CN203819679U - Package supporting components of plastic covering motors and packaging box of plastic covering motors - Google Patents

Abstract

The utility model is applicable for the technical field of motor packaging, and provides package supporting components of plastic covering motors and a packaging box, with the package supporting components, of the plastic covering motors. Each package supporting component of the corresponding plastic covering motor comprises a foam body, wherein each foam body is provided with a first side part and a second side part which are reversely arranged; each first side part is provided with a plurality of motor accommodation grooves; the motor accommodation grooves of each first side part comprise positioning grooves for the clamping positioning of a plastic covering shell of the corresponding plastic covering motor, and avoiding grooves for avoiding end-part shock absorption rings of the corresponding plastic covering motor; the avoiding grooves are formed in two sides of the positioning grooves along the center axis direction of the positioning grooves, and are respectively communicated with the positioning grooves. According to the package supporting components and the packaging box, as the positioning grooves for the clamping positioning of the plastic covering shells are respectively formed in the foam bodies, the steady reliability of respectively positioning the plastic covering motors on the package supporting components is guaranteed; the plastic covering motors on the package supporting components are prevented from shaking casually; the package protection effect of the plastic covering motors is improved, and the packaging efficiency of the plastic covering motors is improved as well; the packaging cost of the plastic covering motors is lowered.

Description

The packaging load-carrying element of plastic packaging motor and the packing chest of plastic packaging motor

Technical field

The utility model belongs to motor package technical field, relates in particular to a kind of packaging load-carrying element of plastic packaging motor and has the packing chest of the plastic packaging motor of this packaging load-carrying element.

Background technology

Plastic packaging motor generally adopts Special packaging box to pack and transports, and the packing chest of plastic packaging motor specifically comprises casing and be located at the packaging load-carrying element in casing.Packaging load-carrying element of the prior art generally forms by supporting cardboard and locating cardboard, and positioning paper board inserts on support cardboard and encloses formation with support cardboard can be for the accommodating grid groove of plastic packaging motor.When concrete packaging, plastic packaging motor can be placed in grid groove, like this, the support cardboard that forms grid bottom land wall can play certain supporting role to plastic packaging motor; Thereby the location cardboard that forms grid groove madial wall can being in contact with one another of space between adjacent two motors prevent directly mutually colliding of adjacent two motors, and then can play certain positioning action to plastic packaging motor.Although this packaging load-carrying element can play certain support, positioning action to plastic packaging motor, it still has the following disadvantages in concrete application:

1) because the plastic packaging shell of plastic packaging motor is roughly cylindric, therefore, after plastic packaging motor is positioned in grid groove, between the madial wall of plastic packaging motor and grid groove, can there is larger gap, like this, grid groove can not play good positioning action to accommodating plastic packaging motor in the inner, thereby still can in grid groove, arbitrarily rock after causing plastic packaging motor to be placed in grid groove, and then has had a strong impact on the protection reliability of motor in the process of transporting.

2) because the cushion characteristic of cardboard is poor, therefore, plastic packaging motor rocking in grid groove can be caused larger impact, like this, can and support cardboard and cause larger shock location cardboard on the one hand, thereby cause location cardboard and support the badly damaged of cardboard, and then cause locating cardboard and support cardboard after using once, just almost can not recirculation use, like this, be unfavorable for the recycle of Packaging Resources, caused the significant wastage of resource, caused the packing cost of plastic packaging motor can not to be in any more; Can cause on the other hand and between adjacent plastic packaging motor, also exist larger impact, be that adjacent plastic packaging motor can produce stronger Indirect Collision by cardboard, thereby cause plastic packaging motor in the process of transporting, to exist larger collision safety hidden danger, and then had a strong impact on the quality protection reliability of plastic packaging motor in the process of transporting.

3) in packaging process, need interim assembling location cardboard and support cardboard to form grid groove, its operating process complexity, operation are many, have had a strong impact on the packaging efficiency of plastic packaging motor.

Utility model content

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, a kind of packaging load-carrying element of plastic packaging motor is provided and has had the packing chest of the plastic packaging motor of this packaging load-carrying element, it is intended to solve the technical matters that existing plastic packaging motor reliability of positioning in packing chest is not good, packaging protection effect is poor, packaging efficiency is low.

For achieving the above object, the technical solution adopted in the utility model is: a kind of packaging load-carrying element of plastic packaging motor, comprise foam body, described foam body has the first sidepiece and second sidepiece of reverse setting, described the first sidepiece is concaved with some motor storage tanks, described motor storage tank comprise the plastic packaging shell for plastic packaging motor snap in the positioning groove of location and for dodge described plastic packaging motor end shock absorbing ring dodge groove, described in dodge groove and be located at the both sides of described positioning groove and be communicated with described positioning groove along the central axial direction of described positioning groove.

Preferably, described positioning groove is the arc groove of wall profile adaptation outside inner surface contour and described plastic packaging shell.

Further, described second sidepiece of described foam body is also concaved with some positions screens groove corresponding with each described positioning groove position difference.

Preferably, described several motor storage tanks are divided at least two row along the direction of the central axis of parallel described positioning groove and are distributed on described foam body, and the setting of mutually staggering of the central axis of the each described motor storage tank of at least two adjacent lines.

More preferably, described several motor storage tanks are divided into four lines and are distributed on described foam body, the central axis of the each described motor storage tank of two outer peripheral two row of close described foam body is alignment mutually between two, be located at the central axis alignment mutually between two of the each described motor storage tank of two row of the centre portion of described foam body, and be positioned at the central axis and the setting of mutually staggering near the central axis of the each described motor storage tank of two outer peripheral two row of described foam body of the each described motor storage tank of two row of the centre portion of described foam body.

Further, the outward flange corner of described foam body is also provided with the slot that inserts location for pillar stiffener.

Further, the end of described foam body is also concaved with and is convenient to the groove of controlling that staff controls.

Further, the first sidepiece of described foam body is also concaved with technique groove, and described technique groove is arranged with the first sidepiece in described foam body along the direction of the central axis perpendicular to described positioning groove, and described technique groove is communicated with described positioning groove.

The packaging load-carrying element of the plastic packaging motor that the utility model provides, by being set on foam body, positioning groove snaps in location for the plastic packaging shell of plastic packaging motor, like this, after making plastic packaging shell snap in positioning groove, the outer wall of plastic packaging shell can fit tightly on the inwall of positioning groove, prevent plastic packaging motor arbitrarily rocking on packaging load-carrying element, ensured the solid and reliable property that plastic packaging motor is located on packaging load-carrying element.Meanwhile, it is dodged groove by setting on foam body and dodges with the end shock absorbing ring to plastic packaging motor, has ensured that plastic packaging shell can smooth and easyly snap in positioning groove.The packaging load-carrying element of the plastic packaging motor that the utility model provides, utilize foamed materials to make packaging load-carrying element, because foamed materials has good buffering effect, therefore, it can effectively prevent that plastic packaging motor from producing intense impact in the process of transporting, and like this, can make plastic packaging motor in the process of transporting, can not cause strong impingement phenomenon on the one hand, effectively eliminate the potential safety hazard of plastic packaging motor in the process of transporting, improved the quality protection reliability of plastic packaging motor in the process of transporting; Can make on the other hand plastic packaging motor can not cause larger shock to packaging load-carrying element in the process of transporting, avoid the badly damaged of packaging load-carrying element, thereby can make to pack load-carrying element is damaged hardly after using, and then make to pack load-carrying element and can repeatedly recycle, improve the cyclic utilization rate of Packaging Resources, avoid the significant wastage of resource, reduced the packing cost of plastic packaging motor.And due to positioning groove and dodge groove all with the moulding of foam body integration mold, therefore packaging load-carrying element does not need interim assembling form positioning groove and dodge groove, simplified the production technology of packaging load-carrying element, and improved the packaging efficiency of plastic packaging motor.

The utility model also provides a kind of packing chest of plastic packaging motor, and it comprises casing, is provided with the packaging load-carrying element of above-mentioned plastic packaging motor in described casing.

Further, be also provided with pillar stiffener in described casing, the outward flange corner of described foam body is provided with the slot that inserts location for described pillar stiffener, and described pillar stiffener is inserted in described slot.

The packing chest of the plastic packaging motor that the utility model provides, owing to having adopted above-mentioned packaging load-carrying element to support plastic packaging motor, therefore, improved the reliability of positioning of plastic packaging motor in casing on the one hand, and then improved the safe reliability of plastic packaging motor in the process of transporting; Improve on the other hand the cyclic utilization rate of Packaging Resources, and then reduced the packing cost of plastic packaging motor; Improve on the one hand again the packaging efficiency of packing chest.

Brief description of the drawings

Fig. 1 is the positive perspective view of the packaging load-carrying element of the plastic packaging motor that provides of the utility model embodiment;

Fig. 2 is the back side perspective view of the packaging load-carrying element of the plastic packaging motor that provides of the utility model embodiment;

Fig. 3 is that the plastic packaging motor that the utility model embodiment provides is located in the structural representation between two packaging load-carrying elements;

Fig. 4 is the partial cutaway structural representation of the packing chest of the plastic packaging motor that provides of the utility model embodiment.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

As shown in figures 1 and 3, the packaging load-carrying element 1 of the plastic packaging motor 5 that the utility model embodiment provides, comprise foam body 11, foam body 11 has the first sidepiece 111 and second sidepiece 112 of reverse setting, the first sidepiece 111 is concaved with some motor storage tanks 12, motor storage tank 12 comprise the plastic packaging shell 51 for plastic packaging motor 5 snap in the positioning groove 121 of location and for dodge plastic packaging motor 5 end shock absorbing ring 52 dodge groove 122, dodge groove 122 and be located at the both sides of positioning groove 121 and be communicated with positioning groove 121 along the central axial direction of positioning groove 121.Plastic packaging motor 5 specifically comprises plastic packaging shell 51, stator (not shown), rotor (not shown), rotating shaft 53 and end shock absorbing ring 52, rotor is arranged in the centre hole of stator, plastic packaging shell 51 is packaged in outside stator, end shock absorbing ring 52 is provided with two, and two end shock absorbing rings 52 are located at respectively the both sides of plastic packaging shell 51, each motor storage tank 12 correspondences are provided with a positioning groove 121 and two and dodge groove 122, and one end of rotating shaft 53 is fixedly connected with rotor, the other end passes and stretches out from one end of plastic packaging shell 51.Plastic packaging shell 51 is the parts of radial dimension maximum on plastic packaging motor 5, by realizing the supporting and location to plastic packaging motor 5 to the supporting and location of plastic packaging shell 51.The setting of positioning groove 121, be mainly used in snapping in location for plastic packaging shell 51, like this, can ensure plastic packaging shell 51 snap in positioning groove 121 interior after, the outer wall of plastic packaging shell 51 can fit tightly on the inwall of positioning groove 121, thereby can effectively prevent plastic packaging motor 5 arbitrarily rocking on packaging load-carrying element 1 by the position-limiting action of positioning groove 121 inwalls, and then effectively ensure the solid and reliable property of plastic packaging motor 5 location on packaging load-carrying element 1.Dodge the setting of groove 122, be mainly used for preventing when plastic packaging shell 51 from snapping in positioning groove 121 causing the bottom outer wall of plastic packaging shell 51 can not fit in the situation generation on positioning groove 121 inwalls because end shock absorbing ring 52 and the entity part of supporting body produce interference, thereby ensured that plastic packaging shell 51 can smooth and easyly snap in positioning groove 121.The packaging load-carrying element 1 of the plastic packaging motor 5 that the utility model provides, utilize foamed materials to make a pair of plastic packaging motor 5 of packaging load-carrying element and carry out supporting and location, because foamed materials has good buffering effect, therefore, it can effectively prevent that plastic packaging motor 5 from producing strong impact in the process of transporting, like this, can make plastic packaging motor 5 in the process of transporting, can not cause strong impingement phenomenon on the one hand, effectively eliminate the potential safety hazard of plastic packaging motor 5 in the process of transporting, improved the quality protection reliability of plastic packaging motor 5 in the process of transporting; Can make on the other hand plastic packaging motor 5 can not cause larger shock to packaging load-carrying element 1 in the process of transporting, avoid the badly damaged of packaging load-carrying element 1, thereby can make to pack load-carrying element 1 is damaged hardly after using, and then make to pack load-carrying element 1 and can repeatedly recycle, improve the cyclic utilization rate of Packaging Resources, avoid the significant wastage of resource, reduced the packing cost of plastic packaging motor 5.Packaging load-carrying element 1 is by the machine-shaping of mould one, like this, due to positioning groove 121 and dodge groove 122 all with the 11 integration mold moulding of foam body, therefore packaging load-carrying element 1 does not need interim assembling form positioning groove 121 and dodge groove 122, simplify the production technology of packaging load-carrying element, and improved the packaging efficiency of plastic packaging motor 5.

Preferably, positioning groove 121 is the arc groove of wall profile adaptation outside inner surface contour and plastic packaging shell 51.It is cylindric that plastic packaging shell 51 is roughly, the outer wall profile adaptation of the inner surface contour of positioning groove 121 and plastic packaging shell 51, specifically consistent the and axial length of positioning groove 121 of the cambered surface curvature of the cambered surface curvature of specific bit groove 121 inwalls and plastic packaging shell 51 outer walls and the axial length of plastic packaging shell 51 outer walls are consistent.Like this, when plastic packaging shell 51 snap in positioning groove 121 interior after, the outer wall of plastic packaging shell 51 can fit tightly on the inwall of positioning groove 121, thereby can effectively prevent plastic packaging motor 5 arbitrarily rocking on packaging load-carrying element 1 by the position-limiting action of positioning groove 121 inwalls, and then effectively ensure the solid and reliable property of plastic packaging motor 5 location on packaging load-carrying element 1.

Preferably, dodge groove 122 for arc groove, and dodge the degree of depth that is arranged with that is arranged with the degree of depth and is shallower than positioning groove 121 of groove 122, like this, ensureing to dodge under the prerequisite that groove 122 can dodge end shock absorbing ring 52, can make positioning groove 121 and dodge between groove 122 to form step surface, this step surface can effectively limit plastic packaging shell 51 and move axially displacement in positioning groove 121, and then effectively ensures the solid and reliable property of plastic packaging shell 51 in positioning groove 121 interior location.

Further, as shown in Figures 2 and 3, the recessed some positions screens groove 14 corresponding with each positioning groove 121 positions difference that be also provided with of the second sidepiece 112 of foam body 11.Screens groove 14 is the arc groove of wall profile adaptation outside inner surface contour and plastic packaging shell 51, and positioning groove 121 is upper and lower contraposition setting with screens groove 14.The outer wall profile adaptation of the inner surface contour of screens groove 14 and plastic packaging shell 51, specifically refer to the cambered surface curvature of screens groove 14 inwalls and the cambered surface curvature of plastic packaging shell 51 outer walls is consistent and the axial length of screens groove 14 and the axial length of plastic packaging shell 51 outer walls consistent.In the time of the stacked placement of polylith packaging load-carrying element 1, plastic packaging motor 5 is located between adjacent two layers packaging load-carrying element 1, the positioning groove 121 of the packaging load-carrying element 1 of lower floor can carry out supporting and location to the bottom of plastic packaging motor 5, the screens groove 14 of the packaging load-carrying element 1 on upper strata can position the top of plastic packaging motor 5, like this, by the Dual positioning effect of positioning groove 121 and screens groove 14, can effectively ensure solid and reliable property that plastic packaging motor 5 is located and the regularity of folding and unfolding.

Preferably, as shown in Figure 3, the depth as shallow that is arranged with that is arranged with depth ratio positioning groove 121 of screens groove 14, like this, ensureing that screens groove 14 has under the prerequisite of certain positioning action, can ensure to there is certain wall thickness between positioning groove 121 and screens groove 14, there is enough intensity thereby can ensure to pack load-carrying element 1, and then can prevent from packing the damage easily of load-carrying element 1.

Preferably, as shown in Figure 1, Figure 2 and Figure 4, the motor storage tank 12 arranging on foam body 11 is multiple, motor storage tank 12 specifically comprises that a positioning groove 121 and two dodge groove 122, the magnitude setting of screens groove 14 is identical with the magnitude setting of positioning groove 121, the magnitude setting of dodging groove 122 is the twice of the magnitude setting of positioning groove 121, and every two two ends of dodging groove 122 and be located at respectively along the central axial direction of a positioning groove 121 this positioning groove 121.Multiple motor storage tanks 12 are set on foam body 11, can make the packaging load-carrying element 1 can be simultaneously for the multiple plastic packaging motors 5 of supporting and location, to reduce the packing cost of plastic packaging motor 5, and a large amount of packagings of being convenient to plastic packaging motor 5 be transported.

Preferably, as shown in Figure 1 and Figure 4, multiple motor storage tanks 12 are divided at least two row along the direction of the central axis of positioned parallel groove 121 and are distributed on foam body 11, and the setting of mutually staggering of the central axis of each motor storage tank 12 of at least two adjacent lines.The part of stretching out outside plastic packaging shell 51 due to rotating shaft 53 has certain length, therefore, by the setting of mutually staggering of the central axis of each motor storage tank 12 of two adjacent lines, can make the rotating shaft 53 of the plastic packaging motor 5 that is positioned over this two row placement of mutually staggering, thereby can make full use of the space resources of packaging load-carrying element 1, and then improved the surperficial resource utilization of packing load-carrying element 1, reduce the packing cost of plastic packaging motor 5.

In the time that each motor storage tank 12 is divided into along the direction of the central axis of positioned parallel groove 121 that at least four lines is distributed on foam body 11, the motor storage tank 12 that has one group of two adjacent lines at least is the centre portion that is positioned at foam body 11 (not near outward flanges of foam body 11), preferably, as shown in Figure 1 and Figure 4, be positioned at the central axis alignment setting mutually between two of each motor storage tank 12 of two adjacent lines of the centre portion of foam body 11, and two motor storage tanks 12 of central axis alignment in this two row are interconnected by the groove 122 of dodging that is positioned at its end.When concrete packaging, the plastic packaging motor 5 being positioned in this two row motor storage tank 12 snaps in each motor storage tank 12 of this two row in the reverse mode of placing of rotating shaft 53, the rotating shaft 53 that is positioned over the each plastic packaging motor 5 that is positioned at this two row motor storage tank 12 is all placed towards the outward flange of foam body 11, like this, can prevent that the plastic packaging motor 5 that snaps in this two row motor storage tank 12 from producing interference, simultaneously, it further takes full advantage of the space resources of packaging load-carrying element 1, improve the surperficial resource utilization of packaging load-carrying element 1, reduce the packing cost of plastic packaging motor 5.

More preferably, as shown in Figure 1 and Figure 4, multiple motor storage tanks 12 are divided into four lines and are distributed on foam body 11, the central axis of the each motor storage tank 12 of two outer peripheral two row of close foam body 11 is alignment mutually between two, be located at the central axis alignment mutually between two of the each motor storage tank 12 of two row of the centre portion of foam body 11, and be positioned at the central axis and the setting of mutually staggering near the central axis of the each motor storage tank 12 of two outer peripheral two row of foam body 11 of the each motor storage tank 12 of two row of the centre portion of foam body 11.When concrete packaging, be positioned near the rotating shaft 53 of the each plastic packaging motor 5 in two outer peripheral two row motor storage tanks 12 of foam body 11 and all place towards the central side of foam body 11, the rotating shaft 53 that is positioned over each plastic packaging motor 5 of two row motor storage tanks 12 of the centre portion that is positioned at foam body 11 is all placed towards the outward flange of foam body 11, like this, the rotating shaft 53 that both can prevent the plastic packaging motor 5 of adjacent two row is interfered mutually, the surperficial resource that can make full use of again foam body 11 is placed more plastic packaging motor 5, take full advantage of dramatically the space resources of packaging load-carrying element 1, improve the surperficial resource utilization of packaging load-carrying element 1, reduce the packing cost of plastic packaging motor 5.

Further, as shown in Figure 1, Figure 2 and Figure 4, the outward flange corner of foam body 11 is also provided with for pillar stiffener 2 and inserts the slot 15 of location.The setting of slot 15, can realize the insertion location of pillar stiffener 2 on the one hand, thereby can improve the solid and reliable property of packaging load-carrying element 1 in the casing 3 interior location of packing chest; Also can reduce on the other hand the material usage of packaging load-carrying element 1, thereby reduce the material cost of packaging load-carrying element 1; The cooling process that also can be beneficial on the one hand again discharge and 1 moulding of acceleration packaging load-carrying element of steam in packaging load-carrying element 1 forming process, is beneficial to the machine-shaping of packaging load-carrying element 1, improves the moulding yields of packaging load-carrying element 1.

Further, as depicted in figs. 1 and 2, the both ends of foam body 11 also recessed be arranged be convenient to that staff controls control groove 16.Control the setting of groove 16, can be convenient on the one hand staff and move packaging load-carrying element 1, also can reduce on the other hand the material usage of packaging load-carrying element 1, thereby reduced the material cost of packaging load-carrying element 1; Also can be beneficial on the one hand again the cooling process of discharge and 1 moulding of acceleration packaging load-carrying element of steam in packaging load-carrying element 1 forming process, be beneficial to the forming work of packaging load-carrying element 1, improve the moulding yields of packaging load-carrying element 1.In concrete application, staff can stretch into hand and control the edge of controlling groove 16 in groove 16 to hold and control packaging load-carrying element 1, thereby can be convenient to move packaging load-carrying element 1; To be recessed into and to arrange to the entity side of foam body 11 along the end of foam body 11 owing to controlling groove 16, therefore, effectively reduce staff and moved required reserved space outerpace while packing load-carrying element 1.

Preferably, as depicted in figs. 1 and 2, two madial walls of controlling groove 16 extend to both sides with skewed, like this, can prevent that staff from stretching into controls groove 16 and controls the madial wall scratch staff of groove 16 when interior, thereby has ensured that staff controls the safe reliability in packaging load-carrying element 1 process.

Further, as shown in Figures 1 to 3, the first sidepiece 111 of foam body 11 is also concaved with technique groove 13, technique groove 13 is arranged with the first sidepiece 111 in foam body 11 along the direction of the central axis perpendicular to positioning groove 121, and technique groove 13 is communicated with setting with positioning groove 121, the degree of depth that is arranged with that is arranged with the degree of depth and is shallower than positioning groove 121 of technique groove 13.The setting of technique groove 13, can reduce the material usage of packaging load-carrying element 1 on the one hand, thereby has reduced the material cost of packaging load-carrying element 1; Can be beneficial on the other hand the cooling process of discharge and 1 moulding of acceleration packaging load-carrying element of steam in packaging load-carrying element 1 forming process, thereby effectively prevent from packing the bad risk of load-carrying element 1 moulding, and then improve the moulding yields of packaging load-carrying element 1.

Further, as shown in Figure 4, the utility model embodiment also provides a kind of packing chest of plastic packaging motor 5, and it comprises casing 3, is provided with the packaging load-carrying element 1 of above-mentioned plastic packaging motor 5 in casing 3.Casing 3 comprises bottom 32 and top case 31, and case 31 back-offs in top, on bottom 32, and enclose the space that is formed for accommodating packaging load-carrying element 1.When concrete packaging, can first packaging load-carrying element 1 and plastic packaging motor 5 be installed in bottom 32, finally again by top case 31 back-offs on bottom 32, and by binding strap, top case 31 and bottom 32 colligations are fixed.The packing chest of the plastic packaging motor 5 that the utility model embodiment provides, owing to having adopted above-mentioned packaging load-carrying element 1 to support plastic packaging motor 5, therefore, improved the reliability of positioning of plastic packaging motor 5 in casing 3 on the one hand, and then improved the safe reliability of plastic packaging motor 5 in the process of transporting; Improve on the other hand the cyclic utilization rate of Packaging Resources, and then reduced the packing cost of plastic packaging motor 5; Improve on the one hand again the packaging efficiency of packing chest.

Further, as shown in Figure 1 and Figure 4, be also provided with pillar stiffener 2 in casing 3, the outward flange corner of foam body 11 is provided with for pillar stiffener 2 and inserts the slot 15 of location, and pillar stiffener 2 is inserted in slot 15, and pillar stiffener 2 specifically can be made up of timber.The setting of pillar stiffener 2, can be used for packaging load-carrying element 1 to carry out supporting and location on the one hand, prevents from packing the phenomenon generation that casing 3 appears tilting to damage by pressure in load-carrying element 1, has improved the solid and reliable property of packaging load-carrying element 1 in casing 3 interior location; In the time that multiple packing chests stack mutually, pillar stiffener 2 can be played a supporting role to upper layer packets vanning, thereby can prevent that lower floor's packing chest from being damaged by pressure on the other hand.

Particularly, the present embodiment, foam body 11 is rectangular shape roughly, and slot 15 is recessed into and arranges to the entity side of foam body 11 along the outward flange corner of foam body 11, pillar stiffener 2 quantity of casing 3 interior settings are four, and four pillar stiffeners 2 are located at respectively four edges and corners of casing 3 inwalls.The magnitude setting of slot 15 on a foam body 11, can be optimized design according to the horizontal section size of the horizontal section size of casing 3 inner surface contours and foam body 11, in the time that the horizontal section size of casing 3 inner surface contours is smaller, can by the horizontal section size design of foam body 11 must with the horizontal section consistent size of casing 3 inner surface contours, and in four outward flange corners of foam body 11,15, four pillar stiffeners 2 of slot are all set and are inserted in respectively in four slots 15, and in the time that the horizontal section size of casing 3 inner surface contours is larger, the horizontal section of foam body 11 can be designed and sized to packing chest casing 3 horizontal section sizes 1/4th, and only in one or two outward flange corner of foam body 11, slot 15 is set, when packaging, being spliced into one deck by four packaging load-carrying elements 1 is positioned in casing 3, four pillar stiffeners 2 block respectively in the slot 15 that inserts in these four packaging load-carrying elements 1, like this, the build of packaging load-carrying element 1 can design littlely, and can simplify the structure of packaging load-carrying element 1, both be convenient to pack the machine-shaping of load-carrying element 1, be convenient to again ensure the intensity of packaging load-carrying element 1.

Further, as shown in Figure 4, the packing chest of the plastic packaging motor 5 that the utility model embodiment provides, also comprises the base for supporting 4 of being located under bottom 32, and base for supporting 4 specifically can be made up of timber.The setting of base for supporting 4, weight capacity that on the one hand can enhanced package case, is beneficial to transporting in a large number of plastic packaging motor 5; Can directly transfer for fork truck on the other hand, be convenient to the quick handover of the packing chest of plastic packaging motor 5.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any amendments of doing within spirit of the present utility model and principle, be equal to and replace or improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. the packaging load-carrying element of a plastic packaging motor, it is characterized in that: comprise foam body, described foam body has the first sidepiece and second sidepiece of reverse setting, described the first sidepiece is concaved with some motor storage tanks, described motor storage tank comprise the plastic packaging shell for plastic packaging motor snap in the positioning groove of location and for dodge described plastic packaging motor end shock absorbing ring dodge groove, described in dodge groove and be located at the both sides of described positioning groove and be communicated with described positioning groove along the central axial direction of described positioning groove.

2. the packaging load-carrying element of plastic packaging motor as claimed in claim 1, is characterized in that: described positioning groove is the arc groove of wall profile adaptation outside inner surface contour and described plastic packaging shell.

3. the packaging load-carrying element of plastic packaging motor as claimed in claim 1 or 2, is characterized in that: described second sidepiece of described foam body is also concaved with some positions screens groove corresponding with each described positioning groove position difference.

4. the packaging load-carrying element of plastic packaging motor as claimed in claim 1 or 2, it is characterized in that: described several motor storage tanks are divided at least two row along the direction of the central axis of parallel described positioning groove and are distributed on described foam body, and the setting of mutually staggering of the central axis of the each described motor storage tank of at least two adjacent lines.

5. the packaging load-carrying element of plastic packaging motor as claimed in claim 4, it is characterized in that: described several motor storage tanks are divided into four lines and are distributed on described foam body, the central axis of the each described motor storage tank of two outer peripheral two row of close described foam body is alignment mutually between two, be located at the central axis alignment mutually between two of the each described motor storage tank of two row of the centre portion of described foam body, and be positioned at the central axis and the setting of mutually staggering near the central axis of the each described motor storage tank of two outer peripheral two row of described foam body of the each described motor storage tank of two row of the centre portion of described foam body.

6. the packaging load-carrying element of plastic packaging motor as claimed in claim 1 or 2, is characterized in that: the outward flange corner of described foam body is also provided with the slot that inserts location for pillar stiffener.

7. the packaging load-carrying element of plastic packaging motor as claimed in claim 1 or 2, is characterized in that: the end of described foam body is also concaved with is convenient to the groove of controlling that staff controls.

8. the packaging load-carrying element of plastic packaging motor as claimed in claim 1 or 2, it is characterized in that: the first sidepiece of described foam body is also concaved with technique groove, described technique groove is arranged with the first sidepiece in described foam body along the direction of the central axis perpendicular to described positioning groove, and described technique groove is communicated with described positioning groove.

9. a packing chest for plastic packaging motor, comprises casing, it is characterized in that: the packaging load-carrying element that is provided with the plastic packaging motor described in claim 1 to 8 any one in described casing.

10. the packing chest of plastic packaging motor as claimed in claim 9, is characterized in that: in described casing, be also provided with pillar stiffener, the outward flange corner of described foam body is provided with the slot that inserts location for described pillar stiffener, and described pillar stiffener is inserted in described slot.