CN112655662A - Silkworm culture support with adjustable operation space - Google Patents

Abstract

The invention relates to the field of silkworm breeding racks, in particular to a silkworm breeding rack with an adjustable operation space. The silkworm breeding rack comprises an upright post, a first limiting chute, an upper limiting block, a lower limiting block, a silkworm rack, a lifting mechanism and a driving system. The space utilization rate is effectively improved, and manual operation is facilitated.

Description

Silkworm culture support with adjustable operation space

Technical Field

The invention relates to the field of silkworm breeding racks, in particular to a silkworm breeding rack with an adjustable operation space.

Background

With the continuous development of economy, the basic material conditions of people are met to a great extent, and therefore, the demand of people on the spiritual aspect is continuously increased. The silkworm breeding method is characterized in that the silkworm is a lepidoptera secretory silk insect which takes mulberry leaves as foodstuff, belongs to invertebrates, the main target objects for planting the silkworm are silkworm cocoons and silks, the silkworm passes through 4 morphological and physiological completely different development stages of eggs, larvae, pupae and adults for life, different parts and metabolites of each development stage have wide medicinal values, silk fabrics made of mulberry silks serving as raw materials are pursued by more and more people, the silkworm breeding period is short, the economic value is high, the industry is rich, and more people are promoted to participate in silkworm breeding. Silkworm breeding often need establish the silkworm room, because it is with high costs to establish the silkworm room, in order to improve silkworm room utilization ratio, often can establish breed the frame, a breed frame places the multilayer silkworm dish, promote space utilization greatly, every layer of silkworm dish of the breed frame of the same type can only be adjusted simultaneously and open simultaneously, perhaps fold simultaneously, can't adjust a certain layer silkworm dish alone, this makes often a breed frame can not make full use of space, often need control certain distance between every layer of silkworm dish, and the productivity effect is reduced.

Disclosure of Invention

For solving the technical problem, the mulberry silkworm breeding bracket with the adjustable operation space is provided, and the technical scheme solves the problems that breeding brackets of the same type can only simultaneously adjust each layer of silkworm tray to be opened simultaneously or can be folded simultaneously, and a certain layer of silkworm tray cannot be independently adjusted.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

a mulberry silkworm breeding bracket with adjustable working space, which comprises a vertical column and a bracket body arranged on the vertical column,

the first limiting sliding chute is used for providing up-and-down sliding;

the upper limiting block is arranged at the top of the upright column and used for limiting upward sliding;

the lower limiting block is arranged at the bottom of the upright post and used for limiting downward sliding;

the silkworm rack is used for placing silkworms to be cultured;

the lifting mechanism is arranged between the upper limiting block and the lower limiting block in a foldable lifting manner and is connected between the two adjacent stand columns;

the driving system is used for driving the lifting mechanism to work;

it is characterized in that the lifting mechanism comprises,

the sliding frames are arranged side by side from low to high, the sliding frames are arranged on the first limiting sliding groove in a sliding and lifting mode, the sliding frames are arranged between two adjacent stand columns in a stacked mode layer by layer, the left end and the right end of each sliding frame are provided with a third limiting sliding groove in a corresponding mode, the third limiting sliding groove is connected with a sliding groove bump in a sliding mode, the sliding direction is vertically arranged, and each sliding frame is provided with two electromagnetic block sliding grooves arranged side by side;

the lifter group, it is a plurality of, and less than the sliding frame all the time, through the mutual sliding connection of carriage between the adjacent lifter group, lifter group is including two aluminum alloy movable rods that articulate into the fork structure each other, two aluminum alloy movable rods all are that middle part is articulated fixed each other, the pivot level sets up, lifter group is still including the connecting block of the arbitrary one end in articulated aluminum alloy movable rod both ends, the articulated direction level of connecting block sets up, every connecting block is provided with dog and electro-magnet, the bottom of connecting block is provided with the spread groove, the spread groove is articulated with the aluminum alloy movable rod, pivot direction level sets up, the top of connecting block is provided with the electro-magnet, the dog sets up between spread groove and electro-magnet.

Preferably, the drive system comprises, in combination,

the first linear driver is arranged at the top end of the lifting mechanism, the non-working part of the first linear driver is fixedly arranged at the top of the sliding frame at the uppermost layer of the lifting mechanism, the output end of the first linear driver is connected with the connecting block at the lowermost layer of the lifting mechanism, and the driving direction is horizontally arranged;

the second linear driver is arranged at the bottom end of the lifting mechanism, the non-working part of the second linear driver is fixedly arranged at the bottom of the sliding frame at the lowest layer of the lifting mechanism, the output end of the second linear driver is connected with the connecting block at the lowest layer of the lifting mechanism, and the driving direction is horizontally arranged;

the third linear driver is arranged above the lifting mechanism, the non-working part of the third linear driver is fixedly arranged at the top of the upright post, and the output end of the third linear driver is connected with the sliding frame at the uppermost layer of the lifting mechanism.

Preferably, the silkworm frame includes spacing post, and spacing post setting is between two relative pairs of adjacent stands, and the spacing spout of second sets up in one side that is close to the silkworm frame of spacing post, and the spliced pole setting is between two relative pairs of adjacent stands, the one end fixed connection stand of spliced pole, the spacing post of one end fixed connection.

Preferably, the silkworm frame includes that the silkworm breeds the box, and the box setting is bred between two pairs of adjacent stands relatively to the silkworm, and the box is bred including breeding the box body to breeding the silkworm, and one side of breeding the box body is provided with the opening, breeds the both ends middle part of box body and all is provided with spacing slide bar, and spacing slide bar is articulated with two aluminum alloy movable rods in the arbitrary lifter group, breeds the inside filter screen structure that still is provided with of box body, and filter screen structure fixed mounting is at the middle part of breeding in the box body.

Preferably, still be provided with the sliding plate in the silkworm breeding box, the sliding plate includes slip diaphragm and slip riser, and the slip diaphragm had both had two, set up the both sides of bottom in the silkworm breeding box respectively, and the slip riser has two, sets up the bottom of both sides in the slip diaphragm respectively, still is provided with the silkworm excrement between slip diaphragm and the filter screen structure and collects the box, and the silkworm excrement is collected box and slip diaphragm sliding connection, and the slip direction level sets up, and one side that the box was collected to the silkworm excrement is provided with the handle.

Preferably, the external portion of the silkworm breeding box is further provided with a limiting part, and the limiting part is fixedly installed on the outer side of the opening opposite direction of the silkworm breeding box.

Compared with the prior art, the invention has the beneficial effects that:

the invention solves the problem that the breeding racks of the same type can only simultaneously adjust each layer of silkworm tray to be opened simultaneously or be folded simultaneously and can not independently adjust a certain layer of silkworm tray through the sliding rack, the electromagnet, the connecting block, the aluminum alloy movable rod and the electromagnetic block sliding groove. Compared with the prior art, the space utilization rate is high, the manual operation is convenient, and the specific method comprises the following steps: the PLC signals to enable the electromagnet above a certain layer of lifting rod group to be powered on/off, the layer of lifting rod group obtains/loses the pulling force from the electromagnet on the upper layer of lifting rod group, the driving system controls the connecting block of the lifting rod group at the lowest layer to slide, the connecting block drives the aluminum alloy movable rod along the electromagnetic block sliding groove on the sliding frame, the aluminum alloy movable rod drives the connecting block above the aluminum alloy movable rod, and by analogy, the lifting rod group at the upper layer is sequentially driven, so that the layer of lifting rod group to be controlled by the PLC ascends or descends, meanwhile, the electromagnet above the lifting rod group at the upper layer of the layer is not powered off and still keeps the suction state, the driving system controls the lifting rod group at the top to keep still, and the lifting rod group at the upper layer of the layer controlled by the PLC keeps still.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of the stand of the present invention;

FIG. 3 is a top view of the post of the present invention;

FIG. 4 is a perspective view of the spacing frame of the present invention;

FIG. 5 is a perspective view of a silkworm stand according to the present invention;

FIG. 6 is a top view of the silkworm stand according to the present invention;

FIG. 7 is a top view of the carriage of the present invention;

FIG. 8 is a perspective view of the lifter bar set of the present invention;

FIG. 9 is a side view of the present invention;

the reference numbers in the figures are:

1-upright column; 1 a-an upper limit block; 1 b-a lower limit block; 1 c-a first limiting chute; 1 d-a chute projection;

2-a limiting frame; 2 a-connecting column; 2 b-a limiting column; 2 c-a second limiting chute;

3-silkworm frame; 3 a-a sliding plate; 3a 1-sliding cross plate; 3a 2-sliding riser; 3 b-a silkworm breeding box; 3b 1-cultivation box body; 3b 2-opening; 3b 3-limit slide bar; 3b 4-screen construction; 3 c-silkworm excrement collecting box; 3c 1-collection box body; 3c 2-handle; 3 d-a limit piece;

4-a lifting mechanism; 4 a-a carriage; 4a 1-third limiting chute; 4a 2-electromagnet block chute; 4 b-a set of lifting rods; 4b 1-aluminum alloy movable rod; 4b 2-connecting block; 4b 3-connecting groove; 4b 4-stop; 4b 5-electromagnet;

5-a drive system; 5 a-a first linear driver; 5 b-a second linear drive; 5 c-third linear drive.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1, 2, 3, 7 and 8, a mulberry silkworm breeding bracket with adjustable working space comprises a vertical column 1 and a bracket body arranged on the vertical column 1,

the first limiting sliding chute 1c is used for providing up-and-down sliding;

the upper limiting block 1a is arranged at the top of the upright post 1 and used for limiting upward sliding;

the lower limiting block 1b is arranged at the bottom of the upright post 1 and used for limiting downward sliding;

the silkworm rack 3 is used for placing silkworms to be cultured;

the lifting mechanism 4 is arranged between the upper limiting block 1a and the lower limiting block 1b in a foldable lifting manner, and the lifting mechanism 4 is connected between the two adjacent upright posts 1;

the driving system 5 is used for driving the lifting mechanism 4 to work;

it is characterized in that the lifting mechanism 4 comprises,

the sliding frames 4a are arranged side by side from low to high, the sliding frames 4a are arranged on the first limit sliding groove 1c in a sliding and lifting mode, the sliding frames 4a are arranged between the two adjacent upright posts 1 in a layer-by-layer overlapping mode, the left end and the right end of each sliding frame 4a are respectively and oppositely provided with a third limit sliding groove 4a1, the third limit sliding groove 4a1 is connected with the sliding groove bump 1d in a sliding mode, the sliding direction is vertically arranged, and each sliding frame 4a is provided with two electromagnetic block sliding grooves 4a2 arranged side by side;

the lifting rod group 4b is provided with a plurality of lifting rod groups, the number of the lifting rod groups is always one less than that of the sliding frames 4a, the adjacent lifting rod groups 4b are mutually connected in a sliding mode through the sliding frames 4a, each lifting rod group 4b comprises two aluminum alloy movable rods 4b1 which are mutually hinged to form a cross structure, the middle parts of the two aluminum alloy movable rods 4b1 are hinged and fixed to each other, the rotating shaft is horizontally arranged, each lifting rod group 4b further comprises a connecting block 4b2 hinged to any one end of the two ends of each aluminum alloy movable rod 4b1, the hinging direction of each connecting block 4b2 is horizontally arranged, each connecting block 4b2 is provided with a stop block 4b4 and an electromagnet 4b5, the bottom of each connecting block 4b2 is provided with a connecting groove 4b3, each connecting groove 4b3 is hinged to each aluminum alloy movable rod 4b1, the rotating shaft direction is horizontally arranged, the top of each connecting block 4b2 is provided with an electromagnet 4.

The working principle of the lifting mechanism is as follows: the PLC signals to enable the electromagnet 4b5 above the lifting rod group 4b of a certain layer to be powered on/off, the lifting rod group 4b of the layer obtains/loses the pulling force from the electromagnet 4b5 on the lifting rod group 4b of the previous layer, the driving system 5 controls the connecting block 4b2 of the lifting rod group 4b of the lowest layer to slide, the connecting block 4b2 drives the aluminum alloy movable rod 4b1 along the electromagnetic block sliding groove 4a2 on the sliding frame 4a, the aluminum alloy movable rod 4b1 drives the connecting block 4b2 above the aluminum alloy movable rod 4b1, and so on, the lifting rod group 4b of the previous layer is driven in turn, so that the lifting rod group 4b of the layer to be controlled by the PLC ascends or descends, meanwhile, the electromagnet 4b5 above the lifting rod group 4b of the previous layer of the layer is not powered off, the attraction state is still kept, and the driving system 5 controls the lifting rod group 4b of the top layer to be kept still, so that the lifting rod group 4b of the layer above the layer controlled by the PLC is kept still.

Referring to fig. 9, the drive system 5 includes,

the first linear driver 5a is arranged at the top end of the lifting mechanism 4, the non-working part of the first linear driver 5a is fixedly arranged at the top of the sliding frame 4a at the uppermost layer of the lifting mechanism 4, the output end of the first linear driver 5a is connected with the connecting block 4b2 at the lowermost layer of the lifting mechanism 4, and the driving direction is horizontally arranged;

the second linear driver 5b is arranged at the bottom end of the lifting mechanism 4, the non-working part of the second linear driver 5b is fixedly arranged at the bottom of the sliding frame 4a at the lowest layer of the lifting mechanism 4, the output end of the second linear driver 5b is connected with the connecting block 4b2 at the lowest layer of the lifting mechanism 4, and the driving direction is horizontally arranged;

and the third linear driver 5c is arranged above the lifting mechanism 4, the non-working part of the third linear driver 5c is fixedly arranged at the top of the upright post 1, and the output end of the third linear driver 5c is connected with the sliding frame 4a at the uppermost layer of the lifting mechanism 4.

The working principle of the driving system is as follows: the first linear driver 5a drives the lowermost connecting block 4b2 to reciprocate horizontally, the second driving system 5 drives the uppermost connecting block 4b2 to reciprocate horizontally, and the third linear driver 5c drives the uppermost connecting block 4b2 to reciprocate vertically.

Referring to fig. 4, the silkworm frame 3 includes a limiting column 2b, the limiting column 2b is disposed between two pairs of opposite adjacent upright columns 1, a second limiting chute 2c is disposed on one side of the limiting column 2b close to the silkworm frame 3, a connecting column 2a is disposed between two pairs of opposite adjacent upright columns 1, one end of the connecting column 2a is fixedly connected with the upright columns 1, and the other end of the connecting column 2a is fixedly connected with the limiting column 2 b.

The working principle of the limiting column is as follows: the second limiting chute 2c is used for providing up-and-down sliding and limiting positions.

Referring to fig. 5 and 6, the silkworm frame 3 includes a silkworm breeding box 3b, the silkworm breeding box 3b is disposed between two pairs of adjacent upright posts 1, the silkworm breeding box includes a breeding box body 3b1, one side of the breeding box body 3b1 is provided with an opening 3b2, the middle parts of two ends of the breeding box body 3b1 are respectively provided with a limiting slide bar 3b3, the limiting slide bar 3b3 is hinged to two aluminum alloy movable bars 4b1 in any lifting bar group 4b, a filter screen structure 3b4 is further disposed inside the breeding box body 3b1, and the filter screen structure 3b4 is fixedly mounted in the middle part of the breeding box body 3b 1.

The silkworm breeding box has the working principle that: the limiting slide bar 3b3 is hinged with the two aluminum alloy movable bars 4b1, the lifting bar group 4b drives the silkworm breeding box 3b to vertically move up and down under the driving of the driving system 5, and silkworm excrement falls through the filter screen structure 3b 4.

Referring to fig. 5, a sliding plate 3a is further arranged in the silkworm breeding box 3b, the sliding plate 3a includes a sliding transverse plate 3a1 and a sliding vertical plate 3a2, the sliding transverse plate 3a1 has two sliding transverse plates 3a1, which are respectively arranged at two sides of the bottom of the silkworm breeding box, the sliding vertical plates 3a2 have two sliding vertical plates 3a2, which are respectively arranged at the bottoms of two sides of the sliding transverse plate 3a1, a silkworm excrement collecting box 3c is further arranged between the sliding transverse plate 3a1 and the filter screen structure 3b4, the silkworm excrement collecting box 3c is slidably connected with the sliding transverse plate 3a1, the sliding direction is horizontally arranged, and a handle 3c2 is arranged at one side of the silkworm excrement.

The working principle of the silkworm excrement collecting box is as follows: the faeces Bombycis collecting box 3c is used for collecting faeces Bombycis, and the handle 3c2 is used for facilitating manual taking out.

Referring to fig. 6, a stopper 3d is further provided outside the silkworm breeding box 3b, and the stopper 3d is fixedly mounted on the outer side of the silkworm breeding box 3b in the direction opposite to the opening 3b 2.

The operating principle of locating part: the limiting piece 3d is connected with the limiting column 2b in a sliding mode, and is matched with the limiting column 2b to limit the position of the silkworm breeding box 3 b.

The working principle of the device is as follows:

the method comprises the following steps: the PLC signals to ensure that the electromagnet 4b5 above a certain layer of lifting rod group 4b is powered off, the lifting rod group 4b of the layer loses the pulling force from the electromagnet 4b5 on the lifting rod group 4b of the upper layer, the first linear driver 5a controls the connecting block 4b2 of the lifting rod group 4b of the lowest layer to slide, the connecting block 4b2 drives the aluminum alloy movable rod 4b1 along the electromagnet sliding groove 4a2 on the sliding frame 4a, the aluminum alloy movable rod 4b1 drives the connecting block 4b2 above the aluminum alloy movable rod 4b1, by parity of reasoning, the lifting rod group 4b of the previous layer is driven in turn, so that the lifting rod group 4b of the layer to be controlled by the PLC descends, meanwhile, the electromagnet 4b5 above the lifting rod group 4b on the layer is not powered off and still keeps the attraction state, and the driving system 5 controls the lifting rod group 4b on the uppermost layer to keep still, so that the lifting rod group 4b on the layer controlled by the PLC keeps still.

Step two: feeding is carried out manually, and the silkworm excrement collecting box 3c is cleaned.

Step three: the PLC signals to enable the electromagnet 4b5 above the lifting rod group 4b of a certain layer to be electrified, the first linear driver 5a controls the connecting block 4b2 of the lifting rod group 4b of the lowest layer to slide, the connecting block 4b2 drives the aluminum alloy movable rod 4b1 along the electromagnetic block sliding groove 4a2 on the sliding frame 4a, the aluminum alloy movable rod 4b1 drives the connecting block 4b2 above the aluminum alloy movable rod 4b1, and so on, the lifting rod group 4b of the previous layer is driven in sequence, so that the lifting rod group 4b of the layer to be controlled by the PLC rises to abut against the lifting rod group 4b of the previous layer, the electromagnet 4b5 attracts, and the lifting rod group 4b of the previous layer obtains the pulling force from the electromagnet 4b5 on the lifting rod group 4b of the previous layer.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A mulberry silkworm breeding bracket with adjustable working space comprises a vertical column (1) and a bracket body arranged on the vertical column (1),

the first limiting sliding chute (1 c) is used for providing up-and-down sliding;

the upper limiting block (1 a) is arranged at the top of the upright post (1) and used for limiting upward sliding;

the lower limiting block (1 b) is arranged at the bottom of the upright post (1) and used for limiting downward sliding;

the silkworm rack (3), the silkworm rack (3) is used for placing the silkworms to be cultivated;

the lifting mechanism (4) is arranged between the upper limiting block (1 a) and the lower limiting block (1 b) in a foldable lifting manner, and the lifting mechanism (4) is connected between the two adjacent upright posts (1);

the driving system (5), the driving system (5) is used for driving the lifting mechanism (4) to work;

it is characterized in that the lifting mechanism (4) comprises,

the sliding frames (4 a) are arranged side by side from low to high, the sliding frames (4 a) are arranged on the first limiting sliding groove (1 c) in a sliding and lifting mode, the sliding frames (4 a) are arranged between two adjacent upright posts (1) in a stacking mode layer by layer, the left end and the right end of each sliding frame (4 a) are respectively and oppositely provided with a third limiting sliding groove (4 a 1), the third limiting sliding groove (4 a 1) is in sliding connection with the sliding groove bump (1 d), the sliding direction is vertically arranged, and each sliding frame (4 a) is provided with two electromagnetic block sliding grooves (4 a 2) arranged side by side;

the lifting rod group (4 b) is provided with a plurality of lifting rod groups (4 b) which are one less than the sliding frames (4 a) all the time, the adjacent lifting rod groups (4 b) are mutually connected in a sliding mode through the sliding frames (4 a), each lifting rod group (4 b) comprises two aluminum alloy movable rods (4 b 1) which are mutually hinged to form a cross-shaped structure, each two aluminum alloy movable rods (4 b 1) are hinged and fixed to each other at the middle part, the rotating shaft is horizontally arranged, each lifting rod group (4 b) further comprises a connecting block (4 b 2) hinged to any one end of two ends of each aluminum alloy movable rod (4 b 1), each connecting block (4 b 2) is horizontally arranged in the hinging direction, each connecting block (4 b 2) is provided with a stop block (4 b 4) and an electromagnet (4 b 5), the bottom of each connecting block (4 b 2) is provided with a connecting groove (4 b 3), each connecting groove (4 b 3) is hinged to each aluminum alloy movable rod (4 b 1), the rotating shaft is horizontally arranged in the direction, the stopper (4 b 4) is disposed between the coupling groove (4 b 3) and the electromagnet (4 b 5).

2. The silkworm breeding support with adjustable working space according to claim 1, wherein the driving system (5) comprises,

the first linear driver (5 a), the first linear driver (5 a) is arranged at the top end of the lifting mechanism (4), the non-working part of the first linear driver (5 a) is fixedly arranged at the top of the carriage (4 a) at the uppermost layer of the lifting mechanism (4), the output end of the first linear driver (5 a) is connected with the connecting block (4 b 2) at the lowermost layer of the lifting mechanism (4), and the driving direction is horizontally arranged;

the second linear driver (5 b), the second linear driver (5 b) is set up in the bottom of the lifting mechanism (4), the non-working portion of the second linear driver (5 b) is fixedly mounted on the bottom of the carriage (4 a) of the lowest floor of the lifting mechanism (4), the output end of the second linear driver (5 b) connects the connecting block (4 b 2) of the lowest floor of the lifting mechanism (4), the driving direction is set up horizontally;

the third linear driver (5 c), the third linear driver (5 c) is arranged above the lifting mechanism (4), the non-working part of the third linear driver (5 c) is fixedly arranged at the top of the upright post (1), and the output end of the third linear driver (5 c) is connected with the sliding frame (4 a) at the uppermost layer of the lifting mechanism (4).

3. The mulberry silkworm breeding support with the adjustable working space according to claim 1, wherein the mulberry silkworm frame (3) comprises a limiting column (2 b), the limiting column (2 b) is arranged between two pairs of opposite adjacent upright columns (1), a second limiting sliding groove (2 c) is arranged on one side of the limiting column (2 b) close to the mulberry silkworm frame (3), a connecting column (2 a) is arranged between two pairs of opposite adjacent upright columns (1), one end of the connecting column (2 a) is fixedly connected with the upright columns (1), and the other end of the connecting column (2 a) is fixedly connected with the limiting column (2 b).

4. The mulberry silkworm breeding support with the adjustable working space according to claim 1, wherein the mulberry silkworm breeding support (3) comprises a mulberry silkworm breeding box (3 b), the mulberry silkworm breeding box (3 b) is arranged between two pairs of opposite adjacent upright posts (1), the mulberry silkworm breeding box comprises a breeding box body (3 b 1), one side of the breeding box body (3 b 1) is provided with an opening (3 b 2), the middle parts of two ends of the breeding box body (3 b 1) are respectively provided with a limiting slide bar (3 b 3), the limiting slide bar (3 b 3) is hinged to two aluminum alloy movable rods (4 b 1) in any lifting rod group (4 b), a filter screen structure (3 b 4) is further arranged inside the breeding box body (3 b 1), and the filter screen structure (3 b 4) is fixedly installed in the middle part of the breeding box body (3 b 1).

5. The silkworm breeding support with the adjustable working space according to claim 4, wherein a sliding plate (3 a) is further arranged in the silkworm breeding box (3 b), the sliding plate (3 a) comprises a sliding transverse plate (3 a 1) and a sliding vertical plate (3 a 2), the sliding transverse plate (3 a 1) comprises two sliding vertical plates (3 a 1) and two sliding vertical plates (3 a 2), the two sliding vertical plates (3 a 2) are respectively arranged at the bottoms of the two sides in the sliding transverse plate (3 a 1), a silkworm excrement collecting box (3 c) is further arranged between the sliding transverse plate (3 a 1) and the filter screen structure (3 b 4), the silkworm excrement collecting box (3 c) is slidably connected with the sliding transverse plate (3 a 1), the sliding direction is horizontally arranged, and a handle (3 c 2) is arranged at one side of the silkworm excrement collecting box (3 c).

6. The mulberry silkworm breeding support with the adjustable working space according to claim 4, wherein a limiting piece (3 d) is further arranged outside the mulberry silkworm breeding box (3 b), and the limiting piece (3 d) is fixedly installed on the outer side of the opening (3 b 2) of the mulberry silkworm breeding box (3 b) in the opposite direction.

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