CN215232042U - A isolation pad and soil structure for equestrian field - Google Patents

Abstract

The utility model provides an isolation pad and a soil structure for a equestrian field, the isolation pad comprises an isolation pad body, the upper surface of the isolation pad body is divided into a plurality of square areas by longitudinal and transverse connecting strips, each square area is provided with a seepage hole or a water accumulation groove, and the seepage hole and the water accumulation groove are arranged at intervals; and the intersection point of the longitudinal and transverse connecting strips is provided with an anti-skid bulge. The isolation layer, the soil layer, the sand stone layer and the fine sand layer which are connected by the isolation pad jointly form a soil structure for the equestrian field, the isolation pad with the water accumulation groove and the water seepage hole can be spliced into the isolation layer through the lock catch, and the upper surface and the lower surface of the isolation layer are respectively provided with the anti-skid protrusions and the supporting legs, so that the friction between the isolation pad and the fine sand layer and the sand stone layer can be increased, and the strong impact force generated in the equestrian motion process can be borne; simultaneously infiltration hole and ponding groove mutually support and can realize the infiltration function and the function of protecting water of whole equestrian field soil structure.

Description

A isolation pad and soil structure for equestrian field

Technical Field

The utility model relates to an equestrian field design technical field especially relates to an isolation pad and soil structure for equestrian field.

Background

The equestrian field is the core facility of the equestrian sports. The equestrian field is the basic guarantee of high-level equestrian sports. Generally, the equestrian field ground is composed of sand with reasonable grain diameter and moderate compactness. However, the equestrian field ground with moderate compactness needs stable wettability to keep a reasonable composition mechanism, and the performance of the equestrian field ground can be adjusted by adjusting the wettability. The equestrian ground sand layer with moderate wetness usually has good elasticity and skid resistance, and dust is avoided. The field with reasonable humidity is the safety guarantee of the sports, the basic guarantee of reasonable exertion of the skills of the horses and the athletes, and the basic safety guarantee of the ordinary training of the athletes and the horses. Such a horseback deteriorates rapidly in a very short time if reasonable wettability properties cannot be maintained. The end result is that the equestrian ground built with huge investments degrades various functions in a short time, and the service life of the equestrian ground is seriously influenced.

The traditional means of isolation of the prior equestrian field floor from the drainage layer and the respective advantages and disadvantages are shown in the following table:

therefore, there is a need to find an equestrian field that can achieve both effective drainage and water storage.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an isolation pad and soil structure for equestrian field to solve the aforementioned problem that exists among the prior art.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

an isolation pad for an equestrian field comprises an isolation pad body, wherein the upper surface of the isolation pad body is divided into a plurality of square areas through longitudinal and transverse connecting strips, each square area is provided with a water seepage hole or a water accumulation groove, and the water seepage holes and the water accumulation grooves are arranged at intervals; and the intersection point of the longitudinal and transverse connecting strips is provided with an anti-skid bulge.

Preferably, the water seepage holes are circular through holes; the water accumulating tank is of an inwards concave circular structure.

Preferably, the water seepage hole is arranged in the center of the concave square area.

Preferably, the lower surface of isolation pad body is provided with the supporting leg, the supporting leg setting is between the infiltration hole, and the shape is oval structure, and oval major axis setting direction orientation isolation pad body central point puts.

More preferably, the isolation pad is divided into four regions by a transverse and longitudinal symmetry axis of the isolation pad, and the long axis setting direction of the support leg of each region faces to the intersection point of the transverse and longitudinal symmetry axes; the supporting legs on the transverse and longitudinal symmetric shafts adopt a v-shaped structure and face the intersection points of the transverse and longitudinal symmetric shafts.

Preferably, the edge of the isolation pad body is provided with a lock catch, and the lock catch can be used for splicing a plurality of isolation pad bodies.

Another object of the utility model is to provide a soil structure for equestrian field, soil structure includes isolation layer, fine sand bed, gravel layer and the soil horizon that forms by the concatenation of isolation pad, fine sand bed the isolation layer gravel layer is laid from last to down in proper order on the soil horizon.

Preferably, a blind pipe is further laid in the soil layer of the soil structure, and a small hole is formed in the top of the blind pipe.

The utility model has the advantages that:

the utility model provides an isolation pad and soil structure for equestrian field, the isolation pad with water accumulation groove and water seepage hole can be spliced into the isolation layer through the lock catch, the upper and lower surfaces of the isolation layer are respectively provided with anti-skid protrusions and supporting legs, the friction between the isolation layer and the fine sand layer and the sandstone layer can be increased, and the isolation pad can bear strong impact force generated in the equestrian movement process; simultaneously infiltration hole and ponding groove mutually support and can realize the infiltration function and the function of protecting water of whole equestrian field soil structure.

Drawings

FIG. 1 is a schematic view showing a structure of a body part of an isolation mat for a equestrian field provided in example 1;

FIG. 2 is a schematic view of the upper surface structure of the spacer for equestrian fields provided in example 1;

FIG. 3 is a cross-sectional view A-A' of FIG. 2;

FIG. 4 is a sectional view B-B' of FIG. 2;

FIG. 5 is a schematic view showing the lower surface structure of the spacer for the equestrian field provided in example 1;

FIG. 6 is a schematic view of the soil structure for the equestrian field provided in example 2;

FIG. 7 is a schematic view of blind pipe installation provided in example 2;

1 is the infiltration hole, 2 is the ponding groove, 3 is vertically and horizontally connecting strip, 4 is anti-skidding arch, 5 is the hasp, 6 is the isolation layer, 7 is the sandstone layer, 8 is the soil horizon, 9 is the blind pipe, 10 is the aperture, 11 is the fine sand layer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the invention, are given by way of illustration only.

Example 1

The embodiment provides an isolation pad for a equestrian field, which comprises an isolation pad body, wherein the isolation pad body is made of a high-strength PVC (polyvinyl chloride) plate, as shown in figure 1, the upper surface of the isolation pad body is divided into a plurality of square areas through longitudinal and transverse connecting strips, as shown in figure 2, each square area is provided with a water seepage hole or a water accumulation groove, and the water seepage holes and the water accumulation grooves are arranged at intervals; and the intersection point of the longitudinal and transverse connecting strips is provided with an anti-skid bulge. The water seepage holes in the embodiment are round through holes and are arranged in the centers of the concave square areas; the water accumulating tank is of an inwards concave circular structure. Fig. 2 is a cross section taken along a-a 'and B-B', respectively, and the cross section screenshots obtained are shown in fig. 3 and fig. 4.

In this embodiment the lower surface of isolation pad body is provided with the supporting leg, as shown in fig. 5, the supporting leg setting is between the infiltration hole, and the shape is oval structure, and oval major axis setting direction orientation isolation pad body central point puts.

The isolation pad is divided into four areas by the transverse and longitudinal symmetry axes of the isolation pad, and the long axis setting direction of the supporting legs of each area faces to the intersection point of the transverse and longitudinal symmetry axes; the supporting legs on the transverse and longitudinal symmetric shafts adopt a v-shaped structure and face the intersection points of the transverse and longitudinal symmetric shafts.

In this embodiment, the anti-slip protrusions are all cylindrical.

In order to realize stable concatenation, the both sides of the isolation pad body that provide in this embodiment all are provided with the hasp, through the hasp can realize that a plurality of isolation pad bodies carry out inseparable concatenation.

The lock catch in this embodiment is a positive and negative lock catch groove, and is disposed at 4cm of the two side edges of the long side of the isolation pad, as shown in fig. 3.

The size of the isolation pad body in the embodiment is 110cm x 85cm, and each isolation pad is provided with 196 water permeable holes and 196 water accumulation grooves, so that the water storage amount per square meter is about 5 liters.

Example 2

This embodiment provides a soil structure for equestrian field, soil structure is as shown in fig. 3, includes isolation layer, fine sand layer, gravel layer and the soil horizon that the isolation pad concatenation that provides in embodiment 1 formed, the fine sand layer the isolation layer gravel layer is laid from last to lower in proper order on the soil horizon.

A blind pipe is further laid in the soil layer of the soil structure, and a small hole is formed in the top of the blind pipe, as shown in figure 4.

The paving method of the soil structure comprises the following steps:

1. compacting the base layer (soil layer) of the equestrian field, and installing a corresponding drainage blind pipe.

2. Paving water-permeable broken stones above the soil layer, and compacting and leveling by using a road roller to form a gravel layer.

3. The spacers provided in example 1 were transported to the vicinity of the installation site using a forklift, and the equestrian-specific spacers were installed one by one.

4. When the mat is mounted to the end of the field, the corresponding small mat is cut according to the remaining distance, and the end portion of the field is mounted.

5. After installation, all the spacers need to be inspected to verify if there is a portion of the warp.

6. Ensuring that the isolation pad is laid uniformly, and starting to lay an upper layer of fiber sand to form a fine sand layer after no foot raising condition exists;

7. when surface sand is laid, the special isolation pad for the equestrian field is prevented from being touched by engineering machinery as much as possible;

8. if touch is found, the homing needs to be adjusted.

9. When the isolation pad is used in temporary places, a skilled operator is required to select and operate to avoid damaging the anti-skid convex angle structure of the surface layer when the surface layer fiber material is collected.

10. The isolation pad needs to be flatly placed in the storage and transportation processes, and the prevention of objects or the ground with unevenness is avoided.

The soil structure that provides in this embodiment can cut off the upper and lower layer structure on place surface functional layer and the drainage gravel layer down, and the supporting leg of isolation pad lower surface can prevent mat lateral shifting. Surface sand can not get into and guarantee the long-term high-efficient operation of place drainage system under the mat, and the firm non-slip raised of surface sand has been designed specially to this isolation mattress upper surface, can effectively consolidate the steadiness of surface sand, and the side cutting force in the reinforcing equestrian motion avoids the place to form the wave shape.

The infiltration hole on the isolation pad can the unnecessary rainwater of high-efficient drainage, even after the rainfall that lasts, the match field still can be put into use immediately, really realizes all-weather equestrian field operation concept.

The water in the water accumulating tank can be saved by five liters at most (stored) per square meter, the watering cost can be permanently saved, and the water can be saved by more than 40 percent through experimental verification.

The special structure and the material that adopt make the aspect of the isolation pad elasticity in this application according to scientific test, this specialty equestrian field isolation pad can obviously absorb the powerful impact force that the horse hoof produced, absorbs about 40% of impact force through experimental test, can effectively protect horse leg, horse musculoskeletal system.

Even if the lateral traction force is close to the side-slipping peak value of the horse, the ground bottom layer structure cannot be deformed obviously, and the side-slipping accident of the horse in the process of turning and bending the horse is reduced.

Through adopting the utility model discloses an above-mentioned technical scheme has obtained following profitable effect:

the utility model provides an isolation pad and soil structure for equestrian field, the isolation pad with water accumulation groove and water seepage hole can be spliced into the isolation layer through the lock catch, the upper and lower surfaces of the isolation layer are respectively provided with anti-skid protrusions and supporting legs, the friction between the isolation layer and the fine sand layer and the sandstone layer can be increased, and the isolation pad can bear strong impact force generated in the equestrian movement process; simultaneously infiltration hole and ponding groove mutually support and can realize the infiltration function and the function of protecting water of whole equestrian field soil structure.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be viewed as the protection scope of the present invention.

Claims (7)

1. The isolation pad for the equestrian field is characterized by comprising an isolation pad body, wherein the upper surface of the isolation pad body is divided into a plurality of square areas through longitudinal and transverse connecting strips, each square area is provided with a water seepage hole or a water accumulation groove, and the water seepage holes and the water accumulation grooves are arranged at intervals; and the intersection point of the longitudinal and transverse connecting strips is provided with an anti-skid bulge.

2. The spacer for an equestrian field according to claim 1, wherein the weep holes are circular through holes; the water accumulating tank is of an inwards concave circular structure.

3. An isolation pad for an equestrian field according to claim 2, wherein the weep hole is centrally located in the recessed square area.

4. An isolation pad for an equestrian field according to claim 1, wherein the lower surface of the isolation pad body is provided with support legs.

5. The isolation pad for the equestrian field according to claim 1, wherein a lock catch is arranged at the edge of the isolation pad body, and the isolation pad body can be spliced by the lock catch.

6. A soil structure for equestrian fields, characterized in that, soil structure includes isolation layer, fine sand layer, gravel layer and soil horizon that the isolation pad concatenation of any of claims 1-5 formed, fine sand layer, isolation layer, gravel layer are laid from last to bottom in proper order on the soil horizon.

7. The soil structure for the equestrian field according to claim 6, wherein a blind pipe is laid in the soil layer of the soil structure, and a small hole is arranged at the top of the blind pipe.

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