CN219584525U - Capping mechanism and bottle capping machine - Google Patents

Abstract

The utility model discloses a capping mechanism and a bottle capping machine, wherein the capping mechanism comprises a bottle cap retaining bin and a capping assembly, the bottle cap retaining bin comprises a bin body with openings at the top and the bottom, a plurality of bin gates and torsion springs, the bin gates are symmetrically hinged at the opening at the bottom of the bin body, and the torsion springs are arranged at the hinged positions of the bin gates and the bin body; the gland assembly comprises a pressing driving piece and a columnar pressing block, wherein the pressing driving piece is fixedly arranged right above the bin body, and the columnar pressing block is fixedly connected with the output end of the pressing driving piece. When the gland is operated, the columnar pressing block can always block the next bottle cap outside the bin body; after the capping operation of one bottle body is finished, the driving piece is pressed down to drive the columnar pressing block to be pulled away from the bin body, and the next bottle cap can only enter the bin body; and because the vertical dimension of the columnar pressing block is consistent all the time, the columnar pressing block can not drive the next bottle cap to turn up or drop when moving, and the stable operation of capping is ensured.

Description

Capping mechanism and bottle capping machine

Technical Field

The utility model relates to the technical field of urea packaging for vehicles, in particular to a capping mechanism and a bottle capping machine.

Background

Many liquid products, such as urea solution for vehicles, need to be filled in bottles after production is completed, so as to be convenient for transportation, storage and the like, and the capping process of the filled bottles is an important process for product production. The traditional filling and capping processes are all performed manually, so that the manual operation efficiency is low, and the production efficiency of products is directly affected; and for products such as medicines, foods and the like, certain health and safety hazards can be generated by manual operation.

In order to improve the defect of manual operation, a device special for filling and capping products is disclosed in the patent with the application number of 202021285045.5, for example, a full-automatic plastic bottle cap capping machine is disclosed, in the scheme, as the edge of the annular pressing plate protrudes out of the electric telescopic rod, when the annular pressing plate is lifted up after being pressed down, the part of the annular pressing plate protruding out of the outer side of the electric telescopic rod can drive the next plastic cap to turn up or fall, so that the normal operation of capping is influenced.

Disclosure of Invention

The utility model aims to overcome the technical defects, provides a capping mechanism and a bottle capping machine, and solves the technical problem that the capping machine in the prior art can drive the next plastic cap to turn up or drop during working to influence the normal capping operation.

In order to achieve the above technical object, the technical scheme of the present utility model provides a capping mechanism, which comprises:

the bottle cap retaining bin comprises a bin body with openings at the top and the bottom, a plurality of bin gates and torsion springs, wherein the bin body is fixedly arranged above the bottle body conveying line, one side of the bin body is communicated with a bottle cap conveying channel of an external bottle cap sorting and arranging device, the size of the bin body in the horizontal direction is matched with the cross section size of a bottle cap, the bin gates are symmetrically hinged at the opening at the bottom of the bin body, and the torsion springs are arranged at the hinged positions of the bin gates and the bin body;

the gland assembly comprises a pressing driving piece and a columnar pressing block, wherein the pressing driving piece is fixedly arranged right above the bin body, the columnar pressing block is fixedly connected with the output end of the pressing driving piece, and the cross section size of the columnar pressing block is consistent with that of the bottle cap.

Further, the capping mechanism further comprises a capping bottle body positioning assembly for limiting and fixing the bottle body on the bottle body conveying line under the bin body, the capping bottle body positioning assembly comprises two first telescopic driving pieces and two first abutting plates, the two first telescopic driving pieces are symmetrically and fixedly arranged on two sides below the bottle cap retaining bin, and the two first abutting plates are fixedly connected with the output ends of the two first telescopic driving pieces respectively; and the opposite ends of the two first propping plates are provided with limiting grooves.

Further, the limit groove is a V-shaped or arc-shaped limit groove.

Further, the capping mechanism further comprises a first inductive switch, the first inductive switch is fixedly arranged on one side right below the bin body, and the first inductive switch is electrically connected with the pushing driving piece, the first telescopic driving piece and the driving mechanism of the bottle conveying line.

The technical scheme of the utility model also provides a bottle capping machine, which comprises a bottle conveying line, a capping mechanism and a cap screwing mechanism, wherein the capping mechanism and the cap screwing mechanism are sequentially arranged along the conveying direction of the bottle conveying line, the cap screwing mechanism is used for screwing a bottle cap at a bottle opening, and the cap screwing mechanism comprises:

the rack is fixedly arranged above the bottle conveying line;

the lifting driving piece is fixedly arranged on the frame;

the rotating driving piece is vertically and movably arranged on the frame, and is fixedly connected with the output end of the lifting driving piece;

the bottle cap clamping seat is fixedly connected with the output end of the rotary driving piece, and an anastomotic groove matched with the bottle cap is formed in the bottom end surface of the bottle cap clamping seat.

Further, the cap screwing mechanism further comprises a cap screwing bottle body positioning assembly used for limiting and fixing the bottle body on the bottle body conveying line under the bottle cap clamping seat, the cap screwing bottle body positioning assembly comprises two second telescopic driving pieces and two second abutting plates, the two second telescopic driving pieces are symmetrically and fixedly arranged on two sides below the bottle cap clamping seat, and the two second abutting plates are fixedly connected with the output ends of the two second telescopic driving pieces respectively; the limiting grooves are formed in the opposite end faces of the two second abutting plates.

Further, the cap screwing mechanism further comprises a second inductive switch, the second inductive switch is fixedly arranged on one side below the bottle cap clamping seat, and the second inductive switch is electrically connected with the lifting driving piece, the rotating driving piece, the second telescopic driving piece and the driving mechanism of the bottle conveying line.

Further, the bottle capper further comprises a limiting pressing plate fixedly arranged between the columnar pressing block and the bottle cap clamping seat and positioned right above the bottle conveying line, and the height of the limiting pressing plate from the upper surface of the bottle conveying line is matched with the height of the capped bottle.

Further, the limiting pressing plate comprises a straight plate and a transition plate which are fixedly connected, the straight plate is fixedly arranged between the columnar pressing block and the bottle cap clamping seat, and the transition plate is fixedly connected with one end, close to the columnar pressing block, of the straight plate.

Further, the bottle capper further comprises guardrails fixedly arranged on two sides of the bottle conveying line, and the distance between the two guardrails is matched with the size of the bottle.

Compared with the prior art, the utility model has the beneficial effects that:

when the capping mechanism performs capping operation, the columnar pressing block can always block the next bottle cap outside the bin body; after the capping operation of one bottle body is finished, the pressing driving piece drives the columnar pressing block to be pulled away from the bin body, and the next bottle cap can only enter the bin body; and because the vertical dimension of the columnar pressing block is consistent all the time, the columnar pressing block can not drive the next bottle cap to turn up or drop when moving, and the stable operation of capping is ensured.

Drawings

FIG. 1 is a schematic view of a capping mechanism and bottle capper according to the present utility model;

fig. 2 is a schematic view of the structure of the bottle cap retaining bin in this embodiment.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The utility model provides a capping mechanism, the structure of which is shown in fig. 1 and 2, comprising a bottle cap retaining bin 21 and a gland assembly 22, wherein the bottle cap retaining bin 21 comprises a bin body 211 with openings at the top and the bottom, a plurality of bin gates 212 and torsion springs 213, the bin body 211 is fixedly arranged above a bottle body conveying line 1, one side of the bin body 211 is communicated with a bottle cap conveying channel 100 of an external bottle cap sorting and arranging device, the size of the bin body 211 in the horizontal direction is matched with the cross section size of a bottle cap 10, and the openings at the top and the bottom of the bin body 211 can be square holes or round holes; the plurality of bin gates 212 are symmetrically hinged at the bottom opening of the bin body 211, the torsion springs 213 are arranged at the hinge positions of the bin gates 212 and the bin body 211, and the torsion springs 213 can enable the opened bin gate 212 to return to an initial position, specifically, in this embodiment, when the bin gate 212 is located at the initial position, the plane where the bin gate 212 is located is a horizontal plane; the gland assembly 22 includes a pressing driving member 221 and a columnar pressing block 222, where the pressing driving member 221 is fixedly disposed directly above the bin body 211, and specifically, the pressing driving member 221 may be an air cylinder, a hydraulic cylinder or an electric push rod; the columnar pressing block 222 is fixedly connected with the output end of the pressing driving member 221, the cross section size of the columnar pressing block 222 is consistent with the cross section size of the bottle cap 10, and the top position of the columnar pressing block 222 is always higher than the top position of the bin body 211 when the columnar pressing block 222 moves. As a specific embodiment, in order to avoid the bottle cap 10 from being separated from the columnar pressing block 222 when the columnar pressing block 222 drives the bottle cap 10 to move downward, an air hole may be formed on the lower end surface of the columnar pressing block 222 and is communicated with an external negative pressure device, so that the bottle cap 10 is adsorbed on the lower end surface of the columnar pressing block 222 by using negative pressure; when the bottle cap 10 is placed on the bottle body, the adsorption of the columnar pressing block 222 to the bottle cap 10 is eliminated.

When the capping mechanism performs capping operation, the columnar pressing block 222 can always block the next bottle cap 10 outside the bin body 211; after the capping operation of one bottle body is finished, the pressing driving piece 221 drives the columnar pressing block 222 to be pulled away from the bin body 211, so that the next bottle cap 10 can enter the bin body 211; and because the vertical dimension of the columnar pressing block 222 is consistent all the time, the columnar pressing block 222 can not drive the next bottle cap to turn up or drop when moving, and the stable operation of capping is ensured.

Specifically, before or during the capping operation, the bottle to be capped is further required to be fixed, please refer to fig. 1, as a preferred embodiment, the capping mechanism further includes a capped bottle positioning assembly 23 for limiting and fixing the bottle on the bottle conveying line 1 under the bin 211, the capped bottle positioning assembly 23 includes two first telescopic driving members 231 and two first abutting plates 232, the two first telescopic driving members 231 are symmetrically and fixedly arranged at two sides under the bottle cap retaining bin 21, and specifically, the first telescopic driving members 231 are electric push rods; the two first abutting plates 232 are respectively fixedly connected with the output ends of the two first telescopic driving pieces 231; the two opposite ends of the first abutting plate 232 are provided with limiting grooves, and in particular, the limiting grooves are V-shaped or arc-shaped limiting grooves, and it can be understood that the V-shaped or arc-shaped limiting grooves can be suitable for round bottle caps 10 with different sizes.

In order to achieve automatic capping, as a preferred embodiment, the capping mechanism further includes a first inductive switch 24, where the first inductive switch 24 is fixedly disposed on a side right below the bin 211, and the first inductive switch 24 is electrically connected to the pressing driving member 221, the first telescopic driving member 231, and the driving mechanism of the bottle conveying line 1; specifically, the first sensing switch 24 is a photoelectric sensor.

The first inductive switch 24 is used for sensing bottle information right below the bin 211, and converting the sensed bottle information into an electrical signal, and transmitting the electrical signal to the pushing driving piece 221, the first telescopic driving piece 231 and the driving mechanism of the bottle conveying line 1, so as to sequentially close the bottle conveying line 1, open the first telescopic driving piece 231 and the pushing driving piece 221.

The utility model also provides a bottle capping machine, the structure of which is shown in figure 1, comprising the bottle conveying line 1, the capping mechanism 2 and the cap screwing mechanism 3, wherein the capping mechanism 2 and the cap screwing mechanism 3 are sequentially arranged along the conveying direction of the bottle conveying line 1, the cap screwing mechanism 3 is used for screwing a bottle cap 10 at a bottle opening, the cap screwing mechanism 3 comprises a rack 31, a lifting driving piece 32, a rotation driving piece 33 and a bottle cap clamping seat 34, and the rack 31 is fixedly arranged above the bottle conveying line 1; the lifting driving piece 32 is fixedly arranged on the frame 31; the rotation driving member 33 is movably disposed on the frame 31 along a vertical direction, and the rotation driving member 33 is fixedly connected with an output end of the lifting driving member 32, in this embodiment, a motor is selected as the rotation driving member 33; the bottle cap clamping seat 34 is fixedly connected with the output end of the rotary driving piece 33, and an anastomotic groove matched with the bottle cap 10 is formed in the bottom end surface of the bottle cap clamping seat 34; specifically, in order to increase the friction between the bottle cap clamping seat 34 and the bottle cap 10, an elastic rubber sleeve may be fixedly disposed in the matching groove.

It can be appreciated that, since the capping mechanism 2 only presses the bottle cap 10 at the bottle mouth of the bottle body, the connection between the bottle cap 10 and the bottle body is not tight, and the sealing effect cannot be achieved, and the rotation driving member 33 can drive the bottle cap 10 to rotate through the bottle cap clamping seat 34, so as to screw the bottle cap 10 at the bottle mouth of the bottle body.

Because the cap screwing mechanism 3 also needs to fix the bottle body when the cap screwing operation is performed, as a preferred embodiment, the cap screwing mechanism 3 further comprises a cap screwing bottle body positioning assembly 35 for limiting and fixing the bottle body on the bottle body conveying line 1 under the bottle cap clamping seat 34, the cap screwing bottle body positioning assembly 35 comprises two second telescopic driving pieces 351 and two second abutting plates 352, the two second telescopic driving pieces 351 are symmetrically and fixedly arranged on two sides under the bottle cap clamping seat 34, and the two second abutting plates 352 are fixedly connected with the output ends of the two second telescopic driving pieces 351 respectively; the limiting grooves are formed in the opposite end surfaces of the two second abutting plates 352.

In order to automate the cap screwing operation, as a preferred embodiment, the cap screwing mechanism 3 further includes a second inductive switch 36, specifically, the second inductive switch 36 is a photoelectric switch; the second inductive switch 36 is fixedly disposed at one side below the bottle cap clamping seat 34, and the second inductive switch 36 is electrically connected with the lifting driving member 32, the rotation driving member 33, the second telescopic driving member 351 and the driving mechanism of the bottle conveying line 1.

The second inductive switch 36 is used for sensing bottle information right below the bottle cap clamping seat 34, and converting the sensed bottle information into an electrical signal to be transmitted to the lifting driving member 32, the rotation driving member 33, the second telescopic driving member 351 and the driving mechanism of the bottle conveying line 1, so as to be used for sequentially closing the bottle conveying line 1, opening the second telescopic driving member 351, opening the lifting driving member 32 and the rotation driving member 33.

In order to avoid that the bottle caps 10 on the bottle body after the capping operation fall off in the conveying process on the bottle body conveying line, as a preferred embodiment, the bottle body capping machine further comprises a limiting pressing plate 4 fixedly arranged between the columnar pressing block 222 and the bottle cap clamping seat 34 and positioned right above the bottle body conveying line 1, wherein the height of the limiting pressing plate 4 from the upper surface of the bottle body conveying line 1 is matched with the height of the capped bottle body, and specifically, the bottom of the limiting pressing plate 4 is slightly higher than the height of the bottle body.

It can be understood that, because the bottle conveying line 1 will vibrate during operation, the bottle cap 10 covered at the bottle mouth of the bottle will vibrate to jump up and down, and the limit pressing plate 4 can limit the jumping or jumping amplitude of the bottle cap 10, so as to avoid the bottle cap 10 on the bottle after capping operation from falling.

In order to enable the bottle body subjected to capping operation to be smoothly conveyed to the bottom of the limit pressing plate 4, as a preferred embodiment, the limit pressing plate 4 comprises a straight plate 41 and a transition plate 42 which are fixedly connected, the straight plate 41 is fixedly arranged between the columnar pressing block 222 and the bottle cap clamping seat 34, the transition plate 42 is fixedly connected to one end, close to the columnar pressing block 222, of the straight plate 41, and specifically, the end of the transition plate 42 is smoothly connected with the end of the straight plate 41.

In order to further limit the bottles on the bottle conveying line 1, as a preferred embodiment, the bottle capping machine further comprises guardrails 5 fixedly arranged at two sides of the bottle conveying line 1, and the distance between the two guardrails 5 is matched with the size of the bottle.

For a convenient understanding of the present utility model, the following details of the working principle of the present solution are described with reference to fig. 1 to 2:

in operation, an external bottle cap sorting and arranging device (such as a bottle cap orientation sorting device disclosed in application number 201521008074.6) continuously supplies single-orientation bottle caps 10 to the bin body 211 through the bottle cap conveying channel 100 (single-orientation bottle caps 10 can be manually placed in the bottle cap conveying channel 100, and the bottle caps 10 slide into the bin body 211 under gravity);

when the first inductive switch 24 senses bottle information under the bin 211, the sensed bottle information is converted into an electrical signal and transmitted to the pushing driving piece 221, the first telescopic driving piece 231 and the driving mechanism of the bottle conveying line 1, so as to be used for sequentially closing the bottle conveying line 1, opening the first telescopic driving piece 231 and the pushing driving piece 221, the two first telescopic driving pieces 231 simultaneously respectively drive the corresponding first abutting plates 232 to act, the bottles are abutted and limited from two sides of the bottles, the pushing driving piece 221 applies downward pressure to the bottle cover 10 through the columnar pressing piece 222 so as to open the bin door 212, at the moment, the bottle cover 10 is pressed at the bottle opening of the bottle at the bottom of the bin 211 and is pressed, then the pushing driving piece 221 and the first telescopic driving piece 231 are sequentially reset, and the bottle conveying line 1 starts to run so as to convey the operated bottle to the cap screwing mechanism 3.

In the bottle conveying process, the limiting pressing plate 4 can limit the bottle cap 10 to jump or the jumping amplitude caused by vibration, so that the bottle cap 10 can be prevented from falling from the bottle.

When the bottle is conveyed to the position right below the bottle cap clamping seat 34, the second inductive switch 36 senses bottle information and can convert the sensed bottle information into an electric signal to be transmitted to the lifting driving member 32, the rotating driving member 33, the second telescopic driving member 351 and the driving mechanism of the bottle conveying line 1, so as to be used for sequentially closing the bottle conveying line 1, opening the second telescopic driving member 351 and opening the lifting driving member 32 and the rotating driving member 33; the two second telescopic driving pieces 351 respectively drive the corresponding second abutting plates 352 to act at the same time, the bottles are abutted against and limited from two sides of the bottles, the lifting driving piece 32 drives the rotating driving piece 33 to descend to a preset position, at the moment, the bottle cap clamping seat 34 is clamped on the bottle cap at the bottle mouth, and the rotating driving piece 33 is started and drives the bottle cap 10 at the bottle mouth to rotate through the bottle cap clamping seat 34, so that the bottle cap 10 at the bottle mouth is screwed; finally, the capped filling bottles are conveyed to the next working procedure through the bottle conveying line 1.

It should be noted that, in order to implement the automatic operation of the above-mentioned process, a corresponding control program (such as a PLC program) may be edited to implement an automatic operation, and since the automatic program is in the prior art, the control principle of the above-mentioned process that can be automatically operated will not be described herein.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (10)

1. The utility model provides a capping mechanism, fixed top that sets up at bottle transfer chain, its characterized in that includes:

the bottle cap retaining bin comprises a bin body with openings at the top and the bottom, a plurality of bin gates and torsion springs, wherein the bin body is fixedly arranged above the bottle body conveying line, one side of the bin body is communicated with a bottle cap conveying channel of an external bottle cap sorting and arranging device, the size of the bin body in the horizontal direction is matched with the cross section size of a bottle cap, the bin gates are symmetrically hinged at the opening at the bottom of the bin body, and the torsion springs are arranged at the hinged positions of the bin gates and the bin body;

the gland assembly comprises a pressing driving piece and a columnar pressing block, wherein the pressing driving piece is fixedly arranged right above the bin body, the columnar pressing block is fixedly connected with the output end of the pressing driving piece, and the cross section size of the columnar pressing block is consistent with that of the bottle cap.

2. The capping mechanism according to claim 1, further comprising a capped bottle positioning assembly for limiting and fixing the bottles on the bottle conveying line under the bin body, wherein the capped bottle positioning assembly comprises two first telescopic driving pieces and two first abutting plates, the two first telescopic driving pieces are symmetrically and fixedly arranged on two sides below the bottle cap retaining bin, and the two first abutting plates are fixedly connected with the output ends of the two first telescopic driving pieces respectively; and the opposite ends of the two first propping plates are provided with limiting grooves.

3. A capping mechanism as claimed in claim 2 wherein the limit grooves are V-shaped or arcuate limit grooves.

4. The capping mechanism of claim 2, further comprising a first inductive switch fixedly disposed on a side of the bin body directly below the bin body, and wherein the first inductive switch is electrically connected to the push-down drive member, the first telescoping drive member, and the drive mechanism of the bottle conveyor line.

5. A bottle capper, characterized by comprising the bottle conveying line according to any one of claims 1 to 4, a capping mechanism and a cap screwing mechanism, wherein the capping mechanism and the cap screwing mechanism are sequentially arranged along the conveying direction of the bottle conveying line, the cap screwing mechanism is used for screwing a bottle cap at a bottle mouth, and the cap screwing mechanism comprises:

the rack is fixedly arranged above the bottle conveying line;

the lifting driving piece is fixedly arranged on the frame;

the rotating driving piece is vertically and movably arranged on the frame, and is fixedly connected with the output end of the lifting driving piece;

the bottle cap clamping seat is fixedly connected with the output end of the rotary driving piece, and an anastomotic groove matched with the bottle cap is formed in the bottom end surface of the bottle cap clamping seat.

6. The bottle capping machine of claim 5, wherein the cap screwing mechanism further comprises a cap screwing bottle body positioning assembly for limiting and fixing a bottle body on the bottle body conveying line under the bottle cap clamping seat, the cap screwing bottle body positioning assembly comprises two second telescopic driving pieces and two second abutting plates, the two second telescopic driving pieces are symmetrically and fixedly arranged on two sides under the bottle cap clamping seat, and the two second abutting plates are fixedly connected with the output ends of the two second telescopic driving pieces respectively; the limiting grooves are formed in the opposite end faces of the two second abutting plates.

7. The bottle capping machine of claim 6, wherein the cap screwing mechanism further comprises a second inductive switch, the second inductive switch is fixedly arranged on one side below the bottle cap clamping seat, and the second inductive switch is electrically connected with the lifting driving member, the rotation driving member, the second telescopic driving member and the driving mechanism of the bottle conveying line.

8. The bottle capping machine of claim 5, further comprising a limiting pressing plate fixedly arranged between the columnar pressing block and the bottle cap clamping seat and positioned right above the bottle conveying line, wherein the height of the limiting pressing plate from the upper surface of the bottle conveying line is matched with the height of the capped bottle.

9. The bottle capping machine of claim 8, wherein the limiting pressing plate comprises a straight plate and a transition plate which are fixedly connected, the straight plate is fixedly arranged between the columnar pressing block and the bottle cap clamping seat, and the transition plate is fixedly connected with one end of the straight plate, which is close to the columnar pressing block.

10. The bottle capping machine of claim 5, further comprising guardrails fixedly arranged on two sides of the bottle conveying line, wherein the distance between the two guardrails is matched with the size of the bottle.