CN218617579U - Base, package assembly and equipment assembly - Google Patents

Abstract

The utility model provides a base, package assembly and equipment subassembly, the base includes first support piece and second support piece, the upside of first support piece is provided with the equipment and places the position, the equipment is placed the position and is had equipment gravity center position, the second support piece sets up in the first support piece and keeps away from the one side that the equipment was placed the position, the quantity of second support piece is more than two, a plurality of second support pieces arrange along the length direction of first support piece, each second support piece is asymmetric in the length direction of first support piece; the two second supporting pieces are arranged at intervals and enclose a first forklift groove with the first supporting piece, a cantilever is arranged at the first end of the first supporting piece, one of the second supporting pieces is arranged close to the first end of the first supporting piece and encloses a second forklift groove with the cantilever, and the equipment center of gravity is close to the cantilever in the length direction of the first supporting piece. The base can effectively limit the insertion position of the fork arm of the forklift to be positioned below the gravity center of the forklift body, and the forklift is prevented from tipping.

Description

Base, package assembly and equipment assembly

Technical Field

The utility model belongs to the technical field of the package assembly technique and specifically relates to a base, package assembly and equipment module are related to.

Background

Present base station air conditioner is packed fixedly by foam and wooden base usually to present base station air conditioner mainly adopts the sectional type foam to cushion the packing to the fuselage, and the foam is in large quantity, need during the packing with the foam equipment or fixed, has increased operating time, and packing inefficiency is unfavorable for realizing automatic packing. In the existing packaging structure, foam columns are adopted to buffer and package four ridges of a base station air conditioner body, each ridge adopts two foam columns, and one machine adopts 8 foam columns; still another kind of packaging structure adopts upper, middle and lower three sections of foam to cushion the packing to the fuselage, wherein middle, lower section foam adopts two L type foams to splice respectively and becomes "returning" type cover fuselage wherein, a machine adopts 5 pieces of foam totally. In the two packaging structures, the 'return' foam of the latter can slide downwards on the machine body, the protection effect is weakened, the foam columns adopted by the former are large in number, the structure is slender, the foam columns are easy to fall off in the installation process, the foam columns need to be manually held and fixed by adhesive tape in the packaging process, the operation is not easy, and the packaging automation is difficult to realize; the two foam structures are not strong enough in protection capability, and when the machine is provided with the accessory box, the accessory box and the machine body are not beneficial to being packed together.

In addition, the base station air conditioner compressor is placed in an internal machine, the internal machine is heavy in weight, the base station air conditioner compressor is generally loaded and unloaded by a motor-driven or manual forklift, a base foot or a wood base is generally arranged at the bottom of a machine body for facilitating forklift transportation, and the requirement on the forklift is high due to the fact that the machine body of the air conditioner is narrow and high, the width of the base foot is as wide as the machine body and small in width; because of the compressor, the fuselage weight generally has one side to be heavier, and the general structure symmetry of wooden base is not prevented staying, and fork truck can operate at arbitrary jack, inserts the non-focus one side of fuselage when fork truck yoke and loads and unloads, tumbles at fork truck fork transportation in-process machine easily, causes quality problems and economic loss.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a first purpose provides a can effectively restrict the inserted position of fork truck yoke and be located the centrobaric below of fuselage, prevent the base that the machine tumbled.

The second objective of the present invention is to provide a packaging assembly with the above base.

The third purpose of the utility model is to provide an equipment subassembly with above-mentioned package assembly.

In order to achieve the first object, the utility model provides a base, which comprises a first supporting piece, wherein an equipment placing position is arranged on the upper side of the first supporting piece, the equipment placing position is provided with an equipment gravity center position, and the equipment gravity center position is positioned on one side of the central position of the equipment placing position in the length direction of the first supporting piece; the base further comprises a second supporting piece, the second supporting piece is arranged on one side, away from the equipment placing position, of the first supporting piece, and the extending direction of the second supporting piece is intersected with the length direction of the first supporting piece; the number of the second supporting pieces is more than two, the plurality of the second supporting pieces are arranged along the length direction of the first supporting piece, and the second supporting pieces are asymmetrically arranged in the length direction of the first supporting piece; the two second supporting pieces are arranged at intervals and enclose a first forklift groove with the first supporting piece, a cantilever is arranged at the first end of the first supporting piece, one of the second supporting pieces is arranged close to the first end of the first supporting piece and encloses a second forklift groove with the cantilever, and the equipment center of gravity is close to the cantilever in the length direction of the first supporting piece.

According to the scheme, the base has an asymmetric structure with a fool-proof effect, and meanwhile, the arrangement of the first forklift groove and the second forklift groove limits the operation position of the fork arm of the manual or automatic forklift, so that the gravity center of the equipment is located in the range of the fork arm, and the equipment is effectively prevented from tipping during the processes of offline, loading and unloading and the like.

Preferably, the base further includes a third support member, the third support member being provided on a side wall of the first support member facing the apparatus placement position, the third support member being vertically opposite to the apparatus gravity center position.

It can be seen that the arrangement of the third support member can effectively function as a chassis for supporting the apparatus.

In a further aspect, the second support extends along a direction perpendicular to the length direction of the first support, and the third support extends in a direction parallel to the direction of the second support.

Further, both ends of the third support member do not extend beyond the outer edge of the first support member in the width direction of the first support member.

Therefore, the third supporting piece is prevented from extending out of the first supporting piece to affect the appearance, the third supporting piece is better matched with the packaging bottom support for use, and the occupied space size of the base is reduced.

The further scheme is that the first supporting piece comprises a first upper plank and a second upper plank which are arranged at intervals along the width direction of the first supporting piece, cantilevers are arranged on the first upper plank and the second upper plank, and two ends of the third supporting piece are connected with the first upper plank and the second upper plank respectively.

One preferred scheme is that both ends of the length direction of the first supporting piece are provided with machine foot fixing holes penetrating along the vertical direction.

Therefore, the machine legs of the equipment chassis are fixed through the machine leg fixing holes, and the stability of connection of the base and the equipment is guaranteed.

Preferably, the second supporting piece comprises a first sleeper plate, a second sleeper plate, a first sliding block and a second sliding block which are fixedly connected; first sleeper board and second sleeper board arrange and all extend along second support piece's length direction along vertical direction, and first skid block and second skid block all set up between first sleeper board and second sleeper board, and first skid block and second skid block set up the both ends at second support piece's length direction respectively.

To achieve the second objective, the present invention provides a packaging assembly, which includes the above-mentioned base.

The packaging assembly further comprises a buffering assembly, the buffering assembly comprises a front buffering member and a rear buffering member which are arranged along the width direction of the base, and the front buffering member, the rear buffering member and the base are enclosed to form an equipment placing position.

Therefore, the buffering assembly is divided into the front buffering assembly and the rear buffering assembly, the front buffering assembly and the rear buffering assembly are of an integrated structure, equipment is packaged by adopting integrated foam, the quantity of the foam is small, the packaging process is easy to operate, automatic packaging is easy to realize, and the protection capability of the full-foam packaging design is strong.

The front buffer piece comprises a front plate main body and two front side plates, wherein the two front side plates are respectively arranged on two sides of the front plate main body in the length direction of the base, and both the two front side plates extend from the front plate main body to the rear buffer piece; the rear buffer piece comprises a rear plate main body and two rear side plates, the two rear side plates are respectively arranged on two sides of the rear plate main body in the length direction of the base, and the two rear side plates extend from the rear plate main body towards the front buffer piece; preceding curb plate and posterior lateral plate one-to-one, every preceding curb plate all docks along the width direction of base with the posterior lateral plate that corresponds.

The further scheme is that the buffer assembly further comprises a top limiting wall, the top limiting wall is arranged at one end, away from the base, of the buffer assembly, and a buffer top surface is arranged on the side wall, facing the equipment placement position, of the top limiting wall.

Therefore, the buffering top surface is used for being contacted and limited with the top wall of the air conditioning equipment.

The further scheme is that the top limiting wall is provided with an accessory box containing groove in a penetrating mode along the vertical direction.

Therefore, the accessory box accommodating groove is formed in the top limiting wall, so that the accessory box can be conveniently packaged along with equipment, the space is reasonably utilized, and the size of a product is reduced.

The buffer top surface comprises a first top buffer surface section, a second top buffer surface section and a third top buffer surface section, the second top buffer surface section and the third top buffer surface section are oppositely arranged at two ends of the first top buffer surface section, and the first top buffer surface section is positioned on the rear buffer member; a portion of the second top buffer surface section is located on the front buffer, and another portion of the second top buffer surface section is located on the rear buffer; a portion of the third top cushioning surface section is located on the front cushioning member and another portion of the third top cushioning surface section is located on the rear cushioning member.

Preferably, the side wall of the front plate main body facing the equipment placing position is provided with a first front buffer bottom surface and a second front buffer bottom surface, and a first height difference is formed between the first front buffer bottom surface and the second front buffer bottom surface.

Therefore, the contact area between the buffer piece and the machine body of the equipment is reduced by arranging the buffer bottom surface with the height difference, and the large-area avoidance can effectively prevent the sheet metal part on the surface of the machine body from being deformed due to the impact of the buffer piece made of foam under the condition of overturning or stacking.

The first front buffer bottom surface is closer to the equipment placing position relative to the second front buffer bottom surface; buffering bottom surface before first includes buffering face section before first, buffering face section before second and buffering face section before the third, and buffering face section before first is located the top of front bezel main part, and buffering face section before second and buffering face section before the third set up the both ends of buffering face section before first relatively.

The further scheme is that the lateral wall of position is placed towards equipment to preceding curb plate is provided with first preceding buffering side and the preceding buffering side of second, has the second difference in height between first preceding buffering side and the preceding buffering side of second.

Further, the first height difference is in the range of 7 mm to 10 mm; and/or the second height difference is in the range of 7 mm to 10 mm.

The first front buffering side face is closer to the equipment placing position relative to the second front buffering side face; first preceding buffering side includes preceding horizontal side section and preceding vertical side section, and preceding vertical side section extends along vertical direction, and preceding horizontal side section extends along horizontal direction, and the quantity of preceding horizontal side section is more than two, and many preceding horizontal side sections are along vertical direction interval arrangement.

One preferred scheme is that the lateral wall of backplate main part orientation equipment place is provided with first back buffering bottom surface and second back buffering bottom surface, has the third difference in height between first back buffering bottom surface and the second back buffering bottom surface.

The further scheme is that the lateral wall that the position was placed towards equipment to the posterior lateral plate is provided with the back and cushions protrudingly, and the back cushions the arch and is provided with the buffering inclined plane of placing the position towards equipment, and the setting of contained angle is personally submitted with the main surface of posterior lateral plate to the buffering inclined plane.

Therefore, the profiling device can effectively support and position the equipment, meanwhile, the contact area of the profiling device and the body of the equipment is reduced, and the extrusion force applied to the equipment is reduced.

Preferably, a valve hole is formed in the bottom of one of the rear side plates so as to penetrate through the bottom in the thickness direction.

It can be seen that the valve opening serves to clear the outwardly projecting valve of the air conditioning system.

One preferred scheme is that the front plate main part is provided with air-out grid hole and display hole of stepping down along the thickness direction of front plate main part with running through, and the back plate main part is provided with air-in grid hole of stepping down along the thickness direction of back plate main part with running through.

Therefore, the air outlet grille abdicating hole is opposite to the air outlet grille of the air conditioning equipment, the display abdicating hole is opposite to the display of the air conditioning equipment, and the air inlet grille abdicating hole is opposite to the air inlet grille of the air conditioning equipment, so that the air outlet grille, the display, the air inlet grille and other fragile parts on the air conditioning equipment are prevented from being damaged due to extrusion of the buffer parts.

A preferred scheme is that, be provided with first silo that goes all to run through along this front side plate thickness direction on every front side board, be provided with second silo that goes all to run through along this rear side plate thickness direction on every rear side plate, a first silo that goes sets up with a second silo that goes relatively.

Therefore, the material consumption can be reduced and the cost can be reduced due to the arrangement of the first material removing groove and the second material removing groove.

In order to realize the third objective, the utility model provides an equipment assembly, including equipment body and foretell package assembly, equipment body sets up and places the position at equipment.

Preferably, the apparatus body includes a compressor, and the compressor is located at the apparatus center of gravity.

Drawings

Fig. 1 is an exploded view of an embodiment of the apparatus assembly of the present invention.

Figure 2 is a block diagram of a base in an embodiment of the packaging assembly of the present invention.

Fig. 3 is a structural diagram of a base and a part of a base station air conditioner in an embodiment of the equipment assembly of the present invention.

Figure 4 is a perspective view of an embodiment of the package assembly of the present invention.

Figure 5 is a bottom view of an embodiment of the package assembly of the present invention.

Fig. 6 is a perspective view of a front cushion in an embodiment of the packaging assembly of the present invention.

Figure 7 is a rear view of the front bumper in an embodiment of the packaging assembly of the present invention.

Fig. 8 is a perspective view of the rear cushion in an embodiment of the packaging assembly of the present invention.

Figure 9 is a front view of the rear cushion in an embodiment of the packaging assembly of the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

Referring to fig. 1, the equipment assembly in the present embodiment includes an equipment body and a packaging assembly 2, the equipment body is a base station air conditioner 10, the base station air conditioner 10 includes an air conditioner housing 11, and a compressor (not shown), an evaporator (not shown), a biaxial fan (not shown), and the like, which are disposed in the air conditioner housing 11, and the air conditioner housing 11 is a sheet metal part and has a rectangular parallelepiped shape.

The package assembly 2 comprises a base 21 and a cushioning assembly 22. Preferably, the base 21 is made of pine. The buffer assembly 22 comprises a front buffer member 3 and a rear buffer member 4 which are arranged along the width direction of the base 21, the front buffer member 3 and the rear buffer member 4 are all of an integrated structure and are processed and molded by a foam mold, and the density of foam is 18kg/m ³ To 25kg/m ³ In the meantime.

Preceding bolster 3, back bolster 4 and base 21 enclose into equipment and place position 23, and the equipment body sets up and places position 23 at equipment, and equipment is placed position 23 and is had equipment center of gravity position 24, and the compressor is located equipment center of gravity position 24 department.

Referring to fig. 1 to 3, the base 21 includes a first support 51, a second support 52, and a third support 53, the device placement position 23 is located on an upper side of the first support 51, and the device gravity center position 24 is located on one side of a center position of the device placement position 23 in a length direction of the first support 51.

The first support 51 includes a first upper deck 511 and a second upper deck 512 arranged at intervals in the width direction of the first support 51. The second support 52 is provided on a side of the first support 51 away from the apparatus placing position 23, the second support 52 extending in the width direction of the first support 51. The number of the second supporting pieces 52 is two, the two second supporting pieces 52 are arranged along the length direction of the first supporting piece 51, the two second supporting pieces 52 are asymmetrically arranged in the length direction of the first supporting piece 51, namely the two second supporting pieces 52 are asymmetric relative to a first plane, and the first plane is a plane passing through the middle point of the length direction of the first supporting piece 51. Both ends of the first support 51 in the length direction are provided with a foot fixing hole 510 penetrating in the vertical direction. Through the arrangement of the machine leg fixing hole 510, the machine leg 12 of the base station air conditioner 10 chassis is fixed by using a screw or a bolt, so that the stability of connection between the base 21 and the base station air conditioner 10 is ensured.

The two second supporting pieces 52 are arranged at intervals and enclose a first forklift groove 54 with the first supporting piece 51, a first end of the first upper plank 511 and a first end of the second upper plank 512 are both provided with a cantilever 513, one of the second supporting pieces 52 is arranged close to the first end of the first supporting piece 51 and encloses a second forklift groove 55 with the cantilever 513, and the equipment gravity center position 24 is close to the cantilever 513 in the length direction of the first supporting piece 51.

The second support 52 extends along the width direction of the first support 51, and the extending direction of the third support 53 is parallel to the extending direction of the second support 52. The third support 53 is provided on a side wall of the first support 51 facing the apparatus placing position 23, the third support 53 being vertically opposed to the apparatus gravity center position 24. The provision of the third support 53 may effectively serve to support the chassis of the apparatus. Both ends of the third support 53 are connected to the first and second upper decks 511 and 512, respectively, and both ends of the third support 53 do not exceed the outer edge of the first support 51 in the width direction of the first support 51.

The second support 52 includes a first sleeper plate 521, a second sleeper plate 522, a first slider block 523, and a second slider block 524 fixedly connected thereto. The first sleeper plate 521 and the second sleeper plate 522 are arranged in a vertical direction and each extend along a length direction of the second support 52, the first slider block 523 and the second slider block 524 are both disposed between the first sleeper plate 521 and the second sleeper plate 522, and the first slider block 523 and the second slider block 524 are respectively disposed at both ends of the length direction of the second support 52. All parts in the base 21 are fixedly connected through nailing.

Referring to fig. 1, 4 and 5, the front cushion 3 includes a front plate main body 31 and two front side plates 32, the two front side plates 32 are respectively disposed on both sides of the front plate main body 31 in the length direction of the base 21, and both the two front side plates 32 extend from the front plate main body 31 toward the rear cushion 4. The rear cushion 4 includes a rear plate main body 41 and two rear side plates 42, the two rear side plates 42 are respectively provided on both sides of the rear plate main body 41 in the length direction of the base 21, and the two rear side plates 42 each extend from the rear plate main body 41 toward the front cushion 3. The front side plates 32 correspond to the rear side plates 42 one by one, and each front side plate 32 is butted against the corresponding rear side plate 42 along the width direction of the base 21.

Buffer unit 22 still includes top limiting wall 6, and top limiting wall 6 sets up the one end of keeping away from base 21 at buffer unit 22, and top limiting wall 6 is provided with buffering top surface 60 towards the lateral wall of equipment setting position 23, and buffering top surface 60 contacts with the roof of air conditioner casing 11 for carry on spacingly to base station air conditioner 10 in vertical direction. The top stopper wall 6 is provided with an accessory case accommodating groove 61 penetrating in the vertical direction. The cross section of the accessory box accommodating groove 61 is rectangular, and the accessory box accommodating groove 61 is convenient for the accessory box to be packed together with the body. Buffering top surface 60 includes first top buffering face section 62, second top buffering face section 63 and third top buffering face section 64 set up the both ends at first top buffering face section 62 relatively, first top buffering face section 62 is located back bolster 4, partly on preceding bolster 3 of second top buffering face section 63, another part of second top buffering face section 63 is located back bolster 4, partly on preceding bolster 3 of third top buffering face section 64, another part of third top buffering face section 64 is located back bolster 4.

Referring to fig. 1, 6 and 7, the side wall of the front plate body 31 facing the device placement site 23 is provided with a first front buffer bottom surface 311 and a second front buffer bottom surface 312 with a first height difference between the first front buffer bottom surface 311 and the second front buffer bottom surface 312. The buffering bottom surface with the height difference is arranged, so that the contact area between the buffering piece and the equipment body is reduced, and the sheet metal part on the surface of the equipment body can be effectively prevented from being deformed due to the impact of the buffering piece made of foam under the condition of overturning or stacking by large-area avoidance.

The first front buffer bottom surface 311 is closer to the equipment placing position 23 than the second front buffer bottom surface 312, the first front buffer bottom surface 311 is in contact with the front side wall of the air conditioning casing 11, the first front buffer bottom surface 311 comprises a first front buffer surface section 313, a second front buffer surface section 314 and a third front buffer surface section 315, the first front buffer surface section 313 is located at the top of the front plate main body 31, and the second front buffer surface section 314 and the third front buffer surface section 315 are oppositely arranged at two ends of the first front buffer surface section 313. The width of the first front buffer bottom surface 311 is in the range of 12 mm to 92 mm. The side wall of the front side plate 32 facing the device placing position 23 is provided with a first front buffer side 321 and a second front buffer side 322, and a second height difference is provided between the first front buffer side 321 and the second front buffer side 322.

The first front buffer side 321 is closer to the equipment placement position 23 than the second front buffer side 322, the first front buffer side 321 is in contact with the left and right side walls of the air-conditioning casing 11, the first front buffer side 321 includes a front horizontal side section 323 and a front vertical side section 324, the front vertical side section 324 extends in the vertical direction, the front horizontal side section 323 extends in the horizontal direction, the number of the front horizontal side sections 323 is two or more, and a plurality of the front horizontal side sections 323 are arranged at intervals in the vertical direction.

Referring to fig. 1, 8 and 9, the side wall of the rear plate body 41 facing the equipment placing site 23 is provided with a first rear buffer bottom surface 411 and a second rear buffer bottom surface 412, and a third height difference is provided between the first rear buffer bottom surface 411 and the second rear buffer bottom surface 412. The first height difference, the second height difference, and the third height difference are all in a range of 7 millimeters to 10 millimeters. The first rear buffer bottom surface 411 is closer to the equipment placement site 23 than the second rear buffer bottom surface 412, the first rear buffer bottom surface 411 is in contact with the rear side wall of the air-conditioning case 11, and the width of the first rear buffer bottom surface 411 is in the range of 11 mm to 43 mm.

The rear side plate 42 is provided with a rear buffer projection 421 towards the side wall of the equipment placing position 23, the rear buffer projection 421 is provided with a buffer inclined plane 422 towards the equipment placing position 23, the shape of the buffer inclined plane 422 is rectangular, and the buffer inclined plane 422 and the main surface of the rear side plate 42 are arranged at an acute angle and are in contact with the air conditioner shell 11. First preceding buffering bottom surface 311, first preceding buffering side 321, first back buffering bottom surface 411 and buffering inclined plane 422 all imitate the appearance setting of air conditioner casing 11, can realize effective support and location to basic station air conditioner 10 through the profile modeling setting, reduce simultaneously with the area of contact of the fuselage of basic station air conditioner 10, reduce the extrusion force that equipment received. A valve hole 423 is formed through the bottom of one of the rear side plates 42 in the thickness direction. The valve hole 423 is used for avoiding the valve 13 (shown in fig. 3) protruding outwards from the base station air conditioner 10.

The front plate main body 31 is provided with two circular air outlet grille abdicating holes 316 and a rectangular display abdicating hole 317 and a material removing hole 318 in a penetrating manner along the thickness direction of the front plate main body 31, and the display abdicating holes 317, the air outlet grille abdicating holes 316 and the material removing hole 318 are arranged at intervals along the vertical direction. The rear plate body 41 is provided with four rectangular grille escape holes 415 penetrating in the thickness direction of the rear plate body 41. The air outlet grille abdicating hole 316 is opposite to the air outlet grille 13 of the base station air conditioner 10, the display abdicating hole 317 is opposite to the display 14 of the base station air conditioner 10, and the air inlet grille abdicating hole 415 is opposite to the air inlet grille (not shown) at the rear side of the base station air conditioner 10, so that the air outlet grille, the display, the air inlet grille and other fragile components on the base station air conditioner 10 are prevented from being extruded by the buffer parts and damaged.

Each front side plate 32 is provided with a first material removing groove 325 in a penetrating manner along the thickness direction of the front side plate 32, each rear side plate 42 is provided with a second material removing groove 425 in a penetrating manner along the thickness direction of the rear side plate 42, and the first material removing groove 325 and the second material removing groove 425 are oppositely arranged and spliced to form a circular material removing hole 20. The first material removing groove 325 and the second material removing groove 425 can reduce material consumption and reduce cost, and in addition, the material removing holes 20 are opposite to the air inlet grille 15 on the side of the base station air conditioner 10, so that the extrusion force on the air inlet grille 15 can be reduced. A partition wall 221 is formed between two adjacent material discharge holes on the same side of the buffer assembly 22, and a part of the first front buffer side 321 and a part of the rear buffer bulge 421 are located on the partition wall 221.

From top to bottom, the base has the asymmetric structure of preventing slow-witted effect, and the setting of first fork truck groove and second fork truck groove has injectd the operating position of manual or automatic fork truck yoke simultaneously, guarantees that the focus of equipment is located in the yoke within range, effectively prevents equipment at the in-process such as off-line, loading and unloading and tumbles. In addition, the buffering component is divided into a front buffering component and a rear buffering component, the front buffering component and the rear buffering component are of integrated structures, equipment is packaged through integrated foams, the number of the foams is small, the packaging process is easy to operate, automatic packaging is easy to achieve, and the protection capability of the full-foam packaging design is strong. In addition, the buffer surface with the height difference is arranged, so that the contact area between the buffer piece and the machine body of the equipment is reduced, and the large-area avoidance can effectively prevent the sheet metal part on the surface of the machine body from being deformed due to the impact of the buffer piece made of foam under the condition of overturning or stacking.

In addition, the number of the second supporting pieces can be more than two, the plurality of second supporting pieces are arranged along the length direction of the first supporting piece, and the second supporting pieces are asymmetrically arranged in the length direction of the first supporting piece. The number, size, shape, etc. of the first supports may be changed as desired, for example, the number of the first supports may be one or more than two. The first support may also be plate-shaped. The material of the base, the size and the material of the buffer component can be changed according to the requirement. The above changes also enable the object of the present invention to be achieved.

Finally, it should be emphasized that the above-described preferred embodiments of the present invention are merely examples of implementations, and are not intended to limit the scope of the present invention, as those skilled in the art will appreciate that various changes and modifications may be made without departing from the spirit and scope of the invention, and it is intended to cover all such modifications, equivalents, and improvements as fall within the true spirit and scope of the invention.

Claims (25)

1. The base comprises a first supporting piece, wherein an equipment placing position is arranged on the upper side of the first supporting piece and is provided with an equipment gravity center position, and the equipment gravity center position is positioned on one side of the center position of the equipment placing position in the length direction of the first supporting piece;

the method is characterized in that:

the base further comprises a second supporting piece, the second supporting piece is arranged on one side, away from the equipment placing position, of the first supporting piece, and the extending direction of the second supporting piece is intersected with the length direction of the first supporting piece;

the number of the second supporting pieces is more than two, the plurality of the second supporting pieces are arranged along the length direction of the first supporting piece, and each second supporting piece is asymmetrically arranged in the length direction of the first supporting piece;

the two second supporting pieces are arranged at intervals and enclose a first forklift groove with the first supporting piece, the first end of the first supporting piece is provided with a cantilever, one of the second supporting pieces is arranged close to the first end of the first supporting piece and encloses a second forklift groove with the cantilever, and the equipment center of gravity is close to the cantilever in the length direction of the first supporting piece.

2. The base of claim 1, wherein:

the base further comprises a third supporting piece, the third supporting piece is arranged on the side wall, facing the equipment placing position, of the first supporting piece, and the third supporting piece is opposite to the equipment gravity center in the vertical direction.

3. The base of claim 2, wherein:

the second support extends along a direction perpendicular to the length direction of the first support, and the extending direction of the third support is parallel to the extending direction of the second support.

4. The base of claim 3, wherein:

the two ends of the third supporting piece do not exceed the outer edge of the first supporting piece along the width direction of the first supporting piece.

5. The base of claim 4, wherein:

the first supporting piece comprises a first upper plank and a second upper plank which are arranged at intervals along the width direction of the first supporting piece, the cantilever is arranged on the first upper plank and the second upper plank, and two ends of the third supporting piece are connected with the first upper plank and the second upper plank respectively.

6. The base of any one of claims 1 to 4, wherein:

and both ends of the first supporting piece in the length direction are provided with machine foot fixing holes penetrating through along the vertical direction.

7. The base of any one of claims 1 to 4, wherein:

the second supporting piece comprises a first sleeper plate, a second sleeper plate, a first sliding block and a second sliding block which are fixedly connected;

the first sleeper plate and the second sleeper plate are arranged in the vertical direction and extend along the length direction of the second supporting piece, the first sliding block and the second sliding block are arranged between the first sleeper plate and the second sleeper plate, and the first sliding block and the second sliding block are arranged at two ends of the length direction of the second supporting piece respectively.

8. A packaging assembly comprising the base of any one of claims 1 to 7.

9. The package assembly according to claim 8, wherein:

the packaging assembly further comprises a buffering assembly, the buffering assembly comprises a front buffering piece and a rear buffering piece which are arranged in the width direction of the base, and the front buffering piece, the rear buffering piece and the base are enclosed to form the equipment placing position.

10. The package assembly according to claim 9, wherein:

the front buffer piece comprises a front plate main body and two front side plates, the two front side plates are respectively arranged on two sides of the front plate main body in the length direction of the base, and the two front side plates extend from the front plate main body towards the rear buffer piece;

the rear buffer piece comprises a rear plate main body and two rear side plates, the two rear side plates are respectively arranged on two sides of the rear plate main body in the length direction of the base, and the two rear side plates extend from the rear plate main body towards the front buffer piece;

the front side plates are in one-to-one correspondence with the rear side plates, and each front side plate is in butt joint with the corresponding rear side plate along the width direction of the base.

11. The package assembly according to claim 10, wherein:

the buffer assembly further comprises a top limiting wall, the top limiting wall is arranged at one end, far away from the base, of the buffer assembly, and the top limiting wall faces the side wall of the equipment placement position and is provided with a buffer top surface.

12. The package assembly according to claim 11, wherein:

the top limiting wall is provided with an accessory box containing groove in a penetrating mode along the vertical direction.

13. The package assembly according to claim 11, wherein:

the buffer top surface comprises a first top buffer surface section, a second top buffer surface section and a third top buffer surface section, the second top buffer surface section and the third top buffer surface section are oppositely arranged at two ends of the first top buffer surface section, and the first top buffer surface section is positioned on the rear buffer member;

a portion of the second top cushioning surface section is located on the front cushioning member and another portion of the second top cushioning surface section is located on the rear cushioning member;

a portion of the third top buffer surface segment is located on the front buffer, and another portion of the third top buffer surface segment is located on the rear buffer.

14. A packaging assembly according to any of claims 10 to 13, wherein:

the front bezel main part orientation the lateral wall of equipment placement position is provided with buffering bottom surface before first preceding buffering bottom surface and the second, first preceding buffering bottom surface with have a difference in height between the buffering bottom surface before the second.

15. The package assembly according to claim 14, wherein:

the first front buffer bottom surface is closer to the equipment placement position relative to the second front buffer bottom surface;

buffering bottom surface before first includes buffering face section before first, second and buffering face section before the third, buffering face section before first is located the top of front bezel main part, buffering face section before second and the third sets up relatively the both ends of buffering face section before first.

16. The package assembly according to claim 14, wherein:

the lateral wall that preceding curb plate orientation the position is placed to equipment is provided with first preceding buffering side and the buffering side before the second, has the second difference in height between buffering side before first preceding buffering side and the second.

17. The package assembly according to claim 16, wherein:

the first height difference is in the range of 7 millimeters to 10 millimeters; and/or

The second height difference is in the range of 7 mm to 10 mm.

18. The package assembly according to claim 16, wherein:

the first front bumper side is closer to the device placement location relative to the second front bumper side;

first front buffer side includes preceding horizontal side section and preceding vertical side section, preceding vertical side section extends along vertical direction, preceding horizontal side section extends along horizontal direction, the quantity of preceding horizontal side section is more than two, many preceding horizontal side section is along vertical direction interval arrangement.

19. A packaging assembly according to any of claims 10 to 13, wherein:

the back plate main part orientation the lateral wall of equipment placement position is provided with buffering bottom surface behind first back and the second, first back buffering bottom surface with buffer the bottom surface behind the second and have the third difference in height.

20. The package assembly according to claim 19, wherein:

the posterior lateral plate orientation the lateral wall of equipment placement position is provided with the back buffering arch, the back buffering arch is provided with the orientation the buffering inclined plane of equipment placement position, the buffering inclined plane with the contained angle setting is personally submitted to the major surface of posterior lateral plate.

21. A packaging assembly according to any of claims 10 to 13, wherein:

and a valve hole is arranged at the bottom of one of the rear side plates in a penetrating manner along the thickness direction.

22. A packaging assembly according to any of claims 10 to 13, wherein:

the front bezel main part is followed the thickness direction of front bezel main part is provided with the air-out grid hole of stepping down and the display hole of stepping down with penetrating, the back plate main part is followed the thickness direction of back plate main part is provided with the air-inlet grid hole of stepping down with penetrating.

23. A packaging assembly according to any of claims 10 to 13, wherein:

each front side plate is provided with a first material removing groove in a penetrating mode along the thickness direction of the front side plate, each rear side plate is provided with a second material removing groove in a penetrating mode along the thickness direction of the rear side plate, and the first material removing groove and the second material removing groove are arranged oppositely.

24. A device assembly, comprising a device body and a packaging assembly as claimed in any one of claims 8 to 23, the device body being disposed at the device placement location.

25. The equipment assembly of claim 24, wherein:

the equipment body comprises a compressor, and the compressor is located at the equipment gravity center position.

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