CN217755309U - Double-belt servo control type bottle arranging device - Google Patents

Abstract

The application discloses a double-belt servo control type bottle arranging device, which relates to the field of detection and comprises a conveying line and a conveying motor for driving a bottle body to move, wherein bottle clamping assemblies are symmetrically arranged along two sides of the conveying line respectively, double-belt groups are arranged on the two bottle clamping assemblies respectively, and each double-belt group comprises a first belt group and a second belt group which are sequentially arranged along the conveying direction; the rotating speed of the first belt set is lower than that of the second belt set, and the bottle clamping assembly is electrically connected to the control box; according to the bottle arranging device, the bottle arranging line is divided into two sections to be distributed, the first belt group pre-accelerates the bottles, the second belt group stably accelerates the bottles for a certain distance, a buffer area is additionally arranged compared with the traditional bottle arranging process which is directly carried out in a one-step mode, and the bottle arranging process is more stable; adjustment mechanism has solved the drawback that traditional adjustment mechanism can only single whole height-adjusting, adjusts the location more accurately in order to realize the independent regulation of two belt groups about all setting up on first belt group and the second belt group.

Description

Double-belt servo control type bottle arranging device

Technical Field

The utility model relates to a road bed filler test device field especially relates to a two belt servo control formula reason bottled putting.

Background

The glass bottle needs to be arranged in order before entering the equipment and is handled, and the bottle arrangement as the name implies makes the bottle that gets into check out test set evenly stable separately, has had relevant equipment to carry out preliminary realization to the bottle arrangement process.

Chinese patent CN209853292U discloses a high-speed adjustable bottle-arranging device, which comprises a frame, a platform, the platform divide into bilateral symmetry's two parts, the unilateral bottle wheel that advances that is equipped with, go out the bottle wheel, advance the bottle wheel, go out the bottle wheel and connect the clamp bottle belt respectively, be equipped with the slide rail in the frame, be equipped with motor and speed reducer at the slide rail, the speed reducer is connected with the action wheel through initiative lift axle, the bottle wheel is connected out to the action wheel, advance the bottle wheel and be connected with tensioning spring, at the platform, tensioning spring one side is equipped with the lift adjustment hand wheel, be equipped with the lift scale on one side of the lift adjustment hand wheel.

The motion analysis is carried out on the prior bottle arranging device: the motor rotates through action wheel subassembly control belt, and the bottle enters into reason bottle ware from the conveyer belt and advances the bottle end, and the belt presss from both sides tight bottle and makes it accelerate in the reason bottle ware, pulls open the interval between each bottle, then the bottle falls from reason bottle ware bottle end, gets into next station, and the height of pressing from both sides a bottle subassembly about wherein adjusting part is adjustable, and the width between the belt about the width adjusting part is adjustable, makes it can adapt to not unidimensional bottle and passes through.

However, in the actual production process, the following problems still exist in the above device:

1. the left and right bottle clamping assemblies can shake up and down in the operation process, so that the bottle body is unstable;

2. the bottle inlet end and the bottle outlet end of the left and right bottle clamping assemblies are inconsistent in height, and the upper and lower adjusting assemblies cannot adjust the height of the bottle inlet end and the bottle outlet end of the left and right bottle clamping assemblies, so that a bottle body falls down unstably from the bottle outlet end, and the bottle body shakes to influence the next station test;

3. the belt replacement consumes too long time, which affects the overall production efficiency.

Disclosure of Invention

In order to solve the technical problem, the application provides a two belt servo control formula reason bottled putting, the reason bottled putting of this application can stably adjust two bottle interval distances, and does not have the problem of rocking on the conveyer line, and the operation of changing the belt is more convenient.

The technical problem of the application is realized by the following technical scheme: a double-belt servo control type bottle arranging device comprises a conveying line, wherein a conveying motor for driving bottles to move is arranged on the conveying line, bottle clamping assemblies are symmetrically arranged along two sides of the conveying line respectively, double belt groups are arranged on the two bottle clamping assemblies respectively, and each double belt group comprises a first belt group and a second belt group which are sequentially arranged along the conveying direction; the rotating speed of the first belt set is lower than that of the second belt set, and the bottle clamping assembly is electrically connected to the control box.

Further, the bottle clamping distance of the first belt set is smaller than that of the second belt set.

Furthermore, a quick-release hinge is arranged on the bottle clamping assembly and used for opening the bottle clamping assembly shell.

Further, a rack is installed at the bottom of the bottle clamping assembly.

Further, first belt group and second belt group all include driving wheel group and driven wheelset, set up driving motor on the driving wheel group, set up tensioning adjustment mechanism on the driven wheelset.

Furthermore, an upper and lower adjusting mechanism is arranged on the bottle clamping assembly and used for adjusting the height of the double-belt set.

Furthermore, an upper adjusting mechanism and a lower adjusting mechanism are arranged on the first belt set and the second belt set respectively to achieve independent adjustment of the two belt sets.

Furthermore, a width adjusting mechanism is arranged on the bottle clamping assembly and used for adjusting the distance between the two double belt sets.

Further, the first belt set and the second belt set can independently operate under the signal control of the control box.

In summary, the present application has the following beneficial effects:

1. this application will manage the bottle line and fall into two segmentation overall arrangements through setting up two belt groups, and first belt group carries out the pre-acceleration to the bottle, and the second belt group separates the certain distance with the stable acceleration of bottle, has add the buffer than traditional direct one step bottle of branch, and the reason bottle process is more stable.

2. The utility model provides an all set up the independent regulation of adjustment mechanism in order to realize two belt groups about all on first belt group and the second belt group, solved the drawback that traditional adjustment mechanism can only single overall height-adjusting, it is more accurate to adjust the location.

3. Set up the quick detach hinge on pressing from both sides the bottle subassembly in order to replace traditional bolt-up lid, the quick detach hinge is used for opening pressing from both sides bottle subassembly casing, and it is more swift to change the belt.

Drawings

FIG. 1 is a schematic view of a prior art bottle unscrambler;

FIG. 2 is a schematic view of a first perspective structure of the present application;

FIG. 3 is a schematic view of a second perspective structure of the present application;

FIG. 4 is an enlarged schematic view of the structure at A;

fig. 5 is a schematic structural view of the bottle clamping assembly.

Description of reference numerals:

1. a conveying line; 2. a conveying motor; 3. a bottle clamping assembly; 4. a double belt set; 401. a first belt set; 402. a second belt set; 5. a driving wheel set; 6. a driven wheel set; 7. a drive motor; 8. an up-down adjusting mechanism; 9. a width adjusting mechanism; 10. a tension adjustment mechanism; 11. a frame; 12. a control box; 13. quick detach hinge.

Detailed Description

The present application is described in further detail below with reference to figures 1-5. Referring to fig. 1, in order to achieve the bottle arranging structure in the prior art, a motor controls a belt to rotate through a driving wheel set 5, bottles enter a bottle inlet end of a bottle arranging device from a conveying belt, the belt clamps the bottles to accelerate the bottles in the bottle arranging device, intervals among the bottles are pulled open, then the bottles fall from a bottle outlet end of the bottle arranging device and enter a next station, wherein an upper adjusting mechanism 8 can adjust the height of a left bottle clamping assembly 3 and a right bottle clamping assembly 3, and a width adjusting mechanism 9 can adjust the width between the left belt and the right belt, so that the bottles can be suitable for bottles of different sizes to pass through.

This application has carried out multiple improvement to above reason bottle structure to improve its working property. The application discloses a double-belt servo control type bottle arranging device which comprises a conveying line 1, wherein a conveying motor 2 for driving a bottle body to move is arranged on the conveying line 1, bottle clamping assemblies 3 are symmetrically arranged on two sides of the conveying line 1 respectively, double-belt groups 4 are arranged on the two bottle clamping assemblies 3 respectively, and the double-belt groups 4 comprise a first belt group 401 and a second belt group 402 which are sequentially arranged along the conveying direction; the rotation speed of the first belt set 401 is lower than that of the second belt set 402, and the bottle clamping assembly 3 is electrically connected to the control box 12.

When the bottle body enters a buffer area of a first belt set 401 of the bottle arranging device from the conveying line 1, the bottle body passes through the buffer area in a decelerating mode; when passing through the second belt set 402, the second belt set accelerates, pulls apart the space between the bottles, and then the bottles fall from the bottle outlet end of the bottle arranging device to enter the next station.

In one embodiment, as shown in fig. 4, unlike the above solution, the bottle clamping distance of the first belt set 401 is smaller than the bottle clamping distance of the second belt set 402.

The buffer distance that first belt group 401 provided is less than the acceleration and divides the bottle distance, and longer branch bottle region can let bottle transport stability improve, prevents to rock.

In one embodiment, as shown in fig. 3, a quick-release hinge 13 is provided on the bottle clamping assembly 3, the quick-release hinge 13 is used for opening the shell of the bottle clamping assembly 3, and the belt system of the double belt sets 4 can also adopt a quick-release structure for easy replacement; the shell adopts a hinge structure, and the belt can be replaced by directly folding the belt for 180 degrees.

In one embodiment, as shown in fig. 1-2, the bottom of the bottle clamping assembly 3 is provided with a frame 11, and the frame 11 is a height-adjustable frame body, so that the bottle clamping assembly 3 has higher adaptability to the conveying line 1 and is also suitable for conveying systems with various heights.

In one embodiment, each of the first belt set 401 and the second belt set 402 includes a driving wheel set 5 and a driven wheel set 6, the driving wheel set 5 is provided with a driving motor 7, and the driven wheel set 6 is provided with a tension adjusting mechanism 10.

The double-belt type structure can better control the space and the stability of the bottle bodies, and the bottle arranging device has four driving motors 7 which are distributed on the left bottle clamping assembly and the right bottle clamping assembly and independently control the four belts to operate; tensioning adjustment mechanism 10 adopts the design of eccentricity formula, and is more simple and convenient, can the effectual elasticity that guarantees the belt.

In one embodiment, as shown in fig. 2-3, the bottle clamping assembly 3 is provided with an up-down adjusting mechanism 8, and the up-down adjusting mechanism 8 is used for adjusting the height of the double belt set 4.

In one embodiment, the above technical solution is specifically: an upper and lower adjusting mechanism 8 is arranged on each of the first belt set 401 and the second belt set 402 to realize independent adjustment of the two belt sets 4.

Two rotating wheels are respectively arranged on two sides of the up-down adjusting mechanism 8, the two rotating wheels on each side are connected through a synchronous belt, and the height of a single side can be adjusted by rotating any one rotating wheel; four angles highly adjust respectively, can pull down two synchronous belts fast after, four runners adjust respectively about press from both sides the height at four angles of bottle subassembly 3, press from both sides bottle subassembly 3's height more convenient about unable independent control of tradition.

In one embodiment, a width adjusting mechanism 9 is disposed on the bottle clamping assembly 3, and the width adjusting mechanism 9 is used for adjusting the distance between the two double belt sets 4.

The utility model provides a reason bottled putting participates in to be set for: setting the speed on the conveying line 1 before entering as V1, and setting the speed of the bottle body clamped by the first belt set 401 to advance as V2; the bottle body is clamped by the second belt set 402 and advances at a speed of V3; the speed of the bottle body from the bottle outlet end to the other conveying line is V4; the overall speed condition is V2 < V1 < V3 < V4.

In some embodiments, the first belt set 401 and the second belt set 402 can be controlled to operate independently by signals from the control box 12. When the device is operated independently, the first belt set 401 can be stopped independently, so that the bottle bodies are prevented from being rubbed, and the phenomenon that the bottle bodies fall down due to too large impact force of the bottle bodies when the bottle arranging device is started can be avoided.

The previous description is only for the purpose of describing particular embodiments of the present application, and is provided to enable any person skilled in the art to understand or implement the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a two belt servo control formula reason bottled putting, includes transfer chain (1), set up conveying motor (2) that the drive bottle removed on transfer chain (1), its characterized in that: bottle clamping assemblies (3) are symmetrically arranged along two sides of the conveying line (1) respectively, double belt groups (4) are arranged on the two bottle clamping assemblies (3), and the double belt groups (4) comprise a first belt group (401) and a second belt group (402) which are sequentially arranged along the conveying direction; the rotating speed of the first belt set (401) is lower than that of the second belt set (402), and the bottle clamping assembly (3) is electrically connected to the control box (12).

2. The dual-belt servo-controlled bottle unscrambling device according to claim 1, wherein: the bottle clamping distance of the first belt set (401) is smaller than that of the second belt set (402).

3. The dual-belt servo-controlled bottle organizing device of claim 1, wherein: the bottle clamping assembly is characterized in that a quick-release hinge (13) is arranged on the bottle clamping assembly (3), and the quick-release hinge (13) is used for opening a shell of the bottle clamping assembly (3).

4. The dual-belt servo-controlled bottle organizing device of claim 2, wherein: the bottom of the bottle clamping component (3) is provided with a frame (11).

5. The dual-belt servo-controlled bottle unscrambling device according to claim 2, wherein: first belt group (401) and second belt group (402) all include driving wheel group (5) and driven wheelset (6), set up driving motor (7) on driving wheel group (5), set up tensioning adjustment mechanism (10) on driven wheelset (6).

6. The dual-belt servo-controlled bottle unscrambling device according to claim 5, wherein: and an upper and lower adjusting mechanism (8) is arranged on the bottle clamping assembly (3), and the upper and lower adjusting mechanism (8) is used for adjusting the height of the double belt groups (4).

7. The dual-belt servo-controlled bottle organizing device of claim 6, wherein: and the first belt set (401) and the second belt set (402) are both provided with an upper and lower adjusting mechanism (8) to realize independent adjustment of the double belt sets (4).

8. The dual-belt servo-controlled bottle unscrambling device according to claim 6, wherein: the bottle clamping assembly (3) is provided with a width adjusting mechanism (9), and the width adjusting mechanism (9) is used for adjusting the distance between the two belt sets (4).

9. The dual-belt servo-controlled bottle organizing device of claim 1, wherein: the first belt set (401) and the second belt set (402) can independently operate under the signal control of the control box (12).

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