CN105531198A

CN105531198A - Glass tube package

Info

Publication number: CN105531198A
Application number: CN201480050192.5A
Authority: CN
Inventors: 林均; 市川正广; 干场健一
Original assignee: Nippon Electric Glass Co Ltd
Current assignee: Nippon Electric Glass Co Ltd
Priority date: 2013-09-13
Filing date: 2014-08-01
Publication date: 2016-04-27
Also published as: US20160221736A1; EP3045403A4; WO2015037361A1; EP3045403A1; JP2015054723A

Abstract

Provided is a glass tube package that can suppress the occurrence of damage to glass tubes and prevent degradation of the quality of glass tubes. A glass tube package (10) is provided with: a plurality of glass tubes (P) that are arrayed in a plurality of rows and a plurality of columns; a plurality of spacer members (S) (bottom side spacer members (Su) and top side spacer members (So)) that are arranged on the bottom side and/or top side of each column of the plurality of glass tubes (P); and a film wrapping (W) that is obtained by shrinking and that covers at least both ends of the plurality of glass tubes (P).

Description

Body tied up by glass tube

Technical field

The present invention relates to and multiple isometric glass tube is configured to multiple row and the technology of body tied up by multilayer and the glass tube carrying out tying up.

Background technology

For the glass tube that such as therapeutic medical phial, illuminating fluorescent tube etc. use, being configured to multiple row and multilayer by being formed as isometric multiple glass tubes, being packaged into a branch of glass tube and tying up body.Tying up the technology of body as forming such glass tube, knownly bag being shunk and the technology (for example, referring to " patent documentation 1 ") of being tied up at the both ends of multiple glass tube.

At first technical literature

Patent documentation

Patent documentation 1: Japanese Unexamined Patent Publication 10-114382 publication

According to above-mentioned conventional art, the glass tube tied up in body due to glass tube contacts with each other, and therefore when body tied up by moving glass pipe, sometimes on glass tube, produces cut and causes the quality such as mechanical strength, outward appearance quality of glass tube to reduce.

Summary of the invention

The problem that invention will solve

The present invention completes in view of the problem points of the present situation shown in above, and its problem is to provide a kind of can the suppression to produce cut thus body tied up by the glass tube preventing the quality of glass tube from reducing at glass tube.

For solving the means of problem

Problem to be solved of the present invention is described above, is next described the means for solving this problem.

That is, in technical scheme 1 of the present invention, glass tube is tied up body and is possessed: multiple glass tube, and it is arranged in multiple row and multilayer; Multiple insulating element, it is configured in downside and/or the upside of each layer of multiple described glass tube; And film bag, it covers at least both ends of multiple described glass tube and shrinks.

In technical scheme 2 of the present invention, described insulating element is configured in the upside of the glass tube of the superiors and/or the downside of undermost glass tube.

In technical scheme 3 of the present invention, described insulating element is configured in the position covered by described film bag.

In technical scheme 4 of the present invention, described glass tube is tied up body and is configured to, and the center forming each glass tube of each row of multiple described glass tube arranges with linearity in the vertical direction.

In technical scheme 5 of the present invention, described insulating element possesses plane component and multiple protuberances outstanding to the direction orthogonal with described at least one-sided face of described plane component, and multiple described glass tube is configured between multiple described protuberance respectively.

In technical scheme 6 of the present invention, described insulating element is made of paper.

In technical scheme 7 of the present invention, the external diameter of described glass tube is 5mm ~ 12mm.

Invention effect

As effect of the present invention, play effect shown below.

That is, tie up body according to the glass tube of technical scheme 1 of the present invention, the situation producing cut on glass tube can be suppressed, thus prevent the quality of glass tube from reducing.

Body tied up by glass tube according to technical scheme 2 of the present invention, reliably can suppress the situation producing cut on glass tube, thus prevents the quality of glass tube from reducing.

Body tied up by glass tube according to technical scheme 3 of the present invention, can make tying up firmly of glass tube.

Body tied up by glass tube according to technical scheme 4 of the present invention, can prevent glass tube from offseting to the position of horizontal direction.

Body tied up by glass tube according to technical scheme 5 of the present invention, can suppress glass tube in the horizontal direction and above-below direction produces the situation of cut, thus prevent the quality of glass tube from reducing.

Body tied up by glass tube according to technical scheme 6 of the present invention, can prevent from producing cut on glass tube by insulating element.

Body tied up by glass tube according to technical scheme 7 of the present invention, can suppress the situation producing cut on the glass tube requiring Mass accuracy further, thus prevents the quality of glass tube from reducing.

Accompanying drawing explanation

Fig. 1 illustrates that the integrally-built block diagram of body tied up by the glass tube of the first embodiment of the present invention.

Fig. 2 is the front view that body tied up by the glass tube of identical the first embodiment.

Fig. 3 is the block diagram that the insulating element that body uses tied up by the glass tube of the first embodiment.

Fig. 4 illustrates that the integrally-built block diagram of body tied up by the glass tube of the second embodiment.

Fig. 5 is the front view that body tied up by the glass tube of the second embodiment.

Fig. 6 is the block diagram that the insulating element that body uses tied up by the glass tube of the second embodiment.

Fig. 7 illustrates that the integrally-built block diagram of body tied up by the glass tube of the 3rd embodiment.

Fig. 8 is the front view that body tied up by the glass tube of the 3rd embodiment.

Fig. 9 is the block diagram that the insulating element that body uses tied up by the glass tube of the 3rd embodiment.

Figure 10 illustrates that the integrally-built block diagram of body tied up by the glass tube of the 4th embodiment.

Figure 11 is the front view that body tied up by the glass tube of the 4th embodiment.

Detailed description of the invention

Next, embodiments of the present invention are described.

[body 10 tied up by glass tube]

First, the structure using the glass tube of Fig. 1 ~ Fig. 3 to the first embodiment of the present invention to tie up body 10 is described.It should be noted that, for the following description, for convenience of explanation, glass tube ties up the above-below direction of body, left and right directions and fore-and-aft direction to utilize the direction of arrow respectively illustrated to specify.

Glass tube in present embodiment ties up body 10 by multiple glass tube P lamination being stable form and carrying out tying up forming.Glass tube is tied up body 10 and is had and be arranged as multiple row and multiple glass tube P of multilayer.Each glass tube P is such as the rectangular double glazing component that therapeutic medical phial, illuminating fluorescent tube etc. use, and is the drum of 5mm ~ 12mm in external diameter.Glass tube in present embodiment tie up body 10 by being arranged with eight in the lateral direction, be arranged with nine in the vertical direction and add up to 72 glass tube P to tie up and form.In other words, glass tube ties up body 10 by tying up 72 the glass tube P being arranged as 8 row 9 layers and forming.But the aligning method of the glass tube P that glass tube is tied up in body is not limited to present embodiment.

In addition, glass tube is tied up body 10 and is possessed the downside of each layer being configured in multiple glass tube P and/or multiple insulating element S (downside insulating element Su and upside insulating element So) of upside.Downside insulating element Su and upside insulating element So is the component (with reference to Fig. 3) reversed up and down by the insulating element S of same shape.The glass of present embodiment is tied up body 10 and is configured with downside insulating element Su (protuberance 22,22 in the downside of the glass tube P of each layer ... upwardly projecting insulating element S), upside insulating element So (protuberance 22,22 is configured with in the upside of the glass tube P of the superiors ... the insulating element S that downward side is outstanding).But, also can omit configuration side insulating element So.In addition, also can at configuration downside, the downside of undermost glass tube P insulating element Su, insulating element So (structure of reversing up and down by present embodiment) on the upside of the configuration of the upside of the glass tube P of each layer.In addition, also at configuration downside, the downside of undermost glass tube P insulating element Su, at configuration upside, the upside of the glass tube P of the superiors insulating element So, downside insulating element Su and upside insulating element So both sides can be configured between the glass tube P of each layer.It should be noted that, in the present embodiment, in order to prevent upside insulating element So and downside insulating element Su from interfering, staggered positions is configured in the longitudinal direction.

Each insulating element S is (such as carton system) made of paper, as shown in Figure 3, be provided with to the outstanding multiple protuberances 22,22 in the direction (top in Fig. 3) orthogonal with this face in the one-sided face (upper surface in Fig. 3) of plane component 21 ...Each protuberance 22,22 ... interval be set to slightly larger than the external diameter of glass tube P with the degree of accommodating glass tube P.In the present embodiment, an insulating element S is configured with eight glass tube P, insulating element S comprises end and is formed with nine place's protuberances 22.It should be noted that, the insulating element S in present embodiment is made of paper, but also can use the other materials such as expanded polystyrene system, plastics.

Tie up in body 10 at the glass tube of present embodiment, as shown in Figure 1 and Figure 2, at the protuberance 22,22 of insulating element S ... between be arranged with eight glass tube P, by stacked for the row of this glass tube P nine layers and form the bundle of glass tube P.In other words, multiple glass tube P is configured in the protuberance 22,22 of insulating element S respectively ... between.Further, in this condition, the both ends tunicle bag W that glass tube P restraints covers, and shrinks by making film bag W thus is tied up by glass tube P.In other words, glass tube is tied up body 10 and is had the both ends that cover multiple glass tube P and the film bag W shunk.Specifically, heat under the state of the end by restrainting as the film bag W cover glass pipe P of heat shrinkable plastic film, film bag W is shunk, thus make film bag W be close to the end of glass tube P bundle as shown in Figure 1.

It should be noted that, also under utilizing film bag W cover glass pipe P to restraint overall state, by making film bag W shrink, glass tube P can be tied up.In other words, in order to prevent foreign matter being mixed into the inside of glass tube P, as long as be formed through the state at the both ends of film bag W shutoff glass tube P.

In addition, the material for film bag W is not particularly limited, and can be the heat shrinkable plastic films such as PVC (polyvinylchloride), PP (polypropylene) or PE (polyethylene).

Tie up in body 10 at the glass tube of present embodiment, as shown in Figure 2, between the left and right directions of glass tube P, be folded with the protuberance 22 of insulating element S, between the above-below direction of glass tube P, be folded with the plane component 21 of insulating element S.Therefore, when body 10 tied up by moving glass pipe etc., can prevent glass tube P from contacting with each other.In other words, tie up in body 10 at the glass tube of present embodiment, the situation producing cut on glass tube P can be suppressed, thus prevent the quality of glass tube P from reducing.

In addition, tie up in body 10 at the glass tube of present embodiment, as shown in Figure 1, the position (utilizing film bag W to carry out the position of tying up) that the tunicle bag W that insulating element S is configured in the end of the front and back of multiple glass tube P covers.Specifically, insulating element S is configured to, and the length Dw of the film bag W after the distance Ds tying up the end of body 10 apart from glass tube shrinks than the end of tying up body 10 from glass tube is little.Thus, insulating element is fixed in the inside of film bag W, therefore, it is possible to make glass tube tie up tying up firmly of the glass tube P of body 10.Like this, tie up tying up of the glass tube P of body 10 from the view point of reinforced glass pipe, preferred insulating element S is configured in end than glass tube P slightly by the position inside fore-and-aft direction.

In addition, tie up in body 10 at the glass tube of present embodiment, as shown in Figure 2, each row of the above-below direction of glass tube P are configured to reticulation in be arranged in a straight line the in the vertical direction mode of shape of the center of each glass tube P forming each row of glass tube P.Thus, the glass tube P immediately below the load of glass tube P puts on via the plane component 21 of insulating element S, can not disperse in the lateral direction.Therefore, it is possible to prevent glass tube P from offseting to the position of horizontal direction (left and right directions).

In addition, tie up in body 10 at the glass tube of present embodiment, insulating element S is made of paper.Paper is more soft than glass tube P, therefore, it is possible to suppress insulating element S to make glass tube produce the situation of cut.In addition, paper not easily shifts dirt to glass tube P, will as expanded polystyrene, make Strapping Material be attached to glass tube, is therefore preferably set to made of paper by insulating element S.

In addition, tie up in body 10 at the glass tube of present embodiment, the external diameter of glass tube P is 5mm ~ 12mm.In other words, tie up in body 10 at the glass tube of present embodiment, can suppress require the external diameter of Mass accuracy be the path of 5mm ~ 12mm glass tube P on produce the situation of cut, thus prevent the quality of glass tube P from reducing.

[body 110 tied up by glass tube]

Next, the structure using the glass tube of Fig. 4 ~ Fig. 6 to the second embodiment of the present invention to tie up body 110 is described.

It should be noted that, for the following description, marking identical Reference numeral the description thereof will be omitted to tying up the identical structure of body with the glass tube of above-mentioned embodiment, being described centered by different structure.

The glass tube of present embodiment is tied up body 110 and is possessed the downside of each layer being configured in multiple glass tube P and/or multiple insulating elements (downside insulating element Su, upside insulating element So and intermediate isolating component Sm) of upside.Downside insulating element Su and upside insulating element So is the component that the insulating element S of same shape is reversed up and down.As shown in Figure 6, intermediate isolating component Sm is formed as making multiple protuberance 122,122 ... to give prominence to from the one-sided face of plane component 121 and two insulating elements formed reverse up and down and make the shape that the front and back side end of plane component 121 is engaged with each other.As shown in Figure 4, the glass of present embodiment is tied up body 110 and is configured with downside insulating element Su in the downside of undermost glass tube P, be configured with upside insulating element So in the upside of the glass tube P of the superiors, between the glass tube P of each layer, be configured with intermediate isolating component Sm.

Intermediate isolating component Sm is (such as carton system) made of paper, as shown in Figure 6, in two faces (upper and lower surface in Fig. 6) of plane component 121, in the direction (above-below direction in Fig. 6) orthogonal with each face, upper giving prominence to is formed with multiple protuberance 122,122 ...Each protuberance 122,122 ... interval be formed as slightly larger than the external diameter of glass tube P with the degree of accommodating glass tube P.

Body 110 tied up by glass tube according to the present embodiment, makes each layer of glass tube P can not relative displacement in the lateral direction by intermediate isolating component Sm.Therefore, when body 110 tied up by moving glass pipe, can prevent each layer relative sliding of glass tube P from moving and make glass tube tie up the situation of the shape distortion of body 110.In other words, tie up in body 110 at the glass tube of present embodiment, glass tube can be made to tie up tying up of glass tube P in body 110 more firm.

[body 210 tied up by glass tube]

Next, the structure using the glass tube of Fig. 7 ~ Fig. 9 to the 3rd embodiment of the present invention to tie up body 210 is described.

Tie up in body 210 at the glass tube of present embodiment, also possess the downside of each layer being configured in multiple glass tube P and/or multiple insulating elements (downside insulating element Su, upside insulating element So and intermediate isolating component Sm ') of upside.Downside insulating element Su and upside insulating element So is the component that the insulating element S of same shape is reversed up and down.As shown in Figure 9, intermediate isolating component Sm ' is configured to, and is formed with multiple protuberance 222,222 from the face of the both sides of plane component 221 is outstanding ...The glass of present embodiment is tied up body 210 and is configured with downside insulating element Su in the downside of undermost glass tube P, is configured with upside insulating element So, is configured with intermediate isolating component Sm ' between the glass tube P of each layer in the upside of the glass tube P of the superiors.In other words, tie up in body 210 at glass tube, the protuberance 222,222 of the top of each insulating element ... with the protuberance 222,222 of below ... be configured in position facing with each other.In addition, each protuberance 222,222 of top ... height and each protuberance 222,222 of below ... height be formed as the radial extents of glass tube P, mutually not interfere with intermediate isolating component Sm '.As shown in Figure 7, the glass of present embodiment is tied up body 210 and is configured with downside insulating element Su in the downside of undermost glass tube P, be configured with upside insulating element So in the upside of the glass tube P of the superiors, between the glass tube P of each layer, be configured with intermediate isolating component Sm '.

Intermediate isolating component Sm ' is (such as carton system) made of paper, as shown in Figure 9, in two faces (upper and lower surface in Fig. 9) of plane component 221, in the direction (above-below direction in Fig. 9) orthogonal with each face, upper giving prominence to is formed with multiple protuberance 222,222 ...Each protuberance 222,222 ... interval be formed as slightly larger than the external diameter of glass tube P with the degree of accommodating glass tube P.In addition, each protuberance 222,222 ... height be formed as the radial extents of glass tube P, can not mutually interfere.

Body 210 tied up by glass tube according to the present embodiment, makes each layer of glass tube P can not relative displacement in the lateral direction by intermediate isolating component Sm '.Therefore, when body 210 tied up by moving glass pipe, can prevent each layer relative sliding of glass tube P from moving and make glass tube tie up the situation of the shape distortion of body 210.In other words, tie up in body 210 at the glass tube of present embodiment, glass tube can be made to tie up tying up of glass tube P in body 210 more firm.

[body 310 tied up by glass tube]

Next, the structure using the glass tube of Figure 10 and Figure 11 to the 4th embodiment of the present invention to tie up body 310 is described.

The glass tube of present embodiment is tied up body 310 and is possessed the downside of each layer being configured in multiple glass tube P and/or multiple insulating element Sw of upside.Insulating element Sw is (such as carton system) made of paper, and its section is formed as wave mode shape as shown in Figure 11.Further, tie up in body 310 at the glass tube of present embodiment, as shown in Figure 10, glass tube P adjacent on above-below direction is configured to zig-zag between glass tube P each other.

Body 310 tied up by glass tube according to the present embodiment, can reduce the interval each other of glass tube P, therefore, it is possible to arrange more glass tube P in limited space.In other words, the allocative efficiency of glass tube P can be improved.Therefore, when the glass tube P identical to quantity ties up, glass tube can be made to tie up body 310 small-sized, efficiency during moving glass pipe P can be improved.

Industrial applicibility

Glass tube of the present invention tie up style if for multiple isometric glass tube that therapeutic medical phial, illuminating fluorescent tube etc. are used concentrate be bundled into a branch of.

Description of reference numerals:

Body tied up by 10 glass tubes

Body tied up by 110 glass tubes

Body tied up by 210 glass tubes

Body tied up by 310 glass tubes

P glass tube

S insulating element

Sm intermediate isolating component

Sm ' intermediate isolating component

Insulating element on the upside of So

Insulating element on the downside of Su

Sw insulating element

W film bag

Claims

1. a body tied up by glass tube, it is characterized in that, possesses:

Multiple glass tube, it is arranged in multiple row and multilayer;

Multiple insulating element, it is configured in downside and/or the upside of each layer of multiple described glass tube; And

Film bag, it covers at least both ends of multiple described glass tube and shrinks.

2. body tied up by glass tube according to claim 1, it is characterized in that,

Described insulating element is configured in the upside of the glass tube of the superiors and/or the downside of undermost glass tube.

3. body tied up by glass tube according to claim 1 and 2, it is characterized in that,

Described insulating element is configured in the position covered by described film bag.

4. body tied up by glass tube according to any one of claim 1 to 3, it is characterized in that,

Described glass tube is tied up body and is configured to, and the center forming each glass tube of each row of multiple described glass tube arranges with linearity in the vertical direction.

5. body tied up by glass tube according to any one of claim 1 to 4, it is characterized in that,

Described insulating element possesses plane component and multiple protuberances outstanding to the direction orthogonal with described at least one-sided face of described plane component,

Multiple described glass tube is configured between multiple described protuberance respectively.

6. body tied up by glass tube according to any one of claim 1 to 5, it is characterized in that,

Described insulating element is made of paper.

7. body tied up by glass tube according to any one of claim 1 to 6, it is characterized in that,

The external diameter of described glass tube is 5mm ~ 12mm.