CN219407045U - Plastic sealing device for glass bottle - Google Patents

Abstract

The application relates to a glass bottle plastic sealing device, which comprises a frame, a heat sealing shell, a heating component and a conveying component, wherein the heat sealing shell is arranged on the frame in a crossing way; the heating component can make the plastic film sleeved outside the glass bottle shrink; the conveying assembly comprises a driving motor arranged on the frame, two rotating rollers respectively connected to two ends of the frame in a rotating way, a steel plate conveying belt sleeved on the two rotating rollers, and a plurality of limiting pieces arranged on the steel plate conveying belt at equal intervals along the length direction of the steel plate conveying belt; the driving end of the driving motor is fixedly connected with one of the rotating rollers in a coaxial manner, and the steel plate transmission belt penetrates through the heat sealing shell; the limiting piece comprises an arc limiting plate arranged on the steel plate conveying belt, a plurality of telescopic springs with one ends arranged on the arc limiting plate and an arc bearing plate arranged at the other ends of the telescopic springs. This application has the effect that promotes the protection effect when plastic envelope to the glass bottle.

Description

Plastic sealing device for glass bottle

Technical Field

The application relates to the field of thermoplastic packaging devices, in particular to a glass bottle plastic packaging device.

Background

After the glass bottle production is completed, the glass bottle needs to be packaged, so that the glass bottle is prevented from being scratched in the transportation process. In the prior art, common packaging methods are paper-shell packaging, thermoplastic packaging, foam packaging, and the like.

Thermoplastic packaging often employs a thermoplastic machine. In the packaging process, a layer of plastic film is sleeved on the glass bottle, then the glass bottle sleeved with the plastic film is conveyed to a thermoplastic machine, the thermoplastic machine heats the plastic film, and the plastic film can be attached to the glass bottle after heat shrinkage.

However, during the transport of the vials to the thermoplastic machine, rolling often occurs during transport, as the vials are often cylindrical. Meanwhile, as the conveyor belt has relative displacement between the frames, if the glass bottles are contacted with the frames, the glass bottles roll under the action of the speed difference between the frames and the conveyor belt, so that the adjacent glass bottles collide, and the glass bottles are damaged in the plastic packaging process.

Disclosure of Invention

In order to improve the protection effect when plastic packaging the glass bottle, the application provides a glass bottle plastic packaging device.

The application provides a glass bottle plastic package device adopts following technical scheme:

the glass bottle plastic sealing device comprises a frame, a heat sealing shell, a heating component and a conveying component, wherein the heat sealing shell is arranged on the frame in a crossing mode;

the heating component can enable the plastic film sleeved outside the glass bottle to generate heat shrinkage;

the conveying assembly comprises a driving motor arranged on the frame, two rotating rollers respectively connected to two ends of the frame in a rotating mode, a steel plate conveying belt sleeved on the two rotating rollers, and a plurality of limiting pieces arranged on the steel plate conveying belt at equal intervals along the length direction of the steel plate conveying belt;

the driving end of the driving motor is fixedly connected with one of the rotating rollers in a coaxial manner, and the steel plate transmission belt penetrates through the heat sealing shell;

the limiting piece comprises an arc limiting plate arranged on the steel plate conveying belt, a plurality of telescopic springs with one ends arranged on the arc limiting plate and an arc bearing plate arranged at the other ends of the telescopic springs.

Through adopting above-mentioned technical scheme, when carrying out plastic packaging to the glass bottle, driving motor's drive end drives the live-rollers rotation of connection to make the steel sheet conveyer belt rotate under the cooperation with another live-rollers, the staff only need place the glass bottle on the arc loading board, then a plurality of expansion springs produce elastic deformation release abutment force, and the arc limiting plate supports whole arc loading board and a plurality of expansion springs, thereby accomplishes the spacing to the glass bottle. And then the glass bottle is conveyed into the heat sealing shell under the transmission of the steel plate transmission piece, and the heating component heats to enable the plastic film to generate heat shrinkage, so that the glass bottle is packaged on the glass bottle. In this in-process, the glass bottle is spacing by the arc loading board, can prevent that the glass bottle from removing, consequently can reduce the possibility that adjacent glass bottle produced the collision, and then promotes the protection effect when plastic envelope to the glass bottle.

Optionally, a plurality of the telescopic springs are arranged at equal intervals in a transverse direction.

Through adopting above-mentioned technical scheme, be evenly distributed's extension spring and can carry out even support to the arc loading board to can reduce the arc loading board and produce the possibility of inclining and moving.

Optionally, the feeding device further comprises a feeding assembly; the feeding assembly comprises a communication groove arranged on one side of the frame, a temporary storage groove arranged in the communication groove and a telescopic cylinder arranged on the temporary storage groove;

the telescopic end of the telescopic cylinder can push the glass bottle to the arc-shaped bearing plate through the communication groove.

Through adopting above-mentioned technical scheme, the workman can be with a plurality of glass bottles and arrange on the groove of registering side by side, and flexible end of flexible jar can be in proper order with a plurality of glass bottles butt in the intercommunication groove, then on the glass bottle removes to the arc loading board from the intercommunication groove to can accomplish the material loading to the glass bottle, and then promote the convenience to glass bottle plastic envelope.

Optionally, the feeding assembly further comprises an abutting plate; the abutting plate is arranged on the telescopic end of the telescopic cylinder.

By adopting the technical scheme, the abutting plate can increase the abutting area of the telescopic end of the telescopic cylinder and the glass bottle, so that the abutting force is dispersed as far as possible, and the convenience of abutting is enhanced, and meanwhile, the protection of the glass bottle during abutting can be improved.

Optionally, an elastic layer with elasticity is adhered to the abutting plate.

Through adopting above-mentioned technical scheme, when butt board and glass bottle butt, the elastic layer can produce elastic deformation to carry out buffer release to the butt force, and then further promote the protection to the glass bottle.

Optionally, the elastic layer is made of rubber.

By adopting the technical scheme, the rubber material has good elastic effect, and the manufacturing cost is low, so that the manufacturing cost can be effectively reduced.

Optionally, the communication groove is the slope setting, just the horizontal height that the communication groove is close to frame one end is less than the horizontal height who keeps away from frame one end.

Through adopting above-mentioned technical scheme, when the glass bottle moves to the arc loading board through the intercommunication groove, be the removal that the intercommunication groove of slope can be convenient for the glass bottle, the glass bottle can slowly by the smooth whereabouts of intercommunication groove to the arc loading board.

Optionally, a supporting rod is further arranged at the bottom of the temporary storage groove, and the supporting rod is connected with the rack.

Through adopting above-mentioned technical scheme, the bracing piece can support the groove of keeping in to can promote the steadiness of groove connection of keeping in.

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

1. adjacent glass bottles can not collide due to the limit of the arc-shaped bearing plate, so that the protection effect on plastic packaging of the glass bottles can be improved.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a schematic view of the internal structure of the heat-seal housing in the embodiment of the present application.

Fig. 3 is a diagram showing a connection relationship between a stopper and a steel plate conveyor belt in the embodiment of the present application.

Reference numerals: 1. a frame; 2. a heat-sealed housing; 3. a heating assembly; 31. a fixing member; 311. a heat-resistant fixing plate; 312. a clamping seat; 32. high-temperature shielding cloth; 33. heating pipes; 4. a transport assembly; 41. a driving motor; 42. a steel plate conveying belt; 43. a rotating roller; 44. a limiting piece; 441. an arc limiting plate; 442. an arc-shaped bearing plate; 443. a telescopic spring; 5. a feeding assembly; 51. a temporary storage groove; 511. a support rod; 52. a communication groove; 53. a telescopic cylinder; 54. an abutting plate; 541. an elastic layer.

Detailed Description

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

The embodiment of the application discloses a glass bottle plastic packaging device.

Referring to fig. 1 and 2, a glass bottle molding apparatus includes a frame 1, a heat-sealed housing 2, a heating assembly 3, a conveying assembly 4, and a loading assembly 5. The middle part of frame 1 is striden to heat seal housing 2, and heating element 3 sets up in heat seal housing 2, and conveying element 4 sets up in frame 1 and wears to locate heat seal housing 2, and material loading subassembly 5 sets up in the one end of frame 1.

In the plastic packaging process, firstly, the feeding component 5 can feed the glass bottle sleeved with the plastic film to the conveying component 4, secondly, the conveying component 4 can convey the glass bottle sleeved with the plastic film to the heat sealing shell 2, afterwards, the heating component 3 can attach the plastic film to the glass bottle in a thermoplastic mode, and finally, the glass bottle which is packaged in a plastic mode is conveyed to one end, far away from the feeding component 5, of the frame 1 through the conveying component 4.

Referring to fig. 1 and 2, the heating assembly 3 includes a fixing member 31, two high Wen Zhedang cloths 32, and a plurality of heating pipes 33. The fixing member 31 is fixedly connected to the inner wall of the heat sealing housing 2, the plurality of heating pipes 33 are fixedly connected to the fixing member 31 side by side at equal intervals, and the heating pipes 33 are arranged along the length direction of the heat sealing housing 2. Two ends of the heat sealing shell 2 are respectively provided with a feed inlet and a discharge outlet, one side of one high-temperature shielding cloth 32 is fixedly connected to the edge of one side, far away from the frame 1, of the feed inlet, and one side of the other high Wen Zhedang cloth 32 is fixedly connected to the edge of one side, far away from the frame 1, of the discharge outlet.

When the glass bottle covered with the plastic film is conveyed into the heat seal housing 2, the plurality of heating pipes 33 can cause the plastic film to shrink thermally, so that the plastic film is attached to the outer wall of the glass bottle.

The fixing member 31 includes a heat-resistant fixing plate 311 and a plurality of holders 312. The heat-resistant fixing plate 311 is fixedly connected to the inner wall of the heat-sealed housing 2, the plurality of clamping seats 312 are fixedly connected to two ends of the heat-resistant fixing plate 311, the number of the plurality of clamping seats 312 at the two ends is the same, and the plurality of clamping seats 312 at the single end are arranged at equal intervals. Two ends of the single heating pipe 33 are respectively clamped on clamping seats 312 at two ends of the heat-resistant fixing plate 311.

Referring to fig. 1 and 2, the conveying assembly 4 includes a driving motor 41, a steel plate conveyor belt 42, two rotating rollers 43, and a plurality of stoppers 44. The driving motor 41 is fixedly connected to one side of one end of the frame 1, one of the rotating rollers 43 is coaxially and fixedly connected to the driving end of the driving motor 41, and the rotating roller 43 is rotatably connected to the frame 1 along the width direction of the frame 1. The other rotating roller 43 is rotatably connected to the other end of the frame 1 away from the driving motor 41 in the width direction of the frame 1. The steel plate conveying belt 42 is sleeved on the two rotating rollers 43, and the steel plate conveying belt 42 penetrates through the heat seal housing 2 along the length direction of the heat seal housing 2. A plurality of stoppers 44 are provided at equal intervals on a side of the steel plate conveyor belt 42 remote from the rotating roller 43.

Referring to fig. 1 and 3, the limiter 44 includes an arc-shaped limiting plate 441, an arc-shaped carrier plate 442, and a plurality of expansion springs 443. The middle part of the outer wall of the arc-shaped limiting plate 441 is fixedly connected to the steel plate of the steel plate conveying belt 42, and one ends of the plurality of telescopic springs 443 are fixedly connected to the inner wall of the arc-shaped limiting plate 441. The outer wall of the arc-shaped bearing plate 442 is fixedly connected to the other ends of the plurality of expansion springs 443, and the plurality of expansion springs 443 are arranged at equal intervals.

When the feeding assembly 5 feeds the plastic film coated glass bottle onto the arc-shaped bearing plate 442, the plurality of expansion springs 443 can generate self-adaptive elastic deformation, thereby reducing the impact force. Then, the steel plate conveying belt 42 can drive the arc limiting plate 441 to move, so that the glass bottle sleeved with the plastic film is supported and transported through the arc limiting plate 441, the arc bearing plate 442 and the plurality of telescopic springs 443.

Referring to fig. 1 and 3, the loading assembly 5 includes a temporary storage groove 51, a communication groove 52, a telescopic cylinder 53, and an abutting plate 54. One end of the communicating groove 52 is fixedly connected to one side of the frame 1, and the communicating groove 52 faces the steel plate conveying belt 42 positioned at one end of the heat seal housing 2 near the feed inlet. One side of the temporary storage groove 51 is fixedly connected to the end face of the other end of the communication groove 52, and the temporary storage groove 51 is communicated with the communication groove 52.

The telescopic cylinder 53 is fixedly connected to one side, far away from the communication groove 52, of the temporary storage groove 51, the length extending direction of the telescopic end of the telescopic cylinder 53 is consistent with the length direction of the communication groove 52, and the telescopic end of the telescopic cylinder 53 can extend into the communication groove 52. The abutting plate 54 is fixedly connected to the telescopic end portion of the telescopic cylinder 53. When the plastic film coated glass bottles are placed in the communicating groove 52 side by side, the telescopic cylinder 53 can be telescopic to enable the plastic film coated glass bottles to be abutted on the arc-shaped bearing plate 442 through the communicating groove 52.

An elastic layer 541 is adhered to a side of the abutting plate 54 away from the telescopic cylinder 53, and when the telescopic end of the telescopic cylinder 53 drives the abutting plate 54 to abut against the glass bottle sleeved with the plastic film, the abutting position can be buffered, so that the possibility of damage to the glass bottle is reduced. In this embodiment, the elastic layer 541 is made of rubber, and in other embodiments, the elastic layer 541 may be made of sponge.

Meanwhile, the communicating groove 52 is obliquely arranged, and the horizontal height of one end of the communicating groove 52 close to the frame 1 is lower than that of one end far away from the frame 1, so that the glass bottle can be moved conveniently. The bottom of the temporary storage groove 51 is fixedly connected with a supporting rod 511, and the supporting rod 511 is fixedly connected to the frame 1, so that the temporary storage groove 51 is supported, and the stability of the temporary storage groove 51 is improved.

The implementation principle of the glass bottle plastic packaging device provided by the embodiment of the application is as follows: when the glass bottle is packaged by plastic package, a worker firstly discharges the glass bottle into the temporary storage groove 51, the telescopic end of the telescopic cylinder 53 drives the abutting plate 54 to abut the glass bottle, so that the glass bottle is abutted on the arc-shaped bearing plate 442 through the communication groove 52, then is transmitted into the heat seal shell 2 through the steel plate transmission belt 42 under the limit of the arc-shaped bearing plate 442, and finally, the plastic film sleeved on the glass bottle is subjected to heat shrinkage through the heating pipe 33, so that the plastic package is completed. In this process, adjacent glass bottles can not collide due to the limitation of the arc-shaped bearing plate 442, so that the protection effect on the glass bottles during plastic packaging can be improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a glass bottle plastic envelope device which characterized in that: comprises a frame (1), a heat seal shell (2) which is spanned on the frame (1), a heating component (3) which is arranged in the heat seal shell (2) and a conveying component (4) which is arranged on the frame (1);

the heating component (3) can make the plastic film sleeved outside the glass bottle shrink;

the conveying assembly (4) comprises a driving motor (41) arranged on the frame (1), two rotating rollers (43) respectively connected to two ends of the frame (1) in a rotating mode, a steel plate conveying belt (42) sleeved on the two rotating rollers (43) and a plurality of limiting pieces (44) arranged on the steel plate conveying belt (42) at equal intervals along the length direction of the steel plate conveying belt (42);

the driving end of the driving motor (41) is fixedly connected with one rotating roller (43) in a coaxial way, and the steel plate transmission belt (42) penetrates through the heat sealing shell (2);

the limiting piece (44) comprises an arc limiting plate (441) arranged on the steel plate conveying belt (42), a plurality of telescopic springs (443) with one ends arranged on the arc limiting plate (441) and an arc bearing plate (442) arranged at the other ends of the telescopic springs (443).

2. The glass bottle plastic packaging device according to claim 1, wherein: the plurality of expansion springs (443) are arranged at equal intervals in the transverse direction.

3. The glass bottle plastic packaging device according to claim 1, wherein: the feeding device also comprises a feeding assembly (5); the feeding assembly (5) comprises a communication groove (52) arranged on one side of the frame (1), a temporary storage groove (51) arranged in the communication groove (52) and a telescopic cylinder (53) arranged on the temporary storage groove (51);

the telescopic end of the telescopic cylinder (53) can push the glass bottle to the arc-shaped bearing plate (442) from the communication groove (52).

4. A glass bottle molding apparatus according to claim 3, wherein: the feeding assembly (5) further comprises an abutting plate (54); the abutting plate (54) is arranged on the telescopic end of the telescopic cylinder (53).

5. The glass bottle plastic packaging device according to claim 4, wherein: an elastic layer (541) having elasticity is bonded to the abutting plate (54).

6. The glass bottle plastic packaging device according to claim 5, wherein: the elastic layer (541) is made of rubber.

7. The glass bottle plastic packaging device according to claim 4, wherein: the communication groove (52) is obliquely arranged, and the horizontal height of one end of the communication groove (52) close to the frame (1) is lower than that of one end far away from the frame (1).

8. The glass bottle plastic packaging device according to claim 4, wherein: the bottom of the temporary storage groove (51) is also provided with a supporting rod (511), and the supporting rod (511) is connected with the frame (1).