the bottles, and the easier it is to cause queuing. The transition plate 10 can be used to connect the conveying channel 1 of the filling machine and the dryer at the front end. Compared with the side of the conveying channel 1 opposite to the auger 2, the side of the conveying channel 1 can meet the needs of the workshop layout. It can realize that the filling machine and the dryer are arranged in parallel in the workshop, instead of the dryer being arranged vertically and the filling machine being arranged horizontally, which would result in an excessively large workshop space and inconvenient operation.
[0023] Although the present invention has been disclosed above with reference to preferred embodiments, it is not intended to limit the present invention. Any person skilled in the art can make many possible variations and modifications to the present invention, or modify it into equivalent embodiments, without departing from the scope of the present invention. Therefore, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present invention, without departing from the content of the present invention, should fall within the protection scope of the present invention.
Claims
1. A bottle conveying device, characterized in that: The device includes a conveying channel (1) and an auger (2) connected to the conveying channel (1). The conveying channel (1) is provided with a spring sheet (3) and an elastic component (4) on both sides. The spring sheet (3) and the elastic component (4) are respectively located at both ends of the auger (2). A sensing mechanism (5) is provided on one side of the spring sheet (3). The elastic component (4) includes a bottle pusher (8) and a second elastic element (9). A driving mechanism (6) is provided on one side of the elastic component (4). When the spring sheet (3) continuously triggers the sensing mechanism (5), the driving mechanism (6) drives the bottle pusher (9) to reciprocate and push the bottle.
2. The bottle conveying device as described in claim 1, characterized in that, The conveying channel (1) is a mesh belt, one end of the spring piece (3) is connected to the fence (7) of the conveying channel (1), and the other end of the spring piece (3) is inclined toward the auger (2).
3. The bottle conveying device as described in claim 2, characterized in that, The sensing mechanism (5) is a proximity switch, which is located between the railing (7) and the spring (3) of the conveying channel (1).
4. The bottle conveying device as described in claim 1, characterized in that, The fixed end of the bottle pusher (8) is hinged to the railing (7) of the conveying channel (1). The movable end of the bottle pusher (8) faces the auger (2). A drive mechanism (6) is provided on one side of the movable end of the bottle pusher (8). A second elastic element (9) is sleeved on the output shaft of the drive mechanism (6). The second elastic element (9) abuts between the bottle pusher (8) and the railing (7).
5. The bottle conveying device as described in claim 1, characterized in that, The drive mechanism (6) is a threaded cylinder.
6. The bottle conveying device as described in claim 1, characterized in that, The inlet of the conveying channel (1) is located on the side, and the inlet of the conveying channel (1) is provided with a transition plate (10).