CN220148564U - Automatic egg feeding machine - Google Patents

Abstract

The utility model discloses an automatic egg feeding machine in the technical field of marinated egg production, which comprises: the driving box assembly comprises a driving box; the driving mechanism comprises a motor arranged in the inner cavity of the driving box and a driving shaft arranged on the output shaft of the motor and penetrating through the driving box; the mounting bracket assembly, the mounting bracket assembly is in including setting up mounting bracket on the drive shaft circumference lateral wall, setting is in the mounting bracket tip and with last fixed slot that the drive shaft is connected, this kind of automatic egg feeding machine adsorbs the egg through the sucking disc, and the rethread motor drives the mounting panel and moves towards opposite direction, drives the upper end that the egg moved the precooking pond through the sucking disc, and the vacuum pump stops working, and the sucking disc releases the suction, and the egg falls in the precooking pond, accomplishes the egg and holds in the palm to the precooking pond work from the egg, does not need to carry out artifical material loading, reduces staff's intensity of labour, improves work efficiency.

Description

Automatic egg feeding machine

Technical Field

The utility model relates to the technical field of marinated egg production, in particular to an automatic egg feeding machine.

Background

The meat, viscera, wild flavor, partial aquatic products and vegetables of poultry and livestock are taken as main raw materials and put into the prepared marinade, and the marinade is boiled with strong fire and is boiled with low fire, so that the flavor of the marinade slowly permeates into the raw material texture, and the marinade product with strong fragrance and delicious taste is obtained. The marinated product belongs to a general cooked meat product, and the original taste and color of the raw materials are highlighted, and the original color, smell and taste of the marinated product are mainly used as salt and a small amount of soy sauce.

The marinated eggs are prepared by pre-boiling eggs, steaming, shelling, marinating, baking, packaging, sterilizing, detecting and warehousing. Before the egg precooking process, the whole box of eggs need to be taken out from the egg tray and placed on the conveyor belt, the whole box of eggs are conveyed to the precooking pond through the conveyor belt and discharged, the eggs are taken down from the conveyor belt by workers and placed in the precooking pond, a large amount of manpower is consumed in the process, the working strength of the workers is high, and the working efficiency is greatly influenced.

Disclosure of Invention

The utility model aims to provide an automatic egg feeding machine, which solves the problems that before the egg precooking process, the whole box of eggs are required to be taken out of an egg holder and placed on a conveyor belt, the eggs are conveyed to a precooking pond through the conveyor belt and discharged out of the precooking pond, and the eggs are taken down from the conveyor belt and placed in the precooking pond through staff, so that a great deal of manpower is consumed in the process, the working strength of the staff is high, and the working efficiency is greatly influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an automatic egg feeding machine, comprising:

the driving box assembly comprises a driving box;

the driving mechanism comprises a motor arranged in the inner cavity of the driving box and a driving shaft arranged on the output shaft of the motor and penetrating through the driving box;

the mounting frame assembly comprises a mounting frame arranged on the outer side wall of the circumference of the driving shaft, an upper fixing groove arranged at the end part of the mounting frame and connected with the driving shaft, a fixing block arranged on the outer side wall of the circumference of the driving shaft and connected with the mounting frame, and a lower fixing groove arranged at the end part of the fixing block and connected with the driving shaft, and a bearing seat is arranged in an inner cavity of the mounting frame;

the vacuum pipeline assembly comprises a vacuum pipeline arranged on the mounting frame through a bearing seat, a first connecting port arranged at the middle position of the circumferential outer side wall of the vacuum pipeline, and second connecting ports symmetrically arranged on the circumferential outer side wall of the vacuum pipeline and distributed on two sides of the first connecting port;

the grabbing device comprises a mounting plate, a connecting block symmetrically arranged at the top of the mounting plate, a mounting hole which is formed in the side wall of the connecting block and penetrates through the other side wall of the connecting block and is arranged on the outer side wall of the circumference of the vacuum pipeline, a third connecting port which is arranged at the top of the mounting plate and is communicated with the inner cavity of the mounting plate, and a sucking disc which is rectangular and arranged at the bottom of the mounting plate and is communicated with the inner cavity of the mounting plate, wherein the third connecting port is connected with the second connecting port through a pipeline.

Preferably, the drive box assembly further comprises a cover disposed on a side wall of the drive box and disposed outside the motor.

Preferably, a supporting table assembly is arranged at the bottom of the driving box.

Preferably, the supporting table assembly comprises a supporting table and first telescopic mechanisms arranged at four corners of the top of the inner side of the supporting table, and telescopic components on the first telescopic mechanisms penetrate through the top of the supporting table and are connected with the bottom of the driving box.

Preferably, a second telescopic mechanism is arranged at the top of the mounting frame, and a telescopic component on the second telescopic mechanism is connected with the top of the bearing seat.

Compared with the prior art, the utility model has the beneficial effects that: this kind of automatic egg feeding machine, it is rotatory through motor drive shaft, it overturns to drive the mounting bracket through the drive shaft, the mounting bracket upset is followed to the vacuum duct, the mounting panel is perpendicular to ground all the time overturned under the action of gravity, make sucking disc and egg contact, carry out the evacuation to the inner chamber of mounting panel through the vacuum pump, adsorb the egg through the sucking disc, the rethread motor drives the mounting panel and moves towards opposite direction, it removes the upper end in precooking the pond to drive the egg through the sucking disc, the vacuum pump stops working, the sucking disc releases suction, the egg falls in precooking the pond, accomplish the egg and hold in the palm to precooking the pond work from the egg, do not need to carry out artifical material loading, reduce staff's intensity of labour, improve work efficiency.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a driving mechanism according to the present utility model;

FIG. 3 is a schematic view of a mounting bracket assembly of the present utility model;

FIG. 4 is a schematic view of a vacuum conduit assembly according to the present utility model;

FIG. 5 is a schematic view of a gripping device according to the present utility model;

FIG. 6 is a schematic view of the mounting of the drive housing and support table assembly of the present utility model;

FIG. 7 is a schematic view of the mounting bracket and the second telescopic mechanism of the present utility model.

In the figure: 100 driving box assembly, 110 driving box, 120 cover, 200 driving mechanism, 210 motor, 220 driving shaft, 300 mounting frame assembly, 310 mounting frame, 311 bearing seat, 320 upper fixing groove, 330 fixing block, 340 lower fixing groove, 400 vacuum pipeline assembly, 410 vacuum pipeline, 420 first connecting port, 430 second connecting port, 500 grabbing device, 510 mounting plate, 520 connecting block, 530 mounting hole, 540 third connecting port, 550 sucking disc, 600 supporting table assembly, 610 supporting table, 620 first telescopic mechanism, 700 second telescopic mechanism.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides an automatic egg feeding machine, which is characterized in that a driving shaft is driven by a motor to rotate, a mounting frame is driven to overturn by the driving shaft, a vacuum pipeline follows the mounting frame to overturn, a mounting plate is always perpendicular to the ground under the action of gravity to enable a sucker to be in contact with eggs, an inner cavity of the mounting plate is vacuumized by a vacuum pump, eggs are adsorbed by the sucker, the mounting plate is driven by the motor to move towards the opposite direction, the eggs are driven by the sucker to move to the upper end of a precooking pond, the vacuum pump stops working, the sucker releases suction, the eggs fall in the precooking pond, the work of the eggs from egg trays to the precooking pond is completed, manual feeding is not needed, the labor intensity of workers is reduced, the working efficiency is improved, and referring to fig. 1, the automatic egg feeding machine comprises: the device comprises a driving box assembly 100, a driving mechanism 200, a mounting frame assembly 300, a vacuum pipeline assembly 400 and a grabbing device 500;

referring to fig. 1 to 5, the driving housing assembly 100 includes a driving housing 110, the driving mechanism 200 includes a motor 210 disposed in an inner cavity of the driving housing 110 and a driving shaft 220 disposed on an output shaft of the motor 210 and penetrating the driving housing 110, the mounting frame assembly 300 includes a mounting frame 310 disposed on a circumferential outer sidewall of the driving shaft 220, an upper fixing groove 320 disposed at an end of the mounting frame 310 and connected to the driving shaft 220, a fixing block 330 disposed on a circumferential outer sidewall of the driving shaft 220 and connected to the mounting frame 310, and a lower fixing groove 340 disposed at an end of the fixing block 330 and connected to the driving shaft 220, the inner cavity of the mounting frame 310 is provided with a bearing housing 311, the vacuum duct assembly 400 includes a vacuum duct 410 disposed on the mounting frame 310 through the bearing housing 311, a first connection port 420 disposed at a middle position of the circumferential outer sidewall of the vacuum duct 410, and second connection ports 430 disposed symmetrically on the circumferential outer sidewall of the vacuum duct 410 and distributed at both sides of the first connection port 420, the grasping device 500 includes a mounting plate 510, a connection block 520 symmetrically disposed at the top of the mounting plate 510, a mounting hole 530 formed at the side wall of the connection block 520 and penetrating the other side wall of the connection block 520 and disposed on the outer circumferential wall of the vacuum pipe 410, a third connection port 540 disposed at the top of the mounting plate 510 and penetrating the inner cavity of the mounting plate 510, and a suction cup 550 rectangular at the bottom of the mounting plate 510 and penetrating the inner cavity of the mounting plate 510, the third connection port 540 being connected with the second connection port 430 through a pipe, the number of the driving boxes 110 being two, the two driving boxes 110 being symmetrically disposed, the motor 210 being detachably mounted in the inner cavity of one of the driving boxes 110 through bolts, the driving shaft 220 being mounted on the output shaft of the motor 210 through spline or flat key connection, the driving shaft 220 is installed between the two driving cases 110 through bearings, the driving shaft 220 is driven to rotate between the two driving cases 110 through the motor 210, the upper fixing groove 320 is a half-circular groove, the lower fixing groove 340 is also a half-circular groove, the upper fixing groove 320 and the lower fixing groove 340 can be combined into a complete circular groove, the mounting frame 310 is installed on the circumferential outer side wall of the driving shaft 220 through the upper fixing groove 320, the fixing block 330 is installed on the circumferential outer side wall of the driving shaft 220 through the lower fixing groove 340, the mounting frame 310 is detachably installed on the top of the fixing block 330 through bolts, the mounting frame 310 and the fixing block 330 are detachably fixed on the circumferential outer side wall of the driving shaft 220 through bolts, the number of the mounting frame assemblies 300 is two, the mounting frame assemblies 300 are respectively installed at two ends of the circumferential outer side wall of the driving shaft 220, the mounting frame assemblies 300 overturn along with the driving shaft 220, the bearing blocks 311 are detachably installed in the inner cavity of the mounting frame 310 through bolts, the vacuum pipe 410 is installed between the two installation frames 310 through the bearing blocks 311, the vacuum pipe 410 is arranged in a hollow manner, the inner cavity of the first connection port 420 is communicated with the inner cavity of the vacuum pipe 410, the inner cavity of the second connection port 430 is communicated with the inner cavity of the vacuum pipe 410, the first connection port 420 is connected with a vacuum pump through a pipeline, the inner cavity of the vacuum pipe 410 is vacuumized through the vacuum pump, the installation holes 530 are arranged on the circumferential outer side wall of the vacuum pipe 410 through bearings, the connection blocks 520 are installed on the circumferential outer side wall of the vacuum pipe 410 through the installation holes 530, the number of the connection blocks 520 is two, the connection blocks are distributed on two sides of the second connection port 430, the installation plates 510 are arranged in a hollow manner, the inner cavity of the third connection port 540 is communicated with the inner cavity of the installation plate 510, the third connection port 540 is connected with the second connection port 430 through a pipeline, the vacuum pump mounting plate 510 is capable of vacuumizing through the inner cavity of the vacuum pump mounting plate 510, the mounting plate 510 is arranged between the vacuum pipeline 410 and the driving shaft 220, the suction disc 550 is uniformly arranged on one side of the mounting plate 510 facing the driving shaft 220 in a rectangular shape, the inner cavity of the suction disc 550 is communicated with the inner cavity of the mounting plate 510, the quantity of the suction disc 550 is the same as the data of eggs on the tray, and the positions are corresponding, when the vacuum pump mounting plate is particularly used, the tray carrying eggs is conveyed by the conveying belt to move to the mounting plate 510, the driving shaft 220 is driven to rotate by the motor 210, the mounting plate 510 is driven to move towards one side of the conveying belt by the driving shaft 220, the mounting plate 510 always keeps the posture of vertical ground under the action of gravity and moves towards one side of the conveying until the suction disc 550 contacts with the eggs, the suction disc 550 is sucked by the suction disc 550, the motor 210 drives the driving shaft 220 to reversely rotate, the mounting plate 510 is driven to move towards one side far away from the conveying belt, the suction disc 550 is moved to the upper end of the precooking pond, the vacuum pump stops working, the eggs fall on the precooking pond by the conveying belt, the eggs are finished, the egg steady working pond is not required to be manually loaded, the labor is reduced, the labor intensity is reduced, the working efficiency is improved, the spline is fixedly arranged on the inner side of the mounting plate 320 is fixedly connected with the spline groove 320 by the outer spline groove 320, and the spline groove 320 is fixedly arranged on the outer side of the spline groove 320, and the spline groove 320 is fixedly and fixedly connected with the outer side wall 340 through the spline groove 320 through the upper side wall 340 and the circumference, and the spline groove 320, and the circumference is fixedly arranged on the spline groove 320 and the circumference, and the spline groove 320 and the upper groove 320 and the circumference and the spline groove 320 and the position groove. The overturning stability of the mounting frame 310 is guaranteed;

referring to fig. 1, the driving case assembly 100 further includes a cover 120 disposed on a sidewall of the driving case 110 and disposed at an outer side of the motor 210, and in order to protect the motor 210, the present utility model further provides the cover 120, wherein the cover 120 is detachably mounted on the driving case 110 at a side far from the mounting frame assembly 300 through bolts, the cover 120 covers an outer side of the motor 210, the motor 210 is effectively protected through the cover 120, and meanwhile, the aesthetic property of the apparatus can be increased through the cover 120;

referring to fig. 1 and 6, a supporting table assembly 600 is arranged at the bottom of a driving box 110, the supporting table assembly 600 comprises a supporting table 610 and a first telescopic mechanism 620 arranged at four corners of the top inside the supporting table 610, telescopic components on the first telescopic mechanism 620 penetrate through the top of the supporting table 610 and are connected with the bottom of the driving box 110, in order to adapt to precooking ponds with different heights, the supporting table assembly 600 is also arranged, the supporting table 610 is arranged on the ground, in order to improve the stability of the placement of the supporting table 610, the supporting table 610 can be fixed on the ground through expansion bolts, and can be arranged on the ground according to production requirements, the supporting table 610 is composed of a plate surface and four supporting legs, reinforcing ribs are arranged between the four supporting legs, so that the placement stability of the supporting table 610 is improved, the first telescopic mechanism 620 can be detachably arranged at the four corners of the plate surface through bolts, the telescopic components on the first telescopic mechanism 620 penetrate through the top of the plate surface, the first telescopic mechanism 620 comprises but is not limited by cylinders, hydraulic cylinders and electric push rods, preferably, the driving box 110 can be detachably arranged on the ground through bolts, in order to improve the stability of the supporting box 610 placed on the supporting table 610, and can be adjusted to be vertical to the driving box 110 along the height through the height of the driving box 110, and can be adjusted along the direction of the height of the driving box 110;

referring to fig. 1, fig. 3 and fig. 7, the top of the installation frame 310 is provided with a second telescopic mechanism 700, a telescopic component on the second telescopic mechanism 700 is connected with the top of the bearing seat 311, in order to enable equipment to be further suitable for precooking ponds with different heights, the utility model also provides the second telescopic mechanism 700, in order to facilitate installation of the second telescopic mechanism 700, on the basis of the original installation frame 310, a cover plate is arranged on the top of the installation frame 310, as shown in fig. 7, the second telescopic mechanism 700 is detachably installed on the top of the cover plate through bolts, the telescopic component on the second telescopic mechanism 700 penetrates through the cover plate and is arranged in an inner cavity of the installation frame 310, the second telescopic mechanism 700 comprises a cylinder, a hydraulic cylinder and an electric push rod, preferably the hydraulic cylinder, the bearing seat 311 is installed on the telescopic component of the second telescopic mechanism 700 through threaded connection, in particular, a threaded hole is formed in the top of the original bearing seat 311, external threads are formed in the circumferential outer side wall of the telescopic component of the second telescopic mechanism 700, the external threads are matched with the threaded hole, the bearing seat 311 is installed on the top of the second telescopic mechanism through threaded connection, the telescopic mechanism 700 is installed on the telescopic mechanism through the part of the bearing seat 311, the telescopic mechanism 311 is installed on the inner cavity of the second telescopic mechanism through the sliding mechanism 311, the telescopic mechanism is further suitable for being moved to the inner cavity of the installation frame 700 along the inner cavity of the installation frame 700, and the vacuum adjustment device is further suitable for being adjusted to the vacuum adjustment of the installation frame 700, and the vacuum pipeline is further suitable for being adjusted to the vacuum pipeline of the installation frame 700, and the vacuum pipeline is further high-level of the installation frame is further suitable for being adjusted to the installation frame 700, and the vacuum pipeline is further high to be the vacuum condition is further flexible and has the vacuum condition can be adjusted.

Although the utility model has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the features of the disclosed embodiments may be combined with each other in any manner so long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of brevity and resource saving. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (5)

1. An automatic egg feeding machine which is characterized in that: comprising the following steps:

a drive box assembly (100), the drive box assembly (100) comprising a drive box (110);

the driving mechanism (200) comprises a motor (210) arranged in the inner cavity of the driving box (110) and a driving shaft (220) arranged on the output shaft of the motor (210) and penetrating through the driving box (110);

the mounting frame assembly (300), the mounting frame assembly (300) comprises a mounting frame (310) arranged on the circumferential outer side wall of the driving shaft (220), an upper fixing groove (320) arranged at the end part of the mounting frame (310) and connected with the driving shaft (220), a fixing block (330) arranged on the circumferential outer side wall of the driving shaft (220) and connected with the mounting frame (310), and a lower fixing groove (340) arranged at the end part of the fixing block (330) and connected with the driving shaft (220), wherein a bearing seat (311) is arranged in the inner cavity of the mounting frame (310);

the vacuum pipeline assembly (400) comprises a vacuum pipeline (410) arranged on the mounting frame (310) through a bearing seat (311), a first connecting port (420) arranged at the middle position of the circumferential outer side wall of the vacuum pipeline (410) and second connecting ports (430) symmetrically arranged on the circumferential outer side wall of the vacuum pipeline (410) and distributed on two sides of the first connecting port (420);

grabbing device (500), grabbing device (500) are in including mounting panel (510), symmetry setting connecting block (520) at mounting panel (510) top, seting up connecting block (520) lateral wall runs through another lateral wall of connecting block (520) and set up mounting hole (530) on vacuum pipe (410) circumference lateral wall, set up mounting panel (510) top and with third connecting port (540) that mounting panel (510) inner chamber link up and be the rectangle setting mounting panel (510) bottom and with sucking disc (550) that mounting panel (510) inner chamber link up mutually, third connecting port (540) pass through the pipeline with second connecting port (430) are connected.

2. An automatic egg feeding machine as in claim 1 wherein: the drive case assembly (100) further includes a cover (120) disposed on a sidewall of the drive case (110) and disposed outside of the motor (210).

3. An automatic egg feeding machine as in claim 2 wherein: the bottom of the driving box (110) is provided with a supporting table assembly (600).

4. An automatic egg laying machine as in claim 3 wherein: the supporting table assembly (600) comprises a supporting table (610) and first telescopic mechanisms (620) arranged at four corners of the top of the inner side of the supporting table (610), and telescopic components on the first telescopic mechanisms (620) penetrate through the top of the supporting table (610) and are connected with the bottom of the driving box (110).

5. An automatic egg laying machine as in claim 4 wherein: the top of mounting bracket (310) is provided with second telescopic machanism (700), the flexible part on second telescopic machanism (700) is connected with the top of bearing frame (311).