CN208102618U - A kind of high intensity molded tray - Google Patents
A kind of high intensity molded tray Download PDFInfo
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- CN208102618U CN208102618U CN201820169102.XU CN201820169102U CN208102618U CN 208102618 U CN208102618 U CN 208102618U CN 201820169102 U CN201820169102 U CN 201820169102U CN 208102618 U CN208102618 U CN 208102618U
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- reinforcing rib
- tray
- support foot
- high intensity
- angled triangle
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Abstract
The utility model relates to a kind of high-intensitive molded trays.It includes Support tray and bottom plate, it is formed with below Support tray multiple in the equally distributed support leg of endian format, multiple the second reinforcing ribs and third reinforcing rib being mutually communicated between support leg are formed on Support tray, and it is formed with multiple right angled triangle grid with stability structure, the first reinforcing rib of a T-shaped is also formed in each right angled triangle grid, when when any one position below fork truck arm is inserted into Support tray and upwards to reinforcing rib force, utilize the principle of triangle stability, other reinforcing ribs on corresponding right angled triangle grid being capable of stress simultaneously, topple over to guarantee that Support tray will not be generated when being lifted so that sliding.The high-intensitive molded tray of the utility model, design is scientific and reasonable for reinforcing rib structure, not only improves the force-bearing situation of pallet, improves its bearing capacity, increases load bearing stength, also improves its stability in use.
Description
Technical field
The utility model relates to transport loading tools technical field, more particularly, to a kind of high-intensitive molded tray.
Background technique
With the development of economy and society, the development of especially internet is that logistics and transportation industry brings new opportunity to develop.
Pallet is commonly to transport loading tools in current logistics field, is used to stack, carries and transport cargo, in logistics field
It is with a wide range of applications.Currently, for bearing goods store or transport pallet, be made of timber or it is hot-forming go out
The molded tray come is more.Molded tray is mostly the single single piece being made of Support tray and support leg.
However, in a published patent, application No. is:CN201620548289.5, it is entitled:Molded tray,
The intensity of its Support tray is inadequate, and it is not high with the matching degree of yoke, when yoke is too short or it is not deep enough to be inserted into its Support tray
When, the Support tray beyond yoke part is pushed by weight and is produced fracture, so that the reuse of Support tray is influenced, thus
Improvement need to be made to the ruggedized construction of its Support tray.
Utility model content
The purpose of this utility model is to provide a kind of high-intensitive molded trays.
The utility model solves technical solution used by above-mentioned technical problem:A kind of high intensity molded tray, packet
Support tray and bottom plate are included, the Support tray can be placed in the top of the bottom plate and be secured to, and the Support tray is in including one
Rectangular tray body, being recessed downwards along the upper surface of the tray body, it is multiple in the equally distributed branch of endian format to be formed with
Support foot, multiple support legs include positioned at the inner support foot of the tray body center and close to the tray body edge
Equally distributed eight outer support feet;Multiple the first reinforcements being recessed in the same direction with support leg are also formed in the tray body
Muscle, the second reinforcing rib and third reinforcing rib;Intersect to the inner support foot the same end of multiple second reinforcing ribs
Portion, multiple third reinforcing ribs are sequentially connected between the two neighboring outer support foot, multiple second reinforcing ribs and
Third reinforcing rib, which connects, connects into double check with a core structure, which is made of eight right angled triangle grid, Mei Gesuo
It states and is each formed with first reinforcing rib in right angled triangle grid.
In a preferred embodiment, first reinforcing rib is in T-shaped, and the transverse structure of T-shaped is corresponding with being located at
The second reinforcing rib on the bottom edge of the right angled triangle grid is parallel to each other, the vertical structure of T-shaped it is vertical this second plus
Strengthening tendons setting;The tail end of the vertical structure of the T-shaped of first reinforcing rib be located at the corresponding right angled triangle grid
The outer support foot of right angle communicate.
In a preferred embodiment, second reinforcing rib and the transverse structure of the T-shaped of first reinforcing rib are mutual
In parallel, one end of second reinforcing rib is communicated with the inner support foot, the other end is communicated with the outer support foot.
In a preferred embodiment, the both ends of the third reinforcing rib respectively with two adjacent outer support foot phases
It is logical, the 4th reinforcing rib of a perpendicular setting, the tail of the 4th reinforcing rib are also formed in the middle part of the third reinforcing rib
It holds close to the edge of the tray body.
In a preferred embodiment, the inner support foot and multiple outer support feet are uniformly distributed in nine grids structure;It is described
Outer support foot and inner support foot are contour, and the width of the inner support foot is not less than the width of the outer support foot.
In a preferred embodiment, the cross sectional shape of first reinforcing rib, the second reinforcing rib and third reinforcing rib can be
It concaves towards below the tray body:Arc-shaped, isosceles trapezoid.
In a preferred embodiment, the outer support foot and inner support foot are in hierarchic structure, far from the disk body
The cross-sectional area of the hierarchic structure in direction is gradually reduced.
In a preferred embodiment, buckling groove is respectively formed on the bottom face of the outer support foot and inner support foot.
In a preferred embodiment, the bottom plate is rectangular plate, and middle part has been formed uniformly can be symmetrical two-by-two
Four hollow out mouths, the hollow out mouth are in uniform octagonal shape;It is right in the upside plate face towards the Support tray of the bottom plate
Answer at the position of the outer support foot and inner support foot respectively that prominent be formed with can be with the buckling groove in clearance fit grafting
Pillar.
In a preferred embodiment, the setting outside the hollow out mouth respectively there are four being formed on the surface of the bottom plate
And the first groove with its similar shape, further include one be rectangle be looped around outside four first grooves it is second recessed
Slot, second groove are arranged close to the marginal portion of the bottom plate, and the four of second groove are arranged in four pillars
The inside at a angle.
The beneficial effect of the utility model high intensity molded tray is:By being formed with multiple and support on Support tray
The second reinforcing rib and third reinforcing rib being mutually communicated between foot, and it is formed with multiple right angle trigonometries with stability structure
Shape grid is also formed with the first reinforcing rib of a T-shaped in each right angled triangle grid, when fork truck arm is inserted under Support tray
Any one position of side and when exerting a force upwards to reinforcing rib, using the principle of triangle stability, positioned at corresponding right angle three
Other reinforcing ribs on angular grid can stress simultaneously, topple over to guarantee that Support tray will not be generated when being lifted so that sliding
It falls.The high-intensitive molded tray of the utility model, design is scientific and reasonable for reinforcing rib structure, not only improves the stress shape of pallet
Condition improves its bearing capacity, increases load bearing stength, also improves its stability in use.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of high-intensitive molded tray in an embodiment.
Fig. 2 is the stereoscopic schematic diagram of high-intensitive molded tray in an embodiment.
Fig. 3 is the top view of high-intensitive molded tray in an embodiment.
Fig. 4 is the cross section view of the part A-A in Fig. 3.
Fig. 5 is that another angle of high-intensitive molded tray in an embodiment obtains stereoscopic schematic diagram.
Fig. 6 is the stereoscopic schematic diagram of the bottom plate of high-intensitive molded tray in an embodiment.
Effect picture when Fig. 7 is yoke insertion molded tray first position in an embodiment.
Effect picture when Fig. 8 is the yoke insertion molded tray second position in an embodiment.
Effect picture when Fig. 9 is yoke insertion molded tray the third place in an embodiment.
Specific embodiment
The utility model high intensity molded tray is described in further detail below in conjunction with specific embodiments and drawings.
Referring to Figure 1, a kind of high-intensitive molded tray comprising Support tray 10 and bottom plate 20, Support tray 10 can be placed in
The top of bottom plate 20, Support tray 10 and bottom plate 20 are fixed using snap fastener assembly.Support tray 10 is used to directly contact with cargo, with
Loading end is provided for cargo, bottom plate 20 with ground or conveyer belt for contacting;In use, the yoke of fork truck can be from Support tray 10
It is inserted between bottom plate 20, then fork truck increases and drives Support tray 10 to increase simultaneously, and Support tray 10 can be with the shifting of fork truck
It moves and moves.
Please referring also to Fig. 2, Support tray 10 include a tray body 18 being square, along the upper surface of tray body 18 to
It is in the equally distributed support leg of endian format that lower recess, which is formed with multiple, and multiple support legs include being located at tray body center
Inner support foot 15 and close to the equally distributed eight outer support feet 16 in 18 edge of tray body.
Preferably, please referring also to Fig. 3 to Fig. 4 is also formed in tray body 18 and multiple to be recessed in the same direction with support leg
First reinforcing rib 11, the second reinforcing rib 12 and third reinforcing rib 13;Intersect to interior branch the same end of multiple second reinforcing ribs 12
The inside of support foot 15, multiple third reinforcing ribs 13 are sequentially connected between two neighboring outer support foot 16, multiple second reinforcing ribs
12 and third reinforcing rib 13 connect and connect into double check with a core structure, the double check with a core structure is by eight 19 groups of right angled triangle grid
At being each formed with first reinforcing rib 11 in each 19 grid of right angled triangle.
First reinforcing rib 11 be in T-shaped, the transverse structure of T-shaped with positioned at corresponding right angled triangle grid 19 bottom
The second reinforcing rib 12 on side is parallel to each other, vertical second reinforcing rib 12 setting of the vertical structure of T-shaped;First reinforcing rib
16 phase of outer support foot of the tail end of the vertical structure of 11 T-shaped and the right angle for being located at corresponding right angled triangle grid 19
It is logical.
Second reinforcing rib 12 and the transverse structure of the T-shaped of the first reinforcing rib 11 are parallel to each other, and the one of the second reinforcing rib 12
End is communicated with inner support foot 15, the other end is communicated with outer support foot 16, and multiple perforations of second reinforcing rib 12 connect into a meter shape, and
This meter of shape is arranged by two crosswises in positive and diagonal cross, to be formed on 8 directions in the external of interior support leg 15
Reinforcing.
The both ends of third reinforcing rib 13 are communicated with two adjacent outer support feet 16 respectively, and the middle part of third reinforcing rib 13 is also
It is formed with the 4th reinforcing rib 14 of a perpendicular setting, the tail end of the 4th reinforcing rib 14 is close to the edge of tray body 18.
Preferably, inner support foot 15 and multiple outer support feet 16 are uniformly distributed in nine grids structure;Outer support foot 16 and interior
Support leg 15 is contour, and the width of inner support foot 15 is not less than the width of outer support foot 16.Outer support foot 16 and inner support foot 15
It is in hierarchic structure, the cross-sectional area of the hierarchic structure in the direction far from tray body 18 is gradually reduced.
The cross sectional shape of first reinforcing rib 11, the second reinforcing rib 12 and third reinforcing rib 13 can be to concave towards under tray body 18
Side:Arc-shaped, isosceles trapezoid.
Buckling groove is respectively formed on the bottom face of please referring also to Fig. 5 and Fig. 6, outer support foot 16 and inner support foot 15
131。
Bottom plate 20 is rectangular plate, middle part be formed uniformly can symmetrical four hollow out mouths 22 two-by-two, hollow out mouth
22 be in uniform octagonal shape;Outer support foot 16 and inner support foot 15 are corresponded in the upside plate face towards Support tray 10 of bottom plate 20
Position at respectively it is prominent be formed with can be in buckling groove 131 clearance fit grafting pillar 21.
Formed on the surface of bottom plate 20 there are four be arranged outside the hollow out mouth 22 respectively and with 22 similar shape of hollow out mouth the
One groove 23 further includes second groove 24 being looped around outside four the first grooves 23 being rectangle, the second groove 24
It is arranged close to the marginal portion of bottom plate 20, the inside at four angles of the second groove 24 is arranged in four pillars 21.
In a preferred embodiment, Support tray 10 is made of high density material, and lateral length is greater than longitudinal length, and 9
A support leg is formed with interval between each other, and the insert structure for the yoke with fork truck matches.It is formed in tray body 18
There are multiple the first reinforcing rib 11, the second reinforcing rib 12 and third reinforcing ribs 13 being recessed in the same direction with support leg, multiple second reinforce
What muscle 12 and third reinforcing rib 13 were mutually communicated between support leg, and it is formed with multiple right angles with stability structure
Triangular lattice is also formed with the first reinforcing rib 11 of a T-shaped in each right angled triangle grid, sees on the whole, should plus
The distributed architecture of strengthening tendons can produce the reinforcement effect power on eight directions in its center at position, thus reduce Support tray 10 by
The deformation quantity generated when gravity, improve Support tray 10 load-bearing capacity, and using triangle stability principle, be located at pair
Other reinforcing ribs on right angled triangle grid answered also can simultaneously stress, increase the load-bearing capacity of Support tray 10, in turn
Improve safety and service life that Support tray 10 uses.A bottom plate 20 is fixed in the lower section of Support tray 10, can be to the high-strength of entirety
Degree molded tray plays further reinforcement reinforcement effect, to guarantee to be not easy to produce shape under high-intensitive carrying pressure
Become.
In actual use, due to the length disunity of yoke and insertion situation not in place, the end of yoke is in support
The position of 10 lower section of disk is different, and the reinforcing rib then contacted with yoke is also different, individually below with regard to common in normal use
3 in situation be described, for ease of understanding, spy with right side yoke and the right angled triangle on the right of Support tray
Grid 1., right angled triangle grid 2., 3. 4. right angled triangle grid is illustrated with right angled triangle grid:
Refer to Fig. 7, when yoke 30 front ends from the lower section of Support tray 10 be inserted into more than 10 half of Support tray to
At the position in front and lift, at this point, the region that yoke 30 is crossed over include right angled triangle grid 3. with right angled triangle lattice
4., wherein 3. 4. the rear portion of yoke 30 contacts son simultaneously with right angled triangle grid with right angled triangle grid, stress
Be it is stable, due to right angled triangle grid 1. with right angled triangle grid 3. it is adjacent and it is public one be located at right angled triangle waist
The second reinforcing rib 12 on line then utilizes the principle of triangle stability, positioned at right angled triangle grid 1. in other the
Two reinforcing ribs 12 are also by the force being lifted up from yoke 30, similarly, due to due to right angled triangle grid 1. with right angle
Triangular lattice 2. it is adjacent and it is public one be located at triangle base on the second reinforcing rib 12, therefore, right angled triangle
Grid 2. in other second reinforcing ribs 12 also by the force being lifted up from yoke 30, in this way, on entire Support tray 10
Reinforcing rib uniform stressed, be unlikely to produce fracture beyond the part of 30 end of yoke.
Fig. 8 is referred to, when the front ends of yoke 30 are inserted into three points more than Support tray 10 from the lower section of Support tray 10
Two position at and lift, at this point, the region that yoke 30 is crossed over include right angled triangle grid 3., right angled triangle grid
4. 1. with right angled triangle grid, wherein the rear portion of yoke 30 and right angled triangle grid 3., right angled triangle grid 4.
1. contacted simultaneously with right angled triangle grid, stress be it is stable, due to right angled triangle grid 1. with right angled triangle lattice
Sub 2. adjacent and public second reinforcing rib 12 being located in triangle base, then utilizes the original of triangle stability
Reason, positioned at right angled triangle grid 2. in other second reinforcing ribs 12 also by the force being lifted up from yoke 30, such as
This, the reinforcing rib uniform stressed on entire Support tray 10, the part beyond 30 end of yoke is unlikely to produce fracture.
Please referring also to Fig. 9, when the front ends of yoke 30 are inserted into from the lower section of Support tray 10 more than entire Support tray
When and lift, at this point, the region that yoke 30 is crossed over include right angled triangle grid 3., right angled triangle grid 4., directly
Angle triangular lattice 1. with right angled triangle grid 2., wherein the rear portion of yoke 30 and right angled triangle grid 3., right angle
4. 1. triangular lattice contacts simultaneously with right angled triangle grid, using the principle of triangle stability, be located at right angled triangle
Grid 3., right angled triangle grid 4., right angled triangle grid 1. with right angled triangle grid 2. in all reinforcing ribs by
The force being lifted up from yoke 30, in this way, the reinforcing rib uniform stressed on entire Support tray 10, exceeds 30 end of yoke
Part be unlikely to produce fracture.
To sum up, the utility model high intensity molded tray, by being formed with multiple phases between support leg on Support tray
The second reinforcing rib and third reinforcing rib mutually penetrated through, and multiple right angled triangle grid with stability structure are formed with,
The first reinforcing rib of a T-shaped is also formed in each right angled triangle grid, when fork truck arm is inserted into appointing below Support tray
What position and when exerting a force upwards to reinforcing rib, using the principle of triangle stability, positioned at corresponding right angled triangle lattice
Other reinforcing ribs on son can stress simultaneously, topple over to guarantee that Support tray will not be generated when being lifted so that sliding.This
The high-intensitive molded tray of utility model, design is scientific and reasonable for reinforcing rib structure, not only improves the force-bearing situation of pallet, mentions
Its high bearing capacity, increases load bearing stength, also improves its stability in use.
Although the description combination embodiments above to the utility model carries out, it is familiar with the art
Personnel can carry out many replacements based on the above contents, modifications and variations, be obvious.Therefore, all such
Substitution, improvements and changes are included in the spirit and scope of appended claims.
Claims (10)
1. a kind of high intensity molded tray comprising Support tray and bottom plate, the Support tray can be placed in the top of the bottom plate
And it is secured to, which is characterized in that the Support tray includes a tray body being square, along the upper surface of the tray body
Recess is formed with multiple in the equally distributed support leg of endian format downwards, and multiple support legs include being located in the tray body
The inner support foot of heart position and the close equally distributed eight outer support feet in the tray body edge;In the tray body
It is also formed with multiple the first reinforcing rib, the second reinforcing rib and third reinforcing ribs being recessed in the same direction with support leg;Multiple described second
The same end of reinforcing rib is intersected to the inside of the inner support foot, and multiple third reinforcing ribs are sequentially connected to two neighboring
Between the outer support foot, multiple second reinforcing ribs and third reinforcing rib connect and connect into double check with a core structure, this meter of word
Lattice structure is made of eight right angled triangle grid, and one described first is each formed in each right angled triangle grid and is added
Strengthening tendons.
2. high intensity molded tray according to claim 1, which is characterized in that first reinforcing rib is in T-shaped, T
The transverse structure of shape is parallel to each other with the second reinforcing rib on the bottom edge for being located at the corresponding right angled triangle grid, T
Vertical second reinforcing rib setting of the vertical structure of shape;The tail end of the vertical structure of the T-shaped of first reinforcing rib and position
It is communicated in the outer support foot of the right angle of the corresponding right angled triangle grid.
3. high intensity molded tray according to claim 2, which is characterized in that second reinforcing rib adds with described first
The transverse structure of the T-shaped of strengthening tendons is parallel to each other, one end of second reinforcing rib communicates with the inner support foot, the other end with
The outer support foot communicates.
4. it is according to claim 1 high intensity molded tray, which is characterized in that the both ends of the third reinforcing rib respectively with
The outer support foot of adjacent two communicates, and the 4th that a perpendicular setting is also formed in the middle part of the third reinforcing rib adds
Strengthening tendons, the tail end of the 4th reinforcing rib is close to the edge of the tray body.
5. high intensity molded tray according to claim 1, which is characterized in that the inner support foot and multiple outer support feet
It is uniformly distributed in nine grids structure;The outer support foot and inner support foot are contour, and the width of the inner support foot is not less than described
The width of outer support foot.
6. high intensity molded tray according to claim 1-5, which is characterized in that first reinforcing rib, the
The cross sectional shape of two reinforcing ribs and third reinforcing rib can be to concave towards below the tray body:Arc-shaped, isosceles trapezoid.
7. high intensity molded tray according to claim 1, which is characterized in that the outer support foot and inner support foot are in
The cross-sectional area of hierarchic structure, the hierarchic structure in the direction far from the tray body is gradually reduced.
8. high intensity molded tray according to claim 7, which is characterized in that the bottom of the outer support foot and inner support foot
Buckling groove is respectively formed on end face.
9. high intensity molded tray according to claim 8, which is characterized in that the bottom plate is rectangular plate,
Middle part, which has been formed uniformly, symmetrical four hollow out mouths, the hollow out mouth to be in two-by-two uniform octagonal shape;The court of the bottom plate
Correspond at the position of the outer support foot and inner support foot respectively that prominent be formed with can be in the upside plate face of the Support tray
The buckling groove is in the pillar of clearance fit grafting.
10. high intensity molded tray according to claim 9, which is characterized in that be formed with four on the surface of the bottom plate
A setting and the first groove with its similar shape outside the hollow out mouth respectively, further include one be rectangle be looped around four
The second groove outside a first groove, second groove is arranged close to the marginal portion of the bottom plate, described in four
The inside at four angles of second groove is arranged in pillar.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108190194A (en) * | 2018-01-31 | 2018-06-22 | 惠州中润达环保科技有限公司 | A kind of high intensity molded tray |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108190194A (en) * | 2018-01-31 | 2018-06-22 | 惠州中润达环保科技有限公司 | A kind of high intensity molded tray |
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