CN216581371U - Portable sealing machine structure - Google Patents

Abstract

The utility model provides a portable capper structure, includes and seals the base, seals and sets up the mouth that presss from both sides of placing the vacuum bag on the base, presss from both sides the mouth top and is provided with the button that seals that can do linear motion to pressing from both sides a mouthful direction in the base that seals, seal the bottom surface of button and install the blade that is used for cutting the vacuum bag edge, the downside that presss from both sides the mouth corresponds the blade and is provided with the module that generates heat that matches the blade shape, and the capper volume of this structure is tiny, and occupation space is little, and the user can accomplish the vacuum by the one hand and seal the operation, is convenient for go out to carry the use, and the blade cuts the vacuum bag edge, and the edge part after the cutting separates with the vacuum bag, forms the incision of a straight line shape or the mouth of pressing from both sides, adds large-traffic when being favorable to the vacuum bag evacuation, makes its evacuation speed accelerate.

Description

Portable sealing machine structure

Technical Field

The utility model relates to the field of sealing machines, in particular to a portable sealing machine structure.

Background

The existing sealing machine part is vacuumized firstly and then sealed, and when the sealing process is adopted, air can enter the product, so that the sealing effect of the sealing bag is poor, and the blades of most existing vacuum sealing machines are straight blades, so that straight-edge sealing can be formed only, and the sealing machine with the structure has large volume, is inconvenient for users to carry out, and is inconvenient for the users to operate by at least two hands; in addition, when the existing sealing machine vacuumizes the vacuum bag, the air flow is low, so that the vacuum pumping efficiency is very inefficient, and further improvement on the sealing is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the existing problems and provides a portable sealing machine structure with simple and reasonable structure, which mainly has the function of forming a linear or opening-clamping notch on the edge of a vacuum bag, and is favorable for increasing flow during vacuum-pumping of the vacuum bag so as to accelerate the vacuum-pumping speed.

The utility model provides a portable capper structure, includes seals the base, seals and sets up the mouth that presss from both sides of placing the vacuum bag on the base, presss from both sides the mouth top and is provided with the button that seals that can make rectilinear motion to pressing from both sides a mouthful direction in the base that seals, seal the bottom surface of button and install the blade that is used for cutting the vacuum bag edge, the downside that presss from both sides the mouth corresponds the blade and is provided with and encloses from the vacuum bag edge and establish the notched module that generates heat of vacuum bag.

The aim of the utility model can also be solved by the following technical measures:

seal the bottom surface of button and install the silica gel briquetting that matches the module shape that generates heat, the silica gel briquetting sets up the periphery at the blade, the silica gel briquetting closely presses the vacuum bag to the up end at the module that generates heat when sealing.

Seal the bottom surface of button and still install and be annular last sealed sponge, go up sealed sponge around the periphery at the silica gel briquetting, the downside of pressing from both sides the mouth is installed and is matchd the lower sealed sponge of last sealed sponge shape, and lower sealed sponge is around the periphery at the module that generates heat, and when sealing the button to pressing from both sides mouthful internal motion, go up sealed sponge and lower sealed sponge counterbalance and form an airtight space, seal and install the vacuum pump in the button and communicate airtight space.

The clamp is characterized in that a reverse buckling block is arranged on the sealing base, a buckling port is formed in the sealing button corresponding to the reverse buckling block, the buckling port and the reverse buckling block form a buckling state after the sealing button moves towards the inside of the clamping port, and a reset button for releasing the buckling state is arranged on the sealing base.

The utility model discloses a press button, including base, reset mechanism, a plurality of reset spring equipartition is around sealing the button, the upper and lower end of reset spring supports respectively to press and seals between the button and the base.

The corner of the clamp opening is provided with a limiting surface for limiting the edge of the vacuum bag, and the end head of the blade extends to a depth exceeding the limiting surface to the inside of the sealing base.

The shape of the blade is in a clamping mouth shape or a linear shape, and the clamping mouth shape comprises but is not limited to a U shape, a C shape, a V shape and an L shape; the U-shaped, C-shaped, V-shaped and L-shaped blades form a nip-shaped cut on the vacuum bag, and the straight blades form a straight cut on the vacuum bag.

The jaw-shaped blade is provided with a sharp corner.

The cutting edge of the blade is arranged in an upward inclined mode along the forming direction of the clamping opening.

The blade extends out and presss from both sides the mouth, and the last blade that corresponds of the module that generates heat has seted up the blade and has dodged the groove.

Still install circuit board and the battery that is connected in the button of sealing, the circuit board respectively with vacuum pump and the module electric connection that generates heat.

The utility model has the following beneficial effects:

the utility model relates to a portable sealing machine structure, which has a small volume and small occupied space, a user can finish vacuum sealing operation by one hand, the portable sealing machine structure is convenient to carry and use, a blade cuts the edge of a vacuum bag, the inside of a cut opening is separated from the vacuum bag after cutting to form a linear or cut opening, the large flow is increased when the vacuum bag is vacuumized, the vacuumizing speed of the vacuum bag is accelerated, a tearing opening which is convenient to open the vacuum bag next time can be formed when the vacuum bag is vacuumized and sealed, the structure is simplified, the cost is reduced, and the sealing effect is improved.

Drawings

Fig. 1 is a schematic cross-sectional view of the present invention (before the sealing button is pressed).

Fig. 2 is a schematic cross-sectional view of the present invention (after the sealing button is pressed).

Fig. 3 is a schematic view of the structure of the lower side of the nip.

FIG. 4 is a schematic view of the upper side structure of the nip according to the present invention.

Fig. 5 is a schematic view of the internal structure of the sealing button of the present invention.

FIG. 6 is a first view illustrating a notch structure according to the present invention.

FIG. 7 is a second schematic view of the notch structure of the present invention.

Fig. 8 is a third schematic view of the notch structure of the present invention.

Fig. 9 is a fourth schematic view of the notch structure of the present invention.

Fig. 10 is a schematic view of the notch structure of the present invention.

Detailed Description

The utility model is further illustrated with reference to the following figures and examples.

As shown in fig. 1 to 5, a portable sealing machine structure includes a sealing base 1, a clamping opening 101 for placing a vacuum bag a is formed on the sealing base 1, a sealing button 2 capable of making linear motion towards the clamping opening 101 is arranged in the sealing base 1 above the clamping opening 101, a blade 3 for cutting the edge of the vacuum bag a is installed on the bottom surface of the sealing button 2, and a heating module 4 for enclosing the notch of the vacuum bag a from the edge of the vacuum bag a is arranged at the lower side of the clamping opening 101 corresponding to the blade 3; the blade 3 cuts the edge of the vacuum bag A, the interior of the cut clamp opening 101 is separated from the vacuum bag A to form a linear or clamp opening-shaped notch A1, which is beneficial to increasing flow rate when the vacuum bag A is vacuumized, so that the vacuumization speed is accelerated.

The blade 3 mainly aims at the edge position of the vacuum bag A, and mainly forms a tearing opening which is convenient for opening the vacuum bag A next time at the edge after the vacuum bag A is sealed.

Further, a silica gel pressing block 5 matched with the heating module 4 in shape is installed on the bottom surface of the sealing button 2, the silica gel pressing block 5 is arranged on the periphery of the blade 3, and the silica gel pressing block 5 tightly presses the vacuum bag A against the upper end surface of the heating module 4 during sealing; the module 4 that generates heat mainly generates heat and forms a top face that generates heat through the electrode wire that generates heat, silica gel briquetting 5 is pressed and is supported on the face of the top that generates heat for hot melt vacuum bag A, silica gel briquetting 5 can guarantee that vacuum bag A can evenly press and support on the module 4 that generates heat, and make its mutual bonding realization seal with the position of molten state, can promote and seal the effect.

Further, an annular upper sealing sponge 6 is further installed on the bottom surface of the sealing button 2, the upper sealing sponge 6 surrounds the periphery of the silica gel pressing block 5, a lower sealing sponge 7 matched with the upper sealing sponge 6 in shape is installed on the lower side of the clamping opening 101, the lower sealing sponge 7 surrounds the periphery of the heating module 4, when the sealing button 2 moves towards the inside of the clamping opening 101, the upper sealing sponge 6 and the lower sealing sponge 7 abut against each other to form a closed space B, and a vacuum pump 8 communicated with the closed space B is installed in the sealing button 2; the upper sealing sponge 631 and the lower sealing sponge 732 have elasticity, and can fix the vacuum bag a in the nip 101, and under the vacuum action, air can pass through the gap between the upper sealing sponge 6 and the lower sealing sponge 7 in the vacuum bag a to enter the closed space B, so that the vacuum state of the vacuum bag a can be further improved.

Further, the sealing base 1 is provided with a reverse buckling block 9, the sealing button 2 is provided with a buckling port 10 corresponding to the reverse buckling block 9, when the sealing button 2 moves towards the inside of the clamping port 101, the buckling port 10 and the reverse buckling block 9 form a buckling state, and the sealing base 1 is provided with a reset button 11 for releasing the buckling state; make the user at the in-process of evacuation, need not push down for a long time and seal button 2, alleviate user's burden, make in addition sealed sponge 6 and lower sealed sponge 7 can keep closely the counterbalance state, when the user needs the contact lock state, push reset button 11 to the inboard, make reset button 11 push away the back-off piece 9 and break away from and detain interface 10.

Further, a reset mechanism is arranged between the sealing base 1 and the sealing button 2, the reset mechanism comprises a plurality of reset springs 12 arranged along the movement direction of the sealing button 2, the plurality of reset springs 12 are uniformly distributed around the sealing button 2, and the upper end and the lower end of each reset spring 12 are respectively pressed between the sealing button 2 and the sealing base 1; after the reset button 11 pushes the reversing block 9 to be separated from the buckle interface 10, the sealing button 22 can be pushed upwards under the action of the reset spring 12, so that the sealing button can linearly slide and reset, and the structure is simple.

Further, a limiting surface 15 for limiting the edge of the vacuum bag a is arranged at the corner of the clamp 101, and the extension depth of the end 31 of the blade 3 exceeds the limiting surface 15 to reach the inside of the sealing base 1; the limit surface 15 controls the penetration depth of the edge of the vacuum bag A, the blade 3 with the structure can ensure that the edge of the vacuum bag A is completely cut to form a linear or nip-shaped notch A1, and the situation that the edge of the vacuum bag A is involved after cutting is easily caused because the end 31 of the blade 3 is flush with the limit surface 15 is prevented.

Further, the shape of the blade 3 is a clip shape or a straight line shape, and the clip shape includes, but is not limited to, a U shape, a C shape, a V shape, and an L shape; the U-shaped, C-shaped, V-shaped and L-shaped blades 3 form a jaw-shaped cut A1 on the vacuum bag, and the linear blades 3 form a linear cut A1 on the vacuum bag A; in this embodiment, preferably U-shaped blades are used, and the corresponding heat generating modules 4 are likewise of U-shaped construction.

Further, the sharp corner 301 is arranged on the jaw-shaped blade 3, and the sharp corner 301 enables the incision A1 to form a tearing angle, so that a user can tear the vacuum bag A conveniently.

Further, the cutting edge of the blade 3 is arranged obliquely upward along the forming direction of the nip 101; the edge of the vacuum bag A is cut off from inside to outside, so that the cut is more neat and clean.

Further, the blade 3 extends out of the clamping opening 101, and the heating module 4 is provided with a blade avoiding groove 41 corresponding to the blade 3; because the blade 3 extends downwards, when the upper sealing sponge 6 and the lower sealing sponge 7 are abutted and the silica gel pressing block 5 is abutted to the heating module 4, the blade avoiding groove 41 can protect the blade 3 and can ensure that the blade 3 is cut in place.

Further, a circuit board 13 and a battery 14 which are connected are further installed in the sealing button 2, and the circuit board 13 is electrically connected with the vacuum pump 8 and the heating module 4 respectively; the vacuum pump 8 is used for extracting the air of vacuum bag A to can detect the work load of vacuum pump 8 through circuit board 13 and judge the vacuum degree of vacuum bag A, control opening and stopping of vacuum pump 8, preferably, install chargeable battery 14 in sealing button 2, realize the purpose that the capper goes out to carry the use, of course, can also supply energy to vacuum pump 8 and heating module 4 through connecting the charging wire.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the utility model are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides a portable capper structure, includes and seals the base, seals and sets up the mouth that presss from both sides of placing the vacuum bag on the base, presss from both sides the mouth top and seals and be provided with the button that seals that can make linear motion to pressing from both sides a mouthful direction in the base, its characterized in that: the bottom surface of the sealing button is provided with a blade for cutting the edge of a vacuum bag, and the lower side of the clamping opening is provided with a heating module which starts to enclose the edge of the vacuum bag from the edge of the vacuum bag to form a notch of the vacuum bag.

2. The portable capper configuration of claim 1, wherein: seal the silica gel briquetting of the bottom surface of button and install the matching module shape that generates heat, the silica gel briquetting sets up the periphery at the blade, the silica gel briquetting closely presses the vacuum bag when sealing and supports the up end at the module that generates heat.

3. The portable capper configuration of claim 2, wherein: seal the bottom surface of button and still install and be annular last sealed sponge, go up sealed sponge around the periphery at the silica gel briquetting, the downside of pressing from both sides the mouth is installed and is matchd the lower sealed sponge of last sealed sponge shape, and lower sealed sponge is around the periphery at the module that generates heat, and when sealing the button to pressing from both sides mouthful internal motion, go up sealed sponge and lower sealed sponge counterbalance and form an airtight space, seal and install the vacuum pump in the button and communicate airtight space.

4. The portable capper configuration of claim 1, wherein: the clamp is characterized in that a reverse buckling block is arranged on the sealing base, a buckling port is formed in the sealing button corresponding to the reverse buckling block, the buckling port and the reverse buckling block form a buckling state after the sealing button moves towards the inside of the clamping port, and a reset button for releasing the buckling state is arranged on the sealing base.

5. The portable capper configuration of claim 1, wherein: the utility model discloses a press button, including base, reset mechanism, a plurality of reset spring equipartition is around sealing the button, the upper and lower end of reset spring supports respectively to press and seals between the button and the base.

6. The portable capper configuration of claim 1, wherein: the corner of the clamp opening is provided with a limiting surface for limiting the edge of the vacuum bag, and the end head of the blade extends to a depth exceeding the limiting surface to the inside of the sealing base.

7. The portable capper configuration of claim 1, wherein: the shape of the blade is in a clamping mouth shape or a linear shape, and the clamping mouth shape comprises but is not limited to a U shape, a C shape, a V shape and an L shape; the U-shaped, C-shaped, V-shaped and L-shaped blades form a nip-shaped cut on the vacuum bag, and the straight blades form a straight cut on the vacuum bag.

8. The portable capper configuration of claim 7 wherein: the jaw-shaped blade is provided with a sharp corner.

9. The portable capper configuration of claim 1, wherein: the blade extends out and presss from both sides the mouth, and the last blade that corresponds of the module that generates heat has seted up the blade and has dodged the groove.

10. The portable capper configuration of claim 3, wherein: still install circuit board and the battery that is connected in the button of sealing, the circuit board respectively with vacuum pump and the module electric connection that generates heat.

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