CN211337116U - Silkworm tray stacking structure - Google Patents

Abstract

The utility model discloses a silkworm dish stack structure, including a N silkworm dish body, N is more than or equal to 2's natural number, and all silkworm dish bodies are from up piling up one by one from down, keep apart through supporting component between the silkworm dish body of adjacent layer to be formed with airflow channel, adopt the utility model discloses, a plurality of silkworm dishes pass through supporting component and pile together, and have airflow channel between the adjacent layer, stack like this and not only can not influence silkworm breeding effect, and can also greatly reduce to account for the rate, promoted the utilization efficiency in silkworm room.

Description

Silkworm tray stacking structure

Technical Field

The utility model relates to a silkworm breeding technology field, concretely relates to silkworm dish stacking structure.

Background

The traditional agricultural industry in China during silkworm breeding is an important way for farmers to get rid of poverty and become rich, but due to multiple links, complexity and labor consumption, the industry is gradually shifted from economically developed coastal areas to economically underdeveloped areas. In order to improve the competitive power of sericulture production, a new sericulture production technology aiming at high quality, high yield, low cost and high benefit must be popularized, the new technology comprises a sericulture method and also comprises the improvement of the traditional sericulture tool.

The silkworm dish is the growth place of silkworm larva, and the silkworm just can spin the silk cocooning after the silkworm grows to maturity in the silkworm dish, and the silkworm dish generally lays in dedicated silkworm rearing room, or adopts the goods shelves successive layer to pile up, leads to needing to occupy great space, is unfavorable for reducing the fixed cost input of plant and the promotion of benefit.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a silkworm dish stack structure who saves space.

The technical scheme is as follows: the utility model provides a silkworm dish stack structure which the key lies in: including a N silkworm dish body, N is more than or equal to 2's natural number, all the silkworm dish body is from up piling up one by one from down, adjacent layer keep apart through supporting component between the silkworm dish body to be formed with airflow channel. Adopt above-mentioned structure, a plurality of silkworm dishes are piled together through supporting component, and have airflow channel between the adjacent layer, stack like this and not only can not influence sericulture effect, and can also greatly reduce to account for the rate, have promoted the utilization efficiency in silkworm room.

As further preferred:

the supporting component comprises at least four supporting blocks, and first supporting gaps are formed in the supporting blocks;

the silkworm dish body is including the rectangle framework that has the bottom plate, the edge level of bottom plate extends and stretches out the rectangle framework forms first brace rod, the top edge of rectangle framework turns over outwards the level and turns over a formation second brace rod, adjacent layer between the silkworm dish body all supporting shoes of supporting component enclose to establish and are located the lower floor outside the rectangle framework of silkworm dish body, and pass through first support gap chucking is corresponding on the second brace rod, the bottom top of supporting shoe is tightly corresponding on the first brace rod, the top common prop up of all supporting shoes is located the upper strata the first brace rod of silkworm dish body is located the upper strata the bottom plate of silkworm dish body with be located the lower floor form between the second brace rod of silkworm dish body airflow channel.

Adopt above-mentioned structure, a plurality of supporting shoes pass through first support gap chucking back on the silkworm dish that corresponds, exceeds the silkworm dish jack-up on upper strata through its top part of corresponding silkworm dish to keep apart the silkworm dish on adjacent layer, so that the circulation of air.

A circle of third supporting ribs are further arranged on the outer wall of the rectangular frame body in parallel to the second supporting ribs, second supporting gaps are correspondingly formed in the supporting blocks, and the third supporting ribs are clamped in the second supporting gaps. By adopting the structure, the strength of the silkworm tray positioned on the lower layer is favorably improved by the butt joint of the two supporting ribs and the corresponding supporting gaps.

The supporting block comprises a supporting vertical plate, three supporting frames are arranged on the supporting vertical plate along the vertical direction, the second supporting gap is formed between the supporting frames at the lower part and the middle part, and the first supporting gap is formed between the supporting frames at the middle part and the upper part. By adopting the structure, the supporting structure is simple and light.

And reinforcing ribs are arranged in the supporting square frame along the vertical direction. By adopting the structure, the bearing capacity of the supporting block is favorably improved.

The supporting block comprises a circular arc-shaped supporting vertical plate and two fan-shaped flat plates, the two flat plates are fixedly arranged at the top and the bottom of the supporting vertical plate respectively, two groups of isolating pieces are further arranged between the flat plates on the supporting vertical plate, the supporting structure is simple, the weight is light, the outer wall of the supporting block is arc-shaped, and the supporting block can be conveniently used at the corner of a silkworm tray.

The partition comprises two fan-shaped partition plates, the second supporting gap is formed between the two partition plates of the partition positioned below, and the first supporting gap is formed between the two partition plates of the partition positioned above. With the adoption of the structure, the air conditioner is provided with the air inlet pipe,

and reinforcing ribs are respectively connected between the two groups of the isolating pieces and between the isolating pieces and the corresponding flat plates. By adopting the structure, the bearing capacity of the supporting block is favorably improved.

Compared with the prior art, the beneficial effects of the utility model are that: a plurality of silkworm dishes are piled together through supporting component, and have airflow channel between the adjacent layer, stack like this and not only can not influence sericulture effect, and can also greatly reduce and account for the rate, have promoted the utilization efficiency in silkworm nursery.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic plan view of the present invention;

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

FIG. 4 is an enlarged view of portion a of FIG. 3;

FIG. 5 is a schematic view of a support member;

FIG. 6 is another schematic structural view of the support member;

fig. 7 is a schematic perspective view of the silkworm tray body.

Detailed Description

The present invention will be further described with reference to the following examples and accompanying drawings.

As shown in fig. 1-5, a silkworm tray stacking structure comprises N silkworm tray bodies 1, wherein N is a natural number greater than or equal to 2, all the silkworm tray bodies 1 are stacked layer by layer from bottom to top, and the silkworm tray bodies 1 on adjacent layers are separated by a supporting component and are provided with an airflow channel 2.

The supporting component comprises at least four supporting blocks 3, a first supporting gap 304 is arranged on each supporting block 3, a second supporting gap 303 is further arranged on each supporting block 3 below the first supporting gap 304, the silkworm tray body 1 comprises a rectangular frame body 102 with a bottom plate 101, the edge of the bottom plate 101 horizontally extends to extend out of the rectangular frame body 102 to form a first supporting rib 115, the upper edge of the rectangular frame body 102 is horizontally turned outwards to form a second supporting rib 111, a circle of third supporting ribs 108 is further arranged on the outer wall of the rectangular frame body 102 in parallel to the second supporting rib 111, all supporting blocks 3 of the supporting component between silkworm tray bodies 1 of adjacent layers are arranged around the rectangular frame body 102 of the silkworm tray body 1 on the lower layer and are clamped on the corresponding second supporting ribs 111 through the first supporting gaps 304, and the third supporting ribs 108 are clamped in the second supporting gaps 303, the bottom top of supporting shoe 3 is tight corresponding on first supporting muscle 115, the top of all supporting shoes 3 supports jointly and is located the upper strata the first supporting muscle 115 of silkworm dish body 1 is located the upper strata the bottom plate 101 of silkworm dish body 1 and the second supporting muscle 111 that is located the lower floor form between the silkworm dish body 1 airflow channel 2.

The supporting block 3 includes a supporting vertical plate 301, three supporting frames 302 are arranged on the supporting vertical plate 301 along the vertical direction, the second supporting gap 303 is formed between the supporting frames 302 at the lower part and the middle part, the first supporting gap 304 is formed between the supporting frames 302 at the middle part and the upper part, a reinforcing rib 305 is arranged in the supporting frame 302 along the vertical direction, the supporting frame 302 at the lower part is tightly pressed against the corresponding first supporting rib 115, and the supporting frame 302 at the upper part supports the first supporting rib 115 of the silkworm tray body 1 at the upper layer.

As shown in fig. 2 and 7, the surface of the bottom plate 101 is distributed with air permeable areas 103 in a rectangular array, the air permeable areas 103 are smooth and planar, a plurality of first air vents 104 are formed in the air permeable areas 103, surface reinforcing areas 105 are formed between adjacent air permeable areas 103, and a surface reinforcing structure is arranged in the surface reinforcing areas 105.

The bottom surface of the bottom plate 101 is provided with a bottom surface reinforcing area 106 corresponding to the ventilation area 103, a bottom surface reinforcing structure is arranged in the bottom surface reinforcing area 106, a conveying area 107 is formed between the adjacent bottom surface reinforcing areas 104, and the conveying area 107 is in a smooth plane shape.

The air permeable area 103 and the bottom reinforcing area 106 are rectangular, the surface reinforcing structure and the bottom reinforcing structure have the same structure, the top surface of the surface reinforcing structure is flush with the top surface of the air permeable area, the bottom surface of the bottom reinforcing structure is flush with the bottom surface of the conveying area, the bottom reinforcing structure comprises a plurality of first bottom reinforcing ribs 108 and second bottom reinforcing ribs 109, the first bottom reinforcing ribs 108 and the second bottom reinforcing ribs 109 are arranged in a crossed manner, the included angle between the first bottom reinforcing ribs 108 and the boundaries of the bottom reinforcing area 106 and the boundaries between the second bottom reinforcing ribs 109 and the bottom reinforcing area 106 are α, α is greater than 0 and less than 90 °, and α is 45 ° in this embodiment.

The four first support ribs 115 surrounding the rectangular frame body 102 are respectively provided with a long-strip-shaped grabbing positioning hole 110, the grabbing positioning hole 110 is arranged along the length direction of the frame wall of the rectangular frame body 102, in the embodiment, the first support ribs 115 are respectively provided with two grabbing positioning holes 110, two grabbing positioning holes 110 are provided with a stopping abdicating notch 114 on the first support ribs 115, and the grabbing positioning holes 110 are provided with reinforcing convex ribs around.

A grabbing abdicating notch 112 is formed in the second supporting rib 111 corresponding to the grabbing positioning hole 110, a wedge-shaped frame wall reinforcing block 113 is arranged on the inner wall of the rectangular frame body 102 corresponding to the grabbing abdicating notch 112, and the bottom surface of the frame wall reinforcing block 113 is fixedly connected with the bottom plate 101.

The rectangular frame 102 is provided with a second strip-shaped vent 117 on the frame wall, the second vent 117 is disposed along the height direction of the frame wall, in this embodiment, two rows of the second vent 117 are disposed on the frame wall of the rectangular frame 102, the two rows of the second vent 117 are vertically arranged, the third support rib 108 is disposed on the outer wall of the rectangular frame 102 between the two rows of the second vent 117, the outer wall of the rectangular frame 102 is further provided with a vertical frame wall reinforcing rib 116, and two ends of the frame wall reinforcing rib 116 are respectively fixedly connected with the bottom plate 101 and the second support rib 111.

The supporting block 3 may also have other structural shapes, as shown in fig. 6, the supporting block 3 includes a circular arc-shaped supporting vertical plate 301 ' and two fan-shaped flat plates 302 ', the two flat plates 302 ' are respectively and fixedly installed at the top and the bottom of the supporting vertical plate 301 ', two sets of spacers are further installed on the supporting vertical plate 301 ' between the two flat plates 302 ', the spacers include two fan-shaped spacer plates 303 ', the second supporting gap 304 ' is formed between the two spacer plates 303 ' of the spacer positioned below, the first supporting gap 305 ' is formed between the two spacer plates 303 ' of the spacer positioned above, the two sets of spacers are connected between the two sets of spacers, and reinforcing ribs 306 ' are respectively connected between the spacers and the corresponding flat plates 302 '.

In this embodiment, from bottom to top, 8 supporting blocks shown in fig. 5 and 4 supporting blocks shown in fig. 6 are respectively installed on the silkworm tray body 1 from the lowest layer silkworm tray body 1 to the N-1 th layer silkworm tray body 1, the 8 supporting blocks shown in fig. 5 are respectively clamped on the four sides of the silkworm tray body 1 in pairs, and the 4 supporting blocks shown in fig. 6 are respectively clamped on the four corners of the silkworm tray body 1, so that the whole stacking structure is compact and stable.

Of course, as a modified stacking method, the following method can be adopted: from bottom to top, 8 supporting blocks shown in figure 5 are respectively arranged on the silkworm tray bodies 1 from the 2 nd layer to the Nth layer, and 4 supporting blocks shown in figure 6, 8 supporting blocks shown in figure 5 are respectively clamped on the four sides of the silkworm tray body 1 in pairs, 4 supporting blocks shown in figure 6 are respectively clamped on the four corners of the silkworm tray body 1, in this structure, the supporting block 3 is clamped on the third supporting rib 108 through the first supporting slit, the first supporting rib is clamped in the second supporting gap, the upper part of the supporting block 3 is tightly propped against the second supporting rib, the lower part of the supporting block 3 extends out of the lower part of the corresponding silkworm tray body 1 to form a supporting part and is supported on the second supporting rib of the silkworm tray body 1 positioned at the lower layer, compared with the former form, the form is only the mounting position of the changed supporting block and also falls into the protection scope of the utility model.

Finally, it should be noted that the above description is only a preferred embodiment of the present invention, and those skilled in the art can make various similar representations without departing from the spirit and the scope of the present invention.

Claims (7)

1. A silkworm tray stacking structure is characterized in that: including a N silkworm dish body (1), N is more than or equal to 2's natural number, all silkworm dish body (1) is from up piling up the successive layer down, adjacent layer keep apart through supporting component between silkworm dish body (1) to be formed with airflow channel (2).

2. The stack structure of silkworm trays according to claim 1, wherein: the supporting component comprises at least four supporting blocks (3), and a first supporting gap (304) is arranged on each supporting block (3);

silkworm dish body (1) is including rectangle framework (102) that has bottom plate (101), the edge level of bottom plate (101) extends and stretches out rectangle framework (102) forms first supporting rib (115), the top edge of rectangle framework (102) is turned over outwards the level and is formed second supporting rib (111), adjacent layer between silkworm dish body (1) all supporting shoe (3) of supporting component enclose to be established and are located the lower floor outside rectangle framework (102) of silkworm dish body (1), and pass through first supporting gap (304) chucking is corresponding on second supporting rib (111), the bottom top of supporting shoe (3) is tight corresponding on first supporting rib (115), the top of all supporting shoe (3) supports jointly and is located the upper strata first supporting rib (115) of silkworm dish body (1), is located the upper strata bottom plate (101) of silkworm dish body (1) and be located the lower floor first supporting rib (115) of silkworm dish body (1) The air flow channel (2) is formed between the two supporting ribs (111).

3. The stack structure of silkworm trays according to claim 2, wherein: a circle of third supporting ribs (108) are further arranged on the outer wall of the rectangular frame body (102) in parallel to the second supporting ribs (111), second supporting gaps (303) are correspondingly arranged on the supporting blocks (3), and the third supporting ribs (108) are clamped in the second supporting gaps (303).

4. A stack structure of silkworm trays according to claim 3, wherein: the supporting block (3) comprises a supporting vertical plate (301), three supporting frames (302) are arranged on the supporting vertical plate (301) along the vertical direction, a second supporting gap (303) is formed between the supporting frames (302) at the lower part and the middle part, and a first supporting gap (304) is formed between the supporting frames (302) at the middle part and the upper part.

5. The stack structure of silkworm trays according to claim 4, wherein: reinforcing ribs (305) are arranged in the supporting frame (302) along the vertical direction.

6. A stack structure of silkworm trays according to claim 3, wherein: the supporting block (3) comprises an arc-shaped supporting vertical plate (301 ') and two fan-shaped flat plates (302 '), the two flat plates (302 ') are fixedly arranged at the top and the bottom of the supporting vertical plate (301 '), two groups of isolating pieces are further arranged on the supporting vertical plate (301 ') between the two flat plates (302 '), each isolating piece comprises two fan-shaped isolating plates (303 '), a second supporting gap (304 ') is formed between the two isolating plates (303 ') of the isolating piece positioned below, and a first supporting gap (305 ') is formed between the two isolating plates (303 ') of the isolating piece positioned above.

7. The stack structure of silkworm trays according to claim 6, wherein: and reinforcing ribs (306 ') are respectively connected between the two groups of the isolating pieces and between the isolating pieces and the corresponding flat plates (302').

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