CN115610942A

CN115610942A - Belt conveyer is used in ball production on christmas

Info

Publication number: CN115610942A
Application number: CN202211463955.1A
Authority: CN
Inventors: 周宗佑; 梁伟; 蔡孙杉; 夏明勇; 许燕燕; 王庭庆; 何丽微; 丁楠
Original assignee: Fujian Yinghao Cultural And Creative Co ltd
Current assignee: Fujian Yinghao Cultural And Creative Co ltd
Priority date: 2022-11-22
Filing date: 2022-11-22
Publication date: 2023-01-17

Abstract

The invention discloses a belt conveyor for Christmas ball production, which relates to the field of Christmas ball gluing machines and comprises a belt conveyor shell, wherein a belt conveyor chain for conveying Christmas balls produced by a machine tool is arranged on the belt conveyor shell, one end of the belt conveyor chain is provided with a feeding cylinder butted with a discharge hole on the machine tool, and a damping base is arranged at the bottom of the belt conveyor and is provided with a damping mechanism, so that a good damping effect on the belt conveyor can be realized; the locating piece suspends in the inside of positioning cavity through the repulsion between first magnetism piece and the third magnetism piece, and when belt conveyer during operation, the shaking force that belt conveyer produced also can't transmit vibration damping mount on the unable locating piece that transmits, has reduced belt conveyer vibrations time and ground direct contact production great noise, reduces the vibrations of ball on the belt conveying chain, avoids ball on christmas to break away from out the belt conveying chain.

Description

Belt conveyer is used in ball production on christmas

Technical Field

The invention relates to the field of Christmas ball gluing machines, in particular to a belt conveyor for Christmas ball production.

Background

The Christmas ball is an ornament decorated on a Christmas tree, the Christmas ball formed by injection molding needs to be glued and then wrapped with gold powder on the surface of the Christmas ball, so that the ornament can be formed, two traditional processes need to be manually operated, and the Christmas ball is placed in a box wrapped with the gold powder after being glued with the glue, the method has low efficiency, and is easily injured by workers due to long-term contact with the glue solution and wrapping with the gold powder in the aspect of manual operation.

Thus, the chinese patent: a Christmas ball gluing machine (CN 205471175U) discloses that the front and back positions of a chain wheel can be adjusted by a screw rod, so that a conveying chain can be conveniently disassembled and assembled. However, since the christmas ball is spherical, the christmas ball is easy to separate from the belt conveying chain due to the vibration of the machine when being conveyed on the conveying chain, and the processing is affected, so that the belt conveyor for christmas ball production is necessary to solve the problem based on the problem of large vibration when the christmas ball is conveyed.

Disclosure of Invention

The invention aims to provide a belt conveyor for Christmas ball production, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a belt conveyer for Christmas ball production comprises a belt conveyer shell, wherein a belt conveyer chain for conveying Christmas balls produced by a machine tool is arranged on the belt conveyer shell, a feeding cylinder which is butted with a discharge port on the machine tool is arranged at one end of the belt conveyer chain, a collecting box for centralized collection of the Christmas balls is arranged at the other end of the belt conveyer chain, the belt conveyer shell and the collecting box are both arranged on a belt conveyer base at the bottom of the belt conveyer shell, a shock absorption base is arranged below the belt conveyer base, the bottom of the shock absorption base is fixed on the ground through suction of a suction disc, and a shock absorption mechanism connected with the bottom of the belt conveyer base is arranged on the shock absorption base;

the damping mechanism comprises sliding plates which are arranged in pairs, sliding grooves for the sliding plates to slide are formed in the surface of the damping base, a connecting rod is arranged between the sliding plates, two ends of the connecting rod are respectively fixed on the surfaces, close to each other, of the sliding plates, positioning blocks are fixedly arranged on the connecting rod, the positioning blocks are arranged in a plurality of numbers, the positioning blocks are distributed on the connecting rod at equal intervals, and first magnetic blocks are fixedly arranged in the middle positions of the six surfaces of each positioning block;

the damping mechanism further comprises a rectangular shell, an upper connecting column is fixedly arranged on the upper surface of the rectangular shell and fixedly connected to the bottom surface of the base of the belt conveyor, a positioning cavity is arranged inside the rectangular shell, openings are arranged on two sides of the rectangular shell and correspond to the positions of the two groups of sliding plates respectively, the openings are communicated with the inside of the positioning cavity, corresponding positioning blocks on the connecting rods are arranged inside the positioning cavity in a suspended mode, third magnetic blocks are fixedly arranged on the other four surfaces except the two surfaces close to the pair of sliding plates in the positioning cavity, the third magnetic blocks are mutually repelled and separated from the first magnetic blocks, electric push rods are fixedly arranged on the tops of the positioning cavity and close to the two ends of the pair of sliding plates respectively, second magnetic blocks are fixedly arranged at the bottoms of the electric push rods and correspond to the first magnetic blocks on the positioning blocks, and the second magnetic blocks are mutually repelled with the corresponding first magnetic blocks;

the magnetic strength of the first magnetic blocks between the two groups of sliding plates is sequentially reduced according to the distribution sequence, one side of the damping mechanism is provided with a telescopic cylinder which pushes the damping mechanism to move along the length direction of the damping base, the telescopic cylinder is arranged inside the sliding groove, one end of the telescopic cylinder is fixed at one end of the sliding groove, and the other end of the telescopic cylinder is fixed on one sliding plate in the damping mechanism.

Preferably, the lower surface of the second magnetic block is provided with a groove, and the groove corresponds to the connecting rod.

According to the invention, the damping base is arranged at the bottom of the belt conveyor, and the damping mechanism is arranged on the damping base, so that a good damping effect on the belt conveyor can be realized.

Specifically, because the positioning block suspends in the positioning cavity through the repulsion action between the first magnetic block and the third magnetic block, when the belt conveyor works, the vibration force generated by the belt conveyor is difficult to be transmitted to the positioning block through air as a medium and cannot be transmitted to the damping base, and the noise generated by the direct contact between the belt conveyor and the ground when the belt conveyor vibrates is reduced.

And simultaneously, be provided with a plurality of locating pieces on the connecting rod, and the first magnetism piece magnetism intensity on a plurality of locating pieces reduces in proper order towards the first magnetism piece of another group sliding plate side by the first magnetism piece that is close to one side of a set of sliding plate, when telescopic cylinder promoted the sliding plate and moved along vibration damping mount length direction, switch different locating pieces and be located the positioning cavity, just also changed the strong and weak relation of magnetism between third magnetism piece and the locating piece, when magnetism between third magnetism piece and the locating piece becomes strong, the whole magnetic resistance that receives of belt conveyer is great, therefore, belt conveyer during operation, the shaking force can be relatively reduced.

Preferably, a plurality of groups of damping mechanisms are arranged on the damping base and distributed at equal intervals.

Wherein, the stronger magnet of magnetism is all used to third magnetic block, second magnetic block and first magnetic block, can guarantee to the holistic stable supporting role of belt conveyer, and is provided with multiunit damper on the vibration damping mount, also conveniently utilizes the means of increase in quantity to increase the stability of supporting belt conveyer.

In practical use, the vibration damping bases can be provided with two or more groups at the bottom of the belt conveyor to further increase the stability of supporting the belt conveyor.

Preferably, the length and the width of the opening are consistent, the length and the width of the positioning block are consistent, and the distance between the far ends of the first magnetic blocks on the two opposite surfaces of the positioning block is smaller than the length of the opening.

Furthermore, in order to enable the positioning block to smoothly enter and exit the positioning cavity, the length and the width of the opening are larger than the distance between the far ends of the first magnetic blocks of the two opposite surfaces of the positioning block.

Furthermore, firstly, the corresponding positioning block is moved into the positioning cavity, then the electric push rod pushes the second magnetic block to descend and correspondingly block the first magnetic block positions on two surfaces of the positioning block along the length direction of the shock absorption base, and the six surfaces of the positioning block are stably positioned by magnetic force, so that the phenomenon that the belt conveyor shakes along the length direction of the shock absorption base is avoided.

The lower end of the second magnetic block is provided with a corresponding groove, and the second magnetic block can be just clamped on the groove when moving downwards, so that the second magnetic block corresponds to one side of the first magnetic block.

Preferably, the belt conveyor chain is distributed obliquely upwards towards one end of the collecting box.

The discharge gate position all sets up in the lathe bottom usually, consequently, upwards distributes belt conveyor chain towards the one end slope of collecting box, has realized arranging the purpose in the collecting box with ball on christmas.

Preferably, be provided with the fan that is used for sieving christmas ball on the feed cylinder.

One side top opening slope that the fan was kept away from to the feed cylinder can blow the light ball on christmas of quality to the position of feed cylinder top opening slope and discharge when the fan starts, has played the purpose of screening out the light ball on christmas of quality.

Preferably, be provided with the striker plate on the belt conveying chain, the striker plate is provided with a plurality ofly, and the equidistance distributes between a plurality of striker plates.

The baffle can realize the ascending transport of slope of ball on christmas for stopping the phenomenon of the ball landing on the belt conveying chain.

Preferably, the bottom of the sliding plate is in an inverted T shape, and an upper baffle movably blocked above the inverted T-shaped structure is fixed on the damping base through screws.

The upper baffle is movably blocked above the inverted T-shaped structure and detachably arranged above the damping base through a screw, so that the sliding plate can be conveniently taken out and replaced after being detached.

Preferably, the collecting box is connected above the base of the belt conveyer through a bracket, and the upper end opening of the collecting box is inclined towards the bottom of the upper end of the belt conveyer chain.

Furthermore, the detachable connection of support is between collecting box and belt conveyer base, makes things convenient for the fixed of collecting box and dismantles.

Preferably, the sucking discs are arranged in a plurality of numbers, and the sucking discs are distributed below the damping base at equal intervals.

Preferably, the striker plate is an elastic deformation plate.

The vibration damping base is stably adsorbed and fixed on the ground through the sucking disc.

Carry out the shock attenuation through the magnetism principle in this belt conveyer, realize the regulation of shock attenuation nature through magnetism adjustable mode, can transfer belt conveyer's shock attenuation nature to suitable scope to make suitable vibrations power transfer to the surface of belt transfer chain, christmas ball on the supplementary belt transfer chain breaks away from to the collecting box in, has solved the problem that the vibrations power is not adjusted well among the prior art.

When the Christmas ball is produced, the Christmas ball is usually formed by injection molding or blowing in order to save materials, but the problem that the weight of the Christmas ball is too high due to injection molding failure and blowing failure is solved.

The invention has the technical effects and advantages that:

1. the vibration-damping device comprises a belt conveyor shell, wherein a belt conveyor chain for conveying Christmas balls produced by a machine tool is arranged on the belt conveyor shell, a feeding cylinder which is butted with a discharge hole on the machine tool is arranged at one end of the belt conveyor chain, and a vibration-damping base is arranged at the bottom of the belt conveyor and is provided with a vibration-damping mechanism, so that a good vibration-damping effect on the belt conveyor can be realized, the vibration of the Christmas balls on the belt conveyor chain is reduced, and the Christmas balls are prevented from being separated from the belt conveyor chain;

2. according to the belt conveyor with the good damping effect, the positioning block is suspended in the positioning cavity through the repulsion effect between the first magnetic block and the third magnetic block, when the belt conveyor works, the vibration force generated by the belt conveyor is difficult to be transmitted to the positioning block through the air as a medium and cannot be transmitted to the damping base, and the larger noise generated by the direct contact between the belt conveyor and the ground during vibration is reduced;

3. according to the belt conveyor with good damping effect, the connecting rod is provided with the positioning blocks, the magnetic strength of the first magnetic blocks on the positioning blocks is sequentially reduced from the first magnetic block close to one side of one group of sliding plates to the first magnetic block on one side of the other group of sliding plates, when the telescopic cylinder pushes the sliding plates to move along the length direction of the damping base, different positioning blocks are switched to be positioned in the positioning cavity, so that the magnetic strength relation between the third magnetic block and the positioning blocks is changed, and when the magnetic strength between the third magnetic block and the positioning blocks is increased, the magnetic resistance on the whole belt conveyor is larger, so that the vibration force can be relatively reduced when the belt conveyor works;

4. according to the belt conveyor with the good damping effect, when the electric push rod pushes the second magnetic block to descend and correspondingly blocks the position of the first magnetic block on the two surfaces of the positioning block along the length direction of the damping base, the six surfaces of the positioning block are stably positioned by the magnetic force, so that the phenomenon that the belt conveyor shakes along the length direction of the damping base is avoided;

5. according to the belt conveyor with the good damping effect, the damping is carried out through the magnetic principle, the damping adjustment is realized through the magnetic adjustable mode, the damping of the belt conveyor can be adjusted to a proper range, so that proper vibration force is transmitted to the surface of the belt conveying chain, the Christmas balls on the belt conveying chain are assisted to be separated from the collecting box, and the problem that the vibration force is not easy to adjust in the prior art is solved;

6. the material blocking plate is an elastic deformation plate and has the function of screening the Christmas balls on the belt transmission chain, when the weight of the Christmas balls is higher than a set value, the Christmas balls can be just pressed and pressed to be elastically deformed in the process of climbing on the belt transmission chain, so that the Christmas balls slide towards the lower part of the belt transmission chain, and at the moment, the Christmas balls with the weight exceeding the set standard can be screened out manually.

Drawings

FIG. 1 is a schematic view of the construction of the belt conveyor of the present invention;

FIG. 2 is a schematic view of the shock mount of the present invention;

FIG. 3 is a cross-sectional view of the vibration damping mount of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 5 is a diagram illustrating a second magnetic block structure according to the present invention;

FIG. 6 is a cross-sectional view of a rectangular housing of the present invention taken along the width of the damper base;

fig. 7 is an enlarged view of the structure at B in fig. 3 according to the present invention.

In the figure: 1. a belt conveyor housing; 2. a belt conveyor chain; 3. a collection box; 4. a feeding cylinder; 5. a belt conveyor base; 6. a fan; 7. a damping mount; 8. a suction cup; 9. a damping mechanism; 10. an upper baffle plate; 11. a rectangular housing; 12. an upper connecting column; 13. a sliding plate; 14. a sliding groove; 15. a telescopic cylinder; 16. positioning blocks; 17. a first magnetic block; 18. an opening; 19. a connecting rod; 20. a second magnetic block; 21. a groove; 22. an electric push rod; 23. positioning a chamber; 24. and a third magnetic block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The invention provides a belt conveyor for Christmas ball production, which comprises a belt conveyor shell 1, wherein a belt conveyor chain 2 for conveying Christmas balls produced by a machine tool is arranged on the belt conveyor shell 1, the belt conveyor chain 2 is similar to a conveyor chain structure in a patent (CN 201510552254.9 full-automatic Christmas ball sizing and powdering device and production process thereof), and is used for sizing and powdering the Christmas balls; are not described herein in detail for the purpose of the prior art.

Wherein, one end of the belt conveyor chain 2 is provided with a feeding cylinder 4 which is butted with a discharge port on a machine tool, the other end is provided with a collecting box 3 for centralized collection of Christmas balls, the belt conveyor shell 1 and the collecting box 3 are both arranged on a belt conveyor base 5 at the bottom of the belt conveyor shell 1, a damping base 7 is arranged below the belt conveyor base 5, the bottom of the damping base 7 is adsorbed and fixed on the ground through a sucking disc 8, and a damping mechanism 9 connected with the bottom of the belt conveyor base 5 is arranged on the damping base 7;

the damping mechanism 9 comprises sliding plates 13 which are arranged in pairs, a sliding groove 14 for the sliding plates 13 to slide is formed in the surface of the damping base 7, a connecting rod 19 is arranged between the sliding plates 13, two ends of the connecting rod 19 are respectively fixed on the surfaces, close to each other, of the sliding plates 13, positioning blocks 16 are fixedly arranged on the connecting rod 19, a plurality of positioning blocks 16 are arranged, the positioning blocks 16 are distributed on the connecting rod 19 at equal intervals, and first magnetic blocks 17 are fixedly arranged in the middle positions of the six surfaces of each positioning block 16;

the damping mechanism 9 further comprises a rectangular shell 11, an upper connecting column 12 is fixedly arranged on the upper surface of the rectangular shell 11, the upper connecting column 12 is fixedly connected to the bottom surface of the belt conveyor base 5, a positioning cavity 23 is arranged inside the rectangular shell 11, openings 18 are respectively arranged at two sides of the rectangular shell 11 corresponding to the positions of the two groups of sliding plates 13, the openings 18 are communicated with the inside of the positioning cavity 23, corresponding positioning blocks 16 on the connecting rods 19 are arranged inside the positioning cavity 23 in a suspended manner, third magnetic blocks 24 are fixedly arranged on the other four surfaces except two surfaces close to the pair of sliding plates 13 in the positioning cavity 23, the third magnetic blocks 24 are far away from the first magnetic blocks 17 in a repulsive manner, electric push rods 22 are respectively fixedly arranged at the tops of the positioning cavities 23 close to two ends of the pair of sliding plates 13, second magnetic blocks 20 are fixedly arranged at the bottoms of the electric push rods 22, the second magnetic blocks 20 correspond to the first magnetic blocks 17 on the positioning blocks 16 (the first magnetic blocks 17 refer to the left and right sides of the positioning blocks 16 in fig. 5), and the second magnetic blocks 20 are repelled to the corresponding first magnetic blocks 17;

the magnetic strength of the multiple groups of first magnetic blocks 17 between the two groups of sliding plates 13 is sequentially reduced according to the distribution sequence, one side of the group of damping mechanisms 9 is provided with a telescopic cylinder 15 for pushing the damping mechanisms 9 to move along the length direction of the damping base 7, the telescopic cylinder 15 is arranged inside the sliding groove 14, one end of the telescopic cylinder 15 is fixed at one end of the sliding groove 14, and the other end of the telescopic cylinder 15 is fixed on one sliding plate 13 in the group of damping mechanisms 9.

The lower surface of the second magnetic block 20 is provided with a groove 21, and the groove 21 corresponds to the connecting rod 19.

According to the invention, the damping base 7 is arranged at the bottom of the belt conveyor, and the damping mechanism 9 is arranged on the damping base 7, so that a good damping effect on the belt conveyor can be realized.

Specifically, because the positioning block 16 is suspended in the positioning cavity 23 through the repulsion between the first magnetic block 17 and the third magnetic block 24, when the belt conveyor works, the vibration force generated by the belt conveyor is difficult to be transmitted to the positioning block 16 through the air as a medium, and cannot be transmitted to the damping base 7, so that the noise generated by the direct contact with the ground when the belt conveyor vibrates is reduced, the vibration of the christmas ball on the belt conveyor chain 2 is reduced, and the separation of the christmas ball from the belt conveyor chain 2 is avoided.

Meanwhile, a plurality of positioning blocks 16 are arranged on the connecting rod 19, the strength of magnetism of the first magnetic blocks 17 on the plurality of positioning blocks 16 is sequentially reduced from the first magnetic block 17 close to one side of one group of sliding plates 13 to the first magnetic block 17 close to one side of the other group of sliding plates 13, when the telescopic cylinder 15 pushes the sliding plates 13 to move along the length direction of the shock absorption base 7, different positioning blocks 16 are switched to be positioned in the positioning cavities 23, so that the strength relation of magnetism between the third magnetic block 24 and the positioning blocks 16 is changed, and when the magnetism between the third magnetic block 24 and the positioning blocks 16 is increased, the magnetic resistance on the whole belt conveyor is larger, so that the vibration force can be relatively reduced when the belt conveyor works.

The damping base 7 is provided with a plurality of groups of damping mechanisms 9, and the groups of damping mechanisms 9 are distributed at equal intervals.

Wherein, third magnetism piece 24, second magnetism piece 20 and first magnetism piece 17 all use the stronger magnet of magnetism, can guarantee to the holistic stable supporting effect of belt conveyer, and is provided with multiunit damper 9 on vibration damping mount 7, also conveniently utilizes the means of increase in quantity to increase the stability of supporting belt conveyer.

In practical use, the damping base 7 can be provided with two or more groups at the bottom of the belt conveyor to further increase the stability of supporting the belt conveyor.

The length and the width of the opening 18 are consistent, the length and the width of the positioning block 16 are consistent, and the distance between the far ends of the first magnetic blocks 17 on the two opposite surfaces of the positioning block 16 is smaller than the length of the opening 18.

Furthermore, in order to enable the positioning block 16 to smoothly enter and exit the positioning chamber 23, the length and width of the opening 18 are both greater than the distance between the distal ends of the first magnetic blocks 17 on the two opposite sides of the positioning block 16.

Furthermore, firstly, the corresponding positioning block 16 is moved into the positioning cavity 23, then the electric push rod 22 pushes the second magnetic block 20 to descend and correspondingly block the first magnetic block 17 on two surfaces of the positioning block 16 along the length direction of the damping base 7, and the six surfaces of the positioning block 16 are stably positioned by magnetic force, so that the phenomenon that the belt conveyor shakes along the length direction of the damping base 7 is avoided.

The lower end of the second magnetic block 20 is provided with a groove 21 corresponding to the second magnetic block 19, and the second magnetic block 20 can be just clamped on the groove 21 when moving downwards, so that the second magnetic block 20 corresponds to one side of the first magnetic block 17.

The bottom of the sliding plate 13 is in an inverted T shape, and an upper baffle plate 10 movably blocked above the inverted T-shaped structure is fixed on the damping base 7 through screws.

The upper baffle 10 is movably blocked above the inverted T-shaped structure, the upper baffle 10 is detachably arranged above the damping base 7 through screws, and the sliding plate 13 is conveniently taken out and replaced after being detached.

The collecting box 3 is connected above the belt conveyor base 5 through a bracket, and the upper end opening of the collecting box 3 is inclined towards the upper end bottom of the belt conveyor chain 2.

Further, the detachable connection of support is between collecting box 3 and belt conveyer base 5, makes things convenient for the fixed of collecting box 3 and dismantles. The sucking discs 8 are arranged in a plurality of numbers, and the sucking discs 8 are distributed below the damping base 7 at equal intervals. The damping base 7 is stably fixed on the ground through the suction disc 8. Carry out the shock attenuation through the magnetism principle in this belt conveyer, realize the regulation of shock attenuation nature through magnetism adjustable mode, can transfer belt conveyer's shock attenuation nature to suitable scope to make suitable vibrations power transmit to belt transfer chain 2's surface, the ball on the christmas on the supplementary belt transfer chain 2 breaks away from to collecting box 3 in, has solved the not good problem of adjusting of vibrations power among the prior art.

Example 2

The invention provides a belt conveyor for Christmas ball production, which is shown in figures 1-7.A plurality of material blocking plates are arranged on a belt conveying chain 2 and are distributed at equal intervals.

The baffle can realize the ascending transport of slope of christmas ball for stopping the phenomenon of christmas ball landing on belt conveyor chain 2.

Example 3

The invention provides a belt conveyor for Christmas ball production, which is shown in figures 1-7.A fan 6 for screening Christmas balls is arranged on a feeding cylinder 4, an opening on the upper side of one surface of the feeding cylinder 4, which is far away from the fan 6, inclines, and when the fan 6 is started, the Christmas balls with lighter weight can be blown to the position with the inclined opening on the upper side of the feeding cylinder 4 to be discharged, so that the aim of screening the Christmas balls with lighter weight is fulfilled.

Example 4

The invention provides a belt conveyor for Christmas ball production, which is shown in figures 1-7.A belt conveyor chain 2 is obliquely and upwards distributed towards one end of a collecting box 3.

The machine tool material feeding and discharging port is usually arranged at the bottom of the machine tool, so that the belt conveying chain 2 is distributed upwards towards one end of the collecting box 3 in an inclined mode, the purpose of discharging Christmas balls into the collecting box 3 is achieved, the belt conveying chain 2 is provided with a gluing area and a powder feeding area, at least two inclined slopes which are conveyed upwards are provided, and the material blocking plate is an elastic deformation plate.

When the Christmas ball is produced, the Christmas ball is usually formed by injection molding or blowing in order to save materials, but the problem that the weight of the Christmas ball is too high due to injection molding failure and blowing failure is solved, in order to save manufacturing materials, the material baffle plate arranged in the Christmas ball screening device has the function of screening the Christmas ball on the belt conveying chain 2, when the weight of the Christmas ball is higher than a set value, the Christmas ball can be just pressed and pressed to be elastically deformed in the process of climbing on the belt conveying chain 2, so that the Christmas ball slides towards the lower part of the belt conveying chain 2, and at the moment, the Christmas ball with the weight exceeding the set standard can be screened manually.

Claims

1. A belt conveyor for Christmas ball production comprises a belt conveyor shell (1), wherein a belt conveyor chain (2) used for conveying Christmas balls produced by a machine tool is arranged on the belt conveyor shell (1), one end of the belt conveyor chain (2) is provided with a feeding cylinder (4) butted with a discharge port on the machine tool, the other end of the belt conveyor chain is provided with a collecting box (3) for centralized collection of the Christmas balls, the belt conveyor shell (1) and the collecting box (3) are both arranged on a belt conveyor base (5) at the bottom of the belt conveyor shell (1), and the belt conveyor is characterized in that a damping base (7) is arranged below the belt conveyor base (5), the bottom of the damping base (7) is adsorbed and fixed on the ground through a sucking disc (8), and a damping mechanism (9) connected with the bottom of the belt conveyor base (5) is arranged on the damping base (7);

the damping mechanism (9) comprises sliding plates (13) which are arranged in pairs, sliding grooves (14) for the sliding plates (13) to slide are formed in the surface of the damping base (7), a connecting rod (19) is arranged between the pair of sliding plates (13), two ends of the connecting rod (19) are respectively fixed on one surfaces, close to each other, of the pair of sliding plates (13), positioning blocks (16) are fixedly arranged on the connecting rod (19), the plurality of positioning blocks (16) are arranged, the plurality of positioning blocks (16) are distributed on the connecting rod (19) at equal intervals, and first magnetic blocks (17) are fixedly arranged in the middle positions of six surfaces of each positioning block (16);

the damping mechanism (9) further comprises a rectangular shell (11), an upper connecting column (12) is fixedly arranged on the upper surface of the rectangular shell (11), the upper connecting column (12) is fixedly connected to the bottom surface of the base (5) of the belt conveyor, a positioning cavity (23) is arranged inside the rectangular shell (11), openings (18) are respectively arranged at two sides of the rectangular shell (11) corresponding to the positions of the two groups of sliding plates (13), the openings (18) are communicated with the inside of the positioning cavity (23), corresponding positioning blocks (16) on the connecting rods (19) are arranged inside the positioning cavity (23) in a suspended mode, third magnetic blocks (24) are fixedly arranged on the other four surfaces of the positioning cavity (23) except two surfaces close to the pair of sliding plates (13), the third magnetic blocks (24) are separated from the first magnetic blocks (17) in a repelling mode, electric push rods (22) are fixedly arranged at the tops of the positioning cavity (23) respectively close to two ends of the pair of sliding plates (13), second magnetic blocks (20) are fixedly arranged at the bottoms of the electric push rods (22), the second magnetic blocks (20) are separated from the first magnetic blocks (17), and the second magnetic blocks (16) and the corresponding magnetic blocks (17);

the magnetic strength of a plurality of groups of first magnetic blocks (17) between two groups of sliding plates (13) is sequentially reduced according to the distribution sequence, one side of a group of damping mechanisms (9) is provided with a telescopic cylinder (15) for pushing the damping mechanisms (9) to move along the length direction of a damping base (7), the telescopic cylinder (15) is arranged in a sliding groove (14), one end of the telescopic cylinder (15) is fixed at one end of the sliding groove (14), and the other end of the telescopic cylinder is fixed on one sliding plate (13) in the group of damping mechanisms (9).

2. The belt conveyor for Christmas ball production of claim 1, wherein: the lower surface of the second magnetic block (20) is provided with a groove (21), and the groove (21) corresponds to the connecting rod (19).

3. The belt conveyor for Christmas ball production of claim 1, wherein: a plurality of groups of damping mechanisms (9) are arranged on the damping base (7), and the plurality of groups of damping mechanisms (9) are distributed at equal intervals.

4. The belt conveyor for Christmas ball production of claim 1, wherein: the length and the width of the opening (18) are consistent, the length and the width of the positioning block (16) are consistent, and the distance between the far ends of the first magnetic blocks (17) of the two opposite surfaces on the positioning block (16) is smaller than the length of the opening (18).

5. The belt conveyor for Christmas ball production of claim 1, wherein: the belt conveying chain (2) is distributed upwards in an inclined way towards one end of the collecting box (3).

6. The belt conveyor for Christmas ball production of claim 1, wherein: the feeding cylinder (4) is provided with a fan (6) for sieving Christmas balls.

7. The belt conveyor for Christmas ball production of claim 1, wherein: the belt conveying chain (2) is provided with a plurality of material blocking plates which are distributed equidistantly.

8. The belt conveyor for Christmas ball production of claim 1, wherein: the bottom of the sliding plate (13) is in an inverted T shape, and an upper baffle (10) movably blocked above the inverted T-shaped structure is fixed on the damping base (7) through screws.

9. The belt conveyor for Christmas ball production of claim 1, wherein: collecting box (3) pass through the top of leg joint at belt conveyer base (5), and the upper end opening slope of collecting box (3) is towards the upper end bottom of belt conveyor chain (2), sucking disc (8) are provided with a plurality ofly, and a plurality of sucking discs (8) are the below of equidistance distribution at vibration damping mount (7).

10. The belt conveyor for Christmas ball production of claim 7, wherein: the striker plate is an elastic deformation plate.