CN220664861U

CN220664861U - Anti-caking structure for pipe orifice of gel filling machine

Info

Publication number: CN220664861U
Application number: CN202322360458.5U
Authority: CN
Inventors: 姜洁; 姜军; 徐强
Original assignee: Hangzhou Sleeping Beauty Biotechnology Co ltd
Current assignee: Hangzhou Sleeping Beauty Biotechnology Co ltd
Priority date: 2023-08-31
Filing date: 2023-08-31
Publication date: 2024-03-26
Anticipated expiration: 2033-08-31

Abstract

The utility model discloses an anti-caking structure of a pipe orifice of a gel filling machine, which comprises a main body, wherein a pipeline is arranged in the main body, the end wall structures at two sides of the pipeline are symmetrical, three grooves which are respectively L-shaped grooves, sliding grooves and control grooves are sequentially formed in the end walls at two sides of the pipeline from top to bottom, a transmission groove is formed in the end wall between each L-shaped groove and each sliding groove, and the L-shaped grooves, the control grooves and an internal component of each transmission groove form a control component; the gel filling machine can be directly arranged at the pipe orifice of the filling machine, is convenient and quick to use, can process gel carried out by the filling bottle at the pipe orifice of the filling port when the filling machine fills the filling bottle, prevents the gel from accumulating around the pipe orifice of the filling port, does not influence the normal operation of the filling machine, does not need to be provided with a power source, can be used at any time, is matched with a bottle opening, and is extremely convenient.

Description

Anti-caking structure for pipe orifice of gel filling machine

Technical Field

The utility model relates to the technical field of filling machines, in particular to an anti-caking structure for a pipe orifice of a gel filling machine.

Background

When the conventional gel filling machine is used, due to the ascending and descending movement track of the filling bottle and the viscosity of the gel, the bottle mouth is often attached with some redundant gel at the position of the pipeline opening of the filling machine when the gel descends and breaks away from the filling machine, the gel near the pipe opening of the filling machine can be gradually air-dried to block the filling pipe under the condition that the gel is gradually piled up, and the gel can also block the whole pipeline opening of the filling machine under the state that the filling machine is stopped, so that the production of products is greatly influenced.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an anti-caking structure for a pipe orifice of a gel filling machine, and solves the problems that the pipe orifice of the existing filling machine can be stuck with gel and air-dried to block the pipe orifice.

The utility model is realized by the following technical scheme.

The utility model discloses an anti-caking structure for a pipe orifice of a gel filling machine, which comprises a main body, wherein a pipeline is arranged in the main body, end wall structures at two sides of the pipeline are symmetrical, three grooves which are respectively L-shaped grooves, sliding grooves and control grooves are sequentially formed in the end walls at two sides of the pipeline from top to bottom, a transmission groove is formed in the end wall between each L-shaped groove and each sliding groove, the L-shaped grooves, the control grooves and inner components of the transmission grooves form a control component, the inner components of the sliding grooves form a working component, and the control component is used for controlling operation logic of the working component.

Further, L-shaped groove one end opening orientation the pipeline, L-shaped groove other end opening orientation the sliding tray, L-shaped inslot orientation the one end of pipeline is interior to slide and is equipped with first slider, first slider outside terminal surface with be equipped with first spring between the L-shaped groove, L-shaped inslot orientation the one end of sliding tray is interior to slide and is equipped with the transmission slider, the transmission slider with be equipped with the hydraulic liquid that is used for transmitting power in the L-shaped groove between the first slider.

Further, a driving block and a driving block are arranged in the transmission groove in a sliding manner up and down, and a second spring is arranged between the driving block and the driving block.

Further, a matching hole is formed in the lower side of the first sliding block, and the matching hole is used for matching with the driving block to limit the first sliding block.

Further, the sliding tray top is equipped with and fixes the flitch on the transmission slider, be equipped with the main part slider of upper and lower slip in the sliding tray, the main part slider with be equipped with the third spring between the low terminal surface of sliding tray, be equipped with left and right sliding tray in the main part slider, be equipped with the second slider of left and right sliding tray in the left and right sliding tray, the second slider outside terminal surface with be equipped with the fourth spring between the left and right sliding tray end wall.

Further, a third sliding block is slidably arranged in the control groove, a fifth spring is arranged between the third sliding block and the end wall of the control groove, the conduction groove is communicated with the control groove through a hydraulic pipeline, one end of hydraulic liquid in the pipeline is contacted with the third sliding block, and the other end of the hydraulic liquid is contacted with the driving block.

Further, the first spring, the second spring, the third spring, the fourth spring and the fifth spring are compression springs.

The utility model has the beneficial effects that: the gel filling machine can be directly arranged at the pipe orifice of the filling machine, is convenient and quick to use, can process gel carried out by the filling bottle at the pipe orifice of the filling port when the filling machine fills the filling bottle, prevents the gel from accumulating around the pipe orifice of the filling port, does not influence the normal operation of the filling machine, does not need to be provided with a power source, can be used at any time, is matched with a bottle opening, and is extremely convenient.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of the embodiment of the utility model at A in FIG. 1;

FIG. 3 is an enlarged schematic view of the embodiment of the utility model at B in FIG. 1.

Detailed Description

The utility model will now be described in detail with reference to fig. 1-3, wherein for convenience of description the orientations described below are now defined as follows: the vertical, horizontal, front-rear directions described below are identical to the vertical, horizontal, front-rear directions of the projection relationship of fig. 1 itself.

The utility model provides a gel filling machine mouth of pipe anti-caking structure, includes main part 10, 10 are equipped with pipeline 26 in the main part, pipeline 26 both sides end wall structural symmetry, pipeline 26 both sides end wall is equipped with three groove from top to bottom in proper order, is L-shaped groove 12 respectively, sliding tray 16, control groove 17, L-shaped groove 12 with be equipped with transmission groove 31 in the end wall between the sliding tray 16, L-shaped groove 12 with control groove 17 and transmission groove 31 inner assembly constitution control assembly, the working assembly is constituteed to sliding tray 16 inner assembly, control assembly is used for controlling the operation logic of working assembly.

The main body 10 is connected to the filling machine pipe orifice 23, the main body 10 is buckled to the filling machine pipe orifice 23 through the pipeline 26, or the main body 10 is installed on the filling machine pipe orifice 23 through threaded fit, internal threads are arranged on the upper side of the pipeline 26, and external threads are arranged on the filling machine pipe orifice 23.

The lower side of the pipe 26 in the main body 10 is used for connecting with a bottle mouth 24, and the bottle mouth 24 is inserted into the pipe mouth 26 for filling.

One end of the L-shaped groove 12 is opened towards the pipeline 26, the other end of the L-shaped groove 12 is opened towards the sliding groove 16, a first sliding block 11 is arranged in the groove of the L-shaped groove 12 towards the inside of one end of the pipeline 26 in a sliding way, the first sliding block 11 stretches into the pipeline 26, the lower end of the first slider 11 is provided with an inclined surface, when the bottle mouth 24 ascends in the pipeline 26 and pushes the first slider 11 into the L-shaped groove 12, the bottle mouth is abutted with the pipe mouth of the filling machine 23, and at the moment, the filling work can be started.

A first spring 25 is disposed between the outer end surface of the first slider 12 and the L-shaped groove 12, when the bottle mouth 24 pushes the first slider 11 into the L-shaped groove 12, the first spring 25 is compressed, and when the bottle mouth 24 descends away from the position of the first slider 11, the first spring 25 is affected by elastic force to push the first slider 11 out of the L-shaped groove 12 again.

The transmission slide block 13 is slidably arranged in one end, facing the sliding groove 16, of the L-shaped groove 12, hydraulic liquid for transmitting power is arranged in the L-shaped groove 12 between the transmission slide block 13 and the first slide block 11, and when the first slide block 11 enters the L-shaped groove 12, the hydraulic liquid is arranged in the L-shaped groove 12, and when the first slide block 11 slides outwards under the thrust of the bottle opening 24, the transmission slide block 13 moves downwards through the hydraulic liquid.

The top end of the sliding groove 16 is provided with a pushing plate 14 fixed on the transmission sliding block 13, the transmission sliding block 13 drives the pushing plate 14 to move downwards when moving downwards, and when the first spring 25 pushes the first flower sliding block 11 out of the L-shaped groove 12 again, the transmission sliding block 13 drives the pushing plate 14 to rise simultaneously due to the fact that hydraulic liquid is arranged in the L-shaped groove 12.

The driving block 32 and the driving block 35 are slidably arranged in the conducting groove 31 up and down, a second spring 30 is arranged between the driving block 32 and the driving block 35, and the driving block 32, the driving block 35 and the second spring 30 play roles in changing action logic and delaying action.

The lower side of the first sliding block 11 is provided with a matching hole 27, the matching hole 27 is used for matching with the driving block 32 to limit the first sliding block 11, the sliding groove 16 is internally provided with a main body sliding block 15 sliding up and down, a third spring 34 is arranged between the main body sliding block 15 and the lower end surface of the sliding groove 16, the main body sliding block 15 is internally provided with a left sliding groove 20 and a right sliding groove 20, the inside of the left and right sliding groove 20 is provided with a second sliding block 22 which slides left and right, the bottom surface of the second sliding block 22 is provided with an inclined surface for assisting the bottle mouth 24 to rise, the pipe 26 can be completely blocked when the second sliding block 22 is in butt joint, and a fourth spring 21 is arranged between the outer side end surface of the second sliding block 22 and the end wall of the left and right sliding groove 20.

The third sliding block 19 is slidably arranged in the control groove 17, an inclined surface is arranged at the lower end of the third sliding block 19 to assist the bottle mouth 24 to move upwards, a fifth spring 18 is arranged between the third sliding block 19 and the end wall of the control groove 17, the conducting groove 31 is communicated with the control groove 17 through a hydraulic pipeline, one end of hydraulic liquid in the pipeline is contacted with the third sliding block 19, and the other end is contacted with the driving block 35.

The lengths of the first slider 11 and the third slider 19 which only extend into the pipeline 26 are far smaller than those of the second slider 22, and the first slider 11 and the third slider 19 only have the effect of determining the bottle opening position.

When the bottle mouth 24 enters the pipeline 26, the bottle mouth 24 is firstly contacted with the third slide block 19, and when the bottle mouth 24 is not contacted with the second slide block 22 and the first slide block 11, the third slide block 19 slides into the control groove 17, the fifth spring 18 keeps a compressed state, and the third slide block 19 drives the driving block 35 to move upwards when sliding into the control groove 17 due to the hydraulic liquid arranged between the control groove 17 and the conducting groove 31;

the driving block 35 moves upwards, and the first slider 11 blocks the driving block 32 and cannot rise because the bottle mouth 24 is not in contact with the first slider 11, so that the second spring 30 is kept in a compressed state;

the bottle mouth 24 continues to go deep into the pipeline 26 and is contacted with the third slide block 19 and the second slide block 22 at the same time, the bottle mouth pushes the second slide block 22 to two sides, the second slide block 22 enters the left and right sliding grooves 20, and the fourth spring 21 keeps a compressed state;

the bottle mouth 24 reaches the deepest part of the pipeline 26, the bottle mouth 24 is abutted against the pipeline 26, the bottle mouth 24 is simultaneously contacted with the first slide block 11, the second slide block 22 and the third slide block 19, the third slide block 19 slides into the L-shaped groove 12, at the moment, the matching hole 27 moves to the upper side of the driving block 32, and the second spring 30 pushes the driving block 32 to rise into the matching hole 27 when the matching hole 27 moves to the upper side of the driving block 32 due to the compression state of the second spring 30;

meanwhile, when the first slider 11 moves towards the inside of the L-shaped groove 12, because the L-shaped groove 12 contains hydraulic liquid, the first slider 11 drives the transmission slider 13 to descend, the transmission slider 13 descends to drive the pushing plate 14 to descend, the pushing plate 14 descends to drive the main body slider 15 to descend, the main body slider 15 descends to drive the second slider 22 to descend, at the moment, the first spring 25 and the third spring 34 are in a compressed state, and at the moment, the filling machine is started to perform filling operation on the bottle mouth 24 through the filling machine pipe orifice 23.

When the filling is finished, the bottle mouth 24 leaves the first slider 11, and the lifting block 32 is still inserted into the matching hole 27 because the bottle mouth 24 is still abutting the third slider 19 and the lifting block 32 is in a lifting state and is not changed, and at this time, the first slider 11 does not extend into the pipeline 26.

The bottle mouth 24 continues to descend, and when the second slider 22 is out of contact with the bottle mouth 24, the fourth spring 21 pushes the second slider into the pipe 26 by elastic force due to the compressed state of the fourth spring 21, and closes the pipe 26, at this time, the second slider 15 closes the pipe at the lower side of the sliding groove 16 due to the pushing plate 14 still pushing the main body slider 15.

When the bottle mouth 24 descends to be in contact with the third slider 19, the third slider 19 stretches out into the pipeline 26 again through the elastic force of the fifth spring 18, at this time, the third slider 19 drives the driving block 30 to descend through hydraulic liquid, because no blocking part is arranged in the conducting groove 31, the driving block 30 descends to drive the driving block 32 to descend, the driving block 32 descends to be matched with the matching hole 27 in a removing mode, at this time, the driving block 32 does not limit the first slider 11 any more, the first slider 11 stretches into the pipeline 26 under the elastic force of the first spring 25, the first slider 11 stretches into the pipeline 26 to drive the transmission slider 13 to ascend through hydraulic liquid, the transmission slider 13 ascends to enable the pushing plate 14 to not push the main body slider 15 downwards, the main body slider 15 is pushed to ascend through the elastic force of the third spring 34, and the main body slider 34 ascends to drive the second slider 22 to ascend.

Since this is done in a very short time, the second slider 22 closes and rises to reseal the gel carried out of the mouth 24 during filling, preventing the pipe from being blocked after the mouth of the pipe has been left to dry.

The first spring 25, the second spring 30, the third spring 34, the fourth spring 21 and the fifth spring 18 are all compression springs, and in this embodiment, are mainly compressed under force and then elastically restored to an original state by themselves.

The above embodiments are only for illustrating the technical concept and features of the present utility model, and are intended to enable those skilled in the art to understand the present utility model and implement it without limiting the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.

Claims

1. The utility model provides a gel filling machine mouth of pipe anti-caking structure, includes main part (10), be equipped with pipeline (26), its characterized in that in main part (10): the pipeline (26) both sides end wall structure symmetry, pipeline (26) both sides end wall is equipped with three groove from last to being equipped with down in proper order, is L shape groove (12) respectively, sliding tray (16), control groove (17), L shape groove (12) with be equipped with in the end wall between sliding tray (16) transmission groove (31), L shape groove (12) with control groove (17) and transmission groove (31) inner assembly constitution control assembly, working assembly is constituteed to sliding tray (16) inner assembly, control assembly is used for controlling working assembly's operation logic.

2. The gel filler spout anti-caking structure according to claim 1, wherein: the utility model discloses a pipeline, including L shape groove (12), pipeline (26), L shape groove (12) other end opening orientation sliding tray (16), L shape inslot orientation sliding tray (12) in the one end of pipeline (26) is equipped with first slider (11), first slider (11) outside terminal surface with be equipped with first spring (25) between L shape groove (12), in L shape groove (12) orientation sliding tray (16) in one end slide and be equipped with transmission slider (13), transmission slider (13) with be equipped with in L shape groove (12) between first slider (11) are used for transmitting the hydraulic liquid of power.

3. The gel filler spout anti-caking structure according to claim 2, wherein: the upper side and the lower side in the conducting groove (31) are provided with a driving block (32) and a driving block (35), and a second spring (30) is arranged between the driving block (32) and the driving block (35).

4. A gel filler spout anti-caking structure according to claim 3, characterized in that: the lower side of the first sliding block (11) is provided with a matching hole (27), and the matching hole (27) is used for matching with the driving block (32) to limit the first sliding block (11).

5. The gel filler spout anti-caking structure according to claim 4, wherein: the utility model discloses a sliding tray, including drive slider (13), sliding tray (16), main part slider (15) and sliding tray (16) are equipped with on the sliding tray (16) top be fixed drive board (14) on the drive slider (13), be equipped with upper and lower gliding main part slider (15) in the sliding tray (16), be equipped with third spring (34) between the low terminal surface of sliding tray (16), be equipped with left and right sliding tray (20) in main part slider (15), be equipped with left and right sliding second slider (22) in left and right sliding tray (20), second slider (22) outside terminal surface with be equipped with fourth spring (21) between left and right sliding tray (20) the end wall.

6. The gel filler spout anti-caking structure according to claim 5, wherein: the control groove (17) is internally provided with a third sliding block (19) in a sliding manner, a fifth spring (18) is arranged between the third sliding block (19) and the end wall of the control groove (17), the conduction groove (31) is communicated with the control groove (17) through a hydraulic pipeline, one end of hydraulic liquid in the pipeline is in contact with the third sliding block (19), and the other end of the hydraulic liquid is in contact with the driving block (35).

7. The gel filler spout anti-caking structure according to claim 6, wherein: the first springs (25), the second springs (30), the third springs (34), the fourth springs (21) and the fifth springs (18) are compression springs.