CN218343885U - Thermal shrinkage film machine ejection of compact structure - Google Patents

Abstract

The application discloses thermal shrinkage film machine ejection of compact structure relates to thermal shrinkage film machine ejection of compact technical field for solve the storage bottle that sends out through material feeding unit among the prior art, directly drop in recovery unit, damage the storage bottle like this easily, thereby influence the technical problem to storage bottle plastic envelope effect. The device comprises a heat shrinkage film machine body, a first buffer ladder, a first collecting frame and a first buffer piece; the first buffer ladder is arranged at the tail end of the feeding device of the heat shrinkage film machine body, is obliquely arranged and is used for buffering the plastic-packaged material bottle; the first collecting frame is arranged below the tail end of the first buffer ladder and is used for collecting the material bottles after being subjected to plastic packaging; the first buffer is disposed within the first collection frame. Through above-mentioned technical scheme, the storage bottle after twice buffering can not with the direct striking of collection frame to be difficult to damage the storage bottle, and then can improve the plastic envelope effect to the storage bottle.

Description

Thermal shrinkage film machine ejection of compact structure

Technical Field

The application relates to a thermal shrinkage film machine ejection of compact technical field especially relates to a thermal shrinkage film machine ejection of compact structure.

Background

After the food is filled into the material bottle, the material bottle needs to be subjected to plastic packaging so as to protect the sticker, the code or other information on the surface of the material bottle. The material bottle is usually subjected to plastic packaging in a heat shrinkage film mode, and a heat shrinkage film machine is required for the plastic packaging of the material bottle.

Thermal shrinkage film machine among the prior art includes the frame, loading attachment, material feeding unit and heating device, the storage bottle of cover membrane is sent into material feeding unit from material feeding unit, heat through heating device and realize the thermal shrinkage film, then send out by material feeding unit, accomplish the thermal shrinkage film of storage bottle, this thermal shrinkage film machine is through the setting of material loading case and material loading hopper, can improve material loading speed, guarantee the steady material loading of storage bottle, thereby improve production efficiency.

However, the material bottle sent out by the feeding device directly falls into the recovery device, so that the material bottle is easily damaged, and the plastic packaging effect on the material bottle is influenced.

SUMMERY OF THE UTILITY MODEL

The main aim at of this application provides a pyrocondensation membrane machine ejection of compact structure aims at solving the storage bottle that sees off through material feeding unit among the prior art, directly drops in recovery unit, damages the storage bottle like this easily to influence the technical problem to storage bottle plastic envelope effect.

In order to realize above-mentioned purpose, this application provides a pyrocondensation membrane machine ejection of compact structure, includes: a heat shrinking film machine body;

the first buffer ladder is arranged at the tail end of the feeding device of the heat shrinkage film machine body, is obliquely arranged and is used for buffering the plastic-packaged material bottle;

the first collecting frame is arranged below the tail end of the first buffer ladder and is used for collecting the material bottles after plastic packaging;

the first buffer piece is arranged in the first collecting frame and used for buffering the material bottle after being subjected to plastic packaging.

Optionally, the first buffer ladder comprises a ladder frame and a plurality of buffer rollers, and the plurality of buffer rollers are uniformly arranged along the length direction of the ladder frame through bearings respectively;

and a screening gap is arranged between every two adjacent buffer rollers and used for screening the material bottles after plastic packaging.

Optionally, the first buffer ladder is hinged to the heat shrinking film machine body through a first hinge assembly;

still install first extensible member between pyrocondensation membrane machine body with first buffering ladder, first extensible member is used for adjusting the inclination of first buffering ladder.

Optionally, the first hinge assembly includes two first hinge plates mounted on the heat shrinkage film machine body, a first hinge shaft is mounted between the two first hinge plates through a bearing, and the first buffer ladder is connected with the first hinge shaft.

Optionally, the first telescopic part includes a first telescopic cylinder installed on the heat shrinkage film machine body, and a piston rod of the first telescopic cylinder is hinged to the first buffer ladder.

Optionally, a second buffer ladder located below the first buffer ladder is further mounted on the film heat shrinkage machine body, the second buffer ladder is arranged in an inclined manner, and the second buffer ladder is used for buffering the material bottles falling from the screening gap;

and a second collecting frame is further arranged below the tail end of the second buffer ladder and used for collecting the material bottles after plastic packaging.

Optionally, a second buffer member is arranged in the second collecting frame and used for buffering the material bottle after plastic packaging.

Optionally, the second buffer ladder is hinged to the heat shrinking film machine body through a second hinge assembly;

and a second telescopic piece is further installed between the heat shrinkage film machine body and the second buffer ladder and is used for adjusting the inclination angle of the second buffer ladder.

Optionally, the second hinge assembly includes two second hinge plates mounted on the heat shrinkage film machine body, a second hinge shaft is mounted between the two second hinge plates through a bearing, and the second buffer ladder is connected with the second hinge shaft.

Optionally, the first buffer member includes a first buffer rope, the second buffer member includes a second buffer rope, and the number of the first buffer rope and the number of the second buffer rope are both multiple.

Through above-mentioned technical scheme, the beneficial effect that this application can realize at least as follows:

the application provides a discharging structure of a heat shrinkage film machine, which comprises a heat shrinkage film machine body, a first buffer ladder, a first collecting frame and a first buffer piece; the first buffer ladder is arranged at the tail end of the feeding device of the thermal film shrinking machine body, is obliquely arranged and is used for buffering the material bottle after plastic packaging; the first collecting frame is arranged below the tail end of the first buffer ladder and is used for collecting the material bottles after being subjected to plastic packaging; the first buffer piece is arranged in the first collecting frame and used for buffering the material bottle after being subjected to plastic packaging.

Namely, when the material bottle after being plastic-encapsulated is carried first buffering ladder department by material feeding unit, under the effect of material bottle self inertia and gravity, the material bottle can drop on first buffering ladder, because first buffering ladder slope sets up, consequently, the material bottle that drops on first buffering ladder can be in the first collection frame of the gentle roll of effect of self gravity down, the material bottle is at the in-process that drops in the first collection frame, the material bottle can drop on the first bolster, first bolster can play the effect of buffering to the material bottle, avoid the material bottle directly to drop in the first collection frame, thereby can reduce the damage degree to the material bottle. Namely, as the first buffer ladder is arranged between the heat shrinkage film machine body and the first collecting frame, the first buffer ladder can buffer the material bottle for one time; because be provided with first bolster in first collection frame, first bolster can carry out the secondary buffering to the storage bottle that gets into in the first collection frame. Consequently, can be through twice buffering from the material bottle between thermal shrinkage membrane machine body to the collection frame, the material bottle after twice buffering can not directly strike with the collection frame to be difficult to damage the material bottle, and then can improve the plastic envelope effect to the material bottle.

Drawings

In order to more clearly illustrate the detailed description of the present application or the technical solutions in the prior art, the drawings that are needed in the detailed description of the present application or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic front sectional structure view of a discharge structure of a thermal shrinkage film machine provided in this embodiment;

FIG. 2 is a schematic top view of the first buffer ladder of the present embodiment;

FIG. 3 is a schematic top view of the second buffer ladder of the present embodiment;

FIG. 4 is a schematic top view of the first collecting frame provided in this embodiment;

FIG. 5 is a schematic front view, partially in section, of the present embodiment showing a first hinge assembly and a second hinge assembly.

Reference numerals are as follows: 1. a heat shrinkable film machine body; 2. a first hinge assembly; 21. a first hinge plate; 22. a first hinge shaft; 3. a first telescoping member; 31. a first telescopic cylinder; 4. a second hinge assembly; 41. a second hinge plate; 42. a second hinge shaft; 5. a second telescoping member; 51. a second telescopic cylinder; 6. a first buffer ladder; 61. a ladder frame; 62. a buffer roller; 7. a second buffer ladder; 8. a second buffer member; 9. a second collection frame; 10. a first buffer member; 11. a first collection frame; 12. and (6) screening the gaps.

The implementation, functional features and advantages of the objectives of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

In this application, unless expressly stated or limited otherwise, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present application, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout includes three juxtapositions, exemplified by "A and/or B", including either A or B or both A and B. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope claimed in the present application.

In order to solve the above technical problems, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only a part of the embodiments of the present application, and not all embodiments.

As shown in fig. 1-2, the present embodiment provides a discharging structure of a thermal film shrinking machine, including a thermal film shrinking machine body 1, a first buffer ladder 6, a first collecting frame 11 and a first buffer 10; the first buffer ladder 6 is arranged at the tail end of the feeding device of the thermal film shrinking machine body 1, the first buffer ladder 6 is obliquely arranged, and the first buffer ladder 6 is used for buffering the material bottles after plastic packaging; the first collecting frame 11 is arranged below the tail end of the first buffer ladder 6, and the first collecting frame 11 is used for collecting the material bottles after being molded; the first buffering member 10 is arranged in the first collecting frame 11, and the first buffering member 10 is used for buffering the material bottle after plastic packaging.

In this embodiment, when the material bottle after being plastically packaged is carried first buffering ladder 6 by material feeding unit, under the effect of material bottle self inertia and gravity, the material bottle can drop on first buffering ladder 6, because first buffering ladder 6 slope sets up, consequently, the material bottle that drops on first buffering ladder 6 can be in first collection frame 11 of the slow roll under the effect of self gravity, the material bottle is at the in-process that drops in first collection frame 11, the material bottle can drop on first bolster 10, first bolster 10 can play the effect of buffering to the material bottle, avoid the material bottle directly to drop in first collection frame 11, thereby can reduce the damage degree to the material bottle. Namely, as the first buffer ladder 6 is arranged between the thermal film shrinkage machine body 1 and the first collecting frame 11, the first buffer ladder 6 can buffer the material bottle for the first time; since the first buffer member 10 is disposed in the first collecting frame 11, the first buffer member 10 can perform secondary buffering on the material bottles entering the first collecting frame 11. Consequently, can be through twice buffering from thermal shrinkage film machine body 1 material bottle between collection frame, the material bottle after twice buffering can not directly strike with the collection frame to be difficult to damage the material bottle, and then can improve the plastic envelope effect to the material bottle.

In order to classify and collect material bottles with different sizes, in some embodiments, as shown in fig. 1-2, the following technical solutions are provided: the first buffer ladder 6 comprises a ladder frame 61 and a plurality of buffer rollers 62, wherein the buffer rollers 62 are uniformly arranged along the length direction of the ladder frame 61 through bearings respectively; two adjacent be equipped with screening clearance 12 between buffer roll 62, screening clearance 12 is used for screening behind the plastic envelope the material bottle.

In this embodiment, when the material bottle arrives at the buffer roller 62, friction is generated between the material bottle and the buffer roller 62, and the material bottle can rotate the buffer roller 62, so that rolling friction is generated between the material bottle and the buffer roller 62, and the material bottle can more conveniently drop into the first collecting frame 11 from the first buffer ladder 6. Meanwhile, due to the fact that the screening gap 12 is formed between the two adjacent buffer rollers 62, if the diameter of each material bottle is smaller than the screening gap 12, the corresponding material bottle can fall from the screening gap 12, the material bottle with the diameter larger than the screening gap 12 can continue to fall into the first collecting frame 11 from the first buffer ladder 6, and certainly, part of the material bottles with the diameters smaller than the screening gap 12 can also slide into the first collecting frame 11 through the first buffer ladder 6 due to the inertia effect of the material bottles. Nevertheless, partial bottles can be classified through the screening gap 12, so that bottles of different sizes can be classified and collected.

In order to make the first buffer ladder 6 more convenient for buffer collection of material bottles, in some embodiments, as shown in fig. 1-2, the following technical solutions are provided: the first buffer ladder 6 is hinged with the heat shrinkable film machine body 1 through a first hinge assembly 2; a first telescopic part 3 is further arranged between the heat shrinkage film machine body 1 and the first buffer ladder 6, and the first telescopic part 3 is used for adjusting the inclination angle of the first buffer ladder 6; the first hinge assembly 2 comprises two first hinge plates 21 arranged on the film heat-shrinking machine body 1, a first hinge shaft 22 is arranged between the two first hinge plates 21 through a bearing, and the first buffer ladder 6 is connected with the first hinge shaft 22; the first telescopic piece 3 comprises a first telescopic cylinder 31 installed on the heat shrink film machine body 1, and a piston rod of the first telescopic cylinder 31 is hinged to the first buffer ladder 6.

In this embodiment, the first telescopic cylinder 31 is a conventional cylinder, and the circuit connection, the operation principle, and the installation method thereof are known to those skilled in the art. When first buffering ladder 6 is adjusted to needs, for first telescopic cylinder 31 circular telegram, it is flexible that first telescopic cylinder 31 drives its piston rod after the circular telegram, and when first telescopic cylinder 31's piston rod was flexible, it rotates around first articulated shaft 22 to drive first buffering ladder 6, when first buffering ladder 6 rotates around first articulated shaft 22, can adjust the inclination of first buffering ladder 6 to can adjust the cushioning degree to the storage bottle, and falling speed.

In order to facilitate the recovery of the bottles falling from the screening gap 12, in some embodiments, as shown in fig. 1 to 5, the following solutions are provided: the heat-shrinkable film machine body 1 is also provided with a second buffer ladder 7 positioned below the first buffer ladder 6, the second buffer ladder 7 is obliquely arranged, and the second buffer ladder 7 is used for buffering the material bottles falling from the screening gap 12; and a second collecting frame 9 is further arranged below the tail end of the second buffer ladder 7, and the second collecting frame 9 is used for collecting the material bottles after plastic packaging.

In this embodiment, after the material bottle falls to second buffering ladder 7 from screening clearance 12, because second buffering ladder 7 slope sets up, consequently under the effect of material bottle self gravity, the material bottle can drop to the direction of second collection frame 9 along second buffering ladder 7, in the material bottle falls to second collection frame 9, so can play the cushioning effect to the material bottle that the screening was come out.

In some embodiments, in order to further improve the buffering effect on the material bottles falling from the sieving gap 12, as shown in fig. 1, in some embodiments, the following technical solutions are provided: and a second buffer member 8 is arranged in the second collecting frame 9, and the second buffer member 8 is used for buffering the material bottle after being subjected to plastic packaging.

In this embodiment, when the material bottle fell in the second collection frame 9, the material bottle can contact with second bolster 8, and second bolster 8 can play the effect of further buffering to the material bottle to can further improve the buffering effect to the material bottle. The first buffer member 10 comprises a first buffer rope, the second buffer member 8 comprises a second buffer rope, and the number of the first buffer rope and the second buffer rope is multiple; the buffering effect to the material bottle can be further improved to a plurality of first buffering ropes and a plurality of second buffering ropes to further improvement can be to the plastic envelope effect of material bottle.

In order to facilitate the adjustment of the angle of the second buffer ladder 7, in some embodiments, as shown in fig. 1-5, the following solutions are given: the second buffer ladder 7 is hinged with the heat shrinkable film machine body 1 through a second hinge assembly 4; a second telescopic piece 5 is further installed between the film heat shrinkage machine body 1 and the second buffer ladder 7, and the second telescopic piece 5 is used for adjusting the inclination angle of the second buffer ladder 7; the second hinge assembly 4 comprises two second hinge plates 41 arranged on the heat shrinkage film machine body 1, a second hinge shaft 42 is arranged between the two second hinge plates 41 through a bearing, and the second buffer ladder 7 is connected with the second hinge shaft 42.

In this embodiment, the second telescopic member 5 includes a second application cylinder, the second telescopic cylinder 51 is a conventional cylinder, and the circuit connection, the working principle, the installation manner, and the like of the second telescopic cylinder are known to those skilled in the art. When the second buffering ladder 7 needs to be adjusted, the second telescopic cylinder 51 is electrified to drive the piston rod thereof to stretch, when the piston rod of the second telescopic cylinder 51 stretches, the second buffering ladder 7 is driven to rotate around the second hinge shaft 42, when the second buffering ladder 7 rotates around the second hinge shaft 42, the inclination angle of the second buffering ladder 7 can be adjusted, so that the buffering degree of a material bottle falling from the sieving gap 12 and the falling speed can be adjusted.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are included in the scope of the present application.

Claims (10)

1. The utility model provides a thermal shrinkage film machine ejection of compact structure which characterized in that includes:

a heat shrinkable film machine body (1);

the first buffer ladder (6) is mounted at the tail end of the feeding device of the heat shrinkage film machine body (1), the first buffer ladder (6) is obliquely arranged, and the first buffer ladder (6) is used for buffering the material bottle after plastic packaging;

the first collecting frame (11), the first collecting frame (11) is installed below the tail end of the first buffer ladder (6), and the first collecting frame (11) is used for collecting the material bottles after being molded;

first bolster (10), first bolster (10) set up in first collection frame (11), first bolster (10) are used for after to the plastic envelope the material bottle cushions.

2. The film thermal shrinkage machine discharging structure according to claim 1, wherein the first buffer ladder (6) comprises a ladder frame (61) and a plurality of buffer rollers (62), and the plurality of buffer rollers (62) are respectively and uniformly arranged along the length direction of the ladder frame (61) through bearings;

two adjacent be equipped with screening clearance (12) between buffer roll (62), screening clearance (12) are used for screening behind the plastic envelope the material bottle.

3. The discharging structure of the heat shrinking film machine according to claim 2, characterized in that the first buffer ladder (6) is hinged with the heat shrinking film machine body (1) through a first hinge assembly (2);

still install first extensible member (3) between pyrocondensation membrane machine body with first buffering ladder (6), first extensible member (3) are used for adjusting the inclination of first buffering ladder (6).

4. The film heat-shrinking machine discharging structure according to claim 3, characterized in that the first hinge assembly (2) comprises two first hinge plates (21) installed on the film heat-shrinking machine body (1), a first hinge shaft (22) is installed between the two first hinge plates (21) through a bearing, and the first buffer ladder (6) is connected with the first hinge shaft (22).

5. The film thermal shrinkage machine discharging structure according to claim 3, wherein the first telescopic member comprises a first telescopic cylinder (31) installed on the film thermal shrinkage machine body (1), and a piston rod of the first telescopic cylinder (31) is hinged with the first buffer ladder (6).

6. The discharging structure of the heat shrinking film machine according to claim 2, characterized in that a second buffer ladder (7) is further installed on the heat shrinking film machine body (1) and located below the first buffer ladder (6), the second buffer ladder (7) is arranged in an inclined manner, and the second buffer ladder (7) is used for buffering the material bottles falling from the sieving gap (12);

and a second collecting frame (9) is further arranged below the tail end of the second buffer ladder (7), and the second collecting frame (9) is used for collecting the material bottles after plastic packaging.

7. The film thermal shrinkage machine discharging structure according to claim 6, wherein a second buffering member (8) is arranged in the second collecting frame (9), and the second buffering member (8) is used for buffering the material bottle after being molded.

8. The discharging structure of the heat shrinking film machine according to claim 6, characterized in that the second buffer ladder (7) is hinged with the heat shrinking film machine body (1) through a second hinge assembly (4);

still install second extensible member (5) between pyrocondensation membrane machine body (1) with second buffering ladder (7), second extensible member (5) are used for adjusting the inclination of second buffering ladder (7).

9. The film heat-shrinking machine discharging structure according to claim 8, characterized in that the second hinge assembly (4) comprises two second hinge plates (41) installed on the film heat-shrinking machine body (1), a second hinge shaft (42) is installed between the two second hinge plates (41) through a bearing, and the second buffer ladder (7) is connected with the second hinge shaft (42).

10. The film heat-shrinking machine discharging structure according to claim 7, wherein the first buffer member (10) comprises a first buffer rope, the second buffer member (8) comprises a second buffer rope, and the number of the first buffer rope and the second buffer rope is multiple.

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