CN220115443U - Powder injection conveying, adjusting and controlling equipment - Google Patents

Abstract

The utility model relates to powder injection conveying regulation control equipment which comprises a first conveying belt, wherein a second conveying belt is arranged on the side wall of the first conveying belt, a communication structure which is positioned between the first conveying belt and the second conveying belt and is relatively communicated with each other is further included, a reversing structure is arranged at the position of the first conveying belt relative to the communication structure, a buffer structure is further arranged at the tail end of the first conveying belt, and materials positioned on the first conveying belt can enter the buffer structure. The utility model can reduce the situation that the accumulation can not be transported due to the mismatching of the conveying speeds of the front-end conveying belt and the rear-end conveying belt.

Description

Powder injection conveying, adjusting and controlling equipment

Technical Field

The utility model relates to the field of drug transportation, in particular to powder injection conveying, adjusting and controlling equipment.

Background

The powder injection is a powdery product formed by mixing the medicine and the reagent and sterilizing and drying, and is convenient for transportation and storage.

In the process of powder injection production, it is often necessary to transport the powder injection from one location to another by means of a conveying structure, typically in the form of a conveyor belt or the like.

In the actual production and transportation process, multiple groups of conveyor belts may be required to be processed simultaneously due to different transportation distances and positions.

In view of the above-mentioned related art, the inventors consider that in the process of transporting multiple groups of conveyor belts at the same time, the number of adjacent conveyor belts is not equal, especially the conveying amount of the conveyor belt at the front end is larger than that of the conveyor belt at the rear end, which causes a situation that a large amount of powder injection is accumulated on the conveyor belt at the rear end and cannot be transported normally.

Disclosure of Invention

In order to reduce the situation that the accumulation cannot be transported due to mismatching of the conveying speeds of a front-end conveying belt and a rear-end conveying belt, the utility model provides powder injection conveying, adjusting and controlling equipment.

The utility model provides powder injection conveying, adjusting and controlling equipment, which adopts the following technical scheme:

the utility model provides a powder injection conveying regulation control equipment, includes first conveyer belt, the lateral wall of first conveyer belt is provided with the second conveyer belt, still including being located first conveyer belt with the communication structure of relative intercommunication between the second conveyer belt, first conveyer belt for the position of communication structure is provided with the switching-over structure, the tail end of first conveyer belt still is provided with buffer structure, is located the material on the first conveyer belt can enter into buffer structure's inside.

Through adopting above-mentioned technical scheme, when the quantity operation that is located the powder injection on the second conveyer belt is normal, communicate first conveyer belt and second conveyer belt relatively through the switching-over structure, and then the powder injection that is located the first conveyer belt can remove to the second conveyer belt, and when the quantity that is located the powder injection on the second conveyer belt increases, produce the extrusion, be linked together first conveyer belt and buffer structure through the switching-over of switching-over structure, the powder injection that is located the first conveyer belt can enter into in the buffer structure, reduce the quantity pressure of the powder injection on the second conveyer belt, reduce front end conveyer belt and rear end conveyer belt conveying speed mismatch and cause the unable condition of transportation of piling up.

Optionally, the communication structure is including the communication board that the level set up, the one end of communication board with the support frame fixed connection of first conveyer belt, just the other end of communication board with the support frame fixed connection of second conveyer belt, the roof of communication board with the area body of first conveyer belt flushes.

Through adopting above-mentioned technical scheme, can be with first conveyer belt and the relative intercommunication of second conveyer belt through the intercommunication board that sets up, and then can remove the powder injection that is located on the first conveyer belt to the second conveyer belt through the switching-over structure.

Optionally, the reversing structure includes a first baffle that sets up along the direction of delivery of first conveyer belt, first baffle with the position that the communication structure is relative articulates and is provided with the reversing plate, and when the reversing plate is the level setting, the reversing plate back of the body one end of pin joint with the second conveyer belt is relative.

Through adopting above-mentioned technical scheme, the powder injection is located first conveyer belt relative movement, and lead through first baffle, when the powder injection needs the switching-over to the second conveyer belt on, through setting up the switching-over board level, and then with first conveyer belt and second conveyer belt relative intercommunication for on being located first conveyer belt powder injection can enter into the second conveyer belt through the direction of switching-over board, after being located the powder injection quantity on the second conveyer belt more, through vertical setting up the switching-over board, and then be located the powder injection on the first conveyer belt can remove the inside of buffer structure along the direction of first conveyer belt.

Optionally, the second conveyor belt is fixedly connected with a push rod relative to the position of the reversing plate, and the push rod is located at one side of the reversing plate, which is close to the tail end of the first conveyor belt.

Through adopting above-mentioned technical scheme, can be spacing when being the horizontality to the switching-over board through the ejector pin that sets up to be convenient for support the switching-over board, and reduce the influence that causes when powder injection strikes the switching-over board.

Optionally, when the reversing plate is horizontally arranged, an inner side wall of the reversing plate, which is close to one end of the first baffle, is parallel to the first baffle.

By adopting the technical scheme, as the package of the powder injection is generally a glass product, impact damage caused by the external package of the powder injection can be reduced through the side walls arranged in parallel.

Optionally, the buffer structure includes a buffer disc located at the tail end of the first conveyor belt, and the upper part of the buffer disc is relatively communicated with the first conveyor belt.

Through adopting above-mentioned technical scheme, when the quantity that is located the powder injection on the second conveyer belt is great, through with the vertical setting of switching-over board, and then the powder injection that is located the first conveyer belt can remove the inside of buffer disk along the first conveyer belt, and then reduce the powder injection and remove on the second conveyer belt.

Optionally, the feed opening has been seted up to one side of buffer dish, the position of feed opening is provided with the storage disc, the upper surface of storage disc with the upper surface of buffer dish flushes.

Through adopting above-mentioned technical scheme, through the feed opening of seting up and be located the feed tray of feed opening position department can be when the powder injection that is located buffer disk position department is more, the manual work is through removing the position of storage tray with the powder injection, and then will be located the powder injection on the buffer disk and shift out.

Optionally, the last sliding connection of buffer disk has spacing arc, the one end of spacing arc with the center fixed connection of buffer disk, the other end of spacing arc with the lateral wall butt of buffer disk.

Through adopting above-mentioned technical scheme, through the spacing arc that sets up, reduce the powder injection that is located on the buffer dish and reversely pile up in the relative position department of first conveyer belt and buffer dish.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. when the quantity operation that is located the powder injection on the second conveyer belt is normal, communicate first conveyer belt and second conveyer belt relatively through the switching-over structure, and then be located the powder injection on the first conveyer belt and can remove the second conveyer belt, and when the quantity that is located the powder injection on the second conveyer belt increases, produce the extrusion, be linked together first conveyer belt and buffer structure through the switching-over of switching-over structure, be located the powder injection on the first conveyer belt can enter into in the buffer structure, reduce the quantity pressure of the powder injection on the second conveyer belt, reduce front end conveyer belt and rear end conveyer belt conveying speed mismatch and cause the unable condition of transportation of piling up.

2. The powder injection is located on the first conveying belt and moves relatively, and is guided through the first baffle, when the powder injection needs to be reversed to the second conveying belt, the reversing plate is horizontally arranged, and then the first conveying belt and the second conveying belt are communicated relatively, so that the powder injection located on the first conveying belt can enter the second conveying belt through the guiding of the reversing plate, after the quantity of the powder injection located on the second conveying belt is large, the reversing plate is vertically arranged, and then the powder injection located on the first conveying belt can move to the inside of the buffer structure along the direction of the first conveying belt.

3. When the quantity of the powder injections on the second conveyor belt is more, the powder injections on the first conveyor belt can be moved to the inside of the buffer disc along the first conveyor belt by vertically arranging the reversing plates, so that the powder injections are reduced to be moved to the second conveyor belt.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a powder injection conveying adjustment control device in an embodiment of the utility model.

Fig. 2 is a schematic structural view of a reversing structure of a powder injection conveying adjustment control device in an embodiment of the present utility model in a vertical state.

Fig. 3 is a schematic structural view of a reversing structure of a powder injection conveying adjustment control device in a horizontal state in an embodiment of the present utility model.

Fig. 4 is a schematic structural view of a buffer structure of a powder injection transmission adjustment control device according to an embodiment of the present utility model.

Reference numerals illustrate: 1. a first conveyor belt; 11. a push rod; 2. a second conveyor belt; 3. a communication structure; 31. a communication plate; 32. a first guide plate; 33. a second guide plate; 4. a buffer structure; 41. a buffer tray; 42. a buffer baffle; 43. a limiting arc plate; 44. a feed opening; 45. a storage tray; 5. a reversing structure; 51. a first baffle; 52. a second baffle; 53. and a reversing plate.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than those described herein, and therefore the scope of the present utility model is not limited to the specific embodiments disclosed below.

The utility model is described in further detail below with reference to fig. 1-4.

The embodiment of the utility model discloses powder injection conveying, adjusting and controlling equipment. Referring to fig. 1 and 2, a powder injection conveying adjustment control device is provided with a first conveying belt 1, a second conveying belt 2 is arranged on the side of the first conveying belt 1, the first conveying belt 1 and the second conveying belt 2 are vertically arranged, and the first conveying belt 1 and the second conveying belt 2 are relatively communicated through a communication structure 3, so that powder injection on the first conveying belt 1 can be moved to the second conveying belt 2. The tail end of the first conveyor belt 1 is further provided with a buffer structure 4, and the buffer structure 4 can enable powder injection on the first conveyor belt 1 to be moved into the buffer structure 4 when the powder injection on the second conveyor belt 2 is more, so that the quantity of the powder injection moving into the second conveyor belt 2 is reduced. The position of the first conveyor belt 1 relative to the communication structure 3 is provided with a reversing structure 5, and the reversing structure 5 can control the moving direction of the powder injection on the first conveyor belt 1.

The communication structure 3 comprises a communication plate 31 horizontally arranged, one end of the communication plate 31 is fixedly connected with the support frame of the first conveyor belt 1, and the other end of the communication plate 31 is fixedly connected with the support frame of the second conveyor belt 2. The top wall of the communication plate 31 is flush with the upper surface of the belt body of the first conveyor belt 1.

The first deflector 32 and the second deflector 33 are fixedly connected to the communication plate 31 relatively, the first deflector 32 and the second deflector 33 are arranged in parallel and are arranged along the conveying direction of the second conveyor belt 2, the first deflector 32 and the supporting frame of the first conveyor belt 1 are arranged in a rounding mode, and the second deflector 33 and the first conveyor belt 1 are arranged in a rounding mode, so that powder injection enters into the second conveyor belt 2 conveniently.

Referring to fig. 2 and 3, the reversing structure 5 includes a first baffle plate 51 horizontally disposed on the first conveyor belt 1, the first baffle plate 51 is disposed along the conveying direction of the first conveyor belt 1, and the first baffle plate 51 is fixedly connected with a supporting frame of the first conveyor belt 1, and a tail end of the first baffle plate 51 is opposite to the reversing structure 5. The second baffle plate 52 is arranged at the tail end of the first baffle plate 51, the second baffle plate 52 is arranged in parallel with the first baffle plate 51, and the second baffle plate 52 is arranged at one end of the first baffle plate 51, which is away from the second conveyor belt 2.

The reversing plate 53 is hinged between the first baffle plate 51 and the second baffle plate 52, the reversing plate 53 is of an arc-shaped structure, one end of the reversing plate 53 is hinged with the first baffle plate 51, and when the reversing plate 53 is horizontally arranged, one end, deviating from a hinged point, of the reversing plate 53 can be opposite to the second guide plate 33.

The inner side wall of the end of the reversing plate 53 close to the hinge point is flush with the side wall of the side of the first baffle plate 51 facing away from the second baffle plate 52, and when the reversing plate 53 is horizontally arranged, the inner wall of the reversing plate 53 is flush with the side of the second guide plate 33 close to the first guide plate 32.

The ejector rod 11 is fixedly connected to one side, deviating from the second guide plate 33, of the support frame of the first conveyor belt 1 relative to the reversing plate 53, the ejector rod 11 is vertically arranged, and after the reversing plate 53 is in a vertical state, the outer side face of the reversing plate 53 is opposite to the ejector rod 11, and then the reversing plate 53 and the ejector rod 11 are clamped relatively.

When the reversing plate 53 is in a vertical state, the powder injection on the first conveyor belt 1 enters the inside of the buffer structure 4 along the first conveyor belt 1. When the reversing plate 53 is in a horizontal state, the powder injection on the first conveyor belt 1 enters the second conveyor belt 2 along the direction of the reversing plate 53 and the communicating plate 31.

Referring to fig. 1 and 4, the buffer structure 4 includes a buffer disc 41 located at the tail end of the first conveyor belt 1, the buffer disc 41 is of a disc type structure, a buffer baffle 42 is fixedly connected to a side wall of the buffer disc 41, the buffer baffle 42 is of a circular structure and is coaxially arranged with the buffer disc 41, and an opening is formed at a position of the buffer baffle 42 opposite to the tail end of the first conveyor belt 1, so that powder injection located on the first conveyor belt 1 can move into the buffer disc 41.

The buffer disc 41 is horizontally provided with a limiting arc plate 43, one end of the limiting arc plate 43 is fixedly connected with the center position of the buffer disc 41, the other end of the limiting arc plate 43 is connected with the side wall of the buffer disc 41 relatively, and the position of the first conveyor belt 1, where powder injection on the limiting disc moves in the direction, can be reduced through the limiting arc plate 43.

The buffer disc 41 is located spacing arc 43 and deviates from open-ended one side and has seted up feed opening 44, and is located the position of feed opening 44 and be provided with storage disc 45, and storage disc 45 can collect the powder injection on the buffer disc 41 to be convenient for remove unnecessary powder injection through the manual work and handle.

The implementation principle of the powder injection conveying, adjusting and controlling equipment provided by the embodiment of the utility model is as follows: when the powder injection on the second conveyor belt 2 operates normally, the reversing plate 53 is rotated to be in a horizontal state, so that the first conveyor belt 1 and the second conveyor belt 2 are relatively communicated, and the powder injection on the first conveyor belt 1 can enter the second conveyor belt 2 through the guide of the reversing plate 53.

When more powder injection is located on the second conveyor belt 2, the reversing plate 53 is arranged vertically, so that the powder injection located on the first conveyor belt 1 can enter the buffer disc 41 along the first conveyor belt 1, and the quantity and pressure of the powder injection on the second conveyor belt 2 are reduced.

In the present utility model, the term "plurality" means at least two or more, unless explicitly defined otherwise. The terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; "coupled" may be directly coupled or indirectly coupled through intermediaries. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Claims (8)

1. The utility model provides a powder injection conveying regulation control equipment, is including first conveyer belt (1), the lateral wall of first conveyer belt (1) is provided with second conveyer belt (2), its characterized in that: still including being located first conveyer belt (1) with communication structure (3) of relative intercommunication between second conveyer belt (2), first conveyer belt (1) for the position of communication structure (3) is provided with reversing structure (5), the tail end of first conveyer belt (1) still is provided with buffer structure (4), is located the inside that buffer structure (4) can be entered into to the material on first conveyer belt (1).

2. The powder injection delivery regulation control device according to claim 1, wherein: the communication structure (3) comprises a communication plate (31) horizontally arranged, one end of the communication plate (31) is fixedly connected with the support frame of the first conveyor belt (1), the other end of the communication plate (31) is fixedly connected with the support frame of the second conveyor belt (2), and the top wall of the communication plate (31) is flush with the belt body of the first conveyor belt (1).

3. The powder injection delivery regulation control device according to claim 1, wherein: the reversing structure (5) comprises a first baffle plate (51) arranged along the conveying direction of the first conveyor belt (1), the position, opposite to the communicating structure (3), of the first baffle plate (51) is hinged with a reversing plate (53), and when the reversing plate (53) is horizontally arranged, one end, deviating from a hinged point, of the reversing plate (53) is opposite to the second conveyor belt (2).

4. A powder injection delivery regulation control device as set forth in claim 3, wherein: the second conveyor belt (2) is fixedly connected with a push rod (11) relative to the position of the reversing plate (53), and the push rod (11) is positioned on one side, close to the tail end of the first conveyor belt (1), of the reversing plate (53).

5. A powder injection delivery regulation control device as set forth in claim 3, wherein: when the reversing plate (53) is horizontally arranged, the inner side wall of the reversing plate (53) close to one end of the first baffle plate (51) is parallel to the first baffle plate (51).

6. The powder injection delivery regulation control device according to claim 1, wherein: the buffer structure (4) comprises a buffer disc (41) positioned at the tail end of the first conveyor belt (1), and the upper part of the buffer disc (41) is communicated with the first conveyor belt (1) relatively.

7. The powder injection delivery regulation control device of claim 6, wherein: a blanking opening (44) is formed in one side of the buffer disc (41), a storage disc (45) is arranged at the position of the blanking opening (44), and the upper surface of the storage disc (45) is flush with the upper surface of the buffer disc (41).

8. The powder injection delivery regulation control device of claim 6, wherein: the buffer disc (41) is connected with a limiting arc plate (43) in a sliding mode, one end of the limiting arc plate (43) is fixedly connected with the center of the buffer disc (41), and the other end of the limiting arc plate (43) is in butt joint with the side wall of the buffer disc (41).