CN210406668U - Moth needle laying-out structure - Google Patents

Abstract

The utility model provides a shifting worm needle laying-out structure, includes laying-out fixed block and shifting worm needle ejecting mechanism, and shifting worm needle ejecting mechanism installs on the laying-out fixed block, and laying-out fixed block fixed mounting is in the up end of shifting worm needle connecting block, and shifting worm needle ejecting mechanism is connected with shifting worm needle ejecting rod, and the manual bee ovum to shifting worm needle point of emulation moves, simple structure to the degree of automation of this shifting worm machine has been improved, the work efficiency of moving worm machine is improved.

Description

Moth needle laying-out structure

Technical Field

The utility model relates to a moth-killing needle lofting structure, it is concrete, relate to a dedicated moth-killing needle lofting structure of moth-killing machine.

Background

After the queen bee spawns the spleen, hatch into the larva by the egg spleen, need shovel artificial queen bee platform together with a small amount of royal jelly by the manual work this moment in, the interior service bee in the bee colony sees to have the larva in the queen bee platform, can tell the royal jelly and feed the larva, grow up to the larva and become the queen bee.

Breed the enterprise a bit, when transplanting the larva, adopt goose pipe or ox horn piece, wear into the hook with the head, through hooking down the larva, in putting the platform base strip, what the hook came out like this is a very weak larva, the housework bee does not like the acceptance to the easy snagging, the survival rate is lower, and speed is slow and work efficiency is not high, and this kind of mode of moving the worm in addition also all moves the worm through artificial mode, thereby leads to inefficiency.

At present, no mechanism specially used for lofting the sample of the larva transplantation needle exists in the market, and the lofting of bee eggs at the needle point of the larva transplantation needle is manually processed, so that the automation cannot be achieved, and the production efficiency is low.

Disclosure of Invention

Not enough more than, the utility model aims to solve the technical problem that a shifting worm needle laying-out structure is provided for improve the degree of automation of shifting worm mechanism, improve work efficiency.

In order to solve the technical problems, the utility model adopts the technical proposal that,

the utility model provides a moth-killing needle laying-out structure, includes laying-out fixed block and moth-killing needle ejecting mechanism, moth-killing needle ejecting mechanism installs on the laying-out fixed block.

When adopting above technical scheme, the utility model discloses still further adopt or make up and adopted following technical scheme.

The lofting fixed block comprises a lofting fixed block connecting area and a lofting fixed block mounting area, and the moth-removing needle pushing-out mechanism is mounted in the lofting fixed block mounting area.

The lofting fixed block connecting area comprises a bottom fixed plate and a bottom connecting plate, a through hole is formed in the bottom fixed plate, and the bottom connecting plate is fixedly connected to the bottom fixed plate.

Lofting fixed block installing zone is released mounting groove and mounting groove connecting rod including the moth needle, and moth needle releases through mounting groove connecting rod fixed connection between mounting groove and the bottom connecting plate.

A guide bulge is arranged in the worm moving needle pushing-out mounting groove along the vertical direction.

The larva transferring needle pushing mechanism comprises a larva transferring needle pushing rack, a larva transferring needle pushing gear and a motor, the motor is fixedly installed on the outer side of the lofting fixing block installation area, and the motor is connected with the larva transferring needle pushing gear.

The larva transferring needle pushing rack is movably arranged in the larva transferring needle pushing mounting groove, and a guide groove is arranged at a position corresponding to the guide bulge.

An ejector plate is fixedly arranged at the lower end of the worm moving needle pushing rack, the ejector plate is in a convex shape, and a sensor is arranged on the convex ejector plate.

The bottom fixing plate is provided with a yielding groove at the position corresponding to the convex protrusion of the ejector plate.

The mounting groove connecting rod is connected with the mounting component.

The beneficial effects of the utility model are that, the manual bee ovum to the bat needle point of imitation removes simple structure to improve this bat machine's degree of automation, improved the work efficiency of bat machine.

Drawings

Fig. 1 is a structural view of a lofting fixture block.

Fig. 2 is a structural view of the lofting mechanism.

Reference numerals: the device comprises a lofting fixed block 1a, a worm-transferring needle pushing mechanism 2a, a bottom fixed plate 3a, a bottom connecting plate 4a, a worm-transferring needle pushing installation groove 5a, an installation groove connecting rod 6a, a worm-transferring needle pushing rack 7a, a worm-transferring needle pushing gear 8a, a motor 9a, a guide groove 10a, a pushing plate 11a, a through hole 12a and a guide protrusion 13 a.

Detailed Description

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

The utility model provides a moth-killing needle lofting structure, includes lofting fixed block 1a and moth-killing needle pushing-out mechanism 2a, moth-killing needle pushing-out mechanism 2a installs on lofting fixed block 1a, and lofting fixed block 1a fixed mounting is in the up end of moth-killing needle connecting block, and moth-killing needle pushing-out mechanism 2a is connected with moth-killing needle ejector rod.

The lofting fixed block 1a comprises a lofting fixed block connecting area and a lofting fixed block mounting area, and the larva moving needle pushing-out mechanism 2a is mounted in the lofting fixed block mounting area.

Lofting fixed block joining region includes bottom fixed plate 3a and bottom connecting plate 4a, is equipped with through-hole 12a on bottom fixed plate 3a, and the through-hole is used for being connected to lofting fixed block 1a on the moth-removing needle connecting block, convenient to detach, and bottom connecting plate 4a fixed connection is on bottom fixed plate 3a, and is preferred, and connecting plate 4a is equipped with two, sets up respectively on the side of bottom fixed plate 3 a.

Lofting fixed block installing zone is including moving worm needle release mounting groove 5a and mounting groove connecting rod 6a, move worm needle release mounting groove 5a and bottom connecting plate 4a between through mounting groove connecting rod 3a fixed connection, it is preferred, bottom connecting plate 4a is vertical the placing, mounting groove connecting rod 3a is the level and places, move worm needle release mounting groove 5a and bottom connecting plate 4a perpendicular setting, make the area that moves worm needle release mounting groove 5a and bottom connecting plate 4a enclose is the biggest, be convenient for to the installation of moving worm needle release mechanism 2a, the installation component is connected to the one end of mounting groove connecting rod 6a, the installation component can be used for putting the connection of appearance piece and other mechanisms, as shown in fig. 1, the installation component can be the mounting panel that is on a parallel with mounting groove connecting rod 6a length direction.

The guide bulge 13a is arranged in the larva moving needle push-out mounting groove 5a along the vertical direction, and the guide bulge 13a is used for providing a guide effect for the movement of the larva moving needle push-out rack 7a, so that the movement of the larva moving needle push-out rack 7a is more directional.

The larva transferring needle pushing-out mechanism comprises a larva transferring needle pushing-out rack 7a, a larva transferring needle pushing-out gear 8a and a motor 9a, the motor 9a is fixedly installed on the outer side of the lofting fixed block installation area, the motor 9a is connected with the larva transferring needle pushing-out gear 8a, and the motor 9a is controlled to rotate forward and backward to control the larva transferring needle pushing-out rack 7a to move up and down, so that larva of a larva transferring needle is pushed out of the larva transferring needle by bee eggs.

The larva transferring needle pushing rack 7a is movably arranged in the larva transferring needle pushing installation groove 5a, a guide groove 10a is formed in the position corresponding to the guide protrusion 13a, and the movement precision of the larva transferring needle pushing rack 7a is improved through the matching of the guide protrusion 13a and the guide groove 10 a.

An ejector plate 11a is fixedly mounted at the lower end of the worm moving needle push-out rack 7a, the ejector plate 11a is in a convex shape, so that the ejector plate 11a can still push a worm moving needle push rod after the worm moving needle swings, a sensor is arranged on the convex ejector plate, or a sensor is arranged on the inner wall of the bottom connecting plate 4a and used for detecting the relative position of the ejector plate 11a, and the rotating direction of the motor 9a is controlled.

Be equipped with the recess on the protruding position that corresponds of bottom fixed plate 3a and liftout plate 11a, prevent to take place to interfere between liftout plate 11a and the bottom fixed plate 3a, lead to unable laying out to the bee worm.

Claims (8)

1. A lofting structure of a moth-killing needle is characterized by comprising a lofting fixed block and a moth-killing needle pushing-out mechanism, wherein the moth-killing needle pushing-out mechanism is arranged on the lofting fixed block; the larva transferring needle pushing mechanism comprises a larva transferring needle pushing rack, a larva transferring needle pushing gear and a motor, the motor is fixedly installed on the outer side of the lofting fixing block installation area, and the motor is connected with the larva transferring needle pushing gear.

2. The moth needle lofting structure of claim 1, wherein the lofting fixed block comprises a lofting fixed block connection area and a lofting fixed block mounting area, and the moth needle ejecting mechanism is mounted in the lofting fixed block mounting area.

3. The moth needle lofting structure of claim 2, wherein the lofting fixed block attachment area comprises a bottom fixed plate and a bottom connecting plate, the bottom fixed plate is provided with a through hole, and the bottom connecting plate is fixedly connected to the bottom fixed plate.

4. The moth needle lofting structure of claim 3, wherein the lofting fixed block mounting area comprises a moth needle ejecting mounting groove and a mounting groove connecting rod, and the moth needle ejecting mounting groove is fixedly connected with the bottom connecting plate through the mounting groove connecting rod.

5. The pattern layout structure of the moth pins as claimed in claim 4, wherein a guide protrusion is provided in the moth pin push-out mounting groove in a vertical direction.

6. The pattern layout structure of the larva transferring needle according to claim 1, wherein an ejector plate is fixedly installed at the lower end of the larva transferring needle ejecting rack, the ejector plate is in a convex shape, and a sensor is arranged on the convex-shaped ejector plate.

7. The moth-killing needle lofting structure of claim 6, wherein the bottom fixing plate is provided with a relief groove at a position corresponding to the convex-shaped protrusion of the ejecting plate.

8. The moth lofting structure of claim 4, wherein the mounting groove connecting rod is connected to the mounting member.

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