CN220721512U - Sealing machine device capable of automatically moving heating module and auxiliary sealing support - Google Patents

Abstract

The utility model particularly relates to a sealing machine device with a heating module and an auxiliary sealing support capable of automatically moving. Once the upper cover and the lower cover of the traditional device are closed and vacuumized, the heating module is directly contacted with the rubber bag and cannot be preheated, the preheating can affect the vacuumization, the vacuumization is completed in a low-temperature environment, the sealing is heated according to a normal operation mode, and the sealing abnormality can be caused by insufficient heating of the first rubber bag; the continuous operation can be because of the heating module is in high temperature, and the heating module just can contact with the plastic bag when the upper and lower covers are closed and vacuumized, will melt glue seal, leads to the evacuation unusual. The device improves the structure and control of the device, the heating module is not contacted with the plastic bag when the plastic bag is not sealed, the heating module is controlled to move or the auxiliary sealing support is moved when the plastic bag is sealed, the plastic bag is fully contacted with the heating module to seal the plastic bag, the vacuum pumping effect is not affected by the heating temperature when the plastic bag is continuously sealed, and the plastic bag is not melted before the heating module is contacted with the plastic bag, so that the vacuum pumping effect is not affected.

Description

Sealing machine device capable of automatically moving heating module and auxiliary sealing support

Technical Field

The creation relates to sealing device control technical field, specifically is a heating module and supplementary sealing support can automatic movable's capper device.

Background

The traditional sealing device has two defects of abnormal sealing effect during low-temperature environment operation or abnormal melting of products due to overhigh temperature of a machine after continuous sealing. The utility model particularly relates to a sealing machine with a distance space between a heating module and a plastic bag when sealing operation is not performed. Once the upper cover and the lower cover of the traditional sealing device are closed and vacuumized, the heating module is directly contacted with the rubber bag, preheating cannot be carried out, the vacuumizing can be influenced by preheating, under the low-temperature environment, the vacuumizing is completed, the sealing is heated according to a normal operation mode, the first rubber bag is sealed, and the sealing is abnormal due to insufficient heating; the continuous sealing operation can be realized because the heating module is at high temperature, and the heating module can be contacted with the rubber bag when the upper cover and the lower cover are closed for vacuumizing, so that the sealing of the rubber can be realized, and the vacuumizing is abnormal. The sealing device improves the structure and control of the sealing device, the heating module is not contacted with the plastic bag when the sealing device is used for unsealing and vacuumizing, the heating module is electronically controlled to move or the auxiliary sealing support is moved when the sealing device is used for sealing, the plastic bag is fully contacted with the heating module for sealing, the vacuumizing effect is not influenced by the temperature of the heating module during continuous sealing of the plastic bag, and the sealing quality is ensured; when the lower cover is closed and vacuumized, the heating module is preheated, and the heating module is not contacted with the rubber bag firstly, so that the rubber bag can not be melted firstly, the vacuumization is not influenced, and the heating module is maintained to the normal sealing temperature when the rubber bag is sealed, thereby ensuring the sealing and vacuumization effects of the first rubber bag. And the heating module is enabled to maintain the temperature during sealing all the time, so that the sealing speed is improved, and the sealing time of a plurality of plastic bags is reduced. The device improves the structure and control of the sealing device, so that the temperature of the bench is not increased during continuous sealing to maintain the quality; when the sealing device is operated at low temperature, the temperature of the sealing device can be regulated timely, and the sealing effect of the sealing device is consistent with that of normal temperature. The tongue accessory is additionally arranged, so that the vacuumizing efficiency is improved, and the sealing is consistent under the environment of normal temperature and low temperature. And an electromagnet lever is added to match with the hot melting function. So that the sealing is realized when the sealing is vacuumized and singly sealed by hot melting. The function of the hot melting part is to reset to the initial position by the mechanical principle when vacuumizing, and the effect of hot melting is achieved when vacuumizing the electromagnet seal. The device can avoid adverse effect on sealing caused by the temperature of the heating part. The heating component is in a physical distance with the heated object, so that the heated object is ensured not to be heated in advance to cause failure in sealing. The heating component is not isolated from the heated component in the vacuum pumping process in the conventional technology, and the device is not attached, so that abnormal fusion caused by continuous sealing can be avoided.

Disclosure of Invention

The utility model aims at overcoming the defects and shortcomings of the prior art, and provides a sealing machine device capable of automatically moving a heating module and an auxiliary sealing support, wherein the device comprises a bottom cover plate, a hot-melting auxiliary sealing support, a bottom plate, an electromagnet support, an electromagnet, a cutting belt sliding blade, a blade support, a heating module and a control unit; wherein the electromagnet bracket, the electromagnet, the cutting belt sliding blade, the blade bracket and the control unit; is fixed on the bottom plate; the control unit controls the electromagnet to generate hot melting. The control unit controls the vacuumizing time.

The first is a bottom cover plate which can protect the hot-melt auxiliary sealing support fixed on the back of the bottom plate.

Secondly, a hot melting auxiliary sealing bracket; and the control unit is used for controlling the tape cutting sliding blade to heat and fuse the product to be sealed.

Thirdly, a bottom plate; the electromagnet bracket, the electromagnet, the cutting belt sliding blade, the blade bracket and the control unit can be fixed.

Fourthly, the electromagnet bracket can fix the electromagnet.

Fifthly, an electromagnet; the control unit can control the product to be sealed to heat and fuse the product, and the product can be adjusted according to the width of the product.

And sixthly, the belt cutting sliding blade and the hot melting auxiliary sealing support are controlled by a control unit, and the product to be sealed is heated and fused.

And seventhly, a blade bracket is used for fixing the sliding blade of the cutting belt.

And eighth, the control unit can control the electromagnet and adjust the electromagnet power and the air extraction time according to the thickness and the width of the product. The control unit comprises side keys, an upper shell, function keys and a panel.

And the heating module is controlled by the control unit, so that the temperature can be quickly made to be proper in the vacuumizing period.

The principle of the control method is illustrated in sections:

starting an initial section: and (5) switching on a power supply to adjust the power, wherein the temperature is not up to the default time base indicator lamp to be red.

The principle of the control method of the control unit is illustrated in sections:

s10, starting an initial section: and (5) switching on a power supply to adjust the power, wherein the temperature is not up to the default time base indicator lamp to be red.

S20, heating section: the electromagnet starts to heat, and when the heating reaches the preset temperature, the base station indicator lamp is green.

S30, constant temperature section: the temperature sensor of the base station senses the temperature, and when the temperature is reduced, the temperature is automatically heated, and when the temperature is reached, the heating is stopped, so that the temperature is kept at a default temperature.

S40, after the temperature is reached, the sealing operation can be performed, and air is pumped before sealing, so that the hot melting auxiliary sealing support and the cutting belt sliding blade are sealed.

Wherein, the preferable scheme is as follows: the tongue accessory is additionally arranged, so that the vacuumizing efficiency is improved, and the sealing is consistent under the environment of normal temperature and low temperature.

Wherein, the preferable scheme is as follows: an electromagnet lever is added to match with the hot melting function. So that the sealing is realized when the sealing is vacuumized and singly sealed by hot melting. The function of the hot melting part is to reset to the initial position by the mechanical principle when vacuumizing, and the effect of hot melting is achieved when vacuumizing the electromagnet seal.

Wherein, the preferable scheme is as follows: the heating module is not contacted with the plastic bag when the plastic bag is not sealed and vacuumized, the heating module is electronically controlled to move or the auxiliary sealing support is moved when the plastic bag is sealed, the plastic bag is fully contacted with the heating module, sealing is carried out, and the vacuumizing effect is not influenced by the temperature of the heating module when the plastic bag is continuously sealed.

Compared with the prior art, the beneficial effects of the creation are as follows:

1. the heating module can quickly adjust the temperature to be proper when vacuumizing, so that the sealing device can be used in a low-temperature environment without influencing the sealing quality due to the temperature.

2. The heating module is not contacted with the rubber bag when the vacuum pumping is not performed, the electronic control is used for moving the heating module or the auxiliary sealing support when the vacuum pumping is performed, the rubber bag is fully contacted with the heating module for sealing, the continuous sealing operation of the rubber bag is not performed, the vacuum pumping effect is not affected by the temperature of the heating module, the heating module is not contacted with the rubber bag, and the rubber bag is not deformed in advance when sealed for a long time.

The device does not need to consider the adverse effect caused by the temperature of the heating part on the sealing. The heating component is in a physical distance with the heated object, so that the heated object is ensured not to be heated in advance to cause failure in sealing.

1. An electromagnet lever is added to match with the hot melting function. So that the sealing is realized when the sealing is vacuumized and singly sealed by hot melting. The function of the hot melting part is to reset to the initial position through the mechanical principle when vacuumizing, and the hot melting effect is achieved when vacuumizing the electromagnet sealing, so that the sealing effect is still maintained after continuous sealing.

Drawings

FIG. 1 is a schematic diagram of a heat generating module and a sealing machine device with an auxiliary sealing support capable of moving automatically;

FIG. 2 is a control flow diagram of a heat generating module and a sealing machine device with an automatic movement of an auxiliary sealing support;

fig. 3 is a schematic diagram showing a closing machine device with a heating module and an auxiliary closing support capable of moving automatically:

FIG. 4 shows a control unit for controlling the automatic movement of the heat generating module and the auxiliary sealing support of the sealing machine

Schematic diagram:

description of the drawings:

100 bottom cover plate; 200 hot melting auxiliary sealing support; 300 bottom plate; 400 electromagnet support; 500 electromagnets; 600 a cutting tape sliding blade; 700 blade holder; 800 side keys; 900 upper shell; 1000 function keys; 1100 panels; 1200 a control unit; 1300 a heating module;

Detailed Description

The following description of the technical solutions in the present authoring embodiment will be made clearly and completely with reference to the accompanying drawings in the present authoring embodiment, and it is obvious that the described embodiments are only some embodiments of the present authoring, but not all embodiments. Based on the embodiments in the present creation, all other embodiments that a person of ordinary skill in the art would obtain without making creative efforts fall within the scope of the protection of the present creation.

As shown in fig. 1 to 4, to achieve the above object, the present utility model provides the following technical solutions: the utility model relates to a sealing machine device with a heating module and an auxiliary sealing support capable of automatically moving, as shown in fig. 1, wherein the device comprises a bottom cover plate 100, a hot-melting auxiliary sealing support 200, a bottom plate 300, an electromagnet support 400, an electromagnet 500, a cutting and sliding blade 600, a blade support 700, a heating module 1300 and a control unit 1200; wherein electromagnet support 400, electromagnet 500, tape-cutting sliding blade 600, blade support 700, and control unit 1200; is injected onto the bottom plate 300; the control unit 1200 controls the electromagnet 500 to generate hot melt. The control unit 1200 controls the timing of evacuation.

One is a bottom cover plate 100, which protects a hot melt auxiliary sealing bracket 200 fixed to the back of a bottom plate 300.

Secondly, a hot melting auxiliary sealing bracket 200; as shown in fig. 3, the tape-cutting slide blade 600 is controlled by the control unit 1200 to heat and fuse the product to be sealed.

Thirdly, a bottom plate; the electromagnet support 400, the electromagnet 500, the tape-cutting sliding blade 600, the blade support 700, and the control unit 1200 can be fixed.

Fourth, the electromagnet bracket 400 can fix the electromagnet 500.

Fifthly, an electromagnet 500; the control unit 1200 can control the product to be sealed to heat and fuse the product, and the product can be adjusted according to the width of the product.

Sixthly, the tape cutting sliding blade 600 and the hot melting auxiliary sealing bracket 200 are controlled by the control unit 1200 to heat and fuse the product to be sealed.

Seventh, the blade holder 700 fixes the tape-cutting slide blade 600.

Eighth, the control unit 1200 can control the electromagnet 500; the power and pumping time of the electromagnet 500 can be adjusted according to the thickness and width of the product. As shown in fig. 4, the control unit 1200 includes a side key 800, an upper case 900, a function key 1000, and a panel 1100.

And the heating module is controlled by the control unit, so that the temperature can be quickly made to be proper in the vacuumizing period.

The principle of the control method is illustrated in sections: as shown in the figure 2 of the drawings,

starting an initial section: and (5) switching on a power supply to adjust the power, wherein the temperature is not up to the default time base indicator lamp to be red.

The principle of the control method of the control unit 1200 is described in sections:

s10, starting an initial section: and (5) switching on a power supply to adjust the power, wherein the temperature is not up to the default time base indicator lamp to be red.

S20, heating section: the electromagnet 500 starts to heat, and when the heating reaches the preset temperature, the base indicator lamp is green.

S30, constant temperature section: the temperature sensor of the base station senses the temperature, and when the temperature is reduced, the temperature is automatically heated, and when the temperature is reached, the heating is stopped, so that the temperature is kept at a default temperature.

S40, after the temperature is reached, the sealing operation can be performed, and air is pumped before sealing, so that the hot melting auxiliary sealing bracket 200 and the tape cutting sliding blade 600 are tightly sealed.

Wherein, the preferable scheme is as follows: as shown in fig. 1, the adhesive bag is arranged between the electromagnet bracket 400, the electromagnet 500 and the tape cutting sliding blade 600 and is not in contact with the heating module 1300, so that the hot melting auxiliary sealing bracket 200 is in contact with the heating module 1300 when sealing, and the adhesive bag is not in contact with the heating module 1300 when unsealing, and cannot be deformed in advance.

Wherein, the preferable scheme is as follows: when the vacuum is applied, the heating module 1300 is controlled to be adjusted to a proper temperature, so that the sealing effect is not affected by the environmental temperature change.

Wherein, the preferable scheme is as follows: the tongue attachment is added to the tape cutting sliding blade 600 to improve the vacuum pumping efficiency, and the sealing is consistent in normal temperature and low temperature environments.

Wherein, the preferable scheme is as follows: the electromagnet is added with an electromagnet lever to match with the hot melting function. So that the sealing is realized when the sealing is vacuumized and singly sealed by hot melting. The function of the hot melting part is to reset to the initial position by the mechanical principle when vacuumizing, and the effect of hot melting is achieved when vacuumizing the electromagnet seal.

Wherein, the preferable scheme is as follows: the electromagnet can be preheated in cold areas, so that insufficient temperature during sealing is prevented, the fusion time is shortened, and the fusion effect is improved.

Although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the present utility model and equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art who is skilled in the art will be able to implement equivalent substitution or modification according to the technical scheme of the present utility model and the concept of the present utility model within the scope of the present utility model.

Claims (5)

1. The sealing machine device with the automatic movement of the heating module and the auxiliary sealing support is characterized by comprising a bottom cover plate (100), a hot melting auxiliary sealing support (200), a bottom plate (300), an electromagnet support (400), an electromagnet (500), a cutting belt sliding blade (600), a blade support (700), a heating module (1300) and a control unit (1200); wherein the electromagnet bracket (400), the electromagnet (500), the cutting belt sliding blade (600), the blade bracket (700) and the control unit (1200) are fixed on the bottom plate (300); the control unit (1200) controls the electromagnet (500) to generate hot melting, and the control unit (1200) controls the vacuumizing machine.

2. The automatic heat generating module and auxiliary sealing frame movable sealer apparatus as claimed in claim 1, wherein the heat generating module is moved or the auxiliary sealing frame is moved by electronic control during sealing.

3. The automatic movable sealing machine device for the heating module and the auxiliary sealing support according to claim 1, wherein the hot-melting auxiliary sealing support (200) and the heating module (1300) are controlled by a control unit (1200), and products to be sealed are cut off by fusing under the control of the control unit (1200), and the heating module (1300) is not contacted with the adhesive tape when not sealed.

4. The automatic movable sealer device for a heating module and an auxiliary sealing bracket according to claim 1, wherein the heating module (1300) can adjust the heating temperature, the heating time and the heating power at the same time during the vacuum pumping period.

5. A heat generating module and auxiliary sealing support automatic movable sealer device according to claim 3, wherein the hot melt plastic auxiliary sealing support performs product sealing heating, and the heat generating module (1300) is physically distant from the heated object, so as to ensure that the heated object is not heated in advance.