CN220595427U - Filling production system - Google Patents

Abstract

The utility model discloses a filling production system, which comprises a workbench; the rotary disc is rotatably arranged on the workbench, a semicircular groove for accommodating the bottle body is formed in the periphery of the rotary disc, an arc-shaped ring sleeve is fixed on the outer side of the rotary disc, a through groove is formed in the ring sleeve, and a labeling plate is arranged in the through groove; the cover sleeving device and the screwing device are annularly distributed on the outer side of the annular sleeve; the first conveyor belt and the second conveyor belt are respectively and transversely arranged at two sides of the rotating disc; the liquid injection device is arranged at one side of the first conveyor belt; the collecting device is arranged at one end of the second conveyor belt far away from the rotating disc and comprises a pushing component and a collecting box, the pushing component and the collecting box are respectively arranged at two sides of the second conveyor belt, a notch is formed in one side of the second conveyor belt corresponding to the collecting box, and a baffle is arranged in the notch in a sliding manner; the receiving device comprises a receiving platform and a third conveyor belt positioned below the receiving platform. The utility model aims to provide a filling production system which is convenient for boxing after the bottle body is canned.

Description

Filling production system

Technical Field

The utility model relates to the technical field of canning equipment, in particular to a canning production system.

Background

In the working process of the filling production system, workers place empty bottles on a conveyor belt, the empty bottles are filled firstly, then the bottles are placed on bottle mouths one by the workers, then the processes of screwing and labeling are carried out, after the processes are finished, collection and boxing work is needed manually, the workers participate in the processes for many times, the fatigue of the workers is increased, and the working efficiency is affected.

Disclosure of Invention

The utility model mainly aims to provide a filling production system which is convenient for boxing after the bottle body is filled.

In order to solve the technical problems, the utility model adopts the following technical scheme: a filling production system comprising:

a work table;

the rotary disc is rotatably arranged on the workbench, a plurality of semicircular grooves for accommodating bottle bodies are formed in the circumference of the rotary disc, an arc-shaped annular sleeve is arranged on the outer side of the rotary disc, the annular sleeve does not rotate along with the rotary disc, a through groove is formed in the annular sleeve, and a labeling plate is arranged in the through groove;

the cap sleeving device and the screwing device are annularly distributed on the outer side of the annular sleeve and are used for sleeving the bottle body and screwing the cap on the bottle body;

the first conveyor belt is transversely arranged on one side of the rotating disc;

the liquid injection device is arranged at one side of the first conveyor belt;

the second conveyor belt is transversely arranged on the other side of the rotating disc relative to the first conveyor belt;

the collecting device is arranged at one end of the second conveyor belt far away from the rotating disc and comprises a pushing component and a collecting box, the collecting box and the pushing component are respectively arranged at two sides of the second conveyor belt, a notch is formed in one side of the second conveyor belt corresponding to the collecting box, a baffle is arranged in the notch in a sliding mode, and the baffle is used for blocking and exposing the notch;

the receiving device comprises a receiving platform and a third conveyor belt positioned below the receiving platform, wherein the receiving platform is used for supporting the collecting boxes and transferring the collecting boxes to the third conveyor belt, one end of the third conveyor belt is used for conveying empty collecting boxes and transferring the collecting boxes to the receiving platform, and the other end of the third conveyor belt is used for moving the collecting boxes with bottle bodies loaded on the receiving platform out of the receiving platform.

Further, limit rods are respectively arranged on two sides of the first conveyor belt and the second conveyor belt.

Further, the cover sleeving device comprises a guide cylinder arranged right above the movement track of the semicircular groove, a through hole which vertically penetrates through the bottle cap and has the same size and diameter as the bottle cap is arranged in the guide cylinder, a trigger rod is arranged at the bottom of the guide cylinder, a groove is formed in one side of the trigger rod corresponding to the semicircular groove, a limiting block is arranged in the groove in a sliding mode, a spring is arranged between the limiting block and the groove, and the limiting block can slide in the groove in a direction approaching to and keeping away from the rotating disc;

one side of the limiting block is in an arc shape and extends out of the groove and is used for being in contact with the bottle body in the semicircular groove, and a limiting table used for preventing the bottle cap from falling from the guide cylinder is arranged at the top of the limiting block; when the semicircular groove drives the bottle body to move to the cover sleeving device, the bottle body can extrude the limiting block, so that the limiting block drives the movable limiting table to move into the groove, and the bottle cap in the guide cylinder falls.

Further, at least two rotating bodies are rotatably arranged in the semicircular groove, and the rotating bodies protrude out of the inner surface of the semicircular groove and are in contact with the surface of the bottle body;

the ring cover comprises a first arc-shaped part and a second arc-shaped part which are arranged at intervals, the through groove is positioned at the interval between the first arc-shaped part and the second arc-shaped part, the first arc-shaped part is positioned below the cover sleeving device and the screwing device, the second arc-shaped part is positioned on one side of the label sticking plate far away from the cover sleeving device and the screwing device, and the bottle body moving to the second arc-shaped part is contacted with the second arc-shaped part, and extrusion force is generated on the bottle body by extrusion.

Further, one end of the second conveyor belt is located at the end of the ring sleeve and is provided with a guide rod, one end of the guide rod coincides with the moving track of the semicircular groove, the other end of the guide rod is located on the second conveyor belt and inclines towards the direction away from the rotating disc, and a channel for the bottle body to move is formed between the guide rod and the ring sleeve.

Further, the receiving platform is including setting up the fixed plate in unloading mechanism one side of keeping away from the second conveyer belt, one side that the fixed plate corresponds the second conveyer belt is provided with tray and screw rod, the screw rod both sides are provided with the guide post, the tray includes slider and many intervals setting on the slider and stretches to the die-pin of second conveyer belt direction, slider and screw rod threaded connection and with guide post sliding connection, the die-pin is used for accepting the collection box.

Further, a plurality of through holes for the supporting rods to pass through are formed in the region of the third conveyor belt corresponding to the supporting rods.

The beneficial effects of the utility model are as follows:

according to the utility model, empty bottles are placed on a first conveyor belt one by workers, then the empty bottles are sent to a liquid injection device by the first conveyor belt to be injected, then the empty bottles are sent to a rotating disc by the first conveyor belt, meanwhile, the rotating disc rotates to sequentially send the bottles into a semicircular groove, then the bottles are sequentially sent to a cover sleeving device and a screwing device by rotating the rotating disc, then the bottles are rotated to a labeling plate to be labeled, then the canned bottles are sequentially sent to a second conveyor belt by rotating the rotating disc, then the bottles are arranged in a row to be conveyed to a collecting device by the second conveyor belt, then a pushing component is pushed out, a baffle is lifted, the side-by-side bottles are pushed into a collecting box, after the collecting box collects the full bottles, a collecting box is driven to descend by a material receiving platform, the collecting box is placed in a third conveyor belt, the collecting box is sent out of a canning area by the third conveyor belt, and then the bottles are packaged by workers. According to the utility model, after the bottle body is canned, the bottle body can be orderly collected and then integrally boxed, so that the fatigue of workers is greatly reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a perspective view of a filling production system according to the present utility model;

FIG. 2 is a perspective view of a table according to the present utility model;

FIG. 3 is a partial structural view of the filling production system of the present utility model;

FIG. 4 is an exploded view of the capping device of the present utility model;

FIG. 5 is a perspective view of the receiving device of the present utility model;

in the figure:

1. a work table; 2. a rotating disc; 21. a semicircular groove; 211. a rotating body; 22. a ring sleeve; 221. a first arc-shaped portion; 222. a second arc-shaped portion; 23. a through groove; 231. labeling plates; 3. a cover sleeving device; 31. a guide cylinder; 32. a trigger lever; 33. a groove; 34. a limiting block; 35. a spring; 36. a limiting table; 4. a screwing device; 5. a priming device; 6. a first conveyor belt; 61. a limit rod; 7. a second conveyor belt; 71. a guide rod; 72. a stop block; 8. a collecting device; 81. a pushing member; 82. a collection box; 83. a baffle; 9. a receiving device; 91. a material receiving platform; 911. a fixing plate; 912. a tray; 913. a screw; 914. a guide post; 915. a supporting rod; 916. a slide block; 10. a third conveyor belt; 101. and (5) perforating.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. Embodiments and features of embodiments in this application may be combined with each other without conflict. 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.

Please refer to fig. 1-5.

The utility model discloses a filling production system, which relates to a bottle body to be filled, comprising:

a work table 1;

the rotary disc 2 is rotatably arranged on the workbench 1, a plurality of semicircular grooves 21 for accommodating bottle bodies are formed in the circumference of the rotary disc 2, an arc-shaped ring sleeve 22 is arranged on the outer side of the rotary disc 2, the ring sleeve 22 does not rotate along with the rotary disc 2, a through groove 23 is formed in the ring sleeve 22, and a labeling plate 231 is arranged in the through groove 23;

the cap sleeving device 3 and the screwing device 4 are annularly distributed outside the annular sleeve 22 and are used for sleeving the bottle body and screwing the cap on the bottle body;

a first conveyor belt 6 transversely provided on one side of the rotating disc 2;

a priming device 5 disposed on one side of the first conveyor belt 6;

a second conveyor belt 7 transversely provided on the other side of the rotary plate 2 with respect to the first conveyor belt 6;

the collecting device 8 is arranged at one end of the second conveyor belt 7 far away from the rotating disc 2, the collecting device 8 comprises a pushing component 81 and a collecting box 82, the collecting box 82 and the pushing component 81 are respectively arranged at two sides of the second conveyor belt 7, a notch is formed in one side of the second conveyor belt 7 corresponding to the collecting box 82, a baffle 83 is slidably arranged in the notch, and the baffle 83 is used for blocking and exposing the notch;

the receiving device 9 comprises a receiving platform 91 and a third conveyor belt 10 arranged below the receiving platform 91, wherein the receiving platform 91 is used for supporting the collecting box 82 and transferring the collecting box 82 onto the third conveyor belt 10, one end of the third conveyor belt 10 is used for conveying the empty collecting box 82 and transferring the collecting box 82 onto the receiving platform 91, and the other end of the third conveyor belt is used for moving the collecting box 82 with the bottle body held on the receiving platform 91 out of the receiving platform 91.

Preferably, the pushing member 81 may be a cylinder, a hydraulic cylinder, or the like in the prior art; the baffle 83 may be connected to a lifting member for moving up and down, and the lifting member may be a cylinder, a hydraulic cylinder, or the like in the prior art.

Preferably, the third conveyor belt 10 is a roller conveyor belt of the prior art.

The cap device 3 and the screwing device 4 are devices commonly used in the art, and their specific structures are not described here.

In specific implementation, the workers put empty bottles on the first conveyor belt 6 one by one, then the first conveyor belt 6 sends the empty bottles to the liquid injection device 5 for liquid injection, then the first conveyor belt 6 sends the empty bottles to the rotating disc 2, meanwhile, the rotating disc 2 rotates to sequentially send the bottles into the semicircular groove 21, then the rotating disc 2 rotates to sequentially send the bottles to the cover device 3 and the screwing device 4, then rotates to the labeling plate 231 for labeling, then the rotating disc 2 sequentially rotates and sends the canned bottles to the second conveyor belt 7, then the second conveyor belt 7 arranges the bottles into a row to be sent to the collecting device 8, then the pushing part 81 pushes out, the baffle 83 is lifted, the side by side bottles are pushed into the collecting box 82, after the collecting box 82 collects the full bottles, the collecting box 82 is driven to descend by the material receiving platform 91, the collecting box 82 is placed with the third conveyor belt 10, then the collecting box 82 is sent out of the canning area by the third conveyor belt 10, and then the workers perform boxing. According to the utility model, after the bottle body is canned, the bottle body can be orderly collected and then integrally boxed, so that the fatigue of workers is greatly reduced, and the working efficiency is improved.

Preferably, a stop 72 is provided at the end of the second conveyor belt 7 remote from the rotating disc 2 for blocking the movement of the bottles, reducing the gap between adjacent bottles, and allowing the bottles moving to the collecting device 8 to be arranged in a row and abutted against each other.

In one embodiment, the two sides of the first conveyor belt 6 and the second conveyor belt 7 are respectively provided with a limiting rod 61. By this design, it is ensured that empty bottles are accurately transported into the semicircular groove 21 of the rotating disc 2, and that the bottles can be transported in a row to the corresponding area of the collecting device 8.

In an embodiment, the cover device 3 comprises a guide cylinder 31 arranged right above the moving track of the semicircular groove 21, a through hole which vertically penetrates through the guide cylinder 31 and has the same size and diameter as the bottle cap is arranged in the guide cylinder 31, a trigger rod 32 is arranged at the bottom of the guide cylinder 31, a groove 33 is arranged on one side of the trigger rod 32 corresponding to the semicircular groove 21, a limiting block 34 is slidably arranged in the groove 33, a spring 35 is arranged between the limiting block 34 and the groove 33, and the limiting block 34 can slide in the groove 33 towards a direction approaching to and away from the rotating disc 2;

one side of the limiting block 34 is in an arc shape and extends out of the groove 33 to be in contact with the bottle body in the semicircular groove 21, and a limiting table 36 for preventing the bottle cap from falling from the guide cylinder 31 is arranged at the top of the limiting block 34; when the semicircular groove 21 drives the bottle body to move to the cover sleeving device 3, the bottle body can squeeze the limiting block 34, so that the limiting block 34 drives the movable limiting table 36 to move into the groove 33, and the bottle cover in the guide cylinder 31 falls.

In practice, the capping device 3 generally comprises a feeding conveyor for conveying the caps; when the bottle cap feeding device works, the feeding conveyor belt conveys a single bottle cap to the guide cylinder 31, then when the rotating disc 2 conveys the bottle body to the cap sleeving device 3, the bottle body extrudes one end of the limiting block 34, the limiting block 34 drives the movable limiting table 36 to move into the groove 33, the bottle cap in the guide cylinder 31 falls to the bottle mouth, and the bottle cap can be guaranteed to fall after being aligned with the guide cylinder 31.

In one embodiment, at least two rotating bodies 211 are rotatably disposed in the semicircular groove 21, and the rotating bodies 211 protrude from the inner surface of the semicircular groove 21 and contact with the surface of the bottle body;

the ring sleeve 22 comprises a first arc-shaped part 221 and a second arc-shaped part 222 which are arranged at intervals, the through groove 23 is positioned at the interval between the first arc-shaped part 221 and the second arc-shaped part 222, the first arc-shaped part 221 is positioned below the sleeve cover device 3 and the screwing device 4, the second arc-shaped part 222 is positioned at one side of the label pasting plate 231 far away from the sleeve cover device 3 and the screwing device 4, and the bottle body moving to the second arc-shaped part 222 is contacted with the second arc-shaped part 222, so that extrusion force is generated on the bottle body by extrusion.

In specific implementation, when the first conveyor belt 6 sends the bottle to the labeling plate 231, the label on the labeling plate 231 is adhered to the bottle, meanwhile, the bottle located in the semicircular groove 21 and the second arc-shaped portion 222 form extrusion, and the bottle continues to rotate on the rotating disc 2, so that the bottle rotates at this time, and the label is completely adhered to the bottle through the rotation of the bottle.

In one embodiment, one end of the second conveyor belt 7 is located at the end of the ring 22, and a guide rod 71 is provided, one end of the guide rod 71 coincides with the moving track of the semicircular groove 21, the other end is located on the second conveyor belt 7 and is inclined towards the direction away from the rotating disc 2, and a channel for moving the bottle body is formed between the guide rod 71 and the ring 22. So designed, when the rotating disc 2 rotates and conveys the bottled bottles to the second conveyor belt 7 after canning, the bottles are completely conveyed to the second conveyor belt 7 along the guide rod 71 by contacting with the guide rod 71.

In an embodiment, the receiving platform 91 includes a fixing plate 911 disposed on a side of the discharging mechanism away from the second conveyor belt 7, a tray 912 and a screw 913 are disposed on a side of the fixing plate 911 corresponding to the second conveyor belt 7, guide posts 914 are disposed on two sides of the screw 913, the tray 912 includes a slider 916 and a plurality of support rods 915 disposed on the slider 916 at intervals and extending to the direction of the second conveyor belt 7, the slider 916 is in threaded connection with the screw 913 and slidably connected with the guide posts 914, and the support rods 915 are used for receiving the collecting box 82. When the screw 913 is rotated, the slider 916 screwed with the screw 913 starts to move, and the guide column 914 does not rotate left and right, but moves up and down, and moves together with the tray 912.

Preferably, smooth-surfaced iron sheets can be laid in the area between the second conveyor belt 7 and the receiving platform 91. By this design, the gap between the collecting box 82 and the second conveyor belt 7 can be covered, and the bottle body can be completely pushed into the collecting box 82.

In one embodiment, the third conveyor belt 10 has a plurality of perforations 101 corresponding to the areas of the support rods 915 for the support rods 915 to pass through. So configured, the carrier 915 can pass completely through the third conveyor 10 to place the collection box 82 completely on the third conveyor 10 as the tray 912 is lowered with the collection box 82 to the third conveyor 10.

In particular, when a certain number of bottles are sent to the corresponding area of the collecting device 8, the pushing member 81 pushes out at this time, the baffle 83 is raised, the bottles are pushed into the collecting box 82, after the collecting box 82 is fully collected, the material receiving platform 91 starts to work, the motor drives the screw 913 to rotate and drive the tray 912 and the collecting box 82 to descend, when the collecting box 82 is lowered to contact with the third conveyor belt 10, the tray 912 continues to descend through the third conveyor belt 10, the collecting box 82 is completely placed on the surface of the third conveyor belt 10, then one end of the third conveyor belt 10 far away from the filling production system is conveyed by the third conveyor belt 10, the other end of the third conveyor belt 10 conveys the empty collecting box 82 to the corresponding area of the tray 912, and then the tray 912 ascends under the rotation of the screw 913, passes through the third conveyor belt 10 and ascends to the corresponding area of the collecting device 8 with the empty collecting box 82 to be collected again.

It should be noted that although the bottles are arranged in a row, they are not aligned in a regular row, and the distance between the limit bars 61 on both sides of the second conveyor belt 7 is greater than 1 time the diameter of the bottle and less than 2 times the diameter of the bottle.

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, "a plurality of" means two or more.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. A filling production system, comprising:

a work table (1);

the rotary table comprises a rotary table body (2), wherein the rotary table body (2) is rotatably arranged on the workbench (1), a plurality of semicircular grooves (21) for accommodating bottle bodies are formed in the circumference of the rotary table body (2), an arc-shaped ring sleeve (22) is arranged on the outer side of the rotary table body (2), the ring sleeve (22) does not rotate along with the rotary table body (2), a through groove (23) is formed in the ring sleeve (22), and a labeling plate (231) is arranged in the through groove (23);

the bottle cap screwing device comprises a cap sleeving device (3) and a screwing device (4), wherein the cap sleeving device (3) and the screwing device (4) are annularly distributed on the outer side of a ring sleeve (22) and are used for sleeving a bottle body and screwing the cap on the bottle body;

a first conveyor belt (6) transversely arranged on one side of the rotating disc (2);

the priming device (5) is arranged at one side of the first conveyor belt (6);

a second conveyor belt (7) transversely arranged on the other side of the rotating disc (2) relative to the first conveyor belt (6);

the collecting device (8) is arranged at one end, far away from the rotating disc (2), of the second conveyor belt (7), the collecting device (8) comprises a pushing component (81) and a collecting box (82), the collecting box (82) and the pushing component (81) are respectively arranged at two sides of the second conveyor belt (7), a notch is formed in one side, corresponding to the collecting box (82), of the second conveyor belt (7), a baffle (83) is arranged in the notch in a sliding mode, and the baffle (83) is used for blocking and exposing the notch;

the receiving device (9) comprises a receiving platform (91) and a third conveying belt (10) arranged below the receiving platform (91), wherein the receiving platform (91) is used for supporting the collecting box (82) and transferring the collecting box (82) onto the third conveying belt (10), one end of the third conveying belt (10) is used for conveying the empty collecting box (82) and transferring the collecting box (82) onto the receiving platform (91), and the other end of the third conveying belt is used for moving the collecting box (82) with the bottle body loaded on the receiving platform (91) out of the receiving platform (91).

2. Filling production system according to claim 1, characterized in that the first conveyor belt (6) and the second conveyor belt (7) are provided with limit bars (61) on both sides, respectively.

3. The filling production system according to claim 1, wherein the cover sleeving device (3) comprises a guide cylinder (31) arranged right above the moving track of the semicircular groove (21), a through hole which vertically penetrates through the guide cylinder (31) and has the same size and diameter as the bottle cap is formed in the guide cylinder (31), a trigger rod (32) is arranged at the bottom of the guide cylinder (31), a groove (33) is formed in one side of the trigger rod (32) corresponding to the semicircular groove (21), a limiting block (34) is slidably arranged in the groove (33), a spring (35) is arranged between the limiting block (34) and the groove (33), and the limiting block (34) can slide in the groove (33) in a direction approaching to and away from the rotating disc (2);

one side of the limiting block (34) is in an arc shape and extends out of the groove (33) and is used for being in contact with a bottle body in the semicircular groove (21), and a limiting table (36) used for preventing the bottle cap from falling from the guide cylinder (31) is arranged at the top of the limiting block (34); when the semicircular groove (21) drives the bottle body to move to the cover sleeving device (3), the bottle body can squeeze the limiting block (34), so that the limiting block (34) drives the movable limiting table (36) to move into the groove (33), and the bottle cap in the guide cylinder (31) falls.

4. A filling production system according to claim 3, characterized in that the semicircular groove (21) is rotatably provided with at least two rotating bodies (211), the rotating bodies (211) protruding from the inner surface of the semicircular groove (21) and being in contact with the surface of the bottle body;

the ring sleeve (22) comprises a first arc-shaped part (221) and a second arc-shaped part (222) which are arranged at intervals, the through groove (23) is positioned at the interval between the first arc-shaped part (221) and the second arc-shaped part (222), the first arc-shaped part (221) is positioned below the sleeve cover device (3) and the screwing device (4), the second arc-shaped part (222) is positioned on one side, far away from the sleeve cover device (3) and the screwing device (4), of the label plate (231), and the bottle body moving to the second arc-shaped part (222) is in contact with the second arc-shaped part (222), and extrusion force is generated on the bottle body through extrusion.

5. Filling production system according to claim 1, characterized in that one end of the second conveyor belt (7) is located at the end of the ring sleeve (22) and is provided with a guide rod (71), one end of the guide rod (71) coincides with the movement track of the semicircular groove (21), the other end is located on the second conveyor belt (7) and is inclined towards the direction away from the rotating disc (2), and a channel for the movement of the bottle body is formed between the guide rod (71) and the ring sleeve (22).

6. The filling production system according to claim 1, wherein the material receiving platform (91) comprises a fixed plate (911) arranged on one side of the discharging mechanism, which is far away from the second conveyor belt (7), a tray (912) and a screw (913) are arranged on one side of the fixed plate (911), which corresponds to the second conveyor belt (7), guide posts (914) are arranged on two sides of the screw (913), the tray (912) comprises a sliding block (916) and a plurality of support rods (915) which are arranged on the sliding block (916) at intervals and extend to the direction of the second conveyor belt (7), the sliding block (916) is in threaded connection with the screw (913) and is in sliding connection with the guide posts (914), and the support rods (915) are used for receiving the collecting boxes (82).

7. The filling production system according to claim 1, wherein the area of the third conveyor belt (10) corresponding to the support rods (915) is provided with a plurality of perforations (101) through which the support rods (915) pass.