CN219094626U - Bottle embryo leftover material collecting and recycling device - Google Patents

Abstract

The utility model relates to a bottle blank leftover material collecting and recycling device, which comprises a grinding device for grinding bottle blank leftover materials and a collecting device for collecting the ground leftover materials; the collecting device comprises a collecting box, a discharging and cutting pipe and a purging device capable of being opened at regular time, wherein the discharging and cutting pipe and the purging device are connected with the collecting box, and leftover materials in the collecting box are blown into the discharging and cutting pipe through the purging device at regular time. The collection device can recycle the excessive leftover materials of the semi-finished product of the bottle blank, and the leftover materials are not directly discarded, so that the materials are effectively utilized. Through setting up automatic the device that blasts, can set up the periodic interval of blasting according to the accumulational leftover bits in the box, realize automated processing production's technical purpose, improve production efficiency and practice thrift the required cost of labor of production, improve production efficiency.

Description

Bottle embryo leftover material collecting and recycling device

Technical Field

The utility model relates to the technical field of bottle embryo processing equipment, in particular to a bottle embryo leftover material collecting and recycling device.

Background

The bottle embryo is a semi-finished product with a shape similar to a test tube, and can be formed into a required shape by high-temperature blow molding, such as a mineral water bottle by blow molding; it can also be used directly as a reagent vial, such as a nucleic acid detection reagent tube. The bottle embryo production process generally comprises the following steps: shaping, conveying, grinding scraps and the like. The processed bottle blanks can be packaged and placed intensively so as to be convenient for subsequent transportation.

After the leftover materials of the traditional bottle embryo semi-finished products are ground, the leftover materials directly fall on the ground, are manually collected periodically or are directly cleaned and are not utilized. However, on one hand, the manual regular cleaning cost is higher, and the leftover materials are easy to blow off and are not easy to clean; on the other hand, the leftover materials can be recycled, and the resource waste is caused by direct discarding.

Disclosure of Invention

The utility model mainly aims to improve bottle embryo semi-finished product processing equipment, and by arranging the automatic collecting device, not only can the leftover materials be effectively collected and human resources be saved, but also clean leftover materials can be collected, and the recycling is convenient, so that the bottle embryo leftover material collecting and recycling device is provided.

In order to achieve the above purpose, the utility model adopts the following specific technical scheme:

the utility model relates to a bottle blank leftover material collecting and recycling device, which comprises a grinding device for grinding bottle blank leftover materials and a collecting device for collecting the ground leftover materials; the collecting device comprises a collecting box, a discharging and cutting pipe and an automatic purging device capable of being opened at regular time, wherein the discharging and cutting pipe and the automatic purging device are connected with the collecting box, and leftover materials in the collecting box are blown into the discharging and cutting pipe at regular time through the automatic purging device.

Preferably, the collection box comprises a box body, and a collection port is formed in the top of the box body.

Preferably, the collecting port comprises a side wall, the side wall is obliquely arranged, and the side wall extends from the edge of the box body to the center to form a blanking mouth structure.

Preferably, the collection port is formed by four planar side walls; or the collecting port is formed by a conical side wall in smooth transition.

Preferably, the side of the scraping pipe is provided with a purging connecting nozzle, and the automatic purging device is connected with the scraping pipe through the purging connecting nozzle.

Preferably, the automatic purging device is a blower, and the blowing direction of the blower faces the discharging direction of the discharging and cutting pipe.

Preferably, the row cutting pipe is connected to the bottom of the box body.

Preferably, the row cutting pipe is configured as a square pipe or a round pipe.

Preferably, the bottle embryo leftover material collecting and recycling device further comprises a frame plate for providing a mounting foundation, and the grinding device and the collecting device are both mounted on the frame plate; the bottle rack is characterized in that a conveying rail is arranged on the rack plate and is connected with a conveying rack for loading bottle blanks in a matched mode.

Preferably, the conveying frame comprises a frame body, a beam rod and a fixing structure, wherein the frame body is slidably connected with the conveying rail, the beam rod is arranged on the frame body, and the fixing structure is arranged on the beam rod and used for fixing bottle blanks so as to ensure that the bottle blanks are not dislocated and inclined in the conveying process.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model relates to a bottle embryo leftover material collecting and recycling device, which comprises a collecting box, a cutting discharging pipe and an automatic purging device capable of being opened at regular time, wherein the cutting discharging pipe and the automatic purging device are connected with the collecting box, and leftover materials in the collecting box are blown into the cutting discharging pipe through the automatic purging device at regular intervals. The collection device can recycle the excessive leftover materials of the semi-finished product of the bottle blank, and the leftover materials are not directly discarded, so that the materials are effectively utilized. Through setting up automatic the device that blasts, can set up the periodic interval of blasting according to the accumulational leftover bits in the box, realize automated processing production's technical purpose, improve production efficiency and practice thrift the required cost of labor of production, improve production efficiency.

The utility model is further described below with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of a collecting device and other related devices according to a preferred embodiment of the present utility model.

Fig. 2 is a schematic structural view of the other side collecting device and other related devices in the preferred embodiment of the present utility model.

Fig. 3 is a schematic view of the structure of the device with the shelf in the preferred embodiment of the present utility model.

Reference numerals illustrate:

10 grinding device, 11 collecting box, 12 row cut pipe, 13 box, 14 collecting port, 15 lateral wall, 16 blanking mouth structure, 17 blow and wash connecting mouth, 20 collecting device, 30 frame plate, 40 delivery rail, 50 delivery frame, 51 framework, 52 beam rod, 53 fixed knot construct.

Detailed Description

The present utility model is further illustrated and described in the following detailed description, which should be understood as being for the purpose of making the technical solution of the present utility model clearer and easier to understand, and not limiting the scope of the claims.

The utility model relates to a bottle blank leftover material collecting and recycling device, which is shown in figures 1 and 2, and comprises a grinding device 10 for grinding the bottle blank leftover materials and a collecting device 20 for collecting the ground leftover materials; the collecting device 20 comprises a collecting box 11, a scraping pipe 12 and an automatic purging device capable of being opened at regular time, wherein the scraping pipe 12 and the automatic purging device are connected with the collecting box 11, and leftover materials in the collecting box 11 are blown into the scraping pipe 12 through the automatic purging device at regular time.

In a preferred embodiment, the collecting box 11 comprises a box body 13, and a collecting opening 14 is arranged at the top of the box body 13.

In a preferred embodiment, the collecting opening 14 comprises a side wall 15, the side wall 15 is inclined, and the side wall 15 extends from the edge of the box 13 to the center to form a blanking mouth structure 16.

In a preferred embodiment, the collection mouth 14 is constituted by four planar side walls 15; or the collection opening 14 is formed by a rounded conical side wall 15.

In a preferred embodiment, the side of the cutting tube 12 is provided with a purging connection nozzle 17, and the automatic purging device is connected to the cutting tube 12 via the purging connection nozzle 17.

In a preferred embodiment, the automatic purging device is a blower, the blowing direction of which faces the shaving direction of the shaving tube 12.

In a preferred embodiment, the skiving pipe 12 is connected to the bottom of the tank 13.

In a preferred embodiment, the row of cutting tubes 12 are configured as square or round tubes.

In a preferred embodiment, as shown in fig. 3, the bottle blank leftover material collecting and recycling device further comprises a frame plate 30 for providing a mounting base, and the grinding device 10 and the collecting device 20 are both mounted on the frame plate 30; the frame plate 30 is provided with a conveying rail 40, and the conveying rail 40 is connected with a conveying frame 50 for loading bottle blanks in a matching way.

In a preferred embodiment, the conveying frame 50 includes a frame 51, a beam 52, and a fixing structure 53, where the frame 51 is slidably connected to the conveying rail 40, the beam 52 is disposed on the frame 51, and the fixing structure 53 is disposed on the beam 52, and is used for fixing the bottle embryo, so as to ensure that the bottle embryo is not dislocated and inclined in the conveying process.

The utility model is further illustrated by the following examples.

Examples

The embodiment provides a bottle embryo leftover material collection recovery unit. The apparatus includes a frame plate 30, a grinding apparatus 10, and a collection apparatus 20. The frame plate 30 is provided with a conveying rail 40, the conveying rail 40 is matched with the conveying frame 50, and the conveying rail 40 is used for conveying the conveying frame 50.

In actual use, the bottle blanks are placed on the conveying rack 50 and conveyed by the conveying rail 40. The purpose is to convey the semi-finished product of the bottle embryo to the lower part of the grinding device 10, and the grinding device 10 removes the leftover materials of the bottle embryo.

The grinding device 10 is mounted on the frame plate 30 and is used for grinding leftover materials of bottle blank semi-finished products.

The collecting device 20 is arranged below the grinding device 10 and is used for collecting leftover materials. The collecting device 20 comprises a collecting box 11, a scraping pipe 12 and an automatic purging device. The collecting box 11 comprises a box body 13, and a collecting opening 14 is formed in the top of the box body 13.

Specifically, the collection port 14 is constituted by four side walls 15. The side wall 15 is obliquely arranged from the edge of the box 13 to the central position of the box 13, and a blanking mouth structure 16 is formed in the central area.

The side wall 15 is used for collecting the leftover materials falling from the grinding device 10, and has the function of guiding the leftover materials to slide towards the blanking nozzle structure 16, and the leftover materials fall into the box 13 through the blanking nozzle structure 16.

Specifically, the number of the side walls 15 is not fixed, but may be provided as a smoothly transition conical side wall 15; other numbers of planar side walls 15 may also be provided.

The key to collecting the scrap is that the inclined arrangement of the side walls 15 guides the scrap into the blanking nozzle structure 16, which is not fixed in shape.

Specifically, the cutting tube 12 may be provided as a square tube or a round tube.

Specifically, the automatic purging device activates the purging function at intervals, such as 10 minutes, 20 minutes, or other intervals, as determined by the excessive accumulation of scrap in the tank during actual production. The purpose is to blow the scraps in the collection box 11 to the scraping pipe 12 regularly and periodically, and discharge the scraps outside the box. The conventional air blowing device with the timing starting function is adopted, and no special requirement exists.

Specifically, the automatic purge means employs a blower whose blowing direction is directed toward the discharging direction of the discharging tube 12.

Specifically, the side of the skiving pipe 12 is provided with a purge connection nozzle 17. The automatic purging device is connected to the drain pipe 12 via a purging connection 17.

Specifically, the scraping pipe 12 is connected to the bottom of the box 13.

The transfer rack 50 includes a frame 51, a beam 52, and a fixing structure 53.

The frame 51 is slidably connected to the transfer rail 40. The beam 52 is provided in the frame 51. The fixing structure 53 is arranged on the beam 52 and used for fixing the bottle blanks so as to ensure that the bottle blanks are not dislocated and inclined in the conveying process.

The implementation mode is as follows:

the bottle blanks to be ground are placed on a conveyor rack 50, and the conveyor rack 50 runs on a conveyor rail 40 to the grinding device 10. The grinding device 10 grinds the excess scraps of the bottle blanks. The ground scraps fall into the collecting opening 14, possibly first fall onto the side wall 15 and then slide into the blanking nozzle structure 16, or possibly directly fall into the blanking nozzle structure, and finally enter the box 13. The automatic purging device is opened at regular time according to the amount of the accumulated scraps in the box body 13, and the scraps are blown into the scraping pipe 12 to be discharged out of the box body 13.

The present utility model is illustrated by way of example and not limitation, and other variations to the disclosed embodiments, as would be readily apparent to one skilled in the art, are intended to be within the scope of the utility model as defined in the claims.

Claims (10)

1. The utility model provides a recovery unit is collected to bottle embryo leftover bits which characterized in that:

comprises a grinding device (10) for grinding the rim leftovers of bottle blanks and a collecting device (20) for collecting the rim leftovers after grinding;

the collecting device (20) comprises a collecting box (11), a discharging and cutting pipe (12) and an automatic purging device capable of being opened at regular time, wherein the discharging and cutting pipe (12) and the automatic purging device are connected with the collecting box (11), and leftover materials in the collecting box (11) are blown into the discharging and cutting pipe (12) through the automatic purging device at regular time.

2. The bottle embryo leftover material collecting and recycling device according to claim 1, wherein:

the collecting box (11) comprises a box body (13), and a collecting opening (14) is formed in the top of the box body (13).

3. The bottle embryo leftover material collecting and recycling device according to claim 2, wherein:

the collecting opening (14) comprises a side wall (15), the side wall (15) is obliquely arranged, and the side wall (15) extends from the edge of the box body (13) to the center to form a blanking mouth structure (16).

4. The bottle embryo leftover material collecting and recycling device according to claim 2, wherein:

the collecting port (14) is formed by four plane side walls (15); or the collecting opening (14) is formed by a conical side wall (15) in smooth transition.

5. The bottle embryo leftover material collecting and recycling device according to claim 1, wherein:

the automatic purging device is characterized in that a purging connecting nozzle (17) is arranged on the side face of the discharging and cutting pipe (12), and the automatic purging device is connected with the discharging and cutting pipe (12) through the purging connecting nozzle (17).

6. The bottle embryo leftover material collecting and recycling device according to claim 1, wherein:

the automatic purging device is a blower, and the blowing direction of the blower faces the discharging and cutting direction of the discharging and cutting pipe (12).

7. The bottle embryo leftover material collecting and recycling device according to claim 1, wherein:

the row cutting pipe (12) is connected to the bottom of the box body (13).

8. The bottle embryo leftover material collecting and recycling device according to claim 1, wherein:

the row cutting pipe (12) is arranged into a square pipe or a round pipe.

9. The bottle embryo leftover material collecting and recycling device according to claim 1, wherein:

the bottle embryo leftover material collecting and recycling device further comprises a frame plate (30) for providing a mounting foundation, and the grinding device (10) and the collecting device (20) are both mounted on the frame plate (30); the bottle rack is characterized in that a conveying rail (40) is arranged on the rack plate (30), and the conveying rail (40) is connected with a conveying rack (50) for loading bottle blanks in a matched mode.

10. The bottle embryo leftover material collecting and recycling device according to claim 9, wherein:

the conveying frame (50) comprises a frame body (51), a beam rod (52) and a fixing structure (53), wherein the frame body (51) is slidably connected with the conveying rail (40), the beam rod (52) is arranged on the frame body (51), and the fixing structure (53) is arranged on the beam rod (52) and used for fixing bottle blanks so as to ensure that the bottle blanks are not misplaced and inclined in the conveying process.

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