CN208314016U - A kind of collision instruction device - Google Patents

Abstract

The utility model discloses a kind of collision instruction devices comprising: cavity, for accommodating shock-sensitive component；Shock-sensitive component, to acceleration sensitive, when it is more than critical acceleration by the acceleration that impact generates, the shock-sensitive component occurs fracture or local shedding occurs.A kind of collision instruction device, its structure is simple, no setting is required, and activation mechanism avoids the problem that inactive activation mechanism causes product to be impacted but do not indicate, can 360 degree of instruction impact events, solve the problems, such as that existing highly sensitive collision instruction device can not solve the problems, such as accidentally to be activated, solve the problems, such as to fail under existing collision instruction device cooler environment, solving the problems, such as existing collision instruction device structure is complicated and has solved existing collision instruction device loosely indicator to be caused to fail because sealing.

Description

A kind of collision instruction device

Technical field

The utility model relates to a kind of collision instruction devices.

Background technique

Some sophisticated products or friable product need to transport by modes such as highway, railway, steamers to visitor after producing At family, if transportational process collides, it will lead to product and be damaged or even scrap, therefore, it is necessary to sophisticated product or friable product The steady state of transportational process detected.

Chinese utility model patent CN200420041805.2 discloses a kind of Colision shock indicator, which passes through Shock makes the interior indicating liquid that sets that the surface tension of glass tube be overcome to flow to viewing area, and people sentence by the way that whether observation viewing area changes colour Whether disconnected transportational process collides.There are three defects for the collision instruction device: first is that when the glass seal of tube loosely when, display Liquid is easily dry, makes to collide instruction device failure；Second is that the collision instruction device lacks activation switch, especially highly sensitive is touched Instruction device is hit, is easily accidentally activated using preceding, it is therefore desirable to use Shockproof packaging, packing cost is high；Third is that such made with liquid There is the risk to fail by indicator solution solidification in cold winter for the indicator of indicator solution.

Chinese invention patent ZL200810009698.8 provides a kind of stress indicator, the indicator include a shell, Cavity and closure elements, cavity is interior to be equipped with indicant, and when stress impact, closure elements are detached from cavity, is scattered in indicant In shell.The indicator uses magnetic-adsorption fixed closed original part, vulnerable to extraneous magnetic or magnetic-sensitive material interference.

Chinese invention patent 201280009729.4 provides a kind of shock indicator, and the collision instruction device structure is excessively Complexity, higher cost.Chinese utility model patent CN205230492U provides a kind of protecting against shock display label, and structure is more Complexity, it is with high costs.

Chinese invention patent ZL201280027833.6 provides a kind of shock indicator, which uses liquid conduct The problems such as indicating material, equally existing leakage, accidentally activation and the solidification of indicating liquid low temperature.

U.S. patent Nos US4982684 provides a kind of orientation impact detector, and it includes two disc magnets, passes through The thickness control of magnet impacts dynamics；It has a problem that: i.e. it is influenced vulnerable to extraneous magnetic or magnetic-sensitive material, fills instruction It sets and deviates or fail.

Chinese invention patent application CN1668927A discloses a kind of vibration indicator, which includes: that (A) one has The bottom of first side and second side；(B) indicator connecting with the first side of bottom, the indicator include multiple indicators point Part, all branches point include solid material: (i) before shock event generation when vibration indicator is in first state, Be arranged as a first structure, and (ii) after shock event generation when vibration indicator is in the second state, be arranged as One second structure；And the attachment that (C) is connect with second side of bottom, so that vibration indicator is attached to a surface. The indicator contains multiple indicator branches point, and when colliding, the instruction situation of indicator branch point is uncertain, that is, indicates There are large errors for effect.

Therefore, it is necessary to develop, one kind is of simple structure and low cost, is not easy the anticollision indicator accidentally activated, with full The transport monitoring requirements of sufficient sophisticated product and friable product.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of collision instruction devices, and structure is simple, passes through Instruction device laterally is put, Quality Mgmt Dept is made to become parallel direction from vertical direction to the active force of fragile material, that is, can avoid referring to The problem of showing device is accidentally activated.Can 360 degree of instruction impact events, solving existing highly sensitive collision instruction device can not solve The problem of certainly accidentally being activated solves the problems, such as that existing collision instruction device fails under cooler environment, solves existing collision Instruction device the problem of structure is complicated and solve the problems, such as that existing collision instruction device loosely causes indicator to fail because sealing.

Technical problem to be solved in the utility model is achieved by the following technical programs:

A kind of collision instruction device comprising:

Cavity, for accommodating shock-sensitive component；

Shock-sensitive component, to acceleration sensitive, when it is more than critical acceleration by the acceleration that impact generates The shock-sensitive component occurs fracture or local shedding occurs.

As a kind of improvement of collision instruction device provided by the utility model, at least one end of the shock-sensitive component It is fixed on the cavity and forms at least one fulcrum.

As a kind of improvement of collision instruction device provided by the utility model, the shock-sensitive component, which includes at least, to be made For the fragile material in stress release portion.

As a kind of improvement of collision instruction device provided by the utility model, the shock-sensitive component includes at least tool There is the fragile material in stress release portion.

As a kind of improvement of collision instruction device provided by the utility model, the shock-sensitive component is included at least and is answered Power release portion and fragile material.

As a kind of improvement of collision instruction device provided by the utility model, the fragile material is also connected with quality Portion.

As a kind of improvement of collision instruction device provided by the utility model, the shock-sensitive component includes brittleness material Material, flexible material and Quality Mgmt Dept；The fragile material both ends are fixed on the cavity, are provided with stress on the fragile material Release portion, the Quality Mgmt Dept are connected to the stress release portion through the flexible material.

As it is provided by the utility model collision instruction device a kind of improvement, the fragile material include ceramics, stone, Glass, mild steel, cast iron, paraffin, cement, chalk, graphite, gypsum, acrylic it is any.

As a kind of improvement of collision instruction device provided by the utility model, the collision instruction device further includes protection Portion, for enhancing impact resistance of the collision instruction device before use.

As a kind of improvement of collision instruction device provided by the utility model, the collision instruction device is integrated with inclination Collide instruction device.

The utility model has the following beneficial effects:

(1) this collision instruction device, structure is simple, by laterally putting instruction device, makes Quality Mgmt Dept to fragile material Active force parallel direction is become from vertical direction, that is, can avoid instruction device the problem of accidentally being activated.It can 360 degree of instruction impacts Event solves the problems, such as that existing highly sensitive collision instruction device can not solve accidentally to be activated, solve existing collision instruction The problem of device fails under cooler environment, solving the problems, such as existing collision instruction device, structure is complicated and has solved existing touch Hit the problem of instruction device loosely causes indicator to fail because of sealing；

(2) can flexibly change the response of critical impulse according to the actual situation, such as can by change fragile material material, Size, can also by changing the quality size of Quality Mgmt Dept, can also by change Quality Mgmt Dept's position of centre of gravity and stress release portion away from From (torque)；

(3) the shock-sensitive component of this collision instruction device is non-using fragile material and/or stress release portion Magnetic material, effectively avoid it is existing using magnetosensitive or magnetic-sensitive material etc. as shock-sensitive material collision instruction device vulnerable to outer The influence of face magnetosensitive or magnetic material even results in the problem of instruction device fails；

(4) use fragile material as the component part of shock-sensitive component；Brittleness connecting material is set as cylindrical, makes The shock-sensitive degree in each direction is identical；

(5) using tightrope connection fragile material and Quality Mgmt Dept, make Quality Mgmt Dept that can respond lateral force, set in the two sides of tightrope Set limiting device, it is ensured that the force direction for acting on fragile material is constant；

(6) two shock-sensitive components are further provided with, can omnidirectional without dead angle monitor impact event；

(7) it is further provided with protective device, transportational process is avoided quite to fail because of top.

Detailed description of the invention

Fig. 1 is that the utility model embodiment 1 collides cross-sectional view of the instruction device before by collision impact；

Fig. 2 is that the utility model embodiment 1 collides top view of the instruction device after by collision impact；

Fig. 3 is that the utility model embodiment 2 collides structure sectional view of the instruction device before by collision impact；

Fig. 4 is that the utility model embodiment 2 collides top view of the instruction device after by collision impact；

Fig. 5 is that the utility model embodiment 3 collides structure sectional view of the instruction device before by collision impact；

Fig. 6 is that the utility model embodiment 3 collides top view of the instruction device after by collision impact；

Fig. 7 is that the utility model embodiment 4 collides structure sectional view of the instruction device before by collision impact；

Fig. 8 is that the utility model embodiment 4 collides top view of the instruction device after by collision impact；

Fig. 9 is that the utility model embodiment 5 collides the top view before instruction device starting；

Figure 10 is that the utility model embodiment 5 collides top view of the instruction device before by collision impact；

Figure 11 is that the utility model embodiment 5 collides top view of the instruction device by collision impact when；

Figure 12 is that the utility model embodiment 5 collides top view of the instruction device after by collision impact；

Figure 13 is that the utility model embodiment 6 collides the cross-sectional view before instruction device starting；

Figure 14 is that the utility model embodiment 6 collides the top view before instruction device starting；

Figure 15 is that the utility model embodiment 6 collides top view of the instruction device after by collision impact；

Figure 16 is that the utility model embodiment 7 collides the cross-sectional view before instruction device starting；

Figure 17 is that the utility model embodiment 7 collides the top view before instruction device starting；

Figure 18 is that the utility model embodiment 7 collides top view of the instruction device after by collision impact；

Figure 19 is that the utility model embodiment 8 collides cross-sectional view of the instruction device before by collision impact；

Figure 20 is that the utility model embodiment 8 collides top view of the instruction device before by collision impact；

Figure 21 is that the utility model embodiment 8 collides cross-sectional view of the instruction device after by collision impact；

Figure 22 is that the utility model embodiment 8 collides top view of the instruction device after by collision impact；

Figure 23 is that the utility model embodiment 9 collides cross-sectional view of the instruction device before by collision impact；

Figure 24 is that the utility model embodiment 9 collides a kind of cross-sectional view of the instruction device after by direction collision impact；

Figure 25 is that the utility model embodiment 9 collides cross-sectional view of the instruction device after by another direction collision impact；

Figure 26 is that the utility model embodiment 9 collides the instruction device successively cross-sectional view after by two kinds of direction collision impacts.

Specific embodiment

The embodiments of the present invention provide a kind of collision instruction device for impulse detection and instruction.

A kind of collision instruction device comprising:

Cavity, for accommodating shock-sensitive component；

Shock-sensitive component, to acceleration sensitive, when it is more than critical acceleration by the acceleration that impact generates The shock-sensitive component occurs fracture or local shedding occurs.

In some embodiments, the cavity is formed by bottom plate, the panel of hollow out and cover plate combination；In some embodiments In, the cavity is formed by the bottom plate and panel combination for being directed away from panel side recess；In further embodiments, the chamber Body by bottom plate and be directed away from bottom plate side recess panel combination formed.Wherein, the panel is made of transparent material, optional Panel material include: PVC, PET, PP, PE, acrylic, glass etc., it should be understood that other transparent plastic materials can also Panel material as the utility model.

In certain embodiments, the connection type of the bottom plate and panel can be bonding mode, be also possible to other companies Connect mode such as fastener/liner, welding etc..It should be appreciated that the cavity can be arbitrary graphic pattern, and it is such as round, it is rectangular etc..

In the utility model embodiment, at least one end of the shock-sensitive component be fixed on the cavity formed to A few fulcrum, is such as fixed on bottom plate or panel.Further, the shock-sensitive component perpendicular to gravity direction or is put down Row is arranged in gravity direction.The shock-sensitive component at least partly material is made of fragile material, when the shock-sensitive When component is lateral stressed, fragile material is easily broken, falls off or removes.In some embodiments, the shock-sensitive structure Part is integrally made of fragile material, and is equipped with stress release portion.In some embodiments, the shock-sensitive component partial by Fragile material is made, and fragile material is as stress release portion.In some embodiments, the shock-sensitive component is answered by being equipped with The fragile material quality of connection portion in power release portion is made.The fragile material preferably cannot or can only be by a small amount of force-extension Or the material of bending, optional fragile material includes: ceramics, stone, glass, mild steel, cast iron, paraffin, cement, chalk, stone Ink, gypsum, acrylic etc..It should be appreciated that other fragile materials can also be used for the shock-sensitive component of the utility model.

In some embodiments, the collision instruction device further includes protection portion, is made for enhancing collision instruction device With preceding impact resistance.

In some embodiments, the collision instruction device further includes limiting section, for limiting the pendulum of flexible connecting material Dynamic amplitude.

In some embodiments, the collision instruction device further includes adhesive layer, and the adhesive layer is used for will be described Collision instruction device is attached on product, and the gluing layer material can be pressure sensitive adhesive, double-sided adhesive.Further, the collision Instruction device further includes release layer, and for the release layer for protecting the adhesive layer, the release layer material is preferred but does not limit For glassine paper.

In some embodiments, the collision instruction device periphery is provided with inclined impact instruction device, realizes impact Instruction and inclination instruction dual function.

It is described collision instruction device be portable device configuration be add or be arranged in include article shipping container In, monitor article itself or relative impact event.During the manufacture of article, storage and/or transport, the collision Instruction device is for monitoring whether article is placed in impact event.In some embodiments, the collision instruction device is additional to The shipping container used, for example, fastener or a variety of different types of fixations using adhesives, permanently or temporarily Device.Shipping container may include that monitored article is placed loosely in container therein or including being exactly monitored article sheet The container of body.It should be appreciated that above-described embodiment is only exemplary, and not claim or imply any limit about environment System, can realize in the different embodiments of the collision instruction device of wherein the utility model.

The utility model is described in detail below with reference to embodiment, embodiment is only the preferred reality of the utility model Mode is applied, is not the restriction to the utility model.

Embodiment 1

Fig. 1 to 2 is please referred to, it successively to include: glassine paper that the present embodiment provides a kind of collision instruction devices from lower to upper 700, pressure sensitive adhesive 600, the basal layer 500 containing printed patterns, double-sided adhesive 400, bottom plate 200 and PET panel 100, the face PET Plate 100 convexes to form a cavity 110, further includes the shock-sensitive component 300 in the cavity 110, is fixed on bottom plate On 200, the shock-sensitive component includes the inverted T shaped pedestal 310 being fixed on the bottom plate 200 and Quality Mgmt Dept 330, pedestal Stress release portion 320 is provided on 310, Quality Mgmt Dept 330 is fixed on pedestal 310.Wherein, 310 material of pedestal is glass, 330 material of Quality Mgmt Dept is plate-like aluminium block.

In use, removal release layer 700, collision instruction device is attached to product external packaging perpendicular to the side on ground, Circulate field with product, when transport or cargo handling process collide, entire packaging together with collision instruction device because by Perpendicular to the external impacts in the direction of the fragile material, certain acceleration is obtained in Impact direction, Quality Mgmt Dept 330 is added The pedestal 310 made of fragile material of power needed for speed provides, when the size of the power is greater than the receiving in stress release portion 320 When ability, pedestal 310 is broken at stress release portion 320, and Quality Mgmt Dept 330 falls off from overhead positions and falls to cavity bottom Portion.Whether people can occur overload collision in cargo handling process by observing the position intuitive judgment product of Quality Mgmt Dept.

As shown in Fig. 2, showing to collide instruction device because being collided, and collides the acceleration generated and be greater than by fragile material Pedestal 310 is made and bears acceleration a in the maximum of stress release portion 320.

The anticollision percussion mechanism can be by controlling the quality size of mass block 330,330 center of gravity of mass block and answering when designing The impact resistance of the distance between power release portion 310 and fragile material 320 collides the shock resistance energy of instruction device to control Power, it is simple and convenient.

Embodiment 2

Fig. 3,4 are please referred to, the present embodiment is similar to Example 1, the difference is that pedestal 310 and Quality Mgmt Dept 330 are one A entirety is made with by fragile material ceramics, and stress release portion 320 is provided between Quality Mgmt Dept 330 and pedestal 310.

In use, removal release layer 700, collision instruction device is attached to product external packaging perpendicular to the side on ground, Circulate field with product, when transport or cargo handling process collide, entire packaging together with collision instruction device because by Perpendicular to the external impacts in the direction of the fragile material, certain acceleration is obtained in Impact direction, Quality Mgmt Dept 330 is added Power needed for speed is provided by pedestal 310, when the size of the power is greater than the ability to bear in stress release portion 320, is impacted quick Sense component 300 is broken at stress release portion 320, and Quality Mgmt Dept 330 falls off from overhead positions and falls to cavity bottom.People Overload collision whether can occur in cargo handling process by observing the position intuitive judgment product of Quality Mgmt Dept.

As shown in figure 4, showing to collide instruction device because being collided, and collides the acceleration generated and be greater than stress release portion 320 maximum receiving acceleration a.

The anticollision percussion mechanism can be by controlling the quality size of mass block 330,330 center of gravity of mass block and answering when designing The impact resistance of the distance between power release portion 320 and fragile material 320 collides the shock resistance energy of instruction device to control Power, it is simple and convenient.

Embodiment 3

Fig. 5,6 are please referred to, it successively to include: glassine paper that the present embodiment provides a kind of collision instruction devices from lower to upper 700, pressure sensitive adhesive 600, the basal layer 500 containing printed patterns, double-sided adhesive 400 and PET panel 100, further include shock-sensitive group Part 300 is fixed on double-sided adhesive 400, and the shock-sensitive component includes the fixed inverted T shaped bottom being pasted on the double-sided adhesive Seat 310 and Quality Mgmt Dept 330, Quality Mgmt Dept 330 are connected on pedestal 310 by fragile material.Wherein, the fragile material is graphite Stick 340,330 material of Quality Mgmt Dept are aluminium block.

In use, removal release layer 700, collision instruction device is attached to product external packaging perpendicular to the side on ground, Circulate field with product, when transport or cargo handling process collide, entire packaging together with collision instruction device because by Perpendicular to the external impacts in the direction of the fragile material, certain acceleration is obtained in Impact direction, Quality Mgmt Dept 330 is added Power needed for speed is provided by graphite rod 340, when the size of the power is greater than the ability to bear of graphite rod 340, graphite rod 340 It is broken, Quality Mgmt Dept 330 falls off from overhead positions and falls to cavity bottom.People can be intuitive by observing the position of Quality Mgmt Dept Judge whether product occurs overload collision in cargo handling process.

As shown in fig. 6, showing to collide instruction device because being collided, and collides the acceleration generated and be greater than graphite rod 340 Maximum bear acceleration a.

The anticollision percussion mechanism can be by quality size, 330 center of gravity of mass block and the bottom of control mass block 330 when designing Seat 310 seam distance and graphite rod 340 impact resistance come control collision instruction device impact resistance, letter Folk prescription is just.

Embodiment 4

Please refer to Fig. 7,8, present embodiments provide a kind of collision instruction device of side knock sensitivity, from lower to upper according to Secondary includes: glassine paper 700, pressure sensitive adhesive 600, the basal layer 500 containing printed patterns, double-sided adhesive 400 and PET panel 100, described PET panel 100 convexes to form a cavity 110, further includes the shock-sensitive component 300 in the cavity 110, is fixed on On double-sided adhesive 400, the shock-sensitive component includes fixed inverted T shaped pedestal 310 and the Quality Mgmt Dept being pasted on the double-sided adhesive 330, the Quality Mgmt Dept 330 is the annulus with longitudinal hole, is connected on pedestal 310 by fragile material such as graphite rod 340, 310 convex portion of pedestal is arranged in inclined-plane, i.e., its longitudinal section is trapezoidal.310 material of pedestal is preferred but is not limited to Polypropylene plastics, 330 material of Quality Mgmt Dept is preferred but is not limited to plastic hoop.

In use, removal release layer 700, collision instruction device is attached to product external packaging perpendicular to the side on ground, Circulate field with product, when lateral impact occurs for transport or cargo handling process, entire packaging together with collision instruction device because By the external impacts in the direction perpendicular to the fragile material, certain acceleration is obtained in Impact direction, Quality Mgmt Dept 330 obtains Power needed for obtaining acceleration is provided by graphite rod 340, when the size of the power is greater than the ability to bear of graphite rod 340, impact The graphite rod 340 of sensitive components 300 is broken at the connection gap between Quality Mgmt Dept 330 and pedestal 310, due to pedestal 310 convex portions are arranged in inclined-plane, and Quality Mgmt Dept 330 slides downwards under the effect of gravity and falls to cavity bottom.People can pass through Whether the position intuitive judgment product for observing Quality Mgmt Dept occurs overload collision in cargo handling process.

As shown in figure 8, showing to collide instruction device because by lateral impact, and the acceleration generated is collided greater than graphite rod 340 maximum receiving acceleration a.

The anticollision percussion mechanism can be by controlling the quality size of mass block 330 and resisting for graphite rod 340 when designing Impact capacity collides the impact resistance of instruction device to control, simple and convenient.

Embodiment 5

Fig. 9 to 12 is please referred to, present embodiments provides a kind of collision instruction device of high sensitivity, from lower to upper successively Include: glassine paper (not shown), pressure sensitive adhesive (not shown), the basal layer (not shown) containing printed patterns, Double-sided adhesive (not shown), bottom plate (not shown) and PET panel 100,100 protrusion of PET panel and the bottom plate A cavity 110 is formed, further includes the shock-sensitive component 300 in the cavity 110, the shock-sensitive component 300 Fragile material in the cavity wall of cavity 110, is provided with stress on the glass bar 350 and releases as described in being fixed on 350 both ends of glass bar Portion 320 is put, the shock-sensitive component further comprises the Quality Mgmt Dept being connected at stress release portion 320 by tightrope 360 330, it is fixed in cavity before use, Quality Mgmt Dept 330 is fixed portion 370, tightrope 360 is in relaxed state, can not make to collision It responds out, tightrope 360 is placed between two limiting sections 380, as shown in Figure 9.

In use, removal peeling layer and fixed part 370, are attached to product external packaging for instruction device is collided by adhesive layer Perpendicular to the side on ground, at this point, by 330 gravity of Quality Mgmt Dept to be in exceptionally straight state as shown in Figure 10 for tightrope, such as Figure 11 institute Show the collision instruction device that product packaging surface is attached to when the external impacts by the direction perpendicular to the fragile material Shell obtains the acceleration of external force direction, but Quality Mgmt Dept 330, due to inertia holding relative static conditions, the two generates opposite accelerate Degree moves 330 outward force opposite direction of Quality Mgmt Dept, generates active force by tightrope and is transferred to stress release portion 320, by limiting section 380 effects, 360 top half of tightrope keep vertical tensioned state, remain unchanged 360 direction of pull of tightrope.When tightrope 360 is right The active force of glass bar 350 is greater than glass bar 350 in the ability to bear in stress release portion 320, then glass bar 350 is released in stress It puts and is broken at portion 320.Quality Mgmt Dept 330 falls off from overhead positions and falls to cavity bottom.People can be by observing Quality Mgmt Dept Position intuitive judgment product cargo handling process whether occur overload collision.

As shown in figure 12, show to collide instruction device because being collided, and collide the acceleration generated and be greater than stress release The maximum of portion 320 bears acceleration a.

The anticollision percussion mechanism can be by controlling the quality size of mass block 330 and resisting for glass bar 350 when designing Impact capacity collides the impact resistance of instruction device to control, simple and convenient.

Embodiment 6

Figure 13 to 15 is please referred to, present embodiments provides a kind of collision instruction device comprising tilting instruction function, this is touched The collision instruction area for hitting instruction device is centrally located, and inclination instruction area is located at the periphery in collision instruction area, is arranged in a ring.Specifically Ground, the collision instruction device successively includes: glassine paper 700, pressure sensitive adhesive 600, the basal layer containing printed patterns from lower to upper 500, pressure sensitive adhesive 400 and PET panel 100 further include positioned at the shock-sensitive component 300 in collision instruction area and positioned at described The inclination in inclination instruction area indicates component 800, the 100 surface outwardly convex of PET panel and combines shape with the pressure sensitive adhesive 400 Chamber 120 is indicated at an impact and indicates chamber 130 around the inclination of the impact instruction chamber 120, and the impact indicates chamber 120 and inclines Tiltedly instruction chamber 130 is mutually indepedent.The setting of shock-sensitive component 300 is in impact instruction chamber 120, the shock-sensitive Component 300 includes the pedestal 310 that is fixed on the pressure sensitive adhesive 400 and as described in being connected to through fragile material (such as glass bar 360) Quality Mgmt Dept 330 on pedestal 310.The inclination instruction component 800 includes that inclination indicates core 810 and absorption on the surface thereof Colored powder 820, when original state inclination instruction component 800 portion 830 that is activated are limited in the inclination instruction chamber 130 Start position, wherein inclination instruction 800 material of core is preferred but is not limited to the glass marble of attachment silicone oil, described coloured Powder 820 is preferred but is not limited to red powder.

Release layer 700 and active portion 830 are removed when use, and collision instruction device is attached to product external packaging perpendicular to ground The side in face circulates field with product, and when transport or cargo handling process collide, entire packaging is together with collision instruction dress It sets because of the external impacts by the direction perpendicular to the fragile material, certain acceleration, Quality Mgmt Dept is obtained in Impact direction Power needed for 330 acquisition acceleration is provided by glass bar 360, when the size of the power is greater than the ability to bear of glass bar 360, Glass bar 360 is broken, and Quality Mgmt Dept 330 falls off from overhead positions and falls to cavity bottom.People can be by observing Quality Mgmt Dept Position intuitive judgment product cargo handling process whether occur overload collision.When product packaging run-off the straight, and tilt angle is big When activating angle beta, inclination instruction component 800 rolls in inclination instruction chamber 130, and rolling process is located at inclination instruction core The red powder 820 on 810 surface of the heart is attached to 400 surface of pressure sensitive adhesive, forms motion profile, people can be intuitive by motion profile Judgement packaging tilt angle.

As shown in figure 15, show to collide instruction device because being collided, and collide the acceleration generated and be greater than glass bar 360 Maximum bear acceleration a.Meanwhile 90 degree of inclination once occurred for the collision instruction device surface, product packaging.

The anticollision percussion mechanism can be by quality size, 330 center of gravity of mass block and the bottom of control mass block 330 when designing Seat 310 seam distance and glass bar 360 impact resistance come control collision instruction device impact resistance, letter Folk prescription is just.

Embodiment 7

Figure 16 to 18 is please referred to, the present embodiment is similar to Example 6, the difference is that: the shock-sensitive component 300 It is additionally arranged boot portion 370, when use can choose whether to start the shock-sensitive component 300 according to the actual situation.

Release layer 700, boot portion 370 and active portion 830 are removed when use, and collision instruction device is attached to product outsourcing Fill the side perpendicular to ground, circulate field with product, when transport or cargo handling process collide, entire packaging together with Instruction device is collided because of the external impacts by the direction perpendicular to the fragile material, certain acceleration is obtained in Impact direction Degree, power needed for Quality Mgmt Dept 330 obtains acceleration are provided by glass bar 360, when the size of the power is greater than holding for glass bar 360 When by ability, glass bar 360 is broken, and Quality Mgmt Dept 330 falls off from overhead positions and falls to cavity bottom.People can pass through sight Whether the position intuitive judgment product for examining Quality Mgmt Dept occurs overload collision in cargo handling process.When product packaging run-off the straight, and incline When rake angle is greater than activation angle beta, inclination instruction component 800 rolls in inclination instruction chamber 130, and rolling process, which is located at, to incline Tiltedly the red powder 820 on instruction 810 surface of core is attached to 400 surface of pressure sensitive adhesive, forms motion profile, and people can pass through movement Tilt angle is packed in track intuitive judgment.

As shown in figure 18, show to collide instruction device because being collided, and collide the acceleration generated and be greater than glass bar 360 Maximum bear acceleration a.Meanwhile 90 degree of inclination once occurred for the collision instruction device surface, product packaging.

The anticollision percussion mechanism can be by quality size, 330 center of gravity of mass block and the bottom of control mass block 330 when designing Seat 310 seam distance and glass bar 360 impact resistance come control collision instruction device impact resistance, letter Folk prescription is just.

Embodiment 8

Please refer to Figure 19 to 22, present embodiments provide a kind of collision instruction device with protection portion 140, from it is lower toward On successively include: glassine paper 700, pressure sensitive adhesive 600, the basal layer 500 containing printed patterns, double-sided adhesive 400 and PET panel 100, The PET panel 100 convexes to form a cavity 110, further includes the shock-sensitive component 300 in the cavity 110, Gu It is scheduled on double-sided adhesive 400, the shock-sensitive component includes fixed pedestal 310 and the Quality Mgmt Dept being pasted on the double-sided adhesive 330, Quality Mgmt Dept 330 is connected on pedestal 310 by fragile material.Wherein, the fragile material is graphite rod 340, Quality Mgmt Dept 330 materials are aluminium block.The protection portion 140 is formed by 100 local crowning of panel, and each collision instruction device includes at least 3 protective devices 130, the height having the same of protective device 130, and height is more than or equal to the height of the cavity 110.Into one Step ground, the top surface of the cavity 110 are partially provided with adhesive sticker paster 150, and the 150 bottom hollow out of adhesive sticker paster is formed Watch window.

When specific implementation, after completing collision instruction device production, collision instruction device is lain in carton, due to protecting The presence in shield portion 140, collision instruction device neat can overlay in carton, at this point, Quality Mgmt Dept 330 is stacked on pedestal 310, Fragile material is in force-free state, this manner of packing can effectively prevent collision instruction device transportational process (before use) because Jolting causes fragile material 320 to be broken and makes to collide instruction device failure.

In use, removal release layer 700, collision instruction device is attached to product external packaging perpendicular to the side on ground, It circulates field with product.At this point, being that Quality Mgmt Dept 330 provides support by graphite rod 340, when transport or cargo handling process are touched When hitting, entire packaging is together with collision instruction device because the external impacts by the direction perpendicular to the fragile material are in stress side To certain acceleration is obtained, power needed for Quality Mgmt Dept 330 obtains acceleration is provided by graphite rod 340, when the size of the power Greater than 340 graphite rod of graphite rod ability to bear when, the graphite rod 340 of shock-sensitive component 300 is in Quality Mgmt Dept 330 and pedestal It is broken at connection gap between 310, Quality Mgmt Dept 330 slides downwards under the effect of gravity and falls to cavity bottom.People Whether the position intuitive judgment product that can pass through the watch window observation Quality Mgmt Dept of adhesive sticker paster 150 occurred in cargo handling process Carry collision.

As shown in Figure 21,22, show to collide instruction device because being collided, and collides the acceleration generated and be greater than graphite rod 340 maximum receiving acceleration a.

The anticollision percussion mechanism can be by controlling the quality size of mass block 330 and resisting for graphite rod 340 when designing Impact capacity collides the impact resistance of instruction device to control, simple and convenient.

Embodiment 9

Figure 23 to 26 is please referred to, a kind of omnidirection collision instruction device is present embodiments provided, successively wraps from lower to upper It includes: glassine paper 700, pressure sensitive adhesive 600, the basal layer 500 containing printed patterns, double-sided adhesive 400 and PET panel 100, the PET Panel 100 convexes to form a cavity 110, further includes the shock-sensitive component 300 in the cavity 110, is fixed on double On face glue 400, the shock-sensitive component includes the fixed inverted T shaped pedestal 310 being pasted on the double-sided adhesive and the first mass Portion 370, the second Quality Mgmt Dept 380, first Quality Mgmt Dept 370 are the annulus with longitudinal hole, pass through fragile material such as graphite Stick 340 is connected on pedestal 310, and 310 convex portion of pedestal is arranged in inclined-plane, i.e., its longitudinal section is trapezoidal；Described second The top of the pedestal 310 is arranged in Quality Mgmt Dept 380, is arranged on the pedestal 310 close to the position of second Quality Mgmt Dept 380 There is stress release portion 320.Wherein, 310 material of pedestal is glass, and 370 material of the first Quality Mgmt Dept is aluminium block, the second Quality Mgmt Dept 380 materials are glass.It is designed in this way, it is stress respectively that there are two shock-sensitive positions for the collision instruction device tool of the present embodiment Release portion 320 and fragile material 340.

Preferably, the present embodiment collision instruction device further includes the protection portion formed by 100 local crowning of panel 140, each collision instruction device includes at least 3 protective devices 130, the height having the same of protective device 130, and height is big In the height for being equal to the cavity 110.

In use, removal release layer 700, collision instruction device is attached to product external packaging perpendicular to the side on ground, It circulates field with product.When transport or cargo handling process collide, and impact force direction and 380 outer surface of the second Quality Mgmt Dept When parallel, stress release portion 320 can omnidirectional monitoring impact force generate acceleration whether be greater than critical acceleration.When impact force side When to perpendicular to the second 380 outer surface of Quality Mgmt Dept, fragile material 340 can monitor whether the acceleration that collision generates is greater than critical add Speed.

As shown in figure 24, show that colliding instruction device is parallel to 380 outer surface direction of the second Quality Mgmt Dept because being subjected to impact power Collision, and collide the acceleration generated and be greater than the maximum acceleration A of bearing in stress release portion 320 and show to touch as shown in figure 25 Instruction device is hit because being subjected to impact power perpendicular to the collision in 380 outer surface direction of the second Quality Mgmt Dept, and collides the acceleration generated Maximum greater than fragile material bears acceleration A, and as shown in figure 26, surface collision instruction device, which is successively subject to, is parallel to second 380 outer surface of Quality Mgmt Dept and impact perpendicular to 380 outer surface direction of the second Quality Mgmt Dept, and collide the acceleration generated and be greater than and face Boundary's acceleration A.

The anticollision percussion mechanism can be by the quality size of the first Quality Mgmt Dept 370 of control, the second Quality Mgmt Dept 380 when designing And the impact resistance of fragile material come control collision instruction device impact resistance, it is simple and convenient.

The above-mentioned embodiments merely express the embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously Therefore it cannot be interpreted as that a limitation on the scope of the patent of the present invention, as long as using the form institute of equivalent substitution or equivalent transformation The technical solution of acquisition, shall fall within the scope of the present invention.

Claims (10)

1. a kind of collision instruction device, characterized in that it comprises:

Cavity, for accommodating shock-sensitive component；

Shock-sensitive component, to acceleration sensitive, when it is more than critical acceleration by the acceleration that impact generates described in Shock-sensitive component occurs fracture or local shedding occurs.

2. colliding instruction device according to claim 1, which is characterized in that at least one end of the shock-sensitive component is fixed At least one fulcrum is formed on the cavity.

3. colliding instruction device according to claim 1, which is characterized in that the shock-sensitive component is included at least to be used as and be answered The fragile material in power release portion.

4. colliding instruction device according to claim 1, which is characterized in that the shock-sensitive component is included at least to have and be answered The fragile material in power release portion.

5. colliding instruction device according to claim 1, which is characterized in that the shock-sensitive component is released including at least stress Put portion and fragile material.

6. according to any collision instruction device of claim 3 to 5, which is characterized in that the fragile material is also connected with matter Amount portion.

7. colliding instruction device according to claim 1, which is characterized in that the shock-sensitive component include fragile material, Flexible material and Quality Mgmt Dept；The fragile material both ends are fixed on the cavity, are provided with stress on the fragile material and are released Portion is put, the Quality Mgmt Dept is connected to the stress release portion through the flexible material.

8. according to claim 3 to 5,7 any collision instruction devices, which is characterized in that the fragile material include ceramics, Stone, glass, mild steel, cast iron, paraffin, cement, chalk, graphite, gypsum, acrylic it is any.

9. colliding instruction device according to claim 1, which is characterized in that the collision instruction device further includes protection portion, For enhancing impact resistance of the collision instruction device before use.

10. colliding instruction device according to claim 1, which is characterized in that the collision instruction device is integrated with inclination and touches Hit instruction device.