CN108750226B - Frame type rapid packaging mechanism for heat insulation material - Google Patents

Abstract

The invention discloses a frame type rapid packaging mechanism for heat insulation materials, which belongs to the field of heat insulation material packaging and comprises two conveying wheel trains, pressing plates and two sleeve frames, wherein the two sleeve frames comprise an upper sleeve frame arranged right above the conveying wheel trains and a lower sleeve frame arranged right below the conveying wheel trains; the two pressing plates comprise an upper pressing plate arranged right above the upper sleeve frame and a lower pressing plate arranged right below the lower sleeve frame. The invention adopts a combined and movable frame structure, realizes the purpose of six-face packaging of the heat insulation material, simplifies the process flow, has high degree of automation, saves the labor cost and improves the production efficiency.

Description

Frame type rapid packaging mechanism for heat insulation material

Technical Field

The invention relates to the field of heat insulation material packaging, in particular to a frame type rapid packaging mechanism for heat insulation materials.

Background

At present, most of cotton cloth packaging processes for square heat insulation materials are manually operated, so that more manpower is required to be input for shift operation in order to meet the yield requirement, the labor intensity is high, and the working environment is severe. In order to reduce labor intensity and improve production efficiency, technical upgrading of the production process is needed to realize the robot substitution.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides a frame type rapid packaging mechanism for thermal insulation materials, which folds cloth through the alternate movement of an upper sleeve frame and a lower sleeve frame, so that the aim of packaging the thermal insulation materials with packaging is fulfilled, the process flow is simplified, and the production efficiency is improved.

The above purpose is realized by the following technical scheme:

a frame-type rapid encapsulation mechanism for thermal insulation material, comprising: the conveying wheel system is used for conveying the cloth subjected to gum dipping and is used for packaging the thermal insulation material to be packaged; the sleeve frame is matched with the shape of the thermal insulation material to be packaged and can be sleeved on the outer side of the thermal insulation material to be packaged; the sleeve frame is driven by a sleeve frame driving system and vertically ascends and descends relative to the conveying wheel train; the pressing plate can be embedded into the inner side of the sleeve frame and matched with the inner wall of the sleeve frame; the pressing plate is driven by a pressing plate driving system and vertically rises and falls relative to the conveying wheel train; the two sleeve frames comprise an upper sleeve frame arranged right above the conveying wheel train and a lower sleeve frame arranged right below the conveying wheel train; the two pressing plates comprise an upper pressing plate arranged right above the upper sleeve frame and a lower pressing plate arranged right below the lower sleeve frame.

Further, the cloth cutting machine further comprises cutting mechanisms, wherein the cutting mechanisms comprise a first cutting mechanism and a second cutting mechanism which are arranged on two sides of the conveying wheel train and used for cutting the width of the cloth, and the cloth cutting machine further comprises a third cutting mechanism which is arranged above the conveying wheel train and perpendicular to the conveying wheel train and used for cutting the length of the cloth.

Further, the lower opening of the upper sleeve frame is conical, so that the thermal insulation material to be packaged can be positioned and guided conveniently.

Further, the conveying wheel trains are symmetrically arranged in two rows, and the space between the conveying wheel trains is adjusted through a space adjusting device.

Further, a cloth clamping device is arranged on the sleeve frame.

Further, a displacement sensor is arranged on the conveying wheel system and used for controlling the length of cloth after the gum dipping is transmitted.

Further, a glue box is arranged at the feeding end of the conveying wheel train.

Further, a glue scraping device is arranged on the glue box.

The working principle of a frame type rapid packaging mechanism for heat insulation materials is as follows: the coiled cloth is conveyed through the conveying wheel train, gum dipping treatment is carried out through the gum box, the cloth which needs gum dipping is required to be subjected to gum scraping treatment in order to prevent excessive gum, then the cloth is tiled in a folding working area through the conveying wheel train, square heat-insulating materials are automatically and accurately positioned through a stacking disc or manually placed on the cloth, meanwhile, the cloth is sheared according to the size of a product, and finally, the cloth is folded through alternate movement of the upper sleeve frame and the lower sleeve frame, so that the packaging purpose is achieved.

Advantageous effects

The frame type rapid packaging mechanism for the heat insulation material, which is manufactured by the technical scheme of the invention, adopts a combined and movable frame type structure, achieves the purpose of six-face packaging of the heat insulation material, simplifies the process flow, has high degree of automation, saves the labor cost and improves the production efficiency.

Drawings

FIG. 1 is a schematic diagram of a frame-type rapid packaging mechanism for thermal insulation materials according to the present invention;

FIG. 2 is a schematic view of a thermal insulation material to be encapsulated for a frame type rapid encapsulation mechanism for thermal insulation material according to the present invention;

FIG. 3 is a schematic view of a semi-closed cavity formed by a lower casing and a lower platen of a frame-type rapid packaging mechanism for thermal insulation materials according to the present invention;

FIG. 4 is a schematic view of a frame type rapid thermal insulation packaging mechanism for thermal insulation materials according to the present invention;

FIG. 5 is a schematic view of a first wrap of a frame type fast encapsulating mechanism for insulation material according to the present invention;

FIG. 6 is a schematic top layer lay-up of a frame-type rapid encapsulation mechanism for thermal insulation materials according to the present invention;

FIG. 7 is a schematic view of a second wrapping of a frame type rapid encapsulation mechanism for insulation material according to the present invention;

fig. 8 is a schematic view of a laying and landing frame of a frame-type rapid packaging mechanism for thermal insulation materials according to the present invention.

Detailed Description

It should be noted that the description of the specific structure and the order of description in this section are merely illustrative of specific embodiments and should not be construed as limiting the scope of the invention in any way. Furthermore, the embodiments in this section and the features in the embodiments may be combined with each other without conflict.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 and 2, a frame type rapid encapsulation mechanism for a thermal insulation material, comprising: the conveying wheel system 1 is used for conveying the cloth 5 subjected to gum dipping and is used for packaging the thermal insulation material 6 to be packaged; the sleeve frame 2 is matched with the shape of the thermal insulation material 6 to be packaged, and can be sleeved on the outer side of the thermal insulation material 6 to be packaged; the sleeve frame 2 is driven by a sleeve frame driving system (not labeled in the figure) to vertically lift and lower relative to the conveying wheel train 1; the pressing plate 3 can be embedded into the inner side of the sleeve frame 2 and is matched with the inner wall of the sleeve frame 2; the pressing plate 3 is driven by a pressing plate driving system 4 and vertically ascends and descends relative to the conveying wheel train 1; the two sleeve frames 2 comprise an upper sleeve frame 2-1 arranged right above the conveying wheel train 1 and a lower sleeve frame 2-2 arranged right below the conveying wheel train 1; the two pressing plates 3 comprise an upper pressing plate 3-1 arranged right above the upper sleeve frame 2-1 and a lower pressing plate 3-2 arranged right below the lower sleeve frame 2-2.

The cutting mechanism comprises a first cutting mechanism and a second cutting mechanism which are arranged on two sides of the conveying wheel train 1 and used for cutting the width of the cloth 5, and a third cutting mechanism which is arranged above the conveying wheel train 1 and used for cutting the length of the cloth 5. In this embodiment, the size of the cloth 5 is cut according to the product model, and the size of the cut cloth should satisfy: S+H is less than or equal to S1 (width) and less than or equal to S+2H and L+H is less than or equal to L1 (length) and less than or equal to L+2H (wherein S1 represents the width of the fabric after cutting, S represents the width of the square heat insulation material, and H represents the thickness of the heat insulation material).

As an optimization of the upper sleeve frame 2-1, the lower opening of the upper sleeve frame 2-1 is conical, so that the positioning and the guiding of the thermal insulation material 6 to be packaged in the working process are facilitated.

The conveying wheel trains 1 are symmetrically arranged in two rows, and the space between the conveying wheel trains is adjusted through a space adjusting device (not labeled in the figure) so as to adapt to the packaging of the thermal insulation materials 6 to be packaged with different specifications.

In order to facilitate the fixing and attaching of the impregnated cloth 5 to the sleeve frame 2, a cloth clamping device (not labeled in the figure) may be provided on the sleeve frame 2.

The size of the cloth 5 needs to be precisely controlled, the size of the cloth can be controlled by components such as a displacement sensor, a grating ruler and the like in the conveying direction, and the size of the cloth in the width direction can be cut on two sides simultaneously by a cutter with the size adjusted in advance, so that the efficiency is improved.

In the device, a glue box (not labeled in the figure) is arranged at the feeding end of the conveying wheel train 1; the glue box is also provided with a glue scraping device (not marked in the figure) for scraping glue on the dipped cloth 5, so that glue can be saved, and the problem that the cloth cannot be smoothly glued with the thermal insulation material 6 to be packaged due to excessive glue is avoided.

Working principle: the packaging process is that the lower sleeve frame 2-2 and the lower pressing plate 3-2 form a semi-closed cavity, the depth of the cavity is consistent with the thickness of the thermal insulation material 6 to be packaged, firstly, cloth 5 is conveyed to the upper part of the semi-closed cavity formed by the lower sleeve frame 2-2 and the lower pressing plate 3-2 through the conveying wheel train 1 (shown in fig. 3), meanwhile, the upper sleeve frame 2-1 is driven to move downwards through a sleeve frame driving system to compress the cloth 5 (shown in fig. 4), the cloth is contacted with or approaches the upper end face of the semi-closed cavity, then, the thermal insulation material 6 to be packaged is placed in the upper sleeve frame (shown in fig. 5) through manual or conveying through a mechanical arm or conveying belt, the thermal insulation material 6 to be packaged can be effectively positioned, meanwhile, cloth 5 is cut through a cutting mechanism (not marked in the drawing), and then the upper pressing plate driving system 4-1 drives the upper pressing plate 3-1 to move downwards (shown in fig. 5), the thermal insulation material 6 to be packaged together with the cloth 5 is pushed to the lower sleeve frame 2-2, the thermal insulation material is tightly contacted with the upper end face of the lower pressing plate 3-2, and the thermal insulation material 6 to be packaged in the four sides of the semi-closed cavity is bound to the cloth, and the thermal insulation material is adhered to the four sides of the thermal insulation material to be packaged 6 can be packaged in the side surfaces, and the thermal insulation material is well has a certain sealing process, and the thermal insulation material is well has a sealing effect and has a sealing effect side surface to be sealed on the side surface and is well sealed, and has a side sealing effect side surface sealing effect and is well sealed; next, the upper casing 2-1 and the upper platen 3-1 move upwards, the conveying wheel system 1 is started again to convey the cloth 5 to the upper side of the thermal insulation material 6 to be packaged, after the cloth 5 is cut by a cutting mechanism (not labeled in the figure), the upper casing 2-1 and the upper platen 3-1 move downwards (as shown in fig. 6-7) to be in contact with the cloth 5, a semi-closed inverted cavity formed by the upper casing 2-1 and the upper platen 3-1 is aligned with the thermal insulation material 6 to be packaged, finally, the lower platen 3-2 moves upwards to push the cloth 5 together with the thermal insulation material 6 to be packaged into the semi-closed inverted cavity formed by the upper casing and the upper platen, four-side edge folding processing (shown in fig. 8) can be performed on the upper cloth 5 in the pushing process, and finally, six-sided edge folding operation of the thermal insulation material is realized.

While the invention has been described with respect to the preferred embodiments, it is to be understood that the invention is not limited thereto, but is capable of modification and substitution within the spirit and scope of the invention as will be apparent to those skilled in the art. Therefore, the protection scope of the present invention should be subject to the claims.

Claims (8)

1. A frame-type rapid encapsulation mechanism for thermal insulation materials, comprising:

the conveying wheel system is used for conveying the cloth after gum dipping and is used for packaging the thermal insulation material to be packaged;

the sleeve frame is matched with the shape of the thermal insulation material to be packaged and can be sleeved on the outer side of the thermal insulation material to be packaged; the sleeve frame is driven by a sleeve frame driving system and vertically ascends and descends relative to the conveying wheel train;

the pressing plate can be embedded into the inner side of the sleeve frame and matched with the inner wall of the sleeve frame; the pressing plate is driven by a pressing plate driving system and vertically rises and falls relative to the conveying wheel train;

the two sleeve frames comprise an upper sleeve frame arranged right above the conveying wheel train and a lower sleeve frame arranged right below the conveying wheel train; the two pressing plates comprise an upper pressing plate arranged right above the upper sleeve frame and a lower pressing plate arranged right below the lower sleeve frame;

the lower sleeve frame and the lower pressing plate form a semi-closed cavity, the depth of the cavity is consistent with the thickness of the thermal insulation material to be packaged, firstly, cloth is conveyed to the position above the semi-closed cavity formed by the lower sleeve frame and the lower pressing plate through the conveying wheel train, and meanwhile, the upper sleeve frame is driven to move downwards through a sleeve frame driving system to press the cloth and is contacted with or close to the upper end face of the semi-closed cavity; then, the thermal insulation material to be packaged is placed in an upper sleeve frame through manual work or through transmission of a mechanical arm or a conveying belt; simultaneously, the cloth is cut through a cutting mechanism, then the upper pressing plate is driven by an upper pressing plate driving system to move downwards, the thermal insulation material to be packaged and the cloth are pushed into a semi-closed cavity formed by the lower sleeve frame and the lower pressing plate together, and four-side edge folding treatment can be carried out on the cloth in the pushing process; next, the upper sleeve frame and the upper pressing plate move upwards, the conveying wheel train is started again to convey the cloth to the position above the thermal insulation material to be packaged, after the cloth is cut by the cutting mechanism, the upper sleeve frame and the upper pressing plate move downwards to be in contact with the cloth, and a semi-closed inverted cavity formed by the upper sleeve frame and the upper pressing plate is aligned with the thermal insulation material to be packaged; and finally, the lower pressing plate moves upwards to push the cloth together with the thermal insulation material to be packaged into a semi-closed inverted cavity formed by the upper cover frame and the upper pressing plate, four sides of the upper cloth are folded in the pushing process, and finally the six sides of the thermal insulation material are operated.

2. The frame type rapid packaging mechanism for thermal insulation materials according to claim 1, further comprising a cutting mechanism, wherein the cutting mechanism comprises a first cutting mechanism and a second cutting mechanism which are arranged on two sides of the conveying wheel train and used for cutting the width of the cloth, and further comprises a third cutting mechanism which is arranged above the conveying wheel train and used for cutting the length of the cloth.

3. The frame type rapid packaging mechanism for thermal insulation materials according to claim 1, wherein the lower opening of the upper sleeve frame is conical, so that the thermal insulation materials to be packaged can be positioned and guided conveniently.

4. The frame type rapid packaging mechanism for thermal insulation materials according to claim 1, wherein the conveying wheel train is symmetrically arranged in two rows, and the distance between the conveying wheel train and the conveying wheel train is adjusted by a distance adjusting device.

5. A quick-acting frame-type packaging mechanism for insulating materials as claimed in claim 1 wherein cloth clamping means are provided on the frame.

6. The frame type rapid packaging mechanism for thermal insulation materials according to claim 1, wherein a displacement sensor is arranged on the conveying wheel system and used for controlling the length of cloth after the gum dipping is transmitted.

7. A frame type rapid encapsulation mechanism for thermal insulation materials according to claim 1, wherein a glue box is provided at the feed end of the transport train.

8. The frame type rapid packaging mechanism for thermal insulation material according to claim 7, wherein a glue scraping device is further arranged on the glue box.