CN112441537A

CN112441537A - Sealing machine for penicillin bottle

Info

Publication number: CN112441537A
Application number: CN202011474061.3A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2021-03-05

Abstract

The invention relates to a sealing machine, in particular to a sealing machine for penicillin bottles. The invention provides a sealing machine for penicillin bottles, which can seal penicillin bottles, clamp the penicillin bottles tightly and press the penicillin bottles. A capper for xiLin bottle, including: the mounting plate is welded at the top of the support leg; the top of the mounting plate is provided with a placing block; pushing mechanism, the mounting panel top is equipped with pushing mechanism. According to the invention, the pushing mechanism is arranged, and the pushing mechanism is matched with the air discharging mechanism, so that the sealing work of the penicillin bottle can be realized; the clamping mechanism is matched with the extruding mechanism, so that the penicillin bottle can be automatically clamped and fixed; the edge pressing mechanism is matched with the edge extruding mechanism, so that the penicillin bottle can be pressed to be flat every time; the pressing mechanism is matched with the pushing mechanism, so that the pressing rod can automatically move downwards, and the labor intensity of workers is effectively reduced.

Description

Sealing machine for penicillin bottle

Technical Field

The invention relates to a sealing machine, in particular to a sealing machine for penicillin bottles.

Background

The ampoule bottle is a small bottle made of high-quality thin glass, and is commonly used for storing medicines for injection, vaccines, serum and the like, the most common medicine is medical, the medicines for infusion are packaged in the ampoule bottle or the penicillin bottle, workers in a pharmaceutical factory generally seal the penicillin bottle manually in order to prolong the storage time of the medicines in the penicillin bottle, the workers need to spend a long time sealing the penicillin bottle manually, meanwhile, the workers need to consume large strength for clamping and fixing the penicillin bottle manually, and the efficiency for sealing the penicillin bottle manually by the workers is low.

Patent application number CN208576752 discloses a xiLin bottle closing device for water needle, including activity axle group scarf joint in the casing upper end, the fluting has the joint groove that connects that is used for butt joint activity axle group in the casing upper end, connects and openly link up in the joint groove and is provided with the window, connects the filling groove that the embedding of groove lower extreme was provided with built-in helium, and the filling groove outside has cup jointed the pressure spring, and filling groove bottom end zonulae occludens has the rubber ring, is applicable to the application or the production of product encapsulation. The device has a simple structure, is convenient to operate, realizes the penicillin bottle sealing work, improves the production efficiency, does not better realize automation in the operation process, and is not provided with any fixed component, so that the penicillin bottle can shake left and right when the device is used for sealing the penicillin bottle.

Therefore, aiming at the problems in the prior art, the sealing machine for the penicillin bottle is designed, can seal the penicillin bottle, can clamp the penicillin bottle tightly, and can press the edge of the penicillin bottle.

Disclosure of Invention

The invention aims to overcome the defects that a worker needs to spend a long time on manually sealing a penicillin bottle, the worker needs to consume a large amount of force for clamping and fixing the penicillin bottle manually, and the efficiency of sealing the penicillin bottle manually by the worker is low.

The technical implementation scheme of the invention is as follows: a capper for xiLin bottle, including:

the mounting plate is welded at the top of the support leg;

the top of the mounting plate is provided with a placing block;

the pushing mechanism is arranged at the top of the mounting plate;

the upper part of the pushing mechanism is provided with the air discharging mechanism, and the air discharging mechanism is in contact fit with the pushing mechanism.

In a preferred embodiment of the present invention, the pushing mechanism comprises:

the top of the mounting plate is provided with a first bracket, and the middle of the upper part of the first bracket is welded with a gas tank;

the lower part of the lower pressure rod is in sliding fit with the air box;

the lower pressure rod is sleeved with a first spring, and two ends of the first spring are respectively connected with the lower pressure rod and the first sliding sleeve;

the middle part of the top of the mounting plate is fixedly connected with a second support, an air pressure box is placed on the second support, and the air pressure box is in through connection with the upper part of the air pressure box;

the first sliding rod is arranged in the air pressure box in a sliding mode, a second spring is sleeved on the upper portion of the first sliding rod, and two ends of the second spring are connected to the top of the air pressure box and the first sliding rod respectively;

the telescopic sucker is mounted at the bottom end of the first sliding rod.

In a preferred embodiment of the present invention, the air release mechanism comprises:

the upper part of the lower pressing rod is symmetrically provided with first supporting rods, and the bottom ends of the two first supporting rods are fixedly connected with first wedge-shaped blocks;

the upper part of the air pressure box is provided with a second sliding sleeve, and a second sliding rod is arranged in the second sliding sleeve in a sliding manner;

the two ends of the second sliding rod are fixedly connected with second wedge blocks, and the second wedge blocks are in contact fit with the first wedge blocks;

and the second sliding rod is sleeved with a third spring, and two ends of the third spring are respectively connected to the second sliding sleeve and the second sliding rod.

In a preferred embodiment of the present invention, the present invention further comprises a clamping mechanism, wherein the clamping mechanism comprises:

the third sliding sleeves are symmetrically and fixedly connected to two sides of the outer wall of the placing block;

a third slide bar is arranged in each third slide sleeve in a sliding manner;

a fourth spring is sleeved outside the third sliding rod, and two ends of the fourth spring are respectively connected to the third sliding sleeve and the third sliding rod;

the inner ends of the two third sliding rods are fixedly connected with clamping blocks, and the two clamping blocks are matched with each other.

In a preferred embodiment of the present invention, the present invention further comprises a squeezing mechanism, wherein the squeezing mechanism comprises:

the top end of the first sliding rod is symmetrically provided with a second supporting rod;

the fifth sliding sleeve is fixedly connected to two sides of the second support and is in sliding fit with the second support rod;

and the bottom ends of the two second supporting rods are fixedly connected with a fourth wedge block, the outer ends of the two third sliding rods are symmetrically and fixedly connected with fifth wedge blocks, and the fifth wedge blocks are in contact fit with the fourth wedge blocks.

In a preferred embodiment of the present invention, the present invention further comprises a blank pressing mechanism, wherein the blank pressing mechanism comprises:

the top ends of the third sliding sleeves at two sides of the third supporting rod are fixedly connected with the third supporting rod;

the top ends of the two third supporting rods are fixedly connected with a sixth sliding sleeve, and a pressure edge block is arranged in the sixth sliding sleeve in a sliding manner;

and the edge pressing block is sleeved with a fifth spring, and two ends of the fifth spring are connected to the edge pressing block and the sixth sliding sleeve respectively.

In a preferred embodiment of the present invention, the present invention further comprises an edge extruding mechanism, wherein the edge extruding mechanism comprises:

the bottom ends of the two second supporting rods are fixedly connected with the L rod;

the bottom end of the L rod is provided with a seventh wedge block;

and the outer end of the edge pressing block is fixedly connected with an eighth wedge block, and the seventh wedge block is in contact fit with the eighth wedge block.

In a preferred embodiment of the present invention, the present invention further comprises a pressing mechanism, wherein the pressing mechanism comprises:

the fourth supporting rods are symmetrically arranged on two sides of the first sliding sleeve;

the mounting blocks are connected between the top ends of the two fourth supporting rods;

the cylinder is fixedly connected to the mounting block through bolts.

In a preferred embodiment of the invention, the number of the fifth wedge-shaped blocks is four.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the pushing mechanism is arranged, and the pushing mechanism is matched with the air discharging mechanism, so that the sealing work of the penicillin bottle can be realized;

2. the clamping mechanism is matched with the extruding mechanism, so that the penicillin bottle can be automatically clamped and fixed;

3. the edge pressing mechanism is matched with the edge extruding mechanism, so that the penicillin bottle can be pressed to be flat every time;

4. the pressing mechanism is matched with the pushing mechanism, so that the pressing rod can automatically move downwards, and the labor intensity of workers is effectively reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 3 is a perspective view of the air release mechanism of the present invention.

Fig. 4 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 5 is a schematic perspective view of the squeezing mechanism of the present invention.

FIG. 6 is a schematic perspective view of the edge pressing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the edge extruding mechanism of the present invention.

Fig. 8 is a schematic perspective view of the pressing mechanism of the present invention.

Wherein the figures include the following reference numerals: 1_ foot, 2_ mounting plate, 3_ placing block, 4_ pushing mechanism, 41_ first bracket, 42_ air box, 43_ first sliding sleeve, 44_ press bar, 45_ first spring, 46_ second bracket, 47_ air box, 48_ first sliding bar, 49_ second spring, 410_ telescopic suction cup, 5_ air release mechanism, 51_ first strut, 52_ first wedge block, 53_ second wedge block, 54_ second sliding sleeve, 55_ second sliding bar, 56_ third spring, 6_ clamping mechanism, 61_ third sliding sleeve, 62_ third sliding bar, 63_ fourth spring, 64_ clamping block, 7_ squeezing mechanism, 71_ second strut, 72_ fifth sliding sleeve, 73_ fourth wedge block, 74_ fifth wedge block, 8_ pressing mechanism, 81_ third strut, 82_ sixth sliding sleeve, 83_ pressing block, 84_ fifth spring, 9_ pressing mechanism, 91_ L-bar, 92_ seventh wedge block, 93_ eighth wedge block, 10_ hold-down mechanism, 101_ fourth strut, 102_ mounting block, 103_ cylinder.

Detailed Description

Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Example 1

The utility model provides a capper for xiLin bottle, as shown in figure 1, including stabilizer blade 1, mounting panel 2, place piece 3, pushing mechanism 4 and air bleeder mechanism 5, the welding of stabilizer blade 1 top has mounting panel 2, and mounting panel 2 top front side is equipped with places piece 3, and mounting panel 2 top is equipped with pushing mechanism 4, and air bleeder mechanism 5 is installed on 4 upper portions of pushing mechanism, and air bleeder mechanism 5 and pushing mechanism 4 contact cooperation.

When a worker needs to seal a penicillin bottle, the worker needs to put the penicillin bottle on the placing block 3, after the penicillin bottle is positioned on the placing block 3, the worker needs to put a bottle cap on the pushing mechanism 4, then the worker needs to press the pushing mechanism 4 downwards, the pushing mechanism 4 moves downwards to drive the bottle cap to move downwards, the pushing mechanism 4 moves downwards until the pushing mechanism 4 stops contacting with the air discharging mechanism 5 temporarily, the bottle cap is pressed into the penicillin bottle, when the worker needs to seal another penicillin bottle, the worker needs to quickly release the pushing mechanism 4, the pushing mechanism 4 has a reset function, when the pushing mechanism 4 moves upwards and temporarily contacts with the air discharging mechanism 5, the air discharging mechanism 5 can not block the pushing mechanism 4 temporarily, and then the pushing mechanism 4 moves upwards quickly to reset, at the moment, the worker can replace the penicillin bottle on the placing block 3, and if the worker needs to continue to seal the penicillin bottle, and the worker can seal the other penicillin bottle by continuing the operation.

Example 2

In a preferred embodiment of the present invention, as shown in fig. 2, the pushing mechanism 4 comprises a first bracket 41, an air box 42, a first sliding sleeve 43, a lower pressing rod 44, a first spring 45, a second bracket 46, an air pressure box 47, a first sliding rod 48, a second spring 49 and a telescopic sucker 410, the first bracket 41 is disposed at the rear side of the top of the mounting plate 2, the air box 42 is welded in the middle of the upper portion of the first bracket 41, the first sliding sleeve 43 is connected between the upper portions of the rear sides of the air box 42, the lower pressing rod 44 is slidably fitted in the first sliding sleeve 43, the first spring 45 is fitted on the lower pressing rod 44, both ends of the first spring 45 are respectively connected to the lower pressing rod 44 and the first sliding sleeve 43, the second bracket 46 is fixedly connected to the middle portion of the top of the mounting plate 2, the air pressure box 47 is disposed on the second bracket 46, the rear side of the air pressure box 47 is connected to the upper portion of the rear side of the air box 42 in a penetrating manner, the first sliding, the upper part of the first slide bar 48 is sleeved with a second spring 49, two ends of the second spring 49 are respectively connected to the top of the pneumatic box 47 and the first slide bar 48, and the bottom end of the first slide bar 48 is provided with a telescopic sucker 410.

When the vial is located on the placing block 3, the worker needs to place the vial cap on the retractable sucker 410, the retractable sucker 410 will suck the vial cap, and then the worker needs to make the downward pressing rod 44 slide downward in the first sliding sleeve 43, the first spring 45 is compressed, the downward movement of the downward pressing rod 44 will slide downward in the air tank 42, a large amount of gas will be generated in the air tank 42, the gas in the air tank 42 will push into the air tank 47, the gas in the air tank 47 will push the first sliding rod 48 to slide downward, the second spring 49 will be compressed, the downward movement of the first sliding rod 48 will drive the retractable sucker 410 to slide downward, the downward movement of the retractable sucker 410 will drive the vial cap, the downward movement of the vial cap will push into the vial, and then the worker needs to open the air release mechanism 5, the gas in the air tank 47 will be discharged from the upper portion, at this time, the worker can quickly release the downward pressing rod 44, the first spring 45 will reset, the first spring 45 will push the downward pressing rod 44 to slide upward in the first sliding sleeve 43, the second spring 49 has a reset function, the second spring 49 can pull the first sliding rod 48 to slide upwards in the air pressure box 47, the first sliding rod 48 slides upwards to drive the telescopic sucker 410 to slide upwards to reset, and after the telescopic sucker 410 slides upwards to restore to the original position, a worker can place another bottle cap on the telescopic sucker 410 again, so that the sealing machine can continuously seal the penicillin bottle.

Example 3

In a preferred embodiment of the present invention, as shown in fig. 1 and fig. 3-8, the deflation mechanism 5 comprises a first support rod 51, a first wedge block 52, a second wedge block 53, a second sliding sleeve 54, a second sliding rod 55 and a third spring 56, the first support rod 51 is symmetrically installed on the upper portion of the lower pressing rod 44, the first wedge block 52 is fixedly connected to the bottom ends of the two first support rods 51, the second sliding sleeve 54 is installed on the upper portion of the rear side of the air pressure tank 47, the second sliding sleeve 54 is internally provided with a second sliding rod 55, the second wedge block 53 is fixedly connected to the left and right ends of the second sliding rod 55, the second wedge block 53 is in contact fit with the first wedge block 52, the second sliding rod 55 is sleeved with the third spring 56, and the two ends of the third spring 56 are respectively connected to the second sliding sleeve 54 and the second sliding rod 55.

The manual opening process of the deflation mechanism 5 is complicated each time, so that when the lower pressing rod 44 moves upwards, the lower pressing rod 44 drives the first supporting rod 51 to move upwards, the first supporting rod 51 moves upwards to drive the first wedge-shaped block 52 to move upwards, when the first wedge-shaped block 52 moves upwards to contact with the second wedge-shaped block 53, the first wedge-shaped block 52 pushes the second wedge-shaped block 53 to move backwards, the second wedge-shaped block 53 moves backwards to drive the second sliding rod 55 to slide backwards in the second sliding sleeve 54, the third spring 56 is stretched, when the second sliding rod 55 slides backwards to temporarily stop contacting with the air pressure box 47, the air in the air pressure box 47 is discharged, when the lower pressing rod 44 moves downwards, the lower pressing rod 44 drives the first supporting rod 51 to move downwards, the first supporting rod 51 moves downwards to drive the first wedge-shaped block 52 to move downwards, and when the first wedge-shaped block 52 moves downwards to temporarily stop contacting with the second wedge-shaped block 53, the third spring 56 is reset, the third spring 56 pushes the second sliding rod 55 to slide forward in the second sliding sleeve 54, the second sliding rod 55 slides forward to drive the second wedge-shaped block 53 to move forward, when the second sliding rod 55 slides forward to temporarily stop contacting with the air pressure tank 47, the second sliding rod 55 blocks the air pressure tank 47, so that the sealing machine completes the operation of automatically discharging the air in the air pressure tank 47.

Still including clamping mechanism 6, clamping mechanism 6 is including third sliding sleeve 61, third slide bar 62, fourth spring 63 and press from both sides tight piece 64, it has third sliding sleeve 61 to place the symmetrical rigid coupling in the outer wall left and right sides of piece 3, it is equipped with third slide bar 62 all to slide in the third sliding sleeve 61, third slide bar 62 outside cover is equipped with fourth spring 63, the both ends of fourth spring 63 are connected respectively on third sliding sleeve 61 and third slide bar 62, two equal rigid couplings in third slide bar 62 inner have press from both sides tight piece 64, two press from both sides tight piece 64 and mutually support.

In order to avoid that the penicillin bottle may shake freely on the placing block 3 during the process of sealing the penicillin bottle, so that a worker needs to pull the third sliding rod 62 to slide outwards in the third sliding sleeve 61, the outward sliding of the third sliding rod 62 drives the clamping blocks 64 to move outwards, the fourth spring 63 is stretched, when the clamping blocks 64 move outwards again, the worker needs to place the penicillin bottle on the placing block 3, the penicillin bottle is just located between the two clamping blocks 64, after the worker places the penicillin bottle, the worker needs to quickly release the third sliding rod 62, the fourth spring 63 is reset, the fourth spring 63 pushes the third sliding rod 62 to slide inwards in the third sliding sleeve 61, the inward sliding of the third sliding rod 62 drives the clamping blocks 64 to move inwards, the inward movement of the clamping blocks 64 clamps the penicillin bottle on the placing block 3, if the worker needs to take out the penicillin bottle on the placing block 3, and the worker can clamp and fix the penicillin bottle by repeating the operation again.

The extrusion mechanism 7 comprises a second support rod 71, a fifth sliding sleeve 72, a fourth wedge block 73 and a fifth wedge block 74, the second support rod 71 is symmetrically arranged on the left and right of the top end of the first sliding rod 48, the fifth sliding sleeve 72 is fixedly connected to the left and right of the second support 46, the fifth sliding sleeve 72 is in sliding fit with the second support rod 71, the fourth wedge block 73 is fixedly connected to the bottom ends of the two second support rods 71, the fifth wedge block 74 is symmetrically fixedly connected to the outer ends of the two third sliding rods 62, and the fifth wedge block 74 is in contact fit with the fourth wedge block 73.

The process that a worker pulls the third sliding rod 62 outwards at the same time is complicated, when the first sliding rod 48 moves downwards, the first sliding rod 48 moves downwards to drive the second supporting rod 71 to slide downwards in the fifth sliding sleeve 72, the second supporting rod 71 slides downwards to drive the fourth wedge-shaped block 73 to slide downwards, the fourth wedge-shaped block 73 slides downwards until temporarily stopping contacting with the fifth wedge-shaped block 74, the fourth spring 63 is reset, the fourth spring 63 pushes the third sliding rod 62 to slide inwards in the third sliding sleeve 61, so that the clamping block 64 moves inwards to clamp and fix the penicillin bottle, when the first sliding rod 48 moves upwards, the first sliding rod 48 moves upwards to drive the second supporting rod 71 to slide upwards in the fifth sliding sleeve 72, the second supporting rod 71 slides upwards to drive the fourth wedge-shaped block 73 to slide upwards, and when the fourth wedge-shaped block 73 slides upwards to contact with the fifth wedge-shaped block 74, the fourth wedge-shaped block 73 pushes the fifth wedge-shaped block 74 to move outwards, the fifth wedge-shaped block 74 moves outwards to drive the third sliding rod 62 to slide outwards in the third sliding sleeve 61, the fourth spring 63 is stretched, the clamping block 64 can further move outwards, the penicillin bottle is not clamped and fixed temporarily, at this time, a worker can take out the penicillin bottle on the placing block 3 manually, if the worker still needs to seal another penicillin bottle, the worker can place another penicillin bottle on the placing block 3, the second supporting rod 71 slides downwards again, the clamping block 64 can move inwards again to clamp and fix the penicillin bottle, and therefore the sealing machine is simple and convenient to operate without the need of the worker to manually move outwards to the third sliding rod 62.

The blank pressing mechanism 8 comprises a third supporting rod 81, a sixth sliding sleeve 82, a blank pressing block 83 and a fifth spring 84, the third supporting rod 81 is fixedly connected to the top ends of the third sliding sleeves 61 on the left side and the right side, the sixth sliding sleeve 82 is fixedly connected to the top ends of the two third supporting rods 81, the blank pressing block 83 is arranged in the sixth sliding sleeve 82 in a sliding mode, the fifth spring 84 is sleeved on the blank pressing block 83, and two ends of the fifth spring 84 are connected to the blank pressing block 83 and the sixth sliding sleeve 82 respectively.

After the bottle cap is placed on the vial by the retractable sucker 410, in order to further increase the stability of the bottle cap on the vial, workers generally need to perform edge pressing work on the vial, therefore, when the telescopic sucker 410 moves upwards and returns to the original position, a worker needs to push the pressing block 83 to slide inwards in the sixth sliding sleeve 82, the fifth spring 84 is compressed, the pressing block 83 slides inwards to perform the pressing operation on the penicillin bottle and the bottle cap, thereby effectively increasing the stability of the bottle cap on the penicillin bottle, after the worker completes the edge pressing work of the penicillin bottle, the worker needs to quickly release the edge pressing block 83, the fifth spring 84 is reset, the fifth spring 84 can pull the edge pressing block 83 to slide and reset towards the outside in the sixth sliding sleeve 82, and if the worker needs to continue to perform the edge pressing work on the penicillin bottle, repeating the operation again by the worker to perform the edge pressing work on another penicillin bottle.

The edge extrusion mechanism 9 comprises an L rod 91, a seventh wedge block 92 and an eighth wedge block 93, the L rod 91 is fixedly connected to the bottom ends of the two second supporting rods 71, the seventh wedge block 92 is installed at the bottom end of the L rod 91, the eighth wedge block 93 is fixedly connected to the outer end of the edge pressing block 83, and the seventh wedge block 92 is in contact fit with the eighth wedge block 93.

Considering that the force of a worker pushing the pressing block 83 inwards manually is different, so that the penicillin bottle is uneven, when the second support rod 71 moves downwards, the second support rod 71 moves downwards to drive the L rod 91 to move downwards, the L rod 91 moves downwards to drive the seventh wedge block 92 to slide downwards, when the seventh wedge block 92 slides downwards to be in contact with the eighth wedge block 93, the seventh wedge block 92 pushes the eighth wedge block 93 to move inwards, the seventh wedge block 92 moves inwards to drive the pressing block 83 to slide inwards, the fifth spring 84 is compressed, when the pressing block 83 slides inwards, the pressing work is performed on the penicillin bottle, when the second support rod 71 moves upwards, the second support rod 71 moves upwards to drive the L rod 91 to move upwards, the L rod 91 moves upwards to drive the seventh wedge block 92 to slide upwards, the seventh wedge block 92 slides upwards to temporarily stop being in contact with the eighth wedge block 93, fifth spring 84 reset action, fifth spring 84 can promote blank holder piece 83 to slide to the outside and reset, and blank holder piece 83 moves to the outside and can drive eighth wedge 93 to move to the outside and reset, so just need not the manual inside of workman and pushes away blank holder piece 83 to guaranteed that xiLin bottle all can be pressed at every turn and levels.

The device is characterized by further comprising a pressing mechanism 10, wherein the pressing mechanism 10 comprises fourth supporting rods 101, mounting blocks 102 and air cylinders 103, the fourth supporting rods 101 are symmetrically arranged on the front side and the rear side of the first sliding sleeve 43, the mounting blocks 102 are connected between the top ends of the two fourth supporting rods 101, and the air cylinders 103 are fixedly connected to the mounting blocks 102 through bolts.

The worker needs to consume great strength to move the lower pressing rod 44 downwards, the worker needs to start the air cylinder 103 to stretch, the telescopic rod of the air cylinder 103 extends to drive the lower pressing rod 44 to slide downwards, the fourth supporting rod 101 and the mounting block 102 play a supporting role, when the telescopic rod of the air cylinder 103 contracts, the telescopic rod of the air cylinder 103 drives the lower pressing rod 44 to slide downwards, and therefore the sealing machine does not need to manually move the lower pressing rod 44 downwards, and the labor intensity of the worker is effectively reduced.

It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims

1. A capper for xiLin bottle, its characterized in that, including:

the supporting foot comprises a supporting foot (1) and a mounting plate (2), wherein the mounting plate (2) is welded at the top of the supporting foot (1);

the top of the mounting plate (2) is provided with a placing block (3);

the pushing mechanism (4) is arranged at the top of the mounting plate (2);

the upper part of the pushing mechanism (4) is provided with the air discharging mechanism (5), and the air discharging mechanism (5) is in contact fit with the pushing mechanism (4).

2. The machine for closing bottles of penicillin bottles according to claim 1, wherein the pushing mechanism (4) comprises:

the top of the mounting plate (2) is provided with a first bracket (41), and the middle of the upper part of the first bracket (41) is welded with an air box (42);

the lower part of the lower pressure rod (44) is in sliding fit with the air box (42);

the lower pressure rod (44) is sleeved with the first spring (45), and two ends of the first spring (45) are respectively connected to the lower pressure rod (44) and the first sliding sleeve (43);

the middle part of the top of the mounting plate (2) is fixedly connected with the second support (46), an air pressure box (47) is placed on the second support (46), and the air pressure box (47) is connected with the upper part of the air box (42) in a penetrating manner;

the first sliding rod (48) is arranged in the air pressure box (47) in a sliding mode, a second spring (49) is sleeved on the upper portion of the first sliding rod (48), and two ends of the second spring (49) are connected to the top of the air pressure box (47) and the first sliding rod (48) respectively;

the telescopic sucker (410) is arranged at the bottom end of the first sliding rod (48).

3. The machine for closing bottles of penicillin bottles according to claim 2, wherein said deflation means (5) comprise:

the upper parts of the first support rods (51) and the lower pressing rods (44) are symmetrically provided with the first support rods (51), and the bottom ends of the two first support rods (51) are fixedly connected with first wedge-shaped blocks (52);

a second sliding sleeve (54), wherein the upper part of the air pressure box (47) is provided with the second sliding sleeve (54), and the second sliding sleeve (54) is internally provided with a second sliding rod (55) in a sliding manner;

the two ends of the second sliding rod (55) are fixedly connected with second wedge blocks (53), and the second wedge blocks (53) are in contact fit with the first wedge blocks (52);

and the second sliding rod (55) is sleeved with a third spring (56), and two ends of the third spring (56) are respectively connected to the second sliding sleeve (54) and the second sliding rod (55).

4. The sealing machine for penicillin bottles according to claim 3, further comprising a clamping mechanism (6), wherein the clamping mechanism (6) comprises:

the third sliding sleeve (61) is symmetrically and fixedly connected to two sides of the outer wall of the placing block (3);

a third sliding rod (62) is arranged in the third sliding sleeve (61) in a sliding manner;

a fourth spring (63), wherein the outer side of the third sliding rod (62) is sleeved with the fourth spring (63), and two ends of the fourth spring (63) are respectively connected to the third sliding sleeve (61) and the third sliding rod (62);

the inner ends of the two third sliding rods (62) are fixedly connected with clamping blocks (64), and the two clamping blocks (64) are matched with each other.

5. The sealing machine for penicillin bottles according to claim 4, further comprising a squeezing mechanism (7), wherein the squeezing mechanism (7) comprises:

the top end of the first sliding rod (48) is symmetrically provided with a second supporting rod (71);

the fifth sliding sleeve (72) is fixedly connected to two sides of the second support (46), and the fifth sliding sleeve (72) is in sliding fit with the second support rod (71);

the bottom ends of the two second support rods (71) are fixedly connected with fourth wedge blocks (73), the outer ends of the two third slide rods (62) are symmetrically and fixedly connected with fifth wedge blocks (74), and the fifth wedge blocks (74) are in contact fit with the fourth wedge blocks (73).

6. The sealing machine for penicillin bottles according to claim 5, further comprising a beading mechanism (8), wherein the beading mechanism (8) comprises:

the top ends of the third sliding sleeves (61) at the two sides of the third supporting rod (81) are fixedly connected with the third supporting rod (81);

the sixth sliding sleeve (82), the sixth sliding sleeve (82) is fixedly connected to the top ends of the two third supporting rods (81), and a pressure edge block (83) is arranged in the sixth sliding sleeve (82) in a sliding manner;

and the fifth spring (84) is sleeved on the edge pressing block (83), and two ends of the fifth spring (84) are respectively connected to the edge pressing block (83) and the sixth sliding sleeve (82).

7. The sealing machine for penicillin bottles of claim 6, further comprising an edge extruding mechanism (9), wherein the edge extruding mechanism (9) comprises:

the bottom ends of the two second supporting rods (71) are fixedly connected with the L rod (91);

the bottom end of the L rod (91) is provided with a seventh wedge-shaped block (92);

the outer end of the edge pressing block (83) is fixedly connected with an eighth wedge block (93), and the seventh wedge block (92) is in contact fit with the eighth wedge block (93).

8. The sealing machine for penicillin bottles of claim 7, further comprising a pressing mechanism (10), wherein the pressing mechanism (10) comprises:

the fourth supporting rods (101) are symmetrically arranged on two sides of the first sliding sleeve (43);

the mounting blocks (102) are connected between the top ends of the two fourth supporting rods (101);

the air cylinder (103) is fixedly connected to the mounting block (102) through bolts.

9. The machine for closing bottles of penicillin bottles according to claim 5, wherein the number of the fifth wedges (74) is four.