CN206308960U - Platform Slab element and ground platen - Google Patents

Abstract

The utility model is related to a kind of platform Slab element and ground platen, with first side (101) and the second side (102) adjacent with the first side (101), be provided with the first side (101) carries out the first buckle structure of buckle for the plate face direction along the platform Slab element (10) to the platform Slab element (10)；And/or be provided with the second side (102) the second buckle structure of buckle is carried out for the plate face direction along the platform Slab element (10), second buckle structure matches with first buckle structure.The ground platen is mutually spliced by the above-mentioned platform Slab element (10) of polylith, wherein, first buckle structure is clasped and self-locking with second buckle structure.Ground platen cellular construction of the present utility model is simple, low manufacture cost, can mutually be spliced in its plate face direction, and spliced ground platen has fastness and stability higher.

Description

Platform Slab element and ground platen

Technical field

The utility model is related to a kind of platform Slab element and the ground platen containing the platform Slab element.

Background technology

Ground platen is called clamp, pallet or pallet, is generally divided into wooden, plastics matter, papery and the major class of steel four.Wherein, Plastics ground platen because its superior performance, using light profit, process equipment high degree of automation, yield is big the features such as by people's Favor, the control along with country to deforestation, timber cost raises up, and the raising of plastics machinery performance causes plastics Ground platen becomes the main flow of industrial ground platen.But, because platform plate bulk is larger, it is necessary to use 3000 tons or more of machine Platform could meet production, and production cost and difficulty are all very big.

Notification number discloses a kind of attachment structure of ground platen for the Chinese utility model patent of CN203168629U, and it leads to Cross and the ground platen splicing of fritter is fixed as larger square entirety, and solve above mentioned problem.The attachment structure of the ground platen Including ground platen 1 and contiguous block, cotter way is set in the corner of the one side of ground platen 1, four pins 3 are set on contiguous block, by four Individual pin 3 is inserted in four pieces of cotter ways of ground platen corner respectively, four pieces of splicings of ground platen 1 is fixed as square entirety.

But, patent disclosed above has the following disadvantages：(1) splicing of ground platen needs additionally to use substantial amounts of connection Block, and the structure of contiguous block is more complicated, inconvenient operation, increased man power and material's cost；(2) by connection between ground platen Block is connected, therefore, its integral firmness and stability that affect ground platen higher to the intensity requirement of contiguous block；(3) platform Plate is assembled in the plate face direction perpendicular to ground platen, and is only attached around the corner between ground platen, overall jail Solidity is poor, easily out of stock between ground platen during carrying and use.

Utility model content

The purpose of this utility model is directed to above-mentioned deficiency, there is provided a kind of platform Slab element and contain the platform Slab element Ground platen, wherein, ground platen cellular construction is simple, low manufacture cost, can mutually be spliced in its plate face direction, and spells Ground platen after connecing has fastness and stability higher.

To achieve these goals, the utility model provides a kind of platform Slab element, and the platform Slab element has the first side Face and the second side adjacent with the first side, are provided with for the plate along the platform Slab element in the first side Face direction carries out the first buckle structure of buckle；And/or be provided with the second side for along the platform Slab element Plate face direction carry out the second buckle structure of buckle, second buckle structure matches with first buckle structure.

Preferably, the platform Slab element is the plate-like piece of square body.

Preferably, first buckle structure is formed as catch flanges, and the catch flanges are protrudedly formed in described first Side；Second buckle structure is formed as the snap-fit grooves being adapted with the catch flanges.

Preferably, the snap-fit grooves extend along the second side and extend to the end of the second side, with shape Into the sliding channel of the catch flanges, the end of the second side is formed as the opening of the sliding channel.

Preferably, the catch flanges are trapezoidal bar, and the snap-fit grooves are dovetail groove.

Preferably, the trapezoidal bar the thickness on the ground platen unit plate face direction along its projected direction by Gradual change is big.

Preferably, jut and the depressed part coordinated with the jut are additionally provided with the platform Slab element, it is described prominent Rise portion be formed in one of the first side and the second side, the depressed part be formed in the first side and In the other of described second side.

Preferably, the height that the jut is protruded is not more than 1/2nd of the catch flanges height.

Preferably, the jut includes that the guiding jut slips into the guide portion of the depressed part, and prevents described The stopper section that jut is skidded off from the depressed part.

Preferably, the cross-sectional profiles of the jut include being formed the straightway of the stopper section and form the guiding The segmental arc in portion, arc transition connection between the straightway and the segmental arc.

Preferably, the protruding part is in the first side, and makes the guide portion away from first buckle structure Set.

Preferably, the protruding part is in the second side, and makes the stopper section away from second buckle structure Set.

The utility model also provides a kind of ground platen, and the ground platen is as the platform Slab element described in polylith any of the above one Mutually it is spliced, wherein, first buckle structure is clasped and releasedly self-locking with second buckle structure.

Preferably, the ground platen is formed by four pieces of ground platen unit spliceds.

By above-mentioned technical proposal, platform Slab element can mutually be spliced in its plate face direction, it is not necessary to be borrowed in addition Connector is helped, and spliced ground platen has fastness and stability higher.

Other feature and advantage of the present utility model will be described in detail in subsequent specific embodiment part.

Brief description of the drawings

Accompanying drawing is further understood to of the present utility model for providing, and constitutes a part for specification, and following Specific embodiment be used to explain the utility model together, but do not constitute to limitation of the present utility model.In the accompanying drawings：

Fig. 1 is the attachment structure schematic diagram of ground platen in background technology；

Fig. 2 is the structural representation of platform Slab element in the utility model；

Fig. 3 is the structural representation of jut in Fig. 2；

Fig. 4 is that the platform Slab element of Fig. 2 is mutually spliced into the schematic diagram of ground platen.

Description of reference numerals

The first side of 10 platform Slab element 101

The catch flanges of 102 second side 11

The jut of 12 snap-fit grooves 13

The guide portion of 14 depressed part 131

132 stopper sections

Specific embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.It should be appreciated that herein Described specific embodiment is merely to illustrate and explains the utility model, is not limited to the utility model.

The utility model provides a kind of platform Slab element 10, the platform Slab element 10 have first side 101 and with this The adjacent second side 102 of one side 101, is provided with for along the platform Slab element 10 in the first side 101 Plate face direction carries out the first buckle structure of buckle；And/or be provided with the second side 102 for along the ground platen The plate face direction of unit 10 carries out the second buckle structure of buckle, second buckle structure and the first buckle structure phase Match somebody with somebody.

It should be appreciated that above-described platform Slab element 10 can have three kinds of structures：Platform Slab element 10 has First buckle structure；Platform Slab element 10 has the second buckle structure；Platform Slab element 10 have simultaneously the first buckle structure and Second buckle structure.So as to realize polytype connecting method between platform Slab element 10, no longer introduce one by one herein.

It should be noted that plate face direction described in the utility model refers to the working face place plane of platform Slab element Direction, working face is the plane perpendicular to the first side 101 and/or second side 102.

According to one side of the present utility model, first side 101 and the second side 102 of the platform Slab element 10 have There is the shape of complementation.Wherein, complementation can be understood as first side 101 and second side 102 is formed as irregular shape, and Both are complementary to one another in structure.For example, first side 101 can be formed as the multiple lug bosses for having similar to picture mosaic zero And depressed part, second side 102 is formed as the depressed part matched with the lug boss and depressed part of the first side 101 and convex The portion of rising, wherein, lug boss and depressed part are above-described first buckle structure and the second buckle structure.

According to another aspect of the present utility model, as shown in Fig. 2 the platform Slab element 10 is the plate-like piece of square body, Such as cuboid, square, polygon cube.It is understood that the first side 101 and second side 102 are formed as The rectangle of rule.

Wherein, in order that the structure of platform Slab element 10 is simpler, cost of manufacture is lower, preferably, first card Buckle and be configured as catch flanges 11, the catch flanges 11 are protrudedly formed in the first side 101；The second buckle knot It is configured as the snap-fit grooves 12 being adapted with the catch flanges 11.In this way, can be by buckle between platform Slab element 10 Flange 11 is clasped to realize assembling with snap-fit grooves 12.

By such scheme, the first side 101 and second side 102 of the platform Slab element 10 can be realized described The integrated connection in the plate face direction of platform Slab element 10, is not just attached around the corner, connects very firm.In addition, Because when ground platen is carried, people is generally orthogonal to ground platen plate face to the force direction of ground platen, therefore, make ground platen It is unstable to be assembled (such as prior art) in the plate face direction perpendicular to ground platen, it is easy to be mutually disengaged.

In the assembling process of platform Slab element 10, above-mentioned catch flanges 11 can have two kinds of installations with snap-fit grooves 12 Mode, is slidably installed and directly fastens installation.For the ease of the assembling splicing between platform Slab element 10, and improve its assembling jail Solidity and stability, the utility model are that can be pacified by sliding preferably by the structure setting of catch flanges 11 and snap-fit grooves 12 Dress.According to a kind of implementation method of the present utility model, specifically, as shown in Fig. 2 the snap-fit grooves 12 are along second side 102 Extend and extend to the end of second side 102, to form the sliding channel of catch flanges 11, the end of the second side 102 Portion is formed as the opening of the sliding channel.In this way, when catch flanges 11 slipped into from the one end open of snap-fit grooves 12 and with card After button groove 12 engages, catch flanges 11 just can not be further continued for forward slip, so as to realize self-locking.

In order that the engaging of the catch flanges 11 and snap-fit grooves 12 is more firm, preferably, the catch flanges 11 Be formed as trapezoidal bar, the snap-fit grooves 12 are formed as dovetail groove.It is recessed with buckle in order to further improve the catch flanges 11 The fastness and stability of the assembling of groove 12, the trapezoidal bar is on the thickness edge on the plate face direction of the platform Slab element 10 Its projected direction becomes larger (referring to Fig. 2).

In order to further improve the fastness and stability assembled between platform Slab element 10, ground platen of the present utility model Jut 13 and the depressed part 14 coordinated with the jut 13 are additionally provided with unit 10, the jut 13 is formed in the first side On one of face 101 and second side 102, the depressed part 14 is formed in another in first side 101 and second side 102 In one.Certainly, the utility model is not limited in being clasped using jut and depressed part, it would however also be possible to employ other are normal The buckle structure seen, or can be achieved on other arbitrary structures of this kind of function.

In order to make jut 13 realize self-locking after snapping in depressed part 14, specifically, as shown in figure 3, the jut 13 include guiding the jut 13 to slip into the guide portion 131 of depressed part 14 and prevent what the jut 13 from skidding off from depressed part 14 Stopper section 132.

Wherein, as a kind of preferred structure of the utility model jut 13, the cross-sectional profiles of jut 13 include shape Into the straightway and the segmental arc of the formation guide portion 131 of the stopper section 132, between the straightway and the segmental arc Arc transition is connected (referring to Fig. 3).Herein, the utility model is that self-locking is realized by the self structure of jut 13, but It should be understood that other can realize the structure of this kind of function or increase a kind of locking structure in addition all in the utility model Protection domain within.

According to a kind of implementation method of the present utility model, when platform Slab element 10 is assembled, the buckle can be made Flange 11 is first slipped into snap-fit grooves 12, and when catch flanges 11 slide into half, the jut 13 starts to connect with depressed part 14 Touch, when catch flanges 11 are slided into snap-fit grooves 12 completely, jut 13 is snapped in depressed part 14, and in the stopper section Under 132 backstop action, jut 13 realizes self-locking after snapping in depressed part 14.Therefore, jut 13 is set to make what it was protruded Highly it is not more than 1/2nd of the height of catch flanges 11.Wherein, the height of the jut 13 refers to jut 13 in platform Height on the plate face direction of Slab element 10, the height of catch flanges 11 refers to plate face of the catch flanges 11 in platform Slab element 10 Height on direction.

Can jut 13 is located at first side for the setting of the jut 13 in the utility model 101, and the guide portion 131 is set away from first buckle structure；Jut 13 can also be made to be located at second side 102, and the stopper section 132 is set away from second buckle structure.By arrangement above, jut 13 can be caused not Pipe is to be located at first side 101 or positioned at second side 102, can realize self-locking, and can be with can be with the card of self-locking Button flange 11 realizes the double self locking assembled between platform Slab element 10 together, makes assembling more firm, more stable.

In the utility model, above-described first buckle structure, the second buckle structure, jut and depressed part or Its replacing structure can be integrally formed with the platform Slab element 10, it is also possible to be connected with the platform Slab element by connector Connect, certainly, the connection can also be dismountable.

The utility model also provides a kind of ground platen, and platform Slab element 10 of the ground platen by polylith in above-mentioned mutually splices Form, wherein, first buckle structure is clasped and releasedly self-locking with second buckle structure.

According to a kind of implementation method of the utility model ground platen, as shown in figure 4, the ground platen is by four pieces of ground platen lists Unit 10 is spliced.

Referring to Fig. 4, when the ground platen is by four pieces of ground platen unit spliceds, two pieces two pieces first respectively assembling be spliced into two Group, is then again spliced two groups of ground platens, and in the ground platen for assembling, every piece of platform Slab element is all respectively with adjacent two Block platform Slab element realizes buckle self-locking, therefore, this kind of connecting method is most firm.

In order that platform Slab element can arbitrary load be spliced into the ground platen of various sizes size to adapt to various differences Demand, while ensure ground platen fastness and stability, can be by each side of the platform Slab element 10 Corresponding assembling structure is set, the unlimited assembling splicing of platform Slab element is realized.

Ground platen described in the utility model is mutually to be assembled to be spliced in its plate face direction by platform Slab element 10, no Need in addition by connector, and spliced ground platen has fastness and stability higher.In addition, the utility model The structure of platform Slab element 10 it is very simple, low manufacture cost, concatenation is convenient, is suitable to wide popularization and application.

Preferred embodiment of the present utility model is described in detail above in association with accompanying drawing, but, the utility model is not limited Detail in above-mentioned implementation method, in range of the technology design of the present utility model, can be to skill of the present utility model Art scheme carries out various simple variants, and these simple variants belong to protection domain of the present utility model.

It is further to note that each particular technique feature described in above-mentioned specific embodiment, in not lance In the case of shield, can be combined by any suitable means, in order to avoid unnecessary repetition, the utility model is to each Possible combination is planted no longer separately to illustrate.

Additionally, can also be combined between a variety of implementation methods of the present utility model, as long as it is not disobeyed Thought of the present utility model is carried on the back, it should equally be considered as content disclosed in the utility model.

Claims (14)

1. platform Slab element (10), the platform Slab element (10) is with first side (101) and adjacent with the first side (101) Second side (102), it is characterised in that：

Being provided with the first side (101) carries out the of buckle for the plate face direction along the platform Slab element (10) One buckle structure；And/or

Being provided with the second side (102) carries out the of buckle for the plate face direction along the platform Slab element (10) Two buckle structures, second buckle structure matches with first buckle structure.

2. platform Slab element (10) according to claim 1, it is characterised in that the platform Slab element (10) is square body Plate-like piece.

3. platform Slab element (10) according to claim 2, it is characterised in that first buckle structure is formed as buckle Flange (11), the catch flanges (11) are protrudedly formed in the first side (101)；Second buckle structure be formed as with The snap-fit grooves (12) that the catch flanges (11) are adapted.

4. platform Slab element (10) according to claim 3, it is characterised in that the snap-fit grooves (12) are along described second Side (102) extends and extends to the end of the second side (102), is led to the slip for forming the catch flanges (11) Road, the end of the second side (102) is formed as the opening of the sliding channel.

5. platform Slab element (10) according to claim 3, it is characterised in that the catch flanges (11) are trapezoidal bar, The snap-fit grooves (12) are dovetail groove.

6. platform Slab element (10) according to claim 5, it is characterised in that the trapezoidal bar is perpendicular to the platform Thickness on Slab element (10) plate face direction becomes larger along its projected direction.

7. the platform Slab element (10) according to claim 3-6 any one, it is characterised in that the platform Slab element (10) jut (13) and the depressed part (14) coordinated with the jut (13) are additionally provided with, the jut (13) is formed in On one of the first side (101) and the second side (102), the depressed part (14) is formed in first side On the other of face (101) and the second side (102).

8. platform Slab element (10) according to claim 7, it is characterised in that the prominent height of the jut (13) is not More than 1/2nd of the catch flanges (11) height.

9. platform Slab element (10) according to claim 7, it is characterised in that the jut (13) is described including guiding Jut (13) slips into the guide portion (131) of the depressed part (14), and prevents the jut (13) from the depressed part (14) stopper section (132) for skidding off.

10. platform Slab element (10) according to claim 9, it is characterised in that the cross section wheel of the jut (13) Exterior feature includes being formed the segmental arc of the straightway of the stopper section (132) and the formation guide portion (131), the straightway and institute State arc transition connection between segmental arc.

11. platform Slab elements (10) according to claim 9, it is characterised in that the jut (13) is positioned at described One side (101), and the guide portion (131) is set away from first buckle structure.

12. platform Slab elements (10) according to claim 9, it is characterised in that the jut (13) is positioned at described Two side faces (102), and the stopper section (132) is set away from second buckle structure.

A kind of 13. ground platens, it is characterised in that ground platen of the ground platen as polylith as described in claim 1-12 any one Unit (10) is mutually spliced, wherein, first buckle structure is clasped and releasably with second buckle structure Ground self-locking.

14. ground platens according to claim 13, it is characterised in that the ground platen is by four pieces of platform Slab elements (10) it is spliced.