A portable plastic packaging machine

By introducing a battery assembly and a flexible support mechanism into the sealing machine, combined with the design of a T-shaped plate and T-shaped holes, the problems of insufficient portability and stability of traditional sealing machines are solved. This enables portable operation and stable installation without the need for a fixed power supply, improving the flexibility and safety of the equipment.

CN224466285UActive Publication Date: 2026-07-07RISHENG LONGSHAN (TIANJIN) PACKAGING EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
RISHENG LONGSHAN (TIANJIN) PACKAGING EQUIP CO LTD
Filing Date
2025-09-10
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional laminators are not portable, are inconvenient to install and disassemble, lack stability, and require a fixed power supply, which limits their application scenarios and flexibility and poses safety hazards.

Method used

A plastic sealing machine comprising a housing, a lifting groove, a lifting plate, an elastic support mechanism, and a battery assembly was designed. It is powered by a power interface and, in combination with the cooperation of a T-shaped plate and a T-shaped hole, utilizes an elastic support mechanism and a guiding mechanism to ensure the stability of the equipment and achieve portable operation.

Benefits of technology

It enables operation without a fixed power supply, improving the application range and flexibility of the equipment, ensuring the stability and safety of the equipment during transportation, and avoiding malfunctions or damage caused by loosening.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to plastic packaging machine technical field, concretely is a kind of portable plastic packaging machine, including shell, operation groove is set up on the shell, the bottom of operation groove is equipped with heater, lifting groove is set up between the top of shell and operation groove, lifting plate is equipped on lifting groove, elastic support mechanism is equipped between lifting plate and lifting groove, T-shaped slot is set up in one side of lifting groove, T-shaped plate is equipped between lifting plate and T-shaped slot, installation slot is set up between the one side of shell and lifting groove, installation box is equipped on installation slot, T-shaped hole is set up on installation box, T-shaped plate extends into T-shaped hole, battery assembly is equipped in the inside of installation box, T-shaped plate and T-shaped hole pass through cooperation elastic support mechanism to ensure the stability of installation box in installation slot, prevent it from loosening or accidental disengagement in the handling process, improve the security and reliability of use.
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Description

Technical Field

[0001] This utility model relates to the field of laminating machine technology, specifically to a portable laminating machine. Background Technology

[0002] As is well known, traditional laminator operations have several limitations and inconveniences. These problems mainly focus on the portability of the equipment, the ease of installation and disassembly, and the stability during use. Most traditional laminators require a fixed power supply to operate, which not only limits their application scenarios but also reduces their flexibility. For example, in locations without power outlets or in work scenarios where the laminator needs to be moved frequently, this dependence becomes a significant drawback. To facilitate maintenance or replacement of components such as batteries or other critical parts, traditional laminators are often designed with relatively complex installation and disassembly procedures. This not only increases the user's learning curve but may also lead to component damage due to improper operation. Furthermore, the lack of an effective quick-locking mechanism makes each installation or disassembly time-consuming and laborious. In practical use, especially during the handling or carrying of the laminator, the lack of sufficient securing measures can easily cause the battery compartment to loosen or even detach from its mounting slot. This not only affects work efficiency but may also create safety hazards. For example, during outdoor operations or transportation, if the battery compartment is not kept stable, it may cause damage to connectors or other components. Therefore, it is necessary to propose solutions to this technical problem. Utility Model Content

[0003] (a) Technical problems to be solved

[0004] In view of the shortcomings of the existing technology, this utility model provides a portable laminator.

[0005] (II) Technical Solution

[0006] To achieve the above objectives, this utility model provides the following technical solution: a portable sealing machine, comprising a housing, an operating groove on the housing, a heater at the bottom of the operating groove, a lifting groove between the top of the housing and the operating groove, a lifting plate on the lifting groove, an elastic support mechanism between the lifting plate and the lifting groove, a T-shaped groove on one side of the lifting groove, a T-shaped plate between the lifting plate and the T-shaped groove, an installation groove between one side of the housing and the lifting groove, an installation box on the installation groove, a T-shaped hole on the installation box, the T-shaped plate extending into the T-shaped hole, a battery assembly inside the installation box, a power interface on the outside of the installation box, a control panel at the top of the housing, a wire connector at the bottom of the control panel, a wire interface between the installation box and the wire connector, and a transmission line between the wire connector and the heater.

[0007] Furthermore, the present invention is improved in that the elastic support mechanism includes a support groove and a connecting plate. The support groove is formed inside the housing. A through groove is formed between the support groove, the lifting groove, and the operating groove. The connecting plate is located in the support groove and connected to the lifting plate. An elastic component is provided between the top end of the connecting plate and the top end of the support groove. A guide mechanism is provided between the connecting plate and the support groove.

[0008] Furthermore, the present invention is improved in that the guiding mechanism includes a guide hole and a guide block, the guide hole is opened on one side of the support groove, and the guide block is located in the guide hole and connected to the connecting plate.

[0009] Furthermore, the present invention is improved in that both the guide hole and the guide block are T-shaped structures.

[0010] Furthermore, the present invention is improved by providing handles on the top of the lifting plate and on the outside of the mounting box.

[0011] Furthermore, the present invention is improved in that the elastic component is provided in two parts and arranged symmetrically.

[0012] Furthermore, an improvement of this utility model is that the elastic component is an alloy spring.

[0013] Furthermore, an improvement of this utility model is that the control panel is a touch screen.

[0014] (III) Beneficial Effects

[0015] Compared with the prior art, this utility model provides a portable laminator with the following features:

[0016] Beneficial effects:

[0017] This portable laminator, with its built-in battery that can be charged via a power interface, eliminates the need for a fixed power outlet. It can operate conveniently indoors, outdoors, or anywhere without external power, greatly expanding its application range and flexibility. The T-shaped plate and T-hole, working together with an elastic support mechanism, ensure the stability of the mounting box within the mounting slot, preventing loosening or accidental detachment during transport and enhancing safety and reliability. The T-shaped plate will not leave the T-hole unless the lifting plate is moved to its extreme position, ensuring the mounting box remains stable even under vibration or other external forces, avoiding equipment malfunctions or damage due to loosening. Attached Figure Description

[0018] Figure 1This is a schematic diagram of the structure of the present utility model. Figure 1 ;

[0019] Figure 2 This is a schematic diagram of the structure of the present utility model. Figure 2 ;

[0020] Figure 3 This is a front half-sectional view of the structure of this utility model;

[0021] Figure 4 This is a top half-sectional view of the structure of this utility model.

[0022] In the diagram: 1. Housing; 2. Operating slot; 3. Heater; 4. Lifting plate; 5. T-shaped plate; 6. Mounting box; 7. T-shaped hole; 8. Battery assembly; 9. Power interface; 10. Control panel; 11. Line connector; 12. Line interface; 13. Transmission line; 14. Connecting plate; 15. Elastic component; 16. Guide block; 17. Handle. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] Please see Figure 1-4This utility model relates to a portable laminator, comprising a housing 1, an operating groove 2 on the housing 1, a heater 3 at the bottom of the operating groove 2, a lifting groove between the top of the housing 1 and the operating groove 2, a lifting plate 4 on the lifting groove, an elastic support mechanism between the lifting plate 4 and the lifting groove, a T-shaped groove on one side of the lifting groove, a T-shaped plate 5 between the lifting plate 4 and the T-shaped groove, an installation groove between one side of the housing 1 and the lifting groove, an installation box 6 on the installation groove, a T-shaped hole 7 on the installation box 6, and the T-shaped plate 5 extending from the installation box 6. The battery assembly 8 is located inside the mounting box 6, which is connected to the T-shaped hole 7. A power interface 9 is located on the outside of the mounting box 6. A control panel 10 is located at the top of the housing 1, and a wiring connector 11 is located at the bottom of the control panel 10. A wiring interface 12 is located between the mounting box 6 and the wiring connector 11. A transmission line 13 is located between the wiring connector 11 and the heater 3. In this embodiment, personnel can easily charge the battery assembly 8 inside the mounting box 6 through the power interface 9. After fully charging, by lifting the lifting plate 4, the lifting plate 4 moves linearly upward in the lifting groove, thereby causing the lifting plate 4 to drive the T-shaped plate 5. Move the T-shaped plate 5 so that its bottom end leaves the mounting slot, then insert the mounting box 6 into the mounting slot. At this time, the wiring interface 12 of the mounting box 6 is directly aligned with and inserted into the wiring connector 11. The T-shaped hole 7 of the mounting box 6 is located below the T-shaped plate 5. Release the lifting plate 4. The downward elastic support force generated by the elastic support mechanism on the lifting plate 4 allows the lifting plate 4 to move downward. The lifting plate 4 abuts against the heater 3 of the operating slot 2. At this time, the T-shaped plate 5 is located in the T-shaped hole 7, preventing the mounting box 6 from loosening and falling out of the mounting slot. When it is necessary to seal the item, the heater 3 is powered by the battery assembly 8 without being connected to a power source. The heater 3 can be turned on by panel 10. Then, lift the lifting plate 4 a certain distance to move the plastic sealing position of the item onto the heater 3. Then, release the lifting plate 4 to complete the plastic sealing operation. Since the common plastic sealing operation is to seal bags, lifting the lifting plate 4 a short distance is sufficient. Unless the lifting plate 4 is moved upward to its limit, the T-shaped plate 5 will not leave the T-shaped hole 7, thus ensuring that the mounting box 6 is stably and reliably installed in the mounting slot. Through the downward elastic support effect of the elastic support mechanism on the lifting plate 4, the mounting box 6 will not loosen and fall out of the mounting slot during the handling of the housing 1, making it more convenient to use.

[0025] In this design, the elastic support mechanism includes a support groove and a connecting plate 14. The support groove is located inside the housing 1, and a through groove is formed between the support groove, the lifting groove, and the operating groove 2. The connecting plate 14 is located in the support groove and connects to the lifting plate 4. An elastic component 15 is provided between the top end of the connecting plate 14 and the top end of the support groove. A guide mechanism is provided between the connecting plate 14 and the support groove. The elastic component 15 in the support groove provides elastic support for the connecting plate 14. The connecting plate 14 connects to the lifting plate 4, allowing the elastic component 15 to provide elastic support for the lifting plate 4. When a person lifts the lifting plate 4, the elastic component 15 is compressed and deformed. Then, the item is placed on the operating groove 2 for sealing. Releasing the lifting plate 2 allows the elastic component 15 to elastically support the connecting plate 14, causing the lifting plate 4 to move downward quickly and press the sealing position, facilitating the sealing operation of the item.

[0026] In this solution, the guiding mechanism includes a guide hole and a guide block 16. The guide hole is opened on one side of the support groove. The guide block 16 is located in the guide hole and connected to the connecting plate 14. When the connecting plate 14 moves up and down in the support groove through the elastic support force of the elastic component 15, it drives the guide block 16 to move. The guide block 16 moves up and down linearly in the guide hole, so that the connecting plate 14 moves up and down stably, thereby improving the stability of the linear up and down movement of the lifting plate 4.

[0027] In this design, both the guide hole and the guide block 16 are T-shaped. The T-shaped guide block 16 and the guide hole can further improve the stability of the lifting and moving of the connecting plate 14.

[0028] In this design, handles 17 are provided on the top of the lifting plate 4 and the outside of the mounting box 6, which make it easy to hold and use the lifting plate 4 or the mounting box 6 by holding the handles 17.

[0029] In this design, two elastic components 15 are provided and symmetrically arranged, which can better provide elastic support for the connecting plate 14.

[0030] In this design, the elastic component 15 is an alloy spring, which has the characteristics of strong elastic support and good stability, thereby further improving the elastic support stability of the connecting plate 14.

[0031] In this solution, the control panel 10 is a touch screen, which facilitates display and control, and is easy for personnel to operate.

[0032] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A portable laminator, comprising a housing (1), characterized in that, An operating groove (2) is provided on the housing (1). A heater (3) is provided at the bottom end of the operating groove (2). A lifting groove is provided between the top end of the housing (1) and the operating groove (2). A lifting plate (4) is provided on the lifting groove. An elastic support mechanism is provided between the lifting plate (4) and the lifting groove. A T-shaped groove is provided on one side of the lifting groove. A T-shaped plate (5) is provided between the lifting plate (4) and the T-shaped groove. An installation groove is provided between one side of the housing (1) and the lifting groove. An installation box (6) is provided on the installation groove. The mounting box (6) has a T-shaped hole (7) and the T-shaped plate (5) extends into the T-shaped hole (7). The mounting box (6) has a battery assembly (8) inside and a power interface (9) on the outside. The top of the housing (1) has a control panel (10) and the bottom of the control panel (10) has a line connector (11). The mounting box (6) and the line connector (11) have a line interface (12) between them. The line connector (11) and the heater (3) have a transmission line (13).

2. The portable laminator according to claim 1, characterized in that, The elastic support mechanism includes a support groove and a connecting plate (14). The support groove is opened inside the housing (1). A through groove is opened between the support groove, the lifting groove, and the operating groove (2). The connecting plate (14) is located in the support groove and connected to the lifting plate (4). An elastic component (15) is provided between the top end of the connecting plate (14) and the top end of the support groove. A guide mechanism is provided between the connecting plate (14) and the support groove.

3. The portable laminator according to claim 2, characterized in that, The guiding mechanism includes a guide hole and a guide block (16). The guide hole is opened on one side of the support groove, and the guide block (16) is located in the guide hole and connected to the connecting plate (14).

4. The portable laminator according to claim 3, characterized in that, Both the guide hole and the guide block (16) have a T-shaped structure.

5. A portable laminator according to claim 4, characterized in that, The top of the lifting plate (4) and the outside of the mounting box (6) are both provided with handles (17).

6. A portable laminator according to claim 5, characterized in that, The elastic component (15) is provided in two parts and is arranged symmetrically.

7. A portable laminator according to claim 6, characterized in that, The elastic component (15) is an alloy spring.

8. A portable laminator according to claim 7, characterized in that, The control panel (10) is a touch screen.