CN212393590U - Weight-free egg collecting line telescopic structure - Google Patents

Abstract

The utility model provides a no weight egg gathering line extending structure has solved and has needed many people to adjust the height of egg gathering line one end or remove whole egg gathering line, and the process is comparatively troublesome, can supply the less problem in space that it removed. Including the base, install flexible shell on the base, the left end fixed mounting of flexible shell goes out egg collection egg line, and the right-hand member of flexible shell slides has flexible egg collection line, and the right-hand member of flexible egg collection egg line rotates and has slope egg collection egg line, and the right-hand member of slope egg collection egg line rotates and has into egg collection egg line, goes out egg collection egg line, flexible egg collection egg line, slope egg collection egg line and advances to connect through the conveyer belt between the egg collection egg line. The utility model discloses a four-bar motion principle, when the height of entering egg collection egg line is adjusted, flexible egg collection egg line can stretch out and draw back in flexible shell, makes the distance between slip direction sprocket and the drive sprocket grow long or shorten for drive chain can be in the state of tensioning all the time, can not appear overlength or the condition of short excessively because of the flexible of flexible egg collection egg line, has very strong practicality.

Description

Weight-free egg collecting line telescopic structure

Technical Field

The utility model relates to a livestock-raising equipment technical field specifically is a no weight egg gathering line extending structure.

Background

With the development of society, animal husbandry is the most active leading industry in rural economy in China and plays an important role in social development, in the existing livestock and poultry breeding industry, particularly for the breeding of laying hens, most of the livestock and poultry breeding industry adopts a cage breeding mode, the single cage breeding of poultry adopts an artificial insemination technology, the breeding density is improved, and high and stable fertility rate can be obtained.

After the egg collecting line collects eggs produced by one layer of the breeding cage, if eggs on other layers need to be collected, a plurality of people are required to operate to adjust the height of one end of the egg collecting line installed on the breeding cage or move the whole egg collecting line, the process is troublesome, and the egg collecting line is located indoors and small in space for moving.

Therefore, the utility model provides a heavy hammer-free egg collecting line telescopic structure to solve the problem.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a no weight egg collection line extending structure, the effectual egg collection line of having solved has collected after wherein the egg that the cage produced is bred to the one deck, if need collect the egg on other layers, then need many people to operate and adjust the height or the whole egg collection line of removal of the one end that the egg collection line was installed on breeding the cage, and the process is comparatively troublesome, and the egg collection line is in indoorly, can supply the less problem in space that it removed.

The utility model provides a no weight egg collection line extending structure, includes the base, fixed mounting has the top and controls the equal open-ended flexible shell in both ends on the base, a serial communication port, the left end fixed mounting of flexible shell goes out egg collection egg line, the inside slidable mounting of right-hand member of flexible shell has flexible egg collection line, the right-hand member of flexible egg collection line rotates and is connected with slope egg collection line, the right-hand member of slope egg collection line rotates and is connected with into egg collection egg line, slide mounting is perpendicular on the side of breeding the cage and with the side of breeding the cage about the right-hand member of entering egg collection egg line, go out egg collection egg line, flexible egg collection line, slope egg collection line and advance to connect through the conveyer belt between the egg collection egg line.

Preferably, the egg outlet and collecting line comprises two egg outlet side plates, the right ends of the two egg outlet side plates are fixedly arranged on the front inner wall and the rear inner wall of the telescopic shell, and egg outlet chain wheels are fixedly connected to the opposite surfaces of the left ends of the two egg outlet side plates;

the telescopic egg collecting line comprises two telescopic side plates which are slidably mounted on the front inner wall and the rear inner wall of a telescopic shell, and sliding guide chain wheels are rotatably mounted at the left ends of the two telescopic side plates;

the slope egg collecting line comprises two slope side plates, the left ends of the slope side plates are rotatably connected with the right ends of the two telescopic side plates, and left slope chain wheels are rotatably mounted at the hinged positions of the two slope side plates and the two telescopic side plates;

advance egg collection line, including two left ends and two slope curb plates rotate the egg curb plate that advances of being connected, two the left end of advancing the egg curb plate all rotates with the articulated department of two slope curb plates and installs right slope sprocket, two the one side that the right end of advancing the egg curb plate opposes all rotates installs into egg sprocket.

Preferably, first steering sprockets positioned on the right sides of the two egg outlet side plates are rotatably mounted on the front inner wall and the rear inner wall of the telescopic shell, second steering sprockets positioned below the two egg outlet side plates are rotatably mounted on the front inner wall and the rear inner wall of the telescopic shell, and driving sprockets positioned below the two telescopic side plates are rotatably mounted on the front inner wall and the rear inner wall of the telescopic shell;

the right-hand member fixed mounting of flexible egg collection line has first connecting plate, the left end of slope egg collection line is rotated and is installed the right-hand member at first connecting plate, the left end fixed mounting who advances egg collection line has the second connecting plate, the right-hand member of slope egg collection line is rotated and is installed the left end at the second connecting plate.

Preferably, the first connecting plate is rotatably provided with two transition chain wheels which are positioned at the upper side and the lower side of the left slope chain wheel and the axes of which are aligned up and down;

and two transition chain wheels which are positioned on the upper side and the lower side of the right slope chain wheel and are aligned with each other up and down in axis are rotatably arranged on the second connecting plate.

Preferably, horizontal chutes are formed in the front inner wall and the rear inner wall of the telescopic shell, and two sliding blocks located in the chutes are fixedly mounted on one surfaces of the front inner wall and the rear inner wall of the telescopic side plates facing the telescopic shell respectively.

Preferably, conveying chains are respectively arranged among the egg outlet chain wheel, the first steering chain wheel, the second steering chain wheel, the driving chain wheel, the sliding guide chain wheel, the left slope chain wheel, the right slope chain wheel and the egg inlet chain wheel on each side, and a conveying belt is arranged between the two conveying chains.

Preferably, the conveyor belt is composed of a plurality of conveyor rods fixed between two conveyor chains at equal intervals.

Preferably, the drive sprocket coaxial arrangement has the drive sprocket who is located telescopic shell front side, fixed mounting has driving motor on the base, coaxial drive sprocket that is fixed with in driving motor's the axis of rotation, install drive chain between drive sprocket and the drive sprocket.

The utility model has the advantages that:

1. by the four-bar motion principle, when the height of the egg-in egg-collecting line is adjusted, the telescopic egg-collecting line can be stretched in the telescopic shell, so that the distance between the sliding guide chain wheel and the driving chain wheel is lengthened or shortened, but the height distance between the egg-in egg-collecting line and the telescopic egg-collecting line is also lengthened or shortened, so that the transmission chain can be always in a tensioned state, the condition of overlong or overlong short caused by the stretching of the telescopic egg-collecting line is avoided, and the four-bar motion egg-collecting line has strong practicability;

2. the conveying belt consisting of a plurality of transmission rods which are distributed at equal intervals and fixed between two transmission chains is adopted, so that eggs can stably pass through a slope egg collecting line and are conveyed to an egg outlet egg collecting line;

the utility model relates to a thinking is clear, simple structure, and convenient operation provides huge facility for the livestock breeding industry.

Drawings

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

Fig. 2 is a schematic sectional plane view of the telescopic egg collecting line of the present invention in a non-stretching state.

Fig. 3 is a schematic sectional plane view of the extended state of the telescopic egg collecting line of the present invention.

Fig. 4 is a schematic plan view of the first and second steering sprockets of the present invention.

Fig. 5 is a schematic plan view of the slide guide sprocket of the present invention.

Fig. 6 is a schematic plan view of the first connecting plate according to the present invention.

Fig. 7 is a schematic plan view of the second connection plate according to the present invention.

Fig. 8 is a perspective view of the driving motor of the present invention.

Fig. 9 is a perspective view of the conveyor belt of the present invention.

Detailed Description

The foregoing and other technical matters, features and effects of the present invention will be apparent from the following detailed description of the embodiments with reference to the accompanying drawings in which reference is made to the accompanying drawings, and the structural matters in the embodiments are described below.

Exemplary embodiments of the present invention will be described below with reference to fig. 1 to 9.

The utility model provides a weight-free egg collecting line telescopic structure, which comprises a base 1, wherein the base 1 is placed on or installed on the bottom surface, the base 1 provides a fixed foundation for the subsequent structure, the base 1 is fixedly provided with a telescopic shell 2 with an opening at the top and left and right ends, the telescopic shell can be fixed by bolts or by other common fixing methods such as welding, and is characterized in that the left end of the telescopic shell 2 is fixedly provided with an egg collecting line 3, the egg collecting line 3 can be fixedly connected by bolts and is installed in parallel with the bottom surface of the telescopic shell 2, the telescopic egg collecting line 4 is slidably installed inside the right end of the telescopic shell 2, the telescopic egg collecting line 4 can slide left and right in the telescopic shell 2, the telescopic egg collecting line 4 is always parallel with the ground, when the telescopic egg collecting line 4 slides out of the telescopic shell 2 to the right, the distance between the egg outlet egg collecting line 3 and the telescopic egg collecting line 4 is lengthened, the right end of the telescopic egg collecting line 4 is rotatably connected with a slope egg collecting line 5, the slope egg collecting line 5 can swing up and down at the right end of the telescopic egg collecting line 4, the right end of the slope egg collecting line 5 is rotatably connected with an egg inlet egg collecting line 6, the right end of the egg inlet egg collecting line 6 is vertically and slidably mounted on the side surface of the breeding cage and is vertical to the side surface of the breeding cage, the right end of the egg inlet egg collecting line 6 can vertically and slidably fixed on the side surface of one of the breeding cages, the right end of the slope egg collecting line 5 is driven to move upwards when the egg inlet egg collecting line 6 slides upwards and downwards, the egg outlet egg collecting line 3, the telescopic egg collecting line 4, the slope egg collecting line 5 and the egg inlet egg collecting line 6 are connected through a conveyor belt 7, and when the egg inlet egg collecting line 6 slides upwards, the right end of the slope egg collecting line 5 is driven to move upwards, so that the angle between the slope egg collecting line 5 and the egg inlet, so that the left end of the slope egg collecting line 5 slides to the right in the telescopic shell 2, and the conveyor belt 7 is still in a tensioning state under the action of the subsequent section and continues to transmit;

when entering egg collection line 6 and sliding down, drive the right-hand member of slope egg collection line 5 and move down for the angle grow between slope egg collection line 5 and the egg collection line 6 that advances, thereby make the left end of slope egg collection line 5 slide to the left in flexible shell 2, and conveyer belt 7 is still in the tensioning state and continues the transmission under the effect of follow-up structure.

In the second embodiment, on the basis of the first embodiment, the egg outlet and collection line 3 comprises two egg outlet side plates 8, the right ends of which are fixedly mounted on the front and rear inner walls of the telescopic shell 2, egg outlet chain wheels 9 are fixedly connected to the faces, opposite to the left ends, of the two egg outlet side plates 8, the two egg outlet side plates 8 are mounted on the front and rear inner walls of the telescopic shell 2 through bolts, the two egg outlet chain wheels 9 can be synchronously connected through a connecting shaft, and each chain tooth of the two egg outlet chain wheels 9 is mounted during mounting so as to synchronously rotate when the two egg outlet chain wheels rotate;

the telescopic egg collecting line 4 comprises two telescopic side plates 10 which are slidably mounted on the front inner wall and the rear inner wall of the telescopic shell 2, sliding guide chain wheels 11 are rotatably mounted at the left ends of the two telescopic side plates 10, the two telescopic side plates 10 can slide left and right on the front inner wall and the rear inner wall of the telescopic shell 2 respectively, the two telescopic side plates 10 can drive the two sliding guide chain wheels 11 to slide left and right respectively when sliding left and right, the two sliding guide chain wheels 11 can be synchronously connected through a connecting shaft, and each chain tooth of the two sliding guide chain wheels 11 is required to be aligned with the connecting shaft when mounting, so that the two sliding guide chain wheels can synchronously rotate when rotating;

the slope egg collecting line 5 comprises two slope side plates 12, the left ends of the slope side plates 12 are rotatably connected with the right ends of the two telescopic side plates 10, left slope chain wheels 13 are rotatably mounted at the hinged positions of the two slope side plates 12 and the two telescopic side plates 10, the two slope side plates 12 can swing up and down at the right ends of the corresponding telescopic side plates 10 respectively, the two slope side plates 12 can be synchronously connected through connecting rods, so that the two slope side plates can swing up and down simultaneously, the left slope chain wheels 13 can rotate at the hinged positions of the slope side plates 12 and the telescopic side plates 10, the two left slope chain wheels 13 can be synchronously connected through connecting shafts, and each chain tooth of the two left slope chain wheels 13 is aligned with each other during installation, so that the two slope chain wheels can synchronously rotate when;

the egg feeding and collecting line 6 comprises two egg feeding side plates 14 with left ends rotatably connected with two slope side plates 12, right slope chain wheels 15 are rotatably mounted at the hinged positions of the left ends of the two egg feeding side plates 14 and the two slope side plates 12, egg feeding chain wheels 16 are rotatably mounted at the opposite sides of the right ends of the two egg feeding side plates 14, the two egg feeding side plates 14 can swing at the right ends of the corresponding slope side plates 12 respectively, the two egg feeding side plates 14 are synchronously connected through connecting rods to enable the two egg feeding side plates to move synchronously, the right ends of the two egg feeding side plates 14 are slidably mounted on the side surfaces of the breeding cage respectively, sliding rails can be mounted on the side surfaces of the breeding cage, pulleys are mounted at the right ends of the two egg feeding side plates 14, and fixed positioning devices, such as bolts, are mounted at the heights of the egg belts of the breeding cage on each layer, bolt holes are formed at the corresponding positions of the breeding cage and the two egg feeding side plates 14, make two advance egg curb plate 14 and can make it and breed cage fixed connection through the bolt when reaching the height of egg area, two accessible even axle synchronous connection between the right side slope sprocket 15, every sprocket of the two all to it during the installation, makes it rotate in step, two it also can be through even axle synchronous connection between the egg sprocket 16 to advance, every sprocket of the two all to it during the installation, makes it rotate in step, when two advance egg curb plate 14 and when upwards sliding, two the right-hand member of slope curb plate 12 also upwards removes, the left end of two slope curb plates 12 will drive two slip guide sprocket 11 in telescopic housing 2 and slide to the right side this moment.

In the third embodiment, on the basis of the second embodiment, first steering sprockets 17 positioned on the right sides of the two egg outlet side plates 8 are rotatably mounted on the front inner wall and the rear inner wall of the telescopic shell 2, the two first steering sprockets 17 are synchronously connected through a connecting shaft, so that each sprocket of the two first steering sprockets faces the first steering sprocket, second steering sprockets 18 positioned below the two egg outlet side plates 8 are rotatably mounted on the front inner wall and the rear inner wall of the telescopic shell 2, the two second steering sprockets 18 are synchronously connected through a connecting shaft, so that each sprocket of the two second steering sprockets faces the second steering sprocket, driving sprockets 19 positioned below the two telescopic side plates 10 are rotatably mounted on the front inner wall and the rear inner wall of the telescopic shell 2, and the two driving sprockets 19 are also synchronously connected through a connecting shaft, so that each sprocket of the two driving gears faces the first steering sprockets;

a first connecting plate 20 is fixedly installed at the right end of the telescopic egg collecting line 4, the right ends of the two telescopic side plates 10 are fixedly connected with the first connecting plates 20 respectively, the telescopic egg collecting line can be fixedly connected through bolts, the left end of the slope egg collecting line 5 is rotatably installed at the right end of the first connecting plate 20, the left ends of the two slope side plates 12 are rotatably connected with the corresponding first connecting plates 20 respectively, and the two left slope chain wheels 13 can rotate at the hinged positions of the two first connecting plates 20 and the two slope side plates 12;

advance the left end fixed mounting of egg album egg line 6 has second connecting plate 21, two the left end of advancing egg curb plate 14 is the first connecting plate 20 of fixedly connected with respectively, accessible bolt fixed connection here, the right-hand member of slope album egg line 5 rotates the left end of installing at second connecting plate 21, two the right-hand member of slope curb plate 12 rotates in the second connecting plate 21 that corresponds respectively and connects, two right side slope sprocket 15 can be two second connecting plate 21 and two the articulated department of slope curb plate 12 rotates.

In the fourth embodiment, on the basis of the third embodiment, two first transition sprockets 22 which are positioned at the upper side and the lower side of the left slope sprocket 13 and have axes aligned up and down are rotatably mounted on the first connecting plate 20, and the two first transition sprockets 22 can respectively rotate on the first connecting plate 20;

two second transition chain wheels 220 which are positioned at the upper side and the lower side of the right slope chain wheel 15 and are aligned with the axis up and down are rotatably arranged on the second connecting plate 21, and the two second transition chain wheels 220 can rotate on the second connecting plate 21 respectively.

Fifth embodiment, on the basis of fourth embodiment, all open horizontal spout 23 on the inner wall around the flexible shell 2, two on the one side of flexible curb plate 10 towards inner wall around the flexible shell 2 respectively fixed mounting have be located spout 23 in the slider, two flexible curb plate 10 can be in two spouts 23 internal side-to-side slip respectively through two sliders.

Sixth embodiment, on the basis of the fifth embodiment, a conveying chain 24 is respectively installed between the egg outlet sprocket 9, the first steering sprocket 17, the second steering sprocket 18, the driving sprocket 19, the sliding guide sprocket 11, the left slope sprocket 13, the right slope sprocket 15 and the egg inlet sprocket 16 on each side, a conveyor belt 7 is installed between the two conveying chains 24, and when the two driving sprockets 19 rotate, the two conveying chains 24 can be driven to operate on the two egg outlet sprockets 9, the first steering sprocket 17, the second steering sprocket 18, the sliding guide sprocket 11, the left slope sprocket 13, the right slope sprocket 15 and the egg inlet sprocket 16.

Seventh embodiment, on the basis of sixth embodiment, conveyer belt 7 comprises a plurality of equidistant conveying rod 25 of fixing between two conveying chains 24, and a plurality of conveying rod 25's both ends are fixed respectively on two conveying chains 24, and have certain distance before every conveying rod 25, can prevent when conveying the egg that the egg landing collides with other eggs and damages.

Eight in the embodiment, on the basis of six in the embodiment, be located on the inner wall of the front side of telescopic housing 2 drive sprocket 19 coaxial arrangement has the drive sprocket 26 that is located the front side of telescopic housing 2, drive sprocket 26 can with two drive sprocket 19 rotates in step, fixed mounting has driving motor 27 on the base 1, driving motor 27 is connected with power supply and controller, coaxial fixed with drive sprocket 28 in driving motor 27's the axis of rotation, can drive sprocket 28 and rotate when driving motor 27's axis of rotation, install drive chain 29 between drive sprocket 28 and the drive sprocket 26, drive sprocket 28 drives drive sprocket 26 through drive chain 29 when rotating and rotates to drive the operation of whole device.

The utility model discloses a theory of operation: when the two egg inlet side plates 14 slide upwards to adjust the height, the right ends of the two slope side plates 12 also move upwards, the height distance between the two egg inlet side plates 14 and the two telescopic side plates 10 is lengthened, and the lengths of the two slope side plates 12 are not changed, the left ends of the two slope side plates 12 will move to the right, thereby driving the two telescopic side plates 10 to slide rightwards, and at the same time, the distance between the right ends of the two telescopic side plates 10 and the two egg outlet side plates 8 is lengthened, so if normal transmission is needed, the length of the two conveying chains 24 also needs to be lengthened, however, at this time, the two slide guide gears 11 also slide to the right simultaneously with the two telescopic side plates 10 by the same distance, so that the distance between the two slide guide gears 11 and the two egg-discharging side plates 8 is also increased, so that the two conveying chains 24 can still be in tension on the respective sprockets and normally drive;

similarly, when the two egg-in side plates 14 slide downwards to adjust the height, the right ends of the two slope side plates 12 also move downwards, the height distance between the two egg-in side plates 14 and the two telescopic side plates 10 becomes the end, and the length of the two slope side plates 12 does not change, the left ends of the two slope side plates 12 will move leftwards, so as to drive the two telescopic side plates 10 to slide leftwards, at this time, the distance between the right ends of the two telescopic side plates 10 and the two egg-out side plates 8 becomes shorter, then if normal transmission is required, the length of the two transmission chains 24 also needs to be shorter, but at this time, the two sliding guide gears 11 also slide leftwards along with the two telescopic side plates 10 at the same time, so that the distance between the two sliding guide gears 11 and the two egg-out side plates 8 becomes shorter, so that the two transmission chains 24 can still be in a tensioned state and normally transmit on each chain wheel, the function of quickly adjusting the height of the egg collecting line is realized, and the practicability is high.

The utility model has the advantages that:

1. by the four-bar motion principle, when the height of the egg-in egg-collecting line is adjusted, the telescopic egg-collecting line can be stretched in the telescopic shell, so that the distance between the sliding guide chain wheel and the driving chain wheel is lengthened or shortened, but the height distance between the egg-in egg-collecting line and the telescopic egg-collecting line is also lengthened or shortened, so that the transmission chain can be always in a tensioned state, the condition of overlong or overlong short caused by the stretching of the telescopic egg-collecting line is avoided, and the four-bar motion egg-collecting line has strong practicability;

2. the conveying belt consisting of a plurality of transmission rods which are distributed at equal intervals and fixed between two transmission chains is adopted, so that eggs can stably pass through a slope egg collecting line and are conveyed to an egg outlet egg collecting line;

the utility model relates to a thinking is clear, simple structure, and convenient operation provides huge facility for the livestock breeding industry.

Claims (8)

1. A heavy hammer-free egg collecting line telescopic structure comprises a base (1), wherein a telescopic shell (2) with openings at the top and the left and right ends is fixedly arranged on the base (1), it is characterized in that an egg outlet and collecting line (3) is fixedly arranged at the left end of the telescopic shell (2), a telescopic egg collecting line (4) is arranged inside the right end of the telescopic shell (2) in a sliding way, the right end of the telescopic egg collecting line (4) is rotationally connected with a slope egg collecting line (5), the right end of the slope egg collecting line (5) is rotationally connected with an egg inlet egg collecting line (6), the right end of the egg inlet and collection line (6) is vertically and slidably arranged on the side surface of the breeding cage and is vertical to the side surface of the breeding cage, the egg outlet egg collecting line (3), the telescopic egg collecting line (4), the slope egg collecting line (5) and the egg inlet egg collecting line (6) are connected through a conveyor belt (7).

2. The heavy hammer-free egg collecting line telescopic structure as claimed in claim 1, wherein the egg outlet egg collecting line (3) comprises two egg outlet side plates (8) fixedly mounted on the front and rear inner walls of the telescopic housing (2) at the right ends, and egg outlet chain wheels (9) are fixedly connected to the opposite surfaces of the left ends of the two egg outlet side plates (8);

the telescopic egg collecting line (4) comprises two telescopic side plates (10) which are slidably mounted on the front inner wall and the rear inner wall of the telescopic shell (2), and sliding guide chain wheels (11) are rotatably mounted at the left ends of the two telescopic side plates (10);

the slope egg collecting line (5) comprises two slope side plates (12) with the left ends rotatably connected with the right ends of the two telescopic side plates (10), and left slope chain wheels (13) are rotatably mounted at the hinged positions of the two slope side plates (12) and the two telescopic side plates (10);

advance egg album egg line (6), including two left ends and two slope curb plates (12) rotate the egg curb plate (14) of advancing of being connected, two the left end of advancing egg curb plate (14) all rotates with the articulated department of two slope curb plates (12) and installs right slope sprocket (15), two the one side that the right end of advancing egg curb plate (14) opposes mutually all rotates installs into egg sprocket (16).

3. The weight-free egg collecting line telescopic structure as claimed in claim 2, wherein a first steering sprocket (17) positioned at the right side of the two egg outlet side plates (8) is rotatably mounted on the front and rear inner walls of the telescopic housing (2), a second steering sprocket (18) positioned below the two egg outlet side plates (8) is rotatably mounted on the front and rear inner walls of the telescopic housing (2), and a driving sprocket (19) positioned below the two telescopic side plates (10) is rotatably mounted on the front and rear inner walls of the telescopic housing (2);

the right-hand member fixed mounting of flexible egg collection line (4) has first connecting plate (20), the left end of slope egg collection line (5) rotates the right-hand member of installing at first connecting plate (20), the left end fixed mounting who advances egg collection line (6) has second connecting plate (21), the right-hand member rotation of slope egg collection line (5) is installed the left end at second connecting plate (21).

4. The weight-free egg collecting line telescopic structure as claimed in claim 3, wherein the first connecting plate (20) is rotatably provided with two first transition sprockets (22) which are located at the upper and lower sides of the left slope sprocket (13) and are axially aligned up and down;

and two second transition chain wheels (220) which are positioned at the upper side and the lower side of the right slope chain wheel (15) and are aligned up and down in the axis are rotatably arranged on the second connecting plate (21).

5. The weight-free egg collecting line telescopic structure as claimed in claim 4, wherein the front and rear inner walls of the telescopic housing (2) are both provided with a transverse sliding groove (23), and one surface of the two telescopic side plates (10) facing the front and rear inner walls of the telescopic housing (2) is respectively fixedly provided with a sliding block positioned in the sliding groove (23).

6. The weight-free egg collecting line telescopic structure as claimed in claim 5, wherein conveying chains (24) are respectively installed between the egg outlet chain wheel (9), the first steering chain wheel (17), the second steering chain wheel (18), the driving chain wheel (19), the sliding guide chain wheel (11), the left slope chain wheel (13), the right slope chain wheel (15) and the egg inlet chain wheel (16) on each side, and a conveying belt (7) is installed between the two conveying chains (24).

7. The weight-free egg collecting line telescopic structure as claimed in claim 6, wherein the conveyor belt (7) is composed of a plurality of conveyor rods (25) fixed between two conveyor chains (24) at equal intervals.

8. The weight-free egg collecting line telescopic structure as claimed in claim 6, wherein the driving sprocket (19) on the inner wall of the front side of the telescopic housing (2) is coaxially installed with a driving sprocket (26) on the front side of the telescopic housing (2), the base (1) is fixedly installed with a driving motor (27), the rotating shaft of the driving motor (27) is coaxially fixed with a driving sprocket (28), and a driving chain (29) is installed between the driving sprocket (28) and the driving sprocket (26).

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