CN209956276U - Vacuum coating machine convenient to carry out accurate location to pan feeding - Google Patents

Abstract

The utility model provides a vacuum coating machine which is convenient for accurately positioning a feeding material, comprising a vacuum coating machine, a short scale structure and an annular T-shaped sliding block; the plastic cylindrical block is arranged, and the central part of the rear end face of the plastic cylindrical block is provided with the circular groove; the back end face of the plastic cylindrical block is welded with the annular T-shaped sliding block. Under the daily user state that does not, the spacing bolt of iron is pegged graft in the spacing bolt recess of iron of square magnet piece, when children contact the repeated wrench movement speed adjust knob position of vacuum coating machine circulation, because of the cooperation rotation that speed adjust knob position is through an annular T shape sliding block and annular T shape sliding tray is connected with a plastics cylinder piece that wraps up and live it, so when children's repeated wrench movement speed adjust knob position of circulation, it can only rotate plastics cylinder piece, can not contact speed adjust knob, in order to guarantee volume speed adjust knob's life.

Description

Vacuum coating machine convenient to carry out accurate location to pan feeding

Technical Field

The utility model belongs to the technical field of the coating machine equipment, more specifically say, in particular to vacuum coating machine convenient to carry out accurate location to the pan feeding.

Background

When the vacuum film coating machine is not used, the vacuum film coating machine is generally placed at a low position, and when a child with stubborn skin touches the vacuum film coating machine, the child can circularly and repeatedly rotate the speed adjusting knob on the vacuum film coating machine, so that the service life of the speed adjusting knob of the vacuum film coating machine is shortened, and the service life of the vacuum film coating machine is shortened; when some articles which can only use materials with low vacuum strength are placed on the article adsorption table to wait for the film coating operation, if the placement position is not at the central part of the article adsorption table, the placement position is slightly deviated in the subsequent film coating operation, so that the articles fall off from the vacuum article adsorption table with low vacuum strength, and the film coating failure is caused.

For example, application No.: 200920135503.4 the utility model discloses a diolame time is short, the effectual cell-phone coating machine of diolame, including the box, it has a sunken position that can hold ordinary cell-phone, open sunken position bottom has the opening, and the inside air pump that is equipped with of box, trachea link to each other the opening of air pump induction port and sunken position, and this coating machine still includes attached heating device. The protective film wrapped by the wrapping machine is integrated with the mobile phone, the quality effect is good, the corners of the wrapped surface of the mobile phone are not easy to wrinkle and upwarp, no air bubbles exist, and the wrapping time is short.

Based on the search of the above patent and the discovery of the devices in the prior art, the vacuum film coating machine (mobile phone film coating machine) sold on the market at present has the above disadvantages.

Therefore, in view of the above, research and improvement are performed on the existing structure and defects, and a vacuum film wrapping machine convenient for accurately positioning a feeding material is provided, so as to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a vacuum coating machine convenient for accurately positioning a feeding material, which aims to solve the problems that when the existing vacuum coating machine is not used, the existing vacuum coating machine is generally placed at a low position, and when a child with stubborn skin contacts the vacuum coating machine, the child with stubborn skin can circularly and repeatedly rotate a speed adjusting knob on the vacuum coating machine, so that the service life of the speed adjusting knob of the vacuum coating machine is shortened, and the service life of the vacuum coating machine is shortened; when some articles which can only use materials with low vacuum strength are placed on the article adsorption table to wait for the film coating operation, if the placement position is not at the central part of the article adsorption table, the placement position is slightly deviated in the subsequent film coating operation, so that the articles fall off from the vacuum article adsorption table with low vacuum strength, and the film coating failure is caused.

The utility model discloses be convenient for carry out the purpose and the efficiency of the vacuum coating machine of accurate location to the pan feeding, reach by following concrete technical means:

a vacuum film coating machine convenient for accurately positioning a feeding material comprises a vacuum film coating machine, a rectangular block-shaped notch structure, a speed adjusting knob, an annular T-shaped sliding groove, a limiting cylindrical groove, a chamfering structure, a square magnet block, an iron limiting bolt groove, a plastic cylindrical block, a circular groove, a limiting circular through hole, an iron limiting bolt, a round ball bulge block, a long scale structure, a short scale structure and an annular T-shaped sliding block;

the rectangular block-shaped gap structure is formed in the left lower included angle position of the top end face of the vacuum film coating machine, and the bottom face of the inner end of the rectangular block-shaped gap structure is welded with the square magnet block; the front end face and the left end face of the square magnet block are respectively positioned on the same horizontal plane with the front end face and the left end face of the vacuum film coating machine, and the top end face of the square magnet block is five millimeters lower than the top end face of the vacuum film coating machine; the front end face of the vacuum film coating machine is provided with the annular T-shaped sliding groove, and the annular T-shaped sliding groove and the speed adjusting knob on the front end face of the vacuum film coating machine are positioned on the same axis;

the plastic cylindrical block is arranged, and the central part of the rear end face of the plastic cylindrical block is provided with the circular groove; the back end face of the plastic cylindrical block is welded with the annular T-shaped sliding block, and the annular T-shaped sliding block is connected in the annular T-shaped sliding groove in a sliding manner; when the annular T-shaped sliding block is connected in the annular T-shaped sliding groove in a sliding mode, the speed adjusting knob is located in the circular groove, and the inner end face of the circular groove is not in contact with the speed adjusting knob; the adjacent edge part of the front end surface of the speed adjusting knob is provided with a limiting cylindrical groove, and when the speed adjusting knob is in a closed state, the limiting cylindrical groove is positioned at the left side part of the front end surface of the speed adjusting knob; the front end surface of the plastic cylindrical block is provided with a limiting circular through hole communicated with the circular groove, and the diameter of the limiting circular through hole is equal to that of the limiting cylindrical groove; after the plastic cylindrical block rotates for a certain angle along the annular T-shaped sliding groove through the annular T-shaped sliding block, the limiting circular through hole and the limiting cylindrical groove are in the same axis state.

Furthermore, the iron limiting bolt is arranged, the diameter of the inserting end of the iron limiting bolt is equal to the diameter of the limiting cylindrical groove and the diameter of the limiting circular through hole, and the length of the inserting end of the iron limiting bolt is larger than the vertical length from the front end face of the plastic cylindrical block to the bottom face of the inner end of the limiting cylindrical groove.

Furthermore, the central part of the top end face of the square magnet block is provided with the iron limiting bolt groove, the size of the iron limiting bolt groove is consistent with that of the iron limiting bolt, and the iron limiting bolt is in limiting insertion connection in the iron limiting bolt groove in a common state.

Furthermore, the central part of the top end face of the iron limiting bolt is welded with the round ball protruding block, and in a common state, when the iron limiting bolt is in limiting insertion in the iron limiting bolt groove, the peripheral top face of the round ball protruding block and the top end face of the vacuum film coating machine are in the same horizontal plane.

Furthermore, a chamfer structure is arranged at the opening end of the limiting cylindrical groove.

Further, the position adjacent to the left side and the right side of the object adsorption table on the bottom surface of the concave groove at the top end of the vacuum film coating machine is provided with a long scale structure with the same length and size, and the long scale structures are symmetrically distributed.

Further, the position adjacent to the front side and the rear side of the object adsorption table on the bottom surface of the concave groove at the top end of the vacuum film coating machine is provided with a short scale structure with the same length and size, and the short scale structures are symmetrically distributed.

Compared with the prior art, the utility model discloses following beneficial effect has:

under the daily user state that does not, the spacing bolt of iron is pegged graft in the spacing bolt recess of iron of square magnet piece, when children contact the repeated wrench movement speed adjust knob position of vacuum coating machine circulation, because of the cooperation rotation that speed adjust knob position is through an annular T shape sliding block and annular T shape sliding tray is connected with a plastics cylinder piece that wraps up and live it, so when children's repeated wrench movement speed adjust knob position of circulation, it can only rotate plastics cylinder piece, can not contact speed adjust knob, in order to guarantee volume speed adjust knob's life.

After the article was placed on the article adsorption stage on vacuum coating machine top, the user can be according to the twice long scale structure and twice short scale structure that set up on the sunken tank bottom surface in vacuum coating machine top, observe the position region that four ends of article were located twice long scale structure and twice short scale structure, with the central point that whether accurate the placing at the article adsorption stage of judging the article, when the article was placed and has slightly the deviation, can finely tune the position of placing of article on the article adsorption stage according to twice long scale structure and twice short scale structure, in order to reach the accurate positioning, do benefit to follow-up diolame operation.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is the utility model discloses a structure schematic diagram is looked to axle under spacing bolt of iron and the cooperation state of pegging graft of spacing cylinder groove.

Fig. 2 is the schematic view of the overlooking structure of the iron limit pin and the limit cylindrical groove in the insertion matching state.

Fig. 3 is a schematic view of the structure of the iron limit pin and the limit cylindrical groove in the state of inserting and matching.

Fig. 4 is a schematic sectional view of a-a in fig. 3 according to the present invention.

Fig. 5 is a schematic view of the structure of fig. 3B-B in partial section.

Fig. 6 is a schematic structural view of the plastic cylinder block and the iron limit bolt in fig. 1 of the present invention in a removed state.

Fig. 7 is a schematic diagram of a partially enlarged structure at C in fig. 6 according to the present invention.

Fig. 8 is a schematic view of the iron limit pin of the present invention.

Fig. 9 is a schematic structural view of the plastic cylindrical block of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. vacuum coating machine; 101. a rectangular block-shaped gap structure; 102. a speed adjusting knob; 103. an annular T-shaped sliding groove; 104. a limiting cylindrical groove; 105. a chamfering structure; 2. a square magnet block; 201. an iron limit bolt groove; 3. a plastic cylindrical block; 301. a circular groove; 302. limiting the circular through hole; 4. an iron limit bolt; 401. the ball bulges; 5. a long scale structure; 6. a short scale structure; 7. an annular T-shaped slider;

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 9:

the utility model provides a vacuum coating machine convenient for accurately positioning a feeding material, which comprises a vacuum coating machine 1, a rectangular block-shaped notch structure 101, a speed adjusting knob 102, an annular T-shaped sliding groove 103, a limiting cylindrical groove 104, a chamfer structure 105, a square magnet block 2, an iron limiting bolt groove 201, a plastic cylindrical block 3, a circular groove 301, a limiting circular through hole 302, an iron limiting bolt 4, a round ball bulge block 401, a long scale structure 5, a short scale structure 6 and an annular T-shaped sliding block 7;

the rectangular block-shaped notch structure 101 is arranged at the left lower included angle position of the top end face of the vacuum film coating machine 1, and the bottom face of the inner end of the rectangular block-shaped notch structure 101 is welded with the square magnet block 2; the front end face and the left end face of the square magnet block 2 are respectively positioned on the same horizontal plane with the front end face and the left end face of the vacuum film coating machine 1, and the top end face of the square magnet block 2 is five millimeters lower than the top end face of the vacuum film coating machine 1; the front end face of the vacuum film coating machine 1 is provided with the annular T-shaped sliding groove 103, and the annular T-shaped sliding groove 103 and the speed adjusting knob 102 on the front end face of the vacuum film coating machine 1 are positioned on the same axis;

the plastic cylindrical block 3 is arranged, and the central part of the rear end face of the plastic cylindrical block 3 is provided with the circular groove 301; the back end face of the plastic cylindrical block 3 is welded with the annular T-shaped sliding block 7, and the annular T-shaped sliding block 7 is connected in the annular T-shaped sliding groove 103 in a sliding manner; when the annular T-shaped sliding block 7 is connected in the annular T-shaped sliding groove 103 in a sliding manner, the speed adjusting knob 102 is positioned in the circular groove 301, and the inner end surface of the circular groove 301 is not in contact with the speed adjusting knob 102; the adjacent edge part of the front end surface of the speed adjusting knob 102 is provided with the limiting cylindrical groove 104, and when the speed adjusting knob 102 is in a closed state, the limiting cylindrical groove 104 is positioned at the left side part of the front end surface of the speed adjusting knob 102; the front end face of the plastic cylindrical block 3 is provided with a limiting circular through hole 302 communicated with the circular groove 301, and the diameter of the limiting circular through hole 302 is equal to that of the limiting cylindrical groove 104; after the plastic cylindrical block 3 rotates for a certain angle along the annular T-shaped sliding groove 103 through the annular T-shaped sliding block 7, the limiting circular through hole 302 and the limiting cylindrical groove 104 are in the same axial state.

The iron limiting bolt 4 is arranged, the diameter of the inserting end of the iron limiting bolt 4 is equal to the diameters of the limiting cylindrical groove 104 and the limiting circular through hole 302, the length of the inserting end of the iron limiting bolt 4 is larger than the vertical length from the front end face of the plastic cylindrical block 3 to the bottom face of the inner end of the limiting cylindrical groove 104, the inserting end of the iron limiting bolt 4 can penetrate through the limiting circular through hole 302 to be inserted into the limiting cylindrical groove 104, and therefore the speed adjusting knob 102 and the plastic cylindrical block 3 are fixed together temporarily.

Wherein, square magnet piece 2 top end face central point is seted up one and is located the spacing bolt recess 201 of iron, and the spacing bolt recess 201 size of iron is unanimous with the spacing bolt 4 size of iron, and under the ordinary condition, the spacing bolt of iron 4 is spacing pegged graft in the spacing bolt recess 201 of iron, avoids losing of the spacing bolt 4 of iron through the spacing bolt recess 201 of iron and magnetic attraction effect.

Wherein, the welding of 4 top end face central point departments of iron spacing bolt has one the protruding piece 401 of ball, under the normal condition, when 4 spacing pegs graft in the spacing bolt recess 201 of iron, the protruding piece 401 periphery top surface of ball is in same horizontal plane with 1 top end face of vacuum coating machine, when the people need vacuum coating machine 1, the accessible is held between fingers the protruding piece 401 of ball and is extracted the spacing bolt 4 of iron from the spacing bolt recess 201 of iron.

The opening end of the limiting cylindrical groove 104 is provided with a chamfer structure 105, so that the insertion end of the iron limiting bolt 4 can be inserted into the limiting cylindrical groove 104 quickly after passing through the limiting circular through hole 302.

Wherein, adjacent all be provided with one long scale structure 5 with length size in article adsorption stage left side and right flank position on the sunken tank bottom surface in 1 top of vacuum coating machine, and twice long scale structure 5 is the symmetry form and distributes, and the user can be according to the long scale structure 5 of twice and the short scale structure 6 of twice that set up on the sunken tank bottom surface in 1 top of vacuum coating machine, observes four end positions of article and is in twice long scale structure 5 and twice short scale structure 6's position region to judge whether accurate the placing at the central point of article adsorption stage of article, when the article is placed slightly the deviation, can finely tune the position of placing of article on the article adsorption stage according to twice long scale structure 5 and twice short scale structure 6, in order to reach accurate positioning, do benefit to follow-up diolame operation.

Wherein, adjacent all be provided with one with length size's short scale structure 6 in article adsorption stage front side and posterolateral side position on the sunken tank bottom surface in 1 top of vacuum coating machine, and twice short scale structure 6 is the symmetry form and distributes, and the user can be according to the long scale structure 5 of twice and the short scale structure 6 of twice that set up on the sunken tank bottom surface in 1 top of vacuum coating machine, observes four ends of article and is located the position region of the long scale structure 5 of twice and the short scale structure 6 of twice to judge whether accurate the placing at the central point of article adsorption stage of article, when the article is placed slightly there is the deviation, can finely tune the position of placing of article on the article adsorption stage according to the long scale structure 5 of twice and the short scale structure 6 of twice, in order to reach accurate positioning, do benefit to follow-up diolame operation.

The specific use mode and function of the embodiment are as follows:

when a child contacts the position of the speed adjusting knob 102 of the vacuum coating machine 1 and repeatedly twists, the speed adjusting knob 102 is rotatably connected with a plastic cylindrical block 3 wrapping the speed adjusting knob through the matching of an annular T-shaped sliding block 7 and an annular T-shaped sliding groove 103, so that when the child repeatedly twists the position of the speed adjusting knob 102, the child only rotates to the plastic cylindrical block 3 and does not contact the speed adjusting knob 102, and the service life of the volume speed adjusting knob 102 is ensured;

when an adult needs the vacuum film coating machine 1, the iron limiting bolt 4 can be pulled out of the iron limiting bolt groove 201 by grabbing and pinching the spherical convex block 401, then the plastic cylindrical block 3 is rotated along the annular T-shaped sliding groove 103, so that the limiting circular through hole 302 and the limiting cylindrical groove 104 are in the same axis state, then the inserting end of the iron limiting bolt 4 penetrates through the limiting circular through hole 302 and is inserted into the limiting cylindrical groove 104, and the speed adjusting knob 102 and the plastic cylindrical block 3 are temporarily fixed together, and then the adult can drive the speed adjusting knob 102 to rotate by twisting the plastic cylindrical block 3 together, so that the adjusting operation is realized;

furthermore, a chamfer structure 105 is arranged at the opening end part of the limiting cylindrical groove 104, and the arrangement of the chamfer structure 105 is convenient for the insertion end of the iron limiting bolt 4 to pass through the limiting circular through hole 302 and then to be quickly inserted into the limiting cylindrical groove 104;

after the article was placed on the article adsorption stage on 1 top of vacuum coating machine, the user can be according to two long scale structure 5 and two short scale structure 6 that set up on the sunken tank bottom surface in 1 top of vacuum coating machine, observe the position region of four ends of article in two long scale structure 5 and two short scale structure 6, with the central point that whether accurate placing at the article adsorption stage of judging the article, when the article was placed and has slightly the deviation, can finely tune the position of placing of article on the article adsorption stage according to two long scale structure 5 and two short scale structure 6, in order to reach accurate positioning, do benefit to follow-up diolame operation.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a vacuum coating machine convenient to carry out accurate location to pan feeding which characterized in that: the vacuum film coating machine convenient for accurately positioning the fed material comprises a vacuum film coating machine, a rectangular block-shaped notch structure, a speed adjusting knob, an annular T-shaped sliding groove, a limiting cylindrical groove, a chamfering structure, a square magnet block, an iron limiting bolt groove, a plastic cylindrical block, a circular groove, a limiting circular through hole, an iron limiting bolt, a round ball bulge block, a long scale structure, a short scale structure and an annular T-shaped sliding block;

the rectangular block-shaped gap structure is formed in the left lower included angle position of the top end face of the vacuum film coating machine, and the bottom face of the inner end of the rectangular block-shaped gap structure is welded with the square magnet block; the front end face and the left end face of the square magnet block are respectively positioned on the same horizontal plane with the front end face and the left end face of the vacuum film coating machine, and the top end face of the square magnet block is five millimeters lower than the top end face of the vacuum film coating machine; the front end face of the vacuum film coating machine is provided with the annular T-shaped sliding groove, and the annular T-shaped sliding groove and the speed adjusting knob on the front end face of the vacuum film coating machine are positioned on the same axis;

the plastic cylindrical block is arranged, and the central part of the rear end face of the plastic cylindrical block is provided with the circular groove; the back end face of the plastic cylindrical block is welded with the annular T-shaped sliding block, and the annular T-shaped sliding block is connected in the annular T-shaped sliding groove in a sliding manner; when the annular T-shaped sliding block is connected in the annular T-shaped sliding groove in a sliding mode, the speed adjusting knob is located in the circular groove, and the inner end face of the circular groove is not in contact with the speed adjusting knob; the adjacent edge part of the front end surface of the speed adjusting knob is provided with a limiting cylindrical groove, and when the speed adjusting knob is in a closed state, the limiting cylindrical groove is positioned at the left side part of the front end surface of the speed adjusting knob; the front end surface of the plastic cylindrical block is provided with a limiting circular through hole communicated with the circular groove, and the diameter of the limiting circular through hole is equal to that of the limiting cylindrical groove; after the plastic cylindrical block rotates for a certain angle along the annular T-shaped sliding groove through the annular T-shaped sliding block, the limiting circular through hole and the limiting cylindrical groove are in the same axis state.

2. The vacuum coating machine convenient for accurately positioning the fed material as claimed in claim 1, is characterized in that: the limiting bolt is arranged, the diameter of the inserting end of the iron limiting bolt is equal to that of the limiting cylindrical groove and the limiting circular through hole, and the length of the inserting end of the iron limiting bolt is larger than the vertical length from the front end face of the plastic cylindrical block to the bottom face of the inner end of the limiting cylindrical groove.

3. The vacuum coating machine convenient for accurately positioning the fed material as claimed in claim 1, is characterized in that: the central part of the top end face of the square magnet block is provided with the iron limiting bolt groove, the size of the iron limiting bolt groove is consistent with that of the iron limiting bolt, and the iron limiting bolt is in limiting insertion in the iron limiting bolt groove in a common state.

4. The vacuum coating machine convenient for accurately positioning the fed material as claimed in claim 1, is characterized in that: the central part of the top end face of the iron limiting bolt is welded with the spherical convex block, and in a common state, when the iron limiting bolt is in limiting insertion in the iron limiting bolt groove, the peripheral top face of the spherical convex block and the top end face of the vacuum film coating machine are in the same horizontal plane.

5. The vacuum coating machine convenient for accurately positioning the fed material as claimed in claim 1, is characterized in that: and the opening end part of the limiting cylindrical groove is provided with a chamfer structure.

6. The vacuum coating machine convenient for accurately positioning the fed material as claimed in claim 1, is characterized in that: the vacuum coating machine top sunken groove bottom surface is adjacent to article adsorption table left side portion and right side position on all be provided with one with the long scale structure of length size, and twice long scale structure is the symmetrical form and distributes.

7. The vacuum coating machine convenient for accurately positioning the fed material as claimed in claim 1, is characterized in that: the vacuum coating machine top sunken groove bottom surface is adjacent to article adsorption platform front side and rear side position and all is provided with the short scale structure of one with length dimension on the vacuum coating machine top, and twice short scale structure is the symmetrical form and distributes.

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