CN211519981U

CN211519981U - Egg transfer device for conveying line

Info

Publication number: CN211519981U
Application number: CN201921875638.4U
Authority: CN
Inventors: 黄杏彪; 周晓华
Original assignee: Guangzhou Guangxing Kyowa Machinery Co ltd
Current assignee: Guangzhou Guangxing Kyowa Machinery Co ltd
Priority date: 2019-10-31
Filing date: 2019-10-31
Publication date: 2020-09-18
Anticipated expiration: 2029-10-31

Abstract

The utility model discloses an egg transfer device for conveying lines, which comprises a connecting square shaft, a plurality of transfer structures arranged on one side of the connecting square shaft and a chain wheel component correspondingly arranged on the other side of the transfer structures on the connecting square shaft, wherein the transfer structures are connected with the chain wheel component through bearings; the elevating mechanism comprises a crank arm connected with a chain wheel assembly, a sliding block rotatably mounted on the crank arm, a cam rotatably arranged on a connecting square shaft, a shaft bracket connected with the cam and the sliding block, and a transfer claw mounted on the shaft bracket, wherein the sliding block is not connected with a bearing, the chain wheel assembly rotates to drive the crank arm to rotate, and the crank arm drives the sliding block to rotate to drive the cam to swing around a hinged shaft in a reciprocating mode so as to realize the action switching of the transfer claw in a horizontal state and an inclined state. This scheme makes the structure of reprinting carry out reciprocal swing in order to realize reprinting the egg on the conveyer belt one by one and change 90 to next conveyor through foretell design, provides work efficiency when guaranteeing the stable transportation of egg, and degree of automation is higher.

Description

Egg transfer device for conveying line

Technical Field

The utility model belongs to the equipment accessory field of egg transfer chain, concretely relates to egg transfer chain device.

Background

The egg conveying line conveys eggs out of the egg box, and the eggs are classified according to the weight of the eggs after a plurality of procedures of cleaning, air drying, oil spraying preservation, disinfection and the like, and finally enter different assembly lines for packaging and shipment.

The hierarchical equipment for packing of weighing of egg of present market has had very ripe technique at home and abroad, wherein the transfer chain carries out the in-process of categorised packing at last and need weigh the egg, then carry the egg of categorised to the baling line that corresponds weight and pack, wherein the transfer chain can carry out preceding a plurality of processes with large batch egg, and nevertheless when needing to carry out hou mian weighing differentiation, need weigh the egg one by one and just can ensure that every egg can be accurate categorised to the baling line that corresponds in, need to have a device to this on the transfer line of single egg with the egg of the previous batch that has gone on processing in earlier stage.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an egg conveying line transfer device, which comprises a connecting square shaft, a plurality of transfer structures arranged on one side of the connecting square shaft and a chain wheel component correspondingly arranged on the other side of the transfer structures on the connecting square shaft, wherein the transfer structures are connected with the chain wheel component through bearings; the elevating mechanism comprises a crank arm connected with a chain wheel assembly, a sliding block rotatably mounted on the crank arm, a cam rotatably arranged on a connecting square shaft and located on the same side of the crank arm, a shaft bracket connected with the cam and the sliding block, and a transfer claw mounted on the shaft bracket and used for bearing eggs, wherein the sliding block is not connected with a bearing, the chain wheel assembly rotates to drive the crank arm to rotate, and the crank arm drives the sliding block to rotate to drive the cam to swing around a hinged shaft in a reciprocating mode so as to realize the action switching of the transfer claw in a horizontal state and an inclined state. This scheme makes the structure of reprinting carry out reciprocal swing in order to realize reprinting the egg on the conveyer belt one by one and change 90 to next conveyor through foretell design, provides work efficiency when guaranteeing the stable transportation of egg, and degree of automation is higher.

The purpose of the utility model is realized by adopting the following technical scheme:

the egg conveying line transshipment device comprises a connecting square shaft, a plurality of transshipment structures arranged on one side of the connecting square shaft and a chain wheel assembly correspondingly arranged on the other side of the connecting square shaft opposite to the transshipment structures, wherein the transshipment structures are connected with the chain wheel assembly through bearings;

the structure of reprinting include with crank arm, rotatable installation that sprocket assembly connects slider on the crank arm, rotationally set up in connect the square shaft and be located the crank arm is with the cam of one side, connection the pedestal of cam and slider and install in just be used for bearing the reprinting claw of egg on the pedestal, the slider not with the bearing is connected, sprocket assembly rotates and drives the crank arm rotates, the crank arm drives the slider rotates and orders about the cam is in order to realize round the reciprocal swing of articulated shaft reprinting claw at horizontality and tilt state's action switches.

Further, the transfer claw is a C-shaped piece, and eggs roll down to a next device from an opening of the C-shaped piece.

Furthermore, the inner wall of the transfer claw is provided with an inclined surface attached to the outer wall of the egg.

Furthermore, the egg conveying line transshipment device also comprises a sliding pipe used for enabling the plurality of transshipment structures to synchronously operate, and the sliding pipe is connected with the sliding blocks of the plurality of transshipment structures.

Further, a cam rotor assembly is further arranged on the connecting shaft of the shaft bracket and the cam.

Furthermore, the sliding block is connected with the shaft bracket through a first spring, the cam is connected with the shaft bracket through a second spring, and the first spring and the second spring are diagonally arranged on the shaft bracket.

Further, the sliding block is made of a nylon material.

Furthermore, the sprocket assembly includes a plurality of sprockets that correspond one by one the structure setting of reprinting, tightly around a plurality of the chain of sprocket and drive chain pivoted power device, the sprocket pass through the bearing with the crank arm is connected.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses an egg transfer device for conveying lines, which comprises a connecting square shaft, a plurality of transfer structures arranged on one side of the connecting square shaft and a chain wheel component correspondingly arranged on the other side of the transfer structures on the connecting square shaft, wherein the transfer structures are connected with the chain wheel component through bearings; the elevating mechanism comprises a crank arm connected with a chain wheel assembly, a sliding block rotatably mounted on the crank arm, a cam rotatably arranged on a connecting square shaft and located on the same side of the crank arm, a shaft bracket connected with the cam and the sliding block, and a transfer claw mounted on the shaft bracket and used for bearing eggs, wherein the sliding block is not connected with a bearing, the chain wheel assembly rotates to drive the crank arm to rotate, and the crank arm drives the sliding block to rotate to drive the cam to swing around a hinged shaft in a reciprocating mode so as to realize the action switching of the transfer claw in a horizontal state and an inclined state. This scheme makes the structure of reprinting carry out reciprocal swing in order to realize reprinting the egg on the conveyer belt one by one and change 90 to next conveyor through foretell design, provides work efficiency when guaranteeing the stable transportation of egg, and degree of automation is higher.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of the transfer device for the egg conveying line of the present invention;

fig. 2 is a schematic structural view of a preferred embodiment of the transfer structure of the present invention.

In the figure: 1. an egg conveying line transfer device; 2. connecting a square shaft; 3. a transfer structure; 31. a crank arm; 32. a slider; 33. a cam; 34. a pedestal; 35. a transfer claw; 36. a cam rotor assembly; 4. a sprocket; 5. and (4) sliding the tube.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The transfer device 1 of the egg conveying line of the utility model is shown in fig. 1-2, and comprises a connecting square shaft 2, a plurality of transfer structures 3 arranged on one side of the connecting square shaft 2 and a chain wheel 4 component correspondingly arranged on the other side of the transfer structures 3 on the connecting square shaft 2, wherein the transfer structures 3 are connected with the chain wheel 4 component through bearings; the transferring structure 3 comprises a crank arm 31 connected with the chain wheel 4, a sliding block 32 rotatably mounted on the crank arm 31, a cam 33 rotatably arranged on the connecting square shaft 2 and located on the same side of the crank arm 31, a shaft bracket 34 connecting the cam 33 and the sliding block 32, and a transferring claw 35 mounted on the shaft bracket 34 and used for bearing eggs, wherein the sliding block 32 is not connected with a bearing, the chain wheel 4 rotates to drive the crank arm 31 to rotate, and the crank arm 31 drives the sliding block 32 to rotate to drive the cam 33 to swing around a hinge shaft in a reciprocating mode so as to realize the action switching of the transferring claw 35 in a horizontal state and an inclined state. This scheme makes the structure 3 of reprinting carry out reciprocal swing in order to realize reprinting the egg on the conveyer belt one by one and change 90 to next conveyor through foretell design, provides work efficiency when guaranteeing the stable transportation of egg, and degree of automation is higher.

Meanwhile, the egg conveying line transfer device 1 further comprises a sliding pipe 5 used for enabling the transfer structures 3 to synchronously operate, the sliding pipe 5 is connected with the sliding blocks 32 of all the transfer structures 3, the operation of all the transfer structures 3 is consistent and uniform when all the chain wheel 4 devices operate, the occurrence of errors is reduced, and meanwhile, the transfer structures 3 are also guaranteed to enable the positions of eggs falling to correspond to the devices above and below.

The transfer claw 35 in this embodiment is a C-shaped member, and the inner wall of the transfer claw 35 is provided with an inclined surface that fits the outer wall of the egg. Eggs fall into transshipment claw 35 from the conveyer belt of front end one by one, through foretell inclined plane design, make the egg fall down the back, the bottom is absorbed in C type spare in and the outer wall also just with the inner wall laminating of C type spare, can be stable place on transshipment claw 35, prevent that the egg from taking place the skew swing, simultaneously along with 3 swings of transshipment structure realize rolling the egg from the opening part of C type spare to next device.

The connecting shaft of the shaft bracket 34 and the cam 33 in this embodiment is further provided with a cam rotor assembly 36, when the egg conveying device 1 is in no-load (i.e. no egg conveying operation), the cam rotor assembly 36 is located at the highest point, the transferring claw 35 is in a horizontal state, and is in an open state at this time, eggs can fall onto the transferring claw 35 from an upper conveying belt, when the eggs fall onto the transferring claw 35, the cam rotor assembly 36 is acted by the crank arm 31, as the chain wheel 4 continues to rotate under the driving of the chain, the cam rotor assembly 36 is in a closed state, as the crank arm 31 rotates, the transferring claw 35 is in a horizontal state and is in an inclined state, and the cam rotor assembly 36 is also acted by the cam 33, the closed state is transited to the open state, at this time, the eggs accurately fall onto the lower device from the transferring claw 35, and finally, as the crank arm 31 rotates, the cam rotor assembly 36 returns to the initial highest position and the transfer claw 35 returns to the horizontal position, so that the egg transfer operation is completed once, and then the process is repeated to transfer each egg.

In this embodiment, the slider 32 is connected to the shaft bracket 34 through a first spring, the cam 33 is connected to the shaft bracket 34 through a second spring, and the first spring and the second spring are diagonally disposed on the shaft bracket 34. Because the slide block 32 and the cam 33 are fixed on the shaft bracket 34, one end of the cam 33 is abutted against the slide block 32, when the slide block 32 rotates along with the crank arm 31, the shaft bracket 34 and the cam 33 are driven to swing along with the slide block, and at the moment, the eggs placed on the transferring claw 35 fall into the next device in an inclined state due to the self weight. Wherein slider 32 adopts the nylon materials to make, because slider 32 upper end is in the contact of cam 33 always, can receive long-time friction and damage at the in-process of many times pivoted, through adopting wear-resisting nylon materials, can guarantee that slider 32's practical life is longer, and can not lead to the operation of the bad influence reprinting device of tilting effect because of slider 32 wearing and tearing warp.

The chain wheel 4 assembly in this embodiment includes a plurality of chain wheels 4 that correspond reprinting structure 3 setting one by one, tightly around the chain of a plurality of chain wheels 4 and drive chain pivoted power device, and chain wheel 4 passes through the bearing and is connected with crank arm 31. The chain is driven to rotate through the power device, each chain wheel 4 rotates synchronously, each corresponding transfer structure 3 also moves synchronously, the consistency of the whole operation is guaranteed, errors are reduced, and the transfer device can be aligned with a device below the transfer device.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims

1. Egg transfer line device, its characterized in that: the chain wheel assembly is arranged on the other side of the connecting square shaft opposite to the transferring structure correspondingly, and the transferring structure is connected with the chain wheel assembly through a bearing;

2. The egg transfer device of claim 1, wherein: the transfer claw is a C-shaped part, and eggs roll down to a next device from an opening of the C-shaped part.

3. The egg transfer device of claim 1, wherein: the inner wall of the transfer claw is provided with an inclined plane attached to the outer wall of the egg.

4. The egg transfer device of claim 1, wherein: the egg conveying line transshipment device further comprises a sliding pipe used for enabling the transshipment structures to synchronously operate, and the sliding pipe is connected with the sliding blocks of the transshipment structures.

5. The egg transfer device of claim 1, wherein: and a cam rotor component is also arranged on the connecting shaft of the shaft bracket and the cam.

6. The egg transfer device of claim 1, wherein: the sliding block is connected with the shaft bracket through a first spring, the cam is connected with the shaft bracket through a second spring, and the first spring and the second spring are arranged on the shaft bracket in a diagonal manner.

7. The egg transfer device of claim 1, wherein: the sliding block is made of nylon materials.

8. The egg transfer device of claim 1, wherein: the sprocket assembly comprises a plurality of sprockets which correspond to the reprinting structure one by one, chains which tightly surround the sprockets and a power device which drives the chains to rotate, and the sprockets are connected with the crank arms through the bearings.