CN207224948U - A kind of artificial hillock - Google Patents

Abstract

The utility model discloses a kind of artificial hillock, bigger space is taken when solving artificial hillock transport, cost of transportation is big, and the problem of being not easy to carry, its key points of the technical solution are that including massif, the massif includes some combinable assembling blocks, contact surface between adjacent assembling block be equipped with mutually plug together fixed assembling block plug together component, plug together fixed assembling block successively by insertion part, realize quick laying artificial hillock, reach the effect for being readily transported and laying artificial hillock.

Description

A kind of artificial hillock

Technical field

A kind of Landscape construction field is the utility model is related to, more specifically, it relates to a kind of artificial hillock.

Background technology

In Ecological Projects in Urban Gardens, artificial hillock has many Landscaping functions, such as forms the landscape or landform in gardens Skeleton, division and tissue garden space, arrangement garden, revetment, bank protection, earth-retaining, set natural style flower stand.It can also be built with gardens Build, garden road, place and ornamental plant are combined into changeful view, so as to reducing artificial atmospher, increase the nature joy of life, make garden Woods building is merged into physiognomy framework.

The small-sized artificial hillock set in park, for quick construction and does not influence environment, vacation is usually first made in factory Mountain, then transports to gardens and installation is fixed.Artificial hillock will take bigger space when transporting, and cost of transportation is big, and inconvenience In carrying.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of artificial hillock, its advantage is massif point It is assembled for some blocks that assemble, carried and transported again after massif is divided into assembling block, and assembled block and assembled successively can fix also It is former quickly to lay artificial hillock into massif, realization, reach the effect for being readily transported and laying artificial hillock.

The above-mentioned technical purpose of the utility model technical scheme is that：A kind of artificial hillock, including mountain Body, the massif include some combinable assembling blocks, and the adjacent contact surface assembled between block, which is equipped with, mutually plugs together fixed assembling Block plugs together component.

By using above-mentioned technical proposal, massif includes some combinable assembling blocks, and assembling block is small, and weight is light In moving, assembling block is transported to corresponding infield, is spelled successively by the component that plugs together on assembly by block is assembled Dress is fixed to be reduced into artificial hillock, realizes quick laying artificial hillock, reaches the effect for being readily transported and laying artificial hillock.

The utility model is further arranged to：The component that plugs together is including being used between bottom assembling block what is vertically plugged together Perpendicular insertion part and the horizontal insertion part laterally plugged together for assembling block between layers.

By using above-mentioned technical proposal, the assembling block of the bottom vertically plugs together, and forms the basic unit of interconnection, assembles block Layer upon layer laterally is plugged together, the assembling block between levels is fixed, assembling block is integrally spliced more firm.

The utility model is further arranged to：The perpendicular insertion part includes first be vertically arranged on bottom assembling block Groove and the first convex block, the first groove be opened in the bottom assembling block between wherein on a contact surface, the first convex block is arranged at On another contact surface between bottom assembling block, the first convex block is plugged together in the first groove, and the first convex block barrier is in the first groove Cell wall；The horizontal insertion part includes being horizontally set at the second groove and the second convex block assembled between layers on block, and second is recessed Groove is opened in wherein on a contact surface of block of assembling between layers, and the second convex block is arranged at assembles the another of block between layers On contact surface, the second convex block is plugged together in the second groove, and the second convex block barrier is in the second groove cell wall.

By using above-mentioned technical proposal, assembling block closely plugs together together, the contact surface of its splicing of bottom assembling block, First convex block of wherein one side is plugged together in the first groove of another side, and the first convex block barrier, will be adjacent in the first groove cell wall Two assembling block splicings are fixed together, and make the bottom of massif more firm, similarly, assemble block between layers and lead to the second convex block mistake It is fixed together with the splicing of the second groove, makes the connection of assembling block between layers more firm.

The utility model is further arranged to：First groove and the second groove are dovetail groove, the first convex block and second Convex block is dovetails.

By using above-mentioned technical proposal, dovetail groove engages dovetails, from the movement of four orientation limitation dovetails, makes The splicing for assembling block is more firm.

The utility model is further arranged to：First groove and the second groove one end are equipped with block, and first is recessed Groove and the second groove other end are equipped with screening assembly.

By using above-mentioned technical proposal, block prevents the first convex block from skidding off and preventing that second is convex from the end of the first groove Block is skidded off from the end of the second groove, and screening assembly barrier is skidded off and barrier with preventing the other end of the first convex block from the first groove The other end of second convex block from the second groove skids off, and further strengthens the engaging between assembling block, makes the assembling being bolted together Block is more firm.

The utility model is further arranged to：The screening assembly includes being opened in the first groove and the second groove bottom wall Slid chamber, sliding are connected to the wedge block of slid chamber, are arranged between slid chamber bottom wall and wedge block to promote wedge block remote The spring of slid chamber bottom wall.

By using above-mentioned technical proposal, the first convex block is plugged together to be contradicted on the inclined-plane of wedge block first into during the first groove On, the first convex block is decomposed into the thrust of wedge block the vertical power for promoting wedge block compression spring by the inclined-plane of wedge block, so that Wedge block is promoted to be moved to slid chamber, so that the first convex block is smoothly plugged together into the first groove, then under the restoring force of spring, wedge Shape block reset barrier lives the first convex block, reach the first convex block of barrier slid out from the first groove come effect, the second groove with Same barrier mode the second convex block of barrier.

The utility model is further arranged to：The wedge block is vertically equipped with shifting block, assembles and is opened on block along sliding cavity direction Plugged together equipped with shifting block is supplied to compress the guide groove of spring.

By using above-mentioned technical proposal, shifting block is stirred easy to human hand to drive wedge block compression spring to slide into slid chamber Come so that convex block can slide out from groove.

The utility model is further arranged to：The assembling block bottom is equipped with clump weight.

By using above-mentioned technical proposal, the center of gravity of assembling block is reduced, its overall center of gravity drops when assembling block is spliced into artificial hillock It is low, make the artificial hillock of splicing more firm.

The utility model is further arranged to：The assembling hollow setting of block.

By using above-mentioned technical proposal, mitigate weight of the assembling block above clump weight, while reduce assembling block Cost of transportation and the manufacture cost for reducing assembling block.

In conclusion the utility model has the advantages that：

Artificial hillock includes some assembling blocks, assembles block small in volume, easy to carry and transport, plugging together component makes assembling block Splicing and recovery is more convenient into massif, carrying and quick laying easy to artificial hillock.

Brief description of the drawings

Fig. 1 is the structure diagram of the present embodiment；

Fig. 2 is the decomposition texture schematic diagram of packet dress block splicing in the middle part of the present embodiment；

Fig. 3 is the structure diagram of screening assembly in the present embodiment；

Fig. 4 is that the structure diagram after block is splitted is assembled in the present embodiment.

In figure：1st, artificial hillock；12nd, block is assembled；13rd, insertion part is erected；14th, horizontal insertion part；2nd, the first convex block；21st, the first groove； 22nd, the second convex block；23rd, the second groove；3rd, block；4th, screening assembly；41st, wedge block；42nd, slid chamber；43rd, spring；5th, shifting block； 51st, guide groove；6th, clump weight.

Embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment, a kind of artificial hillock, as shown in Figure 1, including massif 1, massif 1 includes some assembling blocks 12, assembles 12 body of block Product is small, light-weight easy to move, and assembling block 12 is transported to corresponding infield, and assembling block 12 splices fixation successively to reduce Into massif 1, massif 1 is modeling stone or other artificial materials.

As shown in Figures 2 and 3, the contact surface between adjacent assembling block 12, which is equipped with, can mutually plug together inserting for fixed assembling block 12 Seaming element, plugging together component includes perpendicular insertion part 13 and horizontal insertion part 14, is erected between bottom assembling block 12 by perpendicular insertion part 13 To plugging together, the assembling block 12 between levels is laterally plugged together by horizontal insertion part 14.

Perpendicular insertion part 13 includes the first convex block 2 and the first groove 21, positioned at its adjacent assembling block of the assembling block 12 of the bottom 12 contact surface one side vertically offers the first groove 21, another side pre-fixed in production it is vertically arranged and with the first groove 21 matched first convex blocks 2, the first convex block 2 are plugged together in the first groove 21, and the assembling block 12 of the bottom is fixed splicing.

Horizontal insertion part 14 includes the second convex block 22 and the second groove 23, the contact surface one side of assembling block 12 between layers Laterally offer the second groove 23, another side is preset with production laterally to be set and convex with the second groove 23 matched second Block 22.Second convex block 22 is plugged together in the second groove 23, is spliced fixed between assembling 12 upper strata of block and lower floor.First convex block, 2 He Second convex block 22 is dovetails, and the first groove 21 and the second groove 23 are dovetail groove.

When splicing the assembling block 12 of bottom, the first convex block 2 is vertically plugged together into the first groove 21, assembling block 12 is all around Four direction assembles fixation.When splicing assembling block 12 between layers, the second convex block 22 for assembling block 12 is laterally plugged together Into the second groove 23 of another assembling block 12, it is gradually completing to assemble between assembling 12 upper strata of block and lower floor and fixes.

First groove, 21 end is welded with block 3, and block 3 prevents the first convex block 2 from being skidded off from the end of the first groove 21, the One one end of groove 21 away from block 3 is equipped with the screening assembly 4 that can prevent that the first convex block 2 from skidding off from the first groove 21, barrier group Part 4 includes wedge block 41, slid chamber 42 and spring 43, and slid chamber 42 is vertically opened in 21 bottom wall of groove, and the sliding of wedge block 41 connects It is connected in slid chamber 42.Spring 43 is between 42 bottom wall of slid chamber and wedge block 41, and its one end is welded in 42 bottom wall of slid chamber, The other end is welded in wedge block 41, and spring 43 has the trend that driving wedge block 41 is moved out away from 42 bottom wall of slid chamber.

Under natural conditions, 43 supports wedge block 41 of spring is in the first groove 21 and protrudes from slid chamber 42.First is convex Block 2 contacts at the inclined-plane of wedge block 41 when plugging together into the first groove 21, the inclined-plane of wedge block 41 is by the first convex block 2 to wedge block 41 Thrust be decomposed into the vertical power for promoting wedge block 41 to compress spring 43, wedge block 41 compresses spring 43 and is retracted in slid chamber 42, First convex block 2 is smoothly plugged together into the first groove 21, is slid along the first groove 21, after the first convex block 2 is sticked in the first groove 21, First convex block 2 no longer contradicts wedge block 41, and wedge block 41 is reset to the position for protruding from slid chamber 42 under the restoring force of spring 43 Put, 41 the first convex block of barrier 2 of wedge block is skidded off from the first groove 21.

Assembling block 12 offers guide groove 51 along 42 direction of slid chamber, and guide groove 51 connects slid chamber 42, on wedge block 41 Shifting block 5 is welded with, shifting block 5 is plugged together in guide groove 51 perpendicular to wedge block 41, artificially stirs shifting block 5 to 42 bottom wall side of slid chamber To movement, shifting block 5 drives wedge block 41 to compress spring 43 and is moved into slid chamber 42, and wedge block 41 is retracted in slid chamber 42 no longer The first convex block of barrier 2, can skid off the first convex block 2 from the first groove 21, and assembling block 12 is dismantled.

Second groove 23 is equally equipped with block 3 and screening assembly 4 with the first groove 21, the second groove 23 with the first groove Identical the second convex block of barrier mode barrier 22 of 21 barrier the first convex blocks 2.

During assembling assembling block 12, will assembling block 12 from bottom to up, assemble successively from inside to outside, during dismounting, block 12 will be assembled From top to bottom, reversely dismounting successively from outside to inside.

As shown in Figures 2 and 4, assemble 12 bottom of block and clump weight 6 is embedded with production, clump weight 6 reduces assembling block 12 Center of gravity, its center of gravity reduces more firm when the assembling block 12 is spliced integral.

Assemble 12 inner hollow of block to set, to mitigate weight of the assembling block 12 above clump weight 6, and reduce assembling block Manufacture cost.

Operation principle:Massif 1 includes some assembling blocks 12, and assembling block 12 is small, light-weight easy to move, contiguous concatenation Assembling block 12 splices fixation by plugging together component and is reduced into massif 1 successively, and perpendicular insertion part 13 makes with the mutual cooperation of horizontal insertion part 14 The splicing assembled between block 12 is more stable, 12 bottom of assembling block increase clump weight 6 and hollow setting, reduces assembling 12 center of gravity of block and adds Stiff stability and the weight for mitigating assembling block 12, make assembling block 12 be more convenient for carrying.

This specific embodiment is only explanation to the utility model, it is not the limitation to the utility model, ability Field technique personnel as needed can make the present embodiment the modification of no creative contribution after this specification is read, but As long as all protected in the right of the utility model be subject to Patent Law.

Claims (9)

1. a kind of artificial hillock, including massif (1), it is characterized in that：The massif (1) includes some combinable assembling blocks (12), phase Contact surface between neighbour's assembling block (12) be equipped with mutually plug together fixed assembling block (12) plug together component.

2. a kind of artificial hillock according to claim 1, it is characterized in that：The component that plugs together includes being used for bottom assembling block (12) the perpendicular insertion part (13) vertically plugged together between and the horizontal insertion part laterally plugged together for assembling block (12) between layers (14)。

3. a kind of artificial hillock according to claim 2, it is characterized in that：The perpendicular insertion part (13) includes being vertically arranged to most bottom The first groove (21) and the first convex block (2) on layer assembling block (12), the first groove (21) are opened in bottom assembling block (12) Between wherein on a contact surface, the first convex block (2) is arranged on another contact surface between bottom assembling block (12), first Convex block (2) is plugged together in the first groove (21), and the first convex block (2) barrier is in the first groove (21) cell wall；The horizontal insertion part (14) Including being horizontally set at the second groove (23) and the second convex block (22) that assemble between layers on block (12), the second groove (23) It is opened in and assembles wherein on a contact surface of block (12) between layers, the second convex block (22) is arranged at assembles block between layers (12) on another contact surface, the second convex block (22) is plugged together in the second groove (23), and the second convex block (22) barrier is in the second groove (23) cell wall.

4. a kind of artificial hillock according to claim 3, it is characterized in that：First groove (21) and the second groove (23) are swallow Stern notch, the first convex block (2) and the second convex block (22) are dovetails.

5. a kind of artificial hillock according to claim 3, it is characterized in that：First groove (21) and the second groove (23) one end Portion is equipped with block (3), and the first groove (21) and the second groove (23) other end are equipped with screening assembly (4).

6. a kind of artificial hillock according to claim 5, it is characterized in that：The screening assembly (4) includes being opened in the first groove (21) it is connected to the wedge block (41) of slid chamber (42) with the slid chamber (42) of the second groove (23) bottom wall, sliding, is arranged at cunning Move between chamber (42) bottom wall and wedge block (41) to promote spring (43) of the wedge block (41) away from slid chamber (42) bottom wall.

7. a kind of artificial hillock according to claim 6, it is characterized in that：The wedge block (41) is vertically equipped with shifting block (5), assembling The guide groove (51) plugged together for shifting block (5) to compress spring (43) is offered on block (12) along slid chamber (42) direction.

8. a kind of artificial hillock according to claim 1, it is characterized in that：Described assembling block (12) bottom is equipped with clump weight (6).

9. a kind of artificial hillock according to claim 1, it is characterized in that：Described assembling block (12) hollow setting.