CN220374842U - A canning spiral cover all-in-one for seed coating agent production - Google Patents

Abstract

The utility model discloses a canning and capping integrated machine for seed coating agent production, which belongs to the field of seed coating agent production equipment, and comprises a conveying frame, wherein a conveying belt is arranged on the conveying frame, the surface of the conveying belt is provided with uniformly distributed placing stations, and the conveying frame is respectively provided with a canning mechanism and a capping mechanism; the cap screwing mechanism is composed of a second mounting frame fixed on the conveying frame, a lifting plate slidingly mounted on the second mounting frame, a fixing frame fixed on the top of the lifting plate and slidingly connected with the second mounting frame, a lifting cylinder fixed on the top of the second mounting frame and connected with the fixing frame, a rotating motor fixedly mounted at the middle position of the top of the lifting plate, a clamp holder positioned below the lifting plate and fixedly connected with an output shaft of the rotating motor, and a bottle body pressing and fixing assembly mounted on the second mounting frame and used for fixing a bottle body; the device realizes canning and spiral cover integration, and degree of automation is high, has effectively reduced artifical input, has improved canning efficiency.

Description

A canning spiral cover all-in-one for seed coating agent production

Technical Field

The utility model belongs to the field of seed coating agent production equipment, and particularly relates to a canning and capping integrated machine for seed coating agent production.

Background

The finished solution of seed coating agent needs to be subjected to bottle filling and packaging operation after production, and at present, bottle filling and packaging of the seed coating agent are mainly finished in a manual canning and manual cap screwing mode, and the defects of large labor input, large labor intensity and low canning efficiency exist in a manual assembly line operation mode, so that a canning and cap screwing integrated machine for seed coating agent production is necessary to be designed to solve the problems.

Disclosure of Invention

The utility model aims at: in order to solve the defects of large input labor, large labor intensity of workers and low canning efficiency of the canning operation in the existing seed coating agent production process in a manual assembly line operation mode, the canning and cap screwing integrated machine for seed coating agent production is provided.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the canning and capping integrated machine for seed coating production comprises a conveying frame, wherein a conveying belt is arranged on the conveying frame, uniformly distributed placing stations are arranged on the surface of the conveying belt, and a canning mechanism and a capping mechanism are respectively arranged on the conveying frame;

the canning mechanism consists of a first mounting frame fixed on the conveying frame, a centering component arranged on the first mounting frame and a can liquid component arranged through the first mounting frame;

the cap screwing mechanism is composed of a second mounting frame fixed on the conveying frame, a lifting plate slidably mounted on the second mounting frame, a fixing frame fixed on the top of the lifting plate and slidably connected with the second mounting frame, a lifting cylinder fixed on the top of the second mounting frame and connected with the fixing frame, a rotating motor fixedly mounted at the middle position of the top of the lifting plate, a clamp holder positioned below the lifting plate and fixedly connected with an output shaft of the rotating motor, and a bottle body pressing and fixing assembly mounted on the second mounting frame and used for fixing a bottle body.

Preferably, the tank liquid component is composed of a liquid storage tank arranged on one side of the conveying frame, a conveying pump fixedly arranged at the top of the liquid storage tank, a conveying pipe connected to a water outlet of the conveying pump, a liquid supply pipe slidably arranged in the middle of the first mounting frame and vertically arranged, an electric telescopic rod fixedly arranged at the top of the first mounting frame and used for driving the liquid supply pipe to lift, and a connecting hose connected between the conveying pipe and the liquid supply pipe.

By adopting the scheme, the conveying pump conveys the finished product solution in the liquid storage tank to the liquid supply pipe for discharging through the conveying pipe and the connecting hose, and the telescopic liquid supply pipe can extend into the bottle to realize automatic liquid storage operation of the bottle.

Preferably, the centering assembly is composed of a bidirectional screw rod and a fixed rod which are rotatably installed on one side of the first installation frame, a clamping motor installed on the side face of the first installation frame and used for driving the bidirectional screw rod, a pair of movable rods which are sleeved on the bidirectional screw rod in a threaded manner and are slidably connected to the fixed rod, and centering clamping plates fixedly connected to the ends of the movable rods, wherein the centering clamping plates are symmetrically distributed on two sides of the placing station.

By adopting the scheme, when the bottle placed on the conveyor belt is conveyed to the appointed position, the clamping motor drives the pair of centering clamping plates to clamp and center the bottle, so that the bottle can be accurately inserted into the bottle when the liquid supply pipe moves downwards, and automatic liquid storage can be realized.

Preferably, the bottle body pressing and fixing assembly is composed of a pressing cylinder fixedly installed on one side of the second installation frame, an installation rod fixedly connected to a piston rod of the pressing cylinder and an annular pressing plate fixedly connected to the other end of the installation rod, and the annular pressing plate is located below the clamp holder and located right above the placing station.

By adopting the scheme, the annular pressing plate on the mounting rod is driven to move downwards through the pressing cylinder, and the annular pressing plate presses and fixes the whole bottle, so that the bottle can be kept stable during subsequent cap screwing, and the shaking phenomenon can not occur.

Preferably, the clamping device is composed of a clamping seat fixedly arranged on an output shaft of the rotating motor, a pair of bottle cap clamping heads which are slidably arranged on two sides of the inner part of the clamping seat, and clamping cylinders which are arranged on two outer side surfaces of the clamping seat and used for driving the corresponding bottle cap clamping heads.

By adopting the scheme, the bottle cap is arranged between the pair of bottle cap clamping heads of the clamp holder, and the pair of bottle cap clamping heads are driven by the clamping cylinder to clamp the bottle cap so that the bottle cap can be screwed on the bottle mouth through the clamp holder.

Preferably, the first mounting frame and the second mounting frame are respectively provided with an infrared sensor opposite to the placing station, and the second mounting frame is provided with a controller.

By adopting the scheme, the bottle position is sensed through the infrared sensor, and the controller controls, so that the tank liquid and the spiral cover are automatic, labor is saved, and efficiency is improved.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

according to the automatic bottle filling machine, the bottle is centered through the pair of centering clamping plates and matched with the telescopic liquid supply pipe to realize automatic bottle filling operation, the bottle is pressed and fixed through the annular clamping plate, the bottle cap is clamped through the matched clamping device, and the automatic cap screwing of the bottle cap is realized through the rotating motor and the lifting cylinder, so that the bottle filling and cap screwing are integrated, automatic control is realized through the controller, the automation degree is high, the manual investment is effectively reduced, and the canning efficiency is improved.

Drawings

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

FIG. 2 is a schematic view of the canning mechanism of the present utility model;

FIG. 3 is a schematic view of a cap screwing mechanism according to the present utility model;

fig. 4 is a side view of the screw cap mechanism of the present utility model.

Legend description:

1. a carriage; 2. a conveyor belt; 3. a placement station;

4. a canning mechanism; 41. a first mounting frame; 42. a centering assembly; 421. a two-way screw rod; 422. a fixed rod; 423. clamping the motor; 424. a movable rod; 425. a centering splint; 43. a tank assembly; 431. a liquid storage tank; 432. a transfer pump; 433. a delivery tube; 434. an electric telescopic rod; 435. a liquid supply pipe; 436. a connecting hose;

5. a cap screwing mechanism; 51. a second mounting frame; 52. a lifting plate; 53. a fixing frame; 54. a lifting cylinder; 55. a rotating electric machine; 56. a holder; 561. a clamping seat; 562. a clamping cylinder; 563. a bottle cap chuck; 57. a bottle body pressing and fixing assembly; 571. a compacting cylinder; 572. a mounting rod; 573. an annular pressing plate;

6. an infrared sensor; 7. and a controller.

Detailed Description

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

Referring to fig. 1-4, the present utility model provides a technical solution: a canning and capping integrated machine for seed coating production comprises a conveying frame 1, wherein a conveying belt 2 is arranged on the conveying frame 1, uniformly distributed placing stations 3 are arranged on the surface of the conveying belt 2, and a canning mechanism 4 and a capping mechanism 5 are respectively arranged on the conveying frame 1;

the canning mechanism 4 is composed of a first mounting frame 41 fixed on the conveying frame 1, a centering component 42 mounted on the first mounting frame 41 and a can liquid component 43 mounted through the first mounting frame 41;

the cap screwing mechanism 5 is composed of a second mounting frame 51 fixed on the conveying frame 1, a lifting plate 52 slidably mounted on the second mounting frame 51, a fixing frame 53 fixed on the top of the lifting plate 52 and slidably connected with the second mounting frame 51, a lifting cylinder 54 fixed on the top of the second mounting frame 51 and connected with the fixing frame 53, a rotating motor 55 fixedly mounted at the middle position of the top of the lifting plate 52, a clamp holder 56 positioned below the lifting plate 52 and fixedly connected with an output shaft of the rotating motor 55, and a bottle body pressing and fixing assembly 57 mounted on the second mounting frame 51 and used for fixing a bottle body.

When the bottle is conveyed to the cap screwing station, the bottle body pressing and fixing assembly 57 firstly presses and fixes the bottle, then places the bottle cap on the clamp holder 56 for clamping, the clamped bottle cap is driven by the lifting cylinder 54 to slowly descend onto the bottle mouth, and meanwhile the clamped bottle cap is driven by the rotating motor 55 to rotate, so that the bottle cap is automatically screwed on the bottle mouth.

The tank assembly 43 is composed of a liquid storage tank 431 arranged on one side of the conveying frame 1, a conveying pump 432 fixedly arranged on the top of the liquid storage tank 431, a conveying pipe 433 connected to a water outlet of the conveying pump 432, a liquid supply pipe 435 slidably arranged in the middle of the first mounting frame 41 and vertically arranged, an electric telescopic rod 434 fixedly arranged on the top of the first mounting frame 41 and used for driving the liquid supply pipe 435 to lift, and a connecting hose 436 connected between the conveying pipe 433 and the liquid supply pipe 435.

The conveying pump 432 conveys the finished solution in the liquid storage tank 431 to the liquid supply pipe 435 for discharging through the conveying pipe 433 and the connecting hose 436, and the telescopic liquid supply pipe 435 can extend into the bottle to realize automatic liquid storage operation of the bottle.

The centering component 42 is composed of a bidirectional screw rod 421 and a fixed rod 422 which are rotatably installed on one side of the first installation frame 41, a clamping motor 423 installed on the side surface of the first installation frame 41 and used for driving the bidirectional screw rod 421, a pair of movable rods 424 which are sleeved on the bidirectional screw rod 421 in a threaded manner and are connected to the fixed rod 422 in a sliding manner, and centering clamping plates 425 fixedly connected to the end parts of the movable rods 424, wherein the centering clamping plates 425 are symmetrically distributed on two sides of the placing station 3.

When the bottles placed on the conveyor belt 2 are conveyed to the designated position, the clamping motor 423 drives the pair of centering clamping plates 425 to clamp and center the bottles, so that the liquid supply pipe 435 can be accurately inserted into the bottles when moving downwards, and automatic liquid tank can be realized.

The bottle body pressing assembly 57 is composed of a pressing cylinder 571 fixedly installed on one side of the second mounting frame 51, a mounting rod 572 fixedly connected to a piston rod of the pressing cylinder 571, and an annular pressing plate 573 fixedly connected to the other end of the mounting rod 572, wherein the annular pressing plate 573 is located below the clamp holder 56 and located right above the placing station 3.

The annular pressing plate 573 on the mounting rod 572 is driven to move downwards through the pressing cylinder 571, and the annular pressing plate 573 presses and fixes the whole bottle, so that the bottle can be kept stable during subsequent cap screwing, and the shaking phenomenon can not occur.

The holder 56 is composed of a holder 561 fixedly mounted on an output shaft of the rotary motor 55, a pair of cap chucks 563 slidably mounted on both sides of the inside of the holder 561, and a holder cylinder 562 mounted on both outer sides of the holder 561 for driving the corresponding cap chucks 563.

The bottle cap is placed between a pair of cap clamps 563 of the holder 56, and the pair of cap clamps 563 are driven by the clamping cylinder 562 to clamp the bottle cap so that the bottle cap can be subsequently screwed on the bottle mouth through the holder 56.

The first mounting frame 41 and the second mounting frame 51 are respectively provided with an infrared sensor 6 opposite to the placing station 3, and the second mounting frame 51 is provided with a controller 7.

The bottle position is sensed through the infrared sensor 6, and the controller 7 controls the bottle position, so that the tank liquid and the screw cap are automatic, labor is saved, and efficiency is improved.

Working principle: when the device is used, firstly, bottles to be processed are placed on a plurality of placing stations 3 on a conveyor belt 2, the conveyor belt 2 conveys the bottles, after an infrared sensor 6 on a first mounting frame 41 senses that the bottles pass through, a controller 7 controls the conveyor belt 2 to stop and controls a clamping motor 423 to work, the clamping motor 423 drives a bidirectional screw rod 421 to rotate, further a centering clamping plate 425 on a pair of movable rods 424 is mutually close to clamp and center the bottles, at the moment, bottle mouths are opposite to a liquid supply pipe 435, then the controller 7 controls an electric telescopic rod 434 to drive the liquid supply pipe 435 to stretch into the bottle mouths, a conveying pump 432 conveys finished solution in a liquid storage tank 431 to the liquid supply pipe 435 through a conveying pipe 433 and a connecting hose 436 to discharge, automatic can liquid operation of the bottles at the stations is achieved, after the can liquid is finished, the conveyor belt 2 continues to convey, after the infrared sensor 6 on a second mounting frame 51 senses the bottles after the can liquid, the controller again controls the conveyor belt 2 to stop, at the moment, a manual 562 is arranged between a pair of bottle caps 563 of bottle caps, the bottle caps 563 are driven by a clamping cylinder, the controller 7 controls a clamping cylinder to drive a pair of the clamping heads 563 to clamp the bottle caps, at the same time, the bottle caps 573 are simultaneously, the bottle caps 573 are driven by the annular clamping plate 573 to rotate to clamp the bottle caps, and the bottle caps 573, and the bottle caps are driven to rotate down, and the bottle caps are driven to rotate and rotate, and the bottle caps 573 to rotate, and the bottle caps are driven to rotate, and clamp the bottle caps are kept down.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The canning and capping integrated machine for seed coating production is characterized by comprising a conveying frame (1), wherein a conveying belt (2) is arranged on the conveying frame (1), uniformly distributed placing stations (3) are arranged on the surface of the conveying belt (2), and a canning mechanism (4) and a capping mechanism (5) are respectively arranged on the conveying frame (1);

the canning mechanism (4) is composed of a first mounting frame (41) fixed on the conveying frame (1), a centering assembly (42) arranged on the first mounting frame (41) and a can liquid assembly (43) arranged through the first mounting frame (41);

the cap screwing mechanism (5) is composed of a second mounting frame (51) fixed on the conveying frame (1), a lifting plate (52) slidably mounted on the second mounting frame (51), a fixing frame (53) fixed on the top of the lifting plate (52) and slidably connected with the second mounting frame (51), a lifting cylinder (54) fixed on the top of the second mounting frame (51) and connected with the fixing frame (53), a rotating motor (55) fixedly mounted at the middle position of the top of the lifting plate (52), a clamp holder (56) positioned below the lifting plate (52) and fixedly connected with an output shaft of the rotating motor (55) and a bottle body pressing and fixing assembly (57) mounted on the second mounting frame (51) and used for fixing a bottle body.

2. The pot-capping all-in-one machine for seed coating agent production according to claim 1, wherein the pot-capping all-in-one machine is characterized in that the pot-capping all-in-one machine is composed of a liquid storage tank (431) arranged on one side of a conveying frame (1), a conveying pump (432) fixedly arranged on the top of the liquid storage tank (431), a conveying pipe (433) connected to a water outlet of the conveying pump (432), a liquid supply pipe (435) slidingly arranged in the middle of a first mounting frame (41) and vertically arranged, an electric telescopic rod (434) fixedly arranged on the top of the first mounting frame (41) and used for driving the liquid supply pipe (435) to lift, and a connecting hose (436) connected between the conveying pipe (433) and the liquid supply pipe (435).

3. The can-type cap screwing machine for seed coating agent production according to claim 1, wherein the centering component (42) is composed of a bidirectional screw rod (421) and a fixed rod (422) rotatably installed on one side of the first installation frame (41), a clamping motor (423) installed on the side surface of the first installation frame (41) for driving the bidirectional screw rod (421), a pair of movable rods (424) which are sleeved on the bidirectional screw rod (421) in a threaded manner and are slidably connected to the fixed rod (422), and centering clamping plates (425) fixedly connected to the ends of the movable rods (424), and the centering clamping plates (425) are symmetrically distributed on two sides of the placing station (3).

4. The canning and capping all-in-one machine for seed coating agent production according to claim 1, wherein the bottle body pressing assembly (57) is composed of a pressing cylinder (571) fixedly installed on one side of the second installation frame (51), a mounting rod (572) fixedly connected to a piston rod of the pressing cylinder (571) and an annular pressing plate (573) fixedly connected to the other end of the mounting rod (572), and the annular pressing plate (573) is located below the clamp holder (56) and located right above the placing station (3).

5. The can and cap screwing machine for seed coating agent production according to claim 1, wherein the holder (56) is composed of a holder (561) fixedly mounted on an output shaft of the rotary motor (55), a pair of cap chucks (563) slidably mounted on both inner sides of the holder (561), and holding cylinders (562) mounted on both outer sides of the holder (561) for driving the corresponding cap chucks (563).

6. The canning and capping all-in-one machine for seed coating agent production according to claim 1, wherein the first mounting frame (41) and the second mounting frame (51) are respectively provided with an infrared sensor (6) opposite to the placing station (3), and the second mounting frame (51) is provided with a controller (7).