CN218429611U - Edible oil bottle embryo injection molding machine receiving device - Google Patents

Abstract

The application discloses edible oil bottle embryo injection molding machine receiving device relates to the technical field of edible oil bottle processing, has improved and has collected inconvenient problem after the bottle embryo unloading, and it is including the guide ramp that is used for guiding the unloading of bottle embryo and the workbin that connects that is used for collecting the bottle embryo, the one end of guide ramp leads to the injection molding machine, it is connected with the other end of guide ramp to connect the workbin, be provided with two first guide boards on the guide ramp, two first guide board sets up respectively in the both sides of guide ramp, two distance between the first guide board reduces gradually along the direction of bottle embryo unloading, two minimum distance between the first guide board equals with the length size of bottle embryo, two first guide space has between the first guide board. This application can make the bottle embryo after a plurality of injection moulding collect stack and stack neatly in the receiving box automatically.

Description

Edible oil bottle embryo injection molding machine receiving device

Technical Field

The application relates to the technical field of edible oil bottle processing, in particular to a receiving device of an edible oil bottle embryo injection molding machine.

Background

Edible oil is also called as "edible oil", which refers to animal or vegetable oil used in the process of making food, and is one of essential seasonings in daily life. Edible oil is liquid at normal temperature, and is usually sold in bottles or barrels for convenient carrying and storage.

The edible oil bottle in the market is usually made of Polyester (PET) materials, the manufacturing process of the edible oil bottle needs to firstly perform injection molding to form a bottle blank, then the bottle blank is subjected to blow molding, the volume of a bottle blank accommodating cavity is multiplied in the blow molding process, the shape of the bottle blank is changed, and the bottle blank can be subjected to blow molding to form the oil bottle with a specific shape through a blow molding die with a specific shape.

In the process of injection molding of bottle blanks, a plurality of bottle blanks are usually injected at the same time, and the plurality of bottle blanks after injection molding are discharged and then collected by workers and sent to blow molding equipment for blow molding of the bottle blanks. However, the bottle blanks are stacked in a mess after being discharged, and a worker needs to spend a long time in collecting the bottle blanks, so that the processing efficiency of the edible oil bottles is influenced.

SUMMERY OF THE UTILITY MODEL

In order to improve the inconvenient problem of collecting after the bottle embryo unloading, this application provides an edible oil bottle embryo injection molding machine receiving device.

The application provides an edible oil bottle embryo injection molding machine receiving device adopts following technical scheme:

the utility model provides an edible oil bottle embryo injection molding machine receiving device, is including the guide ramp that is used for guiding bottle embryo unloading and the workbin that connects that is used for collecting the bottle embryo, the one end of guide ramp leads to the injection molding machine, connect the workbin to be connected with the other end of guide ramp, be provided with two first guide boards on the guide ramp, two first guide board sets up respectively in the both sides of guide ramp, two distance between the first guide board reduces gradually along the direction of bottle embryo unloading, two minimum distance between the first guide board equals with the length size of bottle embryo, two first guide space has between the first guide board.

Through adopting above-mentioned technical scheme, through the in-process in first guide space behind the bottle embryo unloading, two first guide boards can restrict the bottle embryo and pass through one by one, can order about the bottle embryo simultaneously and keep the horizontality through first guide space, and a plurality of bottle embryos of being convenient for are stacked neatly after falling into the receiving box to improve the efficiency of collecting behind the bottle embryo unloading, and then improve the machining efficiency of edible oil bottle.

Optionally, the guiding ramp is further provided with two second guiding plates, the second guiding plates are located on one side of the first guiding plate close to the material receiving box, the two second guiding plates are parallel to each other, a second guiding space is arranged between the two second guiding plates, and the second guiding space is communicated with the first guiding space.

By adopting the technical scheme, bottle embryo unloading gets into the second guide space after first guide space, and the position state when two second guide boards can further adjust bottle embryo unloading further improves the neat degree that a plurality of bottle embryos were collected and were stacked in the collecting box.

Optionally, a first driving member for driving the second guide plate to vibrate is further disposed on the guide ramp.

Through adopting above-mentioned technical scheme, the in-process of bottle embryo through second guide space, the vibration of second guide board can reduce the bottle embryo because of the position state when the unloading is incorrect and the probability of blocking in second guide space to improve the smoothness nature of bottle embryo unloading, accelerate the unloading speed of bottle embryo, raise the efficiency.

Optionally, the end of the first guide plate away from the guide ramp and the end of the second guide plate away from the guide ramp are both provided with a baffle.

Through adopting above-mentioned technical scheme, the baffle can carry on spacingly to the bottle embryo that gets into in first guide space and the second guide space, reduces the probability that the bottle embryo breaks away from first guide space and second guide space at the unloading in-process.

Optionally, the material receiving box is located on one side of the guiding ramp, a second driving piece used for driving the bottle blanks to move towards the direction close to the material receiving box is further arranged on the guiding ramp, a penetrating opening for the bottle blanks to penetrate through is formed in one end, far away from the first guiding plate, of the second guiding plate, one end of the penetrating opening is communicated with the second guiding space, and the other end of the penetrating opening faces towards the material receiving box.

By adopting the technical scheme, the bottle embryos can fall into the material receiving box one by one according to a certain time interval for collection, the probability that the bottle embryos are stacked unevenly after naturally falling into the material receiving box is reduced, and the neatness degree of collection and stacking of the bottle embryos in the material receiving box is further improved.

Optionally, a guide channel for guiding the bottle blanks to fall into the material receiving box is further arranged on one side of the guide ramp, the interior of the guide channel is matched with the bottle blanks, one end of the guide channel is communicated with the through opening, and the other end of the guide channel is located above the material receiving box.

By adopting the technical scheme, the bottle embryo can still keep the position state of the bottle embryo when falling into the material receiving box, so that the bottle embryo is collected and stacked in the material receiving box more neatly.

Optionally, still including the base that is used for supplying to connect the workbin location installation, set up the constant head tank with the bottom looks adaptation that connects the workbin on the base, it is the tilt state to connect the workbin after the installation on the base.

By adopting the technical scheme, the work personnel can conveniently determine the position where the material receiving box is placed, and meanwhile, the material receiving box can be filled with a plurality of bottle blanks which fall into the material receiving box conveniently.

Optionally, the base is provided with a plurality of elastic members having a buffering effect on the bottle blanks in the positioning grooves, and two ends of each elastic member are respectively connected with the material receiving box and the base.

By adopting the technical scheme, the impact force of the bottle embryo to the material receiving box when entering the material receiving box can be reduced, the impact force of the bottle embryo to other bottle embryos can be reduced, and the probability of damage of the bottle embryo due to collision is reduced.

Optionally, the end face of the guide ramp close to the first guide plate is a cambered surface, and the moving speed of the bottle blank in the blanking process is gradually reduced.

Through adopting above-mentioned technical scheme, can make things convenient for the bottle embryo to slide the unloading along the guide ramp, can also slow down the removal of bottle embryo simultaneously, reduce the impact force after bottle embryo and external collision, further reduce the bottle embryo because of the collision probability that the damage appears.

In summary, the present application includes at least one of the following benefits:

1. the bottle blanks can be automatically and orderly stacked in the material receiving box after being discharged, so that the labor cost is reduced, and meanwhile, the effect of collecting and stacking the bottle blanks is improved, so that the production efficiency of the edible oil bottles is improved;

2. the bottle blank blanking device has the advantages that the impact force of the bottle blank can be reduced in the bottle blank blanking process, the probability of damage of the bottle blank after collision is reduced, the quality of the bottle blank in the blanking process is protected, and therefore the product quality of the edible oil bottle is guaranteed.

Drawings

FIG. 1 is a schematic structural diagram of a receiving device of an edible oil bottle blank injection molding machine according to an embodiment of the application;

FIG. 2 is a cross-sectional view of the material receiving device of the edible oil bottle blank injection molding machine in the embodiment of the application without a material receiving box and a base;

FIG. 3 is a sectional view of a receiving device of an edible oil bottle blank injection molding machine in the embodiment of the application.

Description of reference numerals: 1. bottle embryo; 2. a guide ramp; 21. a guide surface; 22. a first guide plate; 23. a first guide space; 24. a second guide plate; 241. a gas blowing hole; 242. perforating; 25. a second guide space; 26. a baffle plate; 27. a interception plate; 3. a material receiving box; 4. a second driving member; 5. a first driving member; 6. a base; 61. positioning a groove; 62. a buffer plate; 63. an elastic member; 7. a guide channel.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses edible oil bottle embryo injection molding machine receiving device for assisting collection of a plurality of injection molded bottle embryos after blanking.

Referring to fig. 1 and 2, the bottle blank 1 is a cylindrical structure, and the bottle blank 1 is blanked in a position state where the axis of the bottle blank 1 is horizontal after injection molding.

Referring to fig. 1 and 2, the material receiving device includes a guiding ramp 2 for assisting the blanking of the bottle blanks 1, a material receiving box 3 for collecting and stacking a plurality of bottle blanks 1, and a second driving member 4 for driving the blanked bottle blanks 1 to enter the material receiving box 3. After the injection molding machine performs injection molding on a plurality of bottle blanks 1, the bottle blanks 1 are simultaneously blanked to the guide ramp 2, the bottle blanks 1 move along the guide ramp 2 for blanking, the second driving piece 4 drives the blanked bottle blanks 1 to move towards the direction close to the material receiving box 3, and finally the bottle blanks 1 fall into the material receiving box 3 for collection.

Referring to fig. 1 and 3, the guide ramp 2 is fixedly mounted on the ground, and the guide ramp 2 has a guide surface 21, and the guide surface 21 is an arc-shaped surface. The bottle blank 1 falls to the one end of guide surface 21 camber line direction after the blanking and can move towards the other end of guide surface 21 camber line direction along the camber line, and bottle blank 1 can move towards the direction of keeping away from the injection molding machine promptly. The slope of the arc of the guide surface 21 gradually decreases in the blanking direction of the bottle blank 1, so that the bottle blank 1 gradually moves along the guide surface 21 at a slower speed.

Referring to fig. 1 and 2, two first guide plates 22 are fixedly mounted at one end of the guide ramp 2 close to the injection molding machine on the guide surface 21, the two first guide plates 22 are symmetrically distributed on the guide surface 21 along the middle line of the guide surface 21, the distance between the ends of the two first guide plates 22 close to the injection molding machine is greater than the distance between the ends of the two first guide plates 22 far away from the injection molding machine, and the distance between the ends of the two first guide plates 22 far away from the injection molding machine is equal to the length of the bottle blank 1.

A first guide space 23 for the bottle blank 1 to pass through during blanking is formed between the two first guide plates 22, the bottle blank 1 enters the first guide space 23 after blanking, and the two first guide plates 22 help the bottle blank 1 to leave the first guide space 23 in a state of horizontal axis. The end of the first guide plate 22 far away from the guide surface 21 is fixedly connected with a baffle 26, the bottle blank 1 enters the first guide space 23 and then passes between the baffle 26 and the guide surface 21, and the baffle 26 can ensure that the bottle blank 1 entering the first guide space 23 can leave the first guide space 23 from the side of the first guide plate 22 far away from the injection molding machine.

Referring to fig. 1 and 2, the guiding ramp 2 is further provided with two second guiding plates 24 above the guiding surface 21, the two second guiding plates 24 are also symmetrically distributed on the guiding surface 21 along the middle line of the guiding surface 21, the two second guiding plates 24 are parallel to each other, and the distance between the two second guiding plates 24 is equal to the length dimension of the bottle blank 1. A second guide space 25 for the bottle blank 1 to pass through when continuously discharging is formed between the two second guide plates 24, the second guide space 25 is communicated with the first guide space 23, and the bottle blank 1 can smoothly enter the second guide space 25 after passing through the first guide space 23. The end of the second guiding plate 24 away from the guiding surface 21 is also fixedly connected with a baffle 26 for ensuring that the bottle blank 1 can smoothly pass through the second guiding space 25 after entering the second guiding space 25.

The guide ramp 2 is further fixedly provided with an interception plate 27 for intercepting the bottle blank 1 on the guide surface 21, the interception plate 27 is positioned on one side of the second guide plate 24 far away from the first guide plate 22, and the interception plate 27 blocks one end of the second guide space 25 far away from the first guide space 23.

Referring to fig. 1 and 2, a first driving member 5 for driving the second guide plate 24 to vibrate is further installed on the guide ramp 2, two first driving members 5 are installed corresponding to the number of the second guide plate 24, the first driving member 5 is located on one side of the second guide plate 24 departing from the second guide space 25, the first driving member 5 is fixedly connected with the guide ramp 2, and the second guide plate 24 is fixedly connected with the first driving member 5. In this embodiment, the first driving member 5 is preferably a vibrator, and in the process that the first driving member 5 drives the second guiding plate 24 to vibrate, the position state of the bottle blank 1 clamped in the second guiding space 25 can be gradually adjusted to the position state with the horizontal axis after being vibrated, and the bottle blank 1 can smoothly pass through the second guiding space 25 in the position state with the horizontal axis.

The second driver 4 is fixedly mounted on the guide surface 21 and the second driver 4 is located at one side of the second guide space 25. In this embodiment, the second driving member 4 is preferably a blower, and the second driving member 4 blows air into the inner cavity of the bottle blank 1 to drive the bottle blank 1 to move. Among the two second guide plates 24, the second guide plate 24 closer to the second driving element 4 is provided with a blowing hole 241 for blowing air by the second driving element 4, the blowing hole 241 is communicated with the second guide space 25, the second guide plate 24 farther from the second driving element 4 is provided with a through hole 242 for moving the bottle blank 1 away from the second guide space 25, and the through hole 242 is also communicated with the second guide space 25. When the bottle blank 1 is fed to abut against the blocking plate 27, the second driving member 4 drives the bottle blank 1 to move through the through opening 242.

Referring to fig. 1 and 3, a base 6 for positioning and installing the material receiving box 3 is installed on one side of the guiding ramp 2 away from the second driving member 4, a positioning groove 61 matched with the bottom of the material receiving box 3 is formed in the base 6, a buffer plate 62 and a plurality of elastic members 63 are further installed in the positioning groove 61 of the base 6, the buffer plate 62 can slide in the positioning groove 61 along the direction perpendicular to the bottom of the positioning groove 61, the elastic members 63 are located between the buffer plate 62 and the bottom of the positioning groove 61, and two ends of each elastic member 63 are respectively fixedly connected with the buffer plate 62 and the bottom of the positioning groove 61. After the bottom of the material receiving box 3 is placed into the positioning groove 61 for installation, the bottom of the material receiving box 3 abuts against the buffer plate 62 in a laminating manner, the material receiving box 3 is in an inclined state, and the end, close to the injection molding machine, of the material receiving box 3 is an inclined upper end. In this embodiment, the elastic member 63 is preferably a spring.

A guide channel 7 for guiding the bottle blanks 1 to continue to be discharged is arranged on one side of the guide ramp 2, which is far away from the second driving piece 4, one end of the guide channel 7 is communicated with the through opening 242, and the other end of the guide channel 7 is positioned above the material receiving box 3. The guide channel 7 can be used for the bottle blank 1 to pass through in a position state that the axis of the bottle blank 1 is horizontal, and the direction of the bottle blank 1 when passing through the guide channel 7 is inclined downwards.

The implementation principle of the material receiving device of the edible oil bottle blank injection molding machine in the embodiment of the application is as follows:

a plurality of bottle blanks 1 are subjected to injection molding by an injection molding machine and then are discharged onto a guide surface 21 of the guide ramp 2, after the bottle blanks 1 enter a first guide space 23, the bottle blanks 1 leave the first guide space 23 one by one in a position state that the axes of the bottle blanks are horizontal under the action of two first guide plates 22; then the bottle blank 1 enters the second guide space 25, the two second guide plates 24 further adjust the position state of the bottle blank 1 in the blanking process, and the second driving piece 4 drives the second guide plates 24 to vibrate to reduce the probability that the bottle blank 1 is clamped in the second guide space 25; after the bottle blank 1 moves to abut against the intercepting plate 27, the first driving member 5 drives the bottle blank 1 to move through the through opening 242 and enter the guide channel 7, then the bottle blank 1 moves along the guide channel 7 and finally falls into the material receiving box 3 to be stacked in order, after the material receiving box 3 is filled with the bottle blank 1, the material receiving box 3 is transported to the blow molding equipment, and a new material receiving box 3 is installed on the base 6.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an edible oil bottle embryo injection molding machine receiving device, its characterized in that, including guide ramp (2) and the workbin (3) that is used for collecting bottle embryo (1) that are used for guiding bottle embryo (1) unloading, the one end of guide ramp (2) leads to the injection molding machine, it is connected with the other end of guide ramp (2) to connect workbin (3), be provided with two first guide boards (22) on guide ramp (2), two first guide board (22) set up respectively in the both sides of guide ramp (2), two distance between first guide board (22) reduces along the direction of bottle embryo (1) unloading gradually, two minimum distance between first guide board (22) equals with the length size of bottle embryo (1), two first guide space (23) have between first guide board (22).

2. The receiving device of an edible oil bottle blank injection molding machine according to claim 1, characterized in that two second guide plates (24) are further arranged on the guide ramp (2), the second guide plates (24) are positioned on one side of the first guide plate (22) close to the receiving box (3), the two second guide plates (24) are parallel to each other, a second guide space (25) is arranged between the two second guide plates (24), and the second guide space (25) is communicated with the first guide space (23).

3. The receiving device of an edible oil bottle blank injection molding machine according to claim 2, characterized in that the guide ramp (2) is further provided with a first driving member (5) for driving the second guide plate (24) to vibrate.

4. The receiving device of an edible oil bottle blank injection molding machine according to claim 2, characterized in that a baffle (26) is arranged at one end of the first guide plate (22) far away from the guide ramp (2) and at one end of the second guide plate (24) far away from the guide ramp (2).

5. The receiving device of the edible oil bottle blank injection molding machine according to claim 2, wherein the receiving box (3) is located at one side of the guiding ramp (2), a second driving member (4) for driving the bottle blanks (1) to move towards the direction close to the receiving box (3) is further arranged on the guiding ramp (2), a penetrating opening (242) for the bottle blanks (1) to penetrate through is formed in one end, away from the first guiding plate (22), of the second guiding plate (24), one end of the penetrating opening (242) is communicated with the second guiding space (25), and the other end of the penetrating opening (242) faces the receiving box (3).

6. The receiving device of an edible oil bottle blank injection molding machine according to claim 5, characterized in that one side of the guiding ramp (2) is further provided with a guiding channel (7) for guiding the bottle blank (1) to fall into the receiving box (3), the inside of the guiding channel (7) is matched with the bottle blank (1), one end of the guiding channel (7) is communicated with the through opening (242), and the other end of the guiding channel (7) is located above the receiving box (3).

7. The receiving device of the edible oil bottle blank injection molding machine according to claim 1, further comprising a base (6) for positioning and mounting the receiving box (3), wherein the base (6) is provided with a positioning groove (61) matched with the bottom of the receiving box (3), and the receiving box (3) is in an inclined state after being mounted on the base (6).

8. The receiving device of the edible oil bottle blank injection molding machine according to claim 7, wherein a plurality of elastic members (63) having a buffering effect on the bottle blanks (1) are arranged in the positioning grooves (61) of the base (6), and two ends of each elastic member (63) are respectively connected with the receiving box (3) and the base (6).

9. The receiving device of an edible oil bottle blank injection molding machine according to claim 1, wherein the end surface of the guide ramp (2) close to the first guide plate (22) is a cambered surface, and the moving speed of the bottle blank (1) in the blanking process is gradually reduced.

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