WO2003068603A1 - A vacuum opening-sealing machine for rubber-bag - Google Patents

Abstract

The present invention discloses a vacuum opening-sealing machine for rubber-bag, which comprises mechanical parts and electrical parts. The mechanical parts include a machine body (1), a movable pressing plate (2), a heating element (3) and a sealing means (4), the machine body (2) behind the movable pressing plate (3) cooperates with the sealing means (4) to form a vacuum chamber (5). The vacuum opening-sealing machine further comprises an emboss-forming mechanism, which includes a fixed embossed plate (13) and a movable embossed plate (6), the fixed embossed plate (13) is fixed directly to the machine body (1), while the movable embossed plate (6) is mounted under the fixed embossed plate (13), the movable embossed plate and the fixed embossed plate are provided with ribs respectively and the movable embossed plate (6) is connected electrically to the electrical parts. Because a suction tube in the related-art is substituted by the embossed plates and the embossed plates are used to directly form air-exhausting channels in the inner surface of the rubber-bag, each sub-procedure can cooperate with each other in a better manner, achieving a better effect of the suction of the air can be achieved, and the overall size of the apparatus is reduced, cost is lowered, and the product efficiency is improved.

Description

 Vacuum plastic bag sealing machine

Technical field to which the present invention belongs

 The utility model relates to a vacuum plastic bag sealing machine, which is mainly used for storing food or other fields requiring a vacuum state.

Prior art prior to the present invention

 At present, there are mainly two types of vacuum plastic bag sealing machines on the market. 1) One is an industrial vacuum sealing machine, which is a box type machine. This sealing machine has two vacuum boxes. The vacuum equipment is used to evacuate the vacuum box. To form a vacuum state around the plastic bag to be sealed fixed in the sealing device, but this equipment is very expensive, bulky, and the evacuation process is slow, resulting in low production efficiency; 2) family small machines, that is, exhaust pipe type, The vacuum plastic bag is sleeved on the air suction pipe. After the plastic bag is clamped and fixed, the air suction pipe sucks out the air in the vacuum plastic bag, and then the sealing device is pressed down and the air suction pipe is ejected at the same time. After sealing, the packaging process is completed. The main disadvantage of the machine is that it will leak air after the exhaust pipe pops up, and a small amount of air will be mixed when the evacuation and heat sealing processes are connected. Its specific structure is shown in Figure 1, including the body 8, the movable platen 8, the heating plate C, and The sealant D, the body A and the sealant D behind the movable platen B cooperate with each other to form a vacuum chamber E, and an exhaust pipe F is also installed in the vacuum chamber E. Object of the invention

 The purpose of the utility model is to provide a vacuum plastic bag sealing machine, which uses an embossed plate to replace the original exhaust pipe, and uses the embossed plate to directly manufacture an air exhaust groove on the inner surface of the vacuum plastic bag, so as to achieve a better evacuation effect, so that The various parts of the process are better combined to increase production efficiency.

Technical solution of the present invention

The utility model is realized by the following technical scheme: It includes a mechanical part and an electrical part. The mechanical part includes a body, a movable pressure plate, a heating plate and a sealant. The body and the sealant behind the movable pressure plate cooperate with each other to form a vacuum chamber. It also includes an embossing manufacturing mechanism. The embossing manufacturing mechanism includes a fixed embossing plate and a dynamic embossing plate. The fixed embossing plate is directly installed on the body. A dynamic embossing plate is installed below the fixed embossing plate. The dynamic embossing plate is provided with a convex strip corresponding to the fixed embossing plate, and the dynamic embossing plate is electrically connected to the electrical part.

 The top surface of the dynamic embossing plate described above may be provided with ridges arranged in a certain shape.

 There may be a plurality of ridges arranged in a certain shape on the dynamic embossing plate, and the ridges may be arranged in parallel or in a cross-net arrangement.

 A suction hole is opened in the recess between the adjacent convex strips on the dynamic embossing plate.

 Compared with the prior art, the utility model has the following advantages: It replaces the original exhaust pipe by an embossed plate, and uses the embossed plate to directly manufacture an exhaust groove on the inner surface of the vacuum plastic bag, so that the various parts of the process are better combined. As a result, a better air extraction effect is achieved, and the entire product has a smaller volume and a lower cost, which improves the production efficiency.

 The basic structure and working principle of the present invention will be described in detail with reference to the accompanying drawings.

 Figure 1 is a schematic structural diagram of a traditional vacuum plastic bag sealing machine;

 FIG. 2 is a state diagram of the present invention when a suction tank is manufactured on a vacuum plastic bag;

 3 is a state diagram of the present invention during a heat-sealing process;

 FIG. 4 is an arrow A view of FIG. 2;

 5 is a bottom view of a dynamic embossing plate of the present invention;

 6 is a front view of a dynamic embossing plate of the present invention;

 7 is a top view of a dynamic embossing plate of the present invention;

8 is a schematic structural view of a vacuum plastic bag after being processed by the dynamic embossing plate of the present invention; FIG. 9 is a structural plan view of a vacuum plastic bag after being processed by the dynamic embossing plate of the present invention; Structural diagram of the dynamic embossing plate after adding air holes. Examples As shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, and Fig. 7, the utility model includes a mechanical part and an electrical part, and the mechanical part includes a body .1, a movable platen 2, a heating plate 3, and a sealant 4, The body 1 and the sealant 4 behind the movable platen 2 cooperate with each other to form a vacuum chamber 5, which is characterized in that it also includes an embossing mechanism: the embossing manufacturing mechanism includes a fixed embossing plate 13 and a dynamic embossing plate 6, The fixed embossing plate 13 is directly installed on the body 1. A dynamic embossing plate 6 is installed below the fixed embossing plate 13. The dynamic embossing plate 6 is provided with a convex strip 7 corresponding to the fixed embossing plate 13, and The embossing plate 6 is electrically connected to the electric part. '

 The top surface of the dynamic embossing plate 6 may be provided with convex strips 8 arranged in a certain shape. There may be a plurality of convex strips 7 arranged in a certain shape on the dynamic embossing plate 6, and these convex strips 7 may be arranged in parallel or in a cross-net arrangement. The ridges 7 are mainly used to form the suction grooves 10 on the inner surface of the vacuum plastic bag 9 near the mouth 11 of the bag. Different arrangements of the ridges 7 make the suction grooves 10 have different layouts, as shown in Figs. 8 and 9 .

 The working process of the utility model is to place the vacuum plastic bag 9 on the dynamic embossing plate 6 and move the dynamic embossing plate 6 upward, so that the dynamic embossing plate 6 and the fixed embossing plate 13 clamp the vacuum plastic bag 9 The dynamic embossing plate 6 is heated by electricity, and an air suction groove 10 is manufactured on the bottom surface of the vacuum plastic bag 9 or the inner surface of the surface layer. As shown in FIG. 8 and FIG. 9, the air suction groove 10 extends from the bag mouth 11 to Inside the entire plastic bag, and then move the embossing plate 6 down automatically, place the entire plastic bag under the movable platen 2 and press the bag opening 11 of the vacuum plastic bag 9 tightly to isolate the vacuum chamber 5 from the outside air. An air suction groove 10 is manufactured on the bottom surface of the vacuum plastic bag 9 or on the inner surface of the surface layer to communicate with the vacuum chamber 5. Therefore, when the air is evacuated, the air in the vacuum plastic bag 9 is evacuated through the air suction groove 10, and finally through the heating sheet After sealing, a vacuum state is formed in the vacuum plastic bag 9.

 As shown in FIG. 10, an air hole 11 is opened in a recess between adjacent convex strips 7 on the dynamic embossing plate 6, and the air hole 11 is connected to an air outlet groove in the middle of the dynamic embossing plate 6. The function of these air holes 11 is to enable the vacuum plastic bag 9 to be easily adsorbed on the dynamic embossing plate 6 when it is placed on the dynamic embossing plate.

Claims

 Rights request

A vacuum plastic bag sealing machine includes a mechanical part and an electrical part. The mechanical part includes a body (1), a movable platen (2), a heating plate (3), and a sealant (4), which is located behind the movable platen (2). Body (1) and sealant (4) cooperate to form a vacuum chamber

(5), characterized in that it also includes an embossing manufacturing mechanism, which includes a fixed embossing plate (13) and a dynamic embossing plate (6), and the fixed embossing plate (13) is directly installed on the body ( 1), a dynamic embossing plate (6) is installed below the fixed embossing plate (13), and the dynamic embossing plate (6) is provided with a convex strip (7) corresponding to the fixed embossing plate (13), And the dynamic embossing plate (6) is electrically connected with the electric part.

A vacuum plastic bag sealing machine according to claim 1, characterized in that the dynamic embossing plate

The top surface of (6) may be provided with convex strips (8) arranged in a certain shape.

A vacuum plastic bag sealing machine according to claim 1, characterized in that the dynamic embossing plate

(6) The convex strips (7) arranged in a certain shape on the (6) may be a plurality of strips, and these convex strips (7) may be arranged in parallel or in a cross-net arrangement.

A vacuum plastic bag sealing machine according to claim 1 or 2, characterized in that air holes (11) and air holes are formed in the recesses between adjacent convex strips (7) on the dynamic embossing plate (6).

(11) Connect to the air outlet groove (12) in the middle of the dynamic embossing plate (6).