CN221027617U - Gynaecology's antibacterial gel apparatus for producing - Google Patents

Abstract

The utility model discloses a gynecological antibacterial gel production device, which relates to the technical field of antibacterial gel processing, and comprises filling equipment, wherein one side of the filling equipment is provided with a rotary platform, a discharge hole on the filling equipment corresponds to one end of the rotary platform up and down, one side of the filling equipment is also provided with lifting equipment, the lifting equipment is vertically positioned at the bottom end of the discharge hole on the filling equipment, the lifting equipment is also positioned at the lower end of the rotary platform, the rotary platform is provided with a plurality of limiting structures with uniformly distributed components, and each group of limiting structures corresponds to the lifting equipment vertically; the problem of among the prior art packaging container and filling equipment discharge gate among the high difference of position height is great, leads to filling equipment to cause exposing or sputtering easily when the filling is filled is solved.

Description

Gynaecology's antibacterial gel apparatus for producing

Technical Field

The utility model relates to the technical field of antibacterial gel processing, in particular to a gynecological antibacterial gel production device.

Background

The antibacterial gel is generally placed in an extrudable barrel before the filling operation, (the container in the shape of a multipurpose injection barrel on the market is simple and convenient), then the antibacterial gel is filled into a packaging container in an extrusion mode to form a finished product, and in the existing production process, a conveying device of the antibacterial gel filling machine generally uses a conveying belt, and the container for packaging the antibacterial gel is always in a vertical state.

The packaging containers for packaging the antibacterial gel are generally filled in batches during production, a plurality of packaging containers are placed on a production line one by one to move, the packaging containers are sequentially corresponding to the filling equipment, when the packaging equipment is filled, the filling mode of the antibacterial gel is generally that liquid falls into the packaging containers downwards from the discharge port of the filling equipment from top to bottom, so that in the operation process, firstly, the packaging containers are not collided with the discharge port of the filling equipment during movement so that the packaging containers are all moved below the discharge port of the filling equipment, a certain height exists between the discharge port of the filling equipment and the packaging containers, the height is a suspension position between the discharge port of the filling equipment and the packaging containers, the antibacterial gel can pass through the suspension position during discharge from the discharge port of the filling equipment, the antibacterial gel can not fall into the packaging containers completely, and the required distance is large when the antibacterial gel reaches the lowest position in the packaging containers from the position of the discharge port of the filling equipment, so that the antibacterial gel can not splash and pollute the packaging containers, the antibacterial gel can not splash and the packaging containers are easily produced, and the cost of the antibacterial gel is not splashed from the packaging containers.

Disclosure of Invention

The embodiment of the utility model provides a gynecological antibacterial gel production device, which aims to solve the problems in the background technology.

The embodiment of the utility model adopts the following technical scheme: the utility model provides a gynaecology's antibacterial gel apparatus for producing, includes filling equipment, one side of filling equipment is equipped with rotary platform, the discharge gate on the filling equipment corresponds from top to bottom with rotary platform's one end, one side of filling equipment still is equipped with lifting device, lifting device is located the bottom department of the last discharge gate of filling equipment perpendicularly, and lifting device still is located rotary platform's lower extreme, be equipped with a plurality of subassembly evenly distributed's limit structure on the rotary platform, every group limit structure all corresponds with lifting device perpendicularly; through limit structure to packing container spacing and fixed, rethread rotary platform's operation can drive a plurality of packing containers one by one with filling equipment's discharge gate correspond, every packing container that corresponds with filling equipment discharge gate all can adjust its position through limit structure and lifting device's operation, makes the position of filling equipment discharge gate be located packing container, then can not appear exposing or produce the problem of sputtering when the filling of antibacterial gel like this.

Further, the lifting device is a lifting driving device capable of controlling the travelling speed, and the specific position of the limiting structure is in a controllable state when the limiting structure is driven by the lifting device to move.

Further, the rotating end of the rotating platform is a rotating bottom plate, a rotating cover plate is arranged on the rotating bottom plate, an interval is arranged between the rotating bottom plate and the rotating cover plate, a plurality of groups of limiting structures are positioned in the interval arranged between the rotating bottom plate and the rotating cover plate, a plurality of evenly distributed discharging holes are formed in the rotating bottom plate and the rotating cover plate, moving holes are symmetrically formed in two sides of each discharging hole in the rotating bottom plate, each discharging hole and two corresponding moving holes are in a communicating state, the discharging holes formed in the rotating bottom plate and the rotating cover plate are vertically corresponding, and each two vertically corresponding discharging holes are corresponding to one group of limiting structures; the rotary platform is used for placing the limiting structure and driving the limiting structure to rotate, so that the limiting structure can drive a plurality of packaging containers to synchronously rotate, and each packaging container can be corresponding to the discharge hole of the filling equipment one by one.

Further, every group limit structure all includes counterpoint subassembly, connecting plate and fixed subassembly, counterpoint subassembly is located the interval that is equipped with between rotating bottom plate and the rotatory apron, just counterpoint subassembly corresponds with the relief (ing) hole, the connecting plate is equipped with two, two connecting plate symmetry sets up in counterpoint subassembly's bottom, and every the connecting plate all is located a removal downthehole, fixed subassembly is located the below of rotating bottom plate, fixed subassembly's top is connected between two connecting plates, fixed subassembly's bottom corresponds with jacking equipment is perpendicular.

Further, the alignment assembly comprises a placing frame, first limiting rods, two movable alignment blocks and a double-rod bidirectional cylinder, wherein the placing frame is positioned above the rotating bottom plate, the placing frame is positioned at the upper end of the discharging hole, the placing frame does not shade the discharging hole and the movable hole, the first limiting rods and the movable alignment blocks are both provided with two limiting rods, the first limiting rods are symmetrically arranged in the placing frame, the two movable alignment blocks are symmetrically arranged at two ends of the first two limiting rods, the double-rod bidirectional cylinder is arranged on the side wall in the placing frame, and two working ends of the double-rod bidirectional cylinder are respectively connected to the two movable alignment blocks; two sliding grooves are symmetrically formed in each connecting plate, a second limiting rod and two springs are arranged in each sliding groove, the two springs are arranged around the second limiting rod, and the two springs are respectively positioned at the upper end and the lower end of the second limiting rod; the fixing assembly comprises two movable fixing blocks and a lifting connecting frame, wherein two movable fixing blocks are arranged, two sliding convex blocks are oppositely arranged on each movable fixing block, each sliding convex block is located in one sliding groove, each sliding convex block is in sliding connection with one limiting rod II, each sliding convex block is located between two springs, each movable fixing block is movably located on one side of one connecting plate through two sliding convex blocks, the lifting connecting frame is in U-shaped arrangement, the top ends of the lifting connecting frames are respectively connected to the bottom ends of the two movable fixing blocks, and the bottom ends of the lifting connecting frames vertically correspond to lifting equipment; the operation of two-bar bi-directional cylinder can make two remove the alignment piece carry out relative movement on two gag lever posts one, and two remove the alignment piece like this can be spacing to packaging container's top, makes its uncovered vertical up, and two remove the fixed block and can follow the removal of connecting plate and carry out synchronous movement when two remove the alignment piece and remove, two remove the fixed block and mainly act on the bottom of fixed assurance container, support packaging container's bottom at the cooperation lifting connection frame, can make packaging container can not take place the skew like this when carrying out the filling, and can not the weight that the filling produced to lead to packaging container to take place the problem that descends yet.

The above at least one technical scheme adopted by the embodiment of the utility model can achieve the following beneficial effects:

According to the utility model, the filling operation is performed by adopting a mode of limiting and moving the antibacterial gel packaging container, so that when the packaging container moves to the position below the discharge hole of the filling equipment, the packaging container is moved by adopting the lifting equipment, the position of the feed hole of the packaging container is slightly higher than that of the discharge hole of the filling equipment, the discharge hole of the filling equipment cannot flow out of the packaging container when liquid is discharged, the impact force generated when the liquid vertically falls down can be reduced to the greatest extent, the problem that the liquid is not sputtered out of the packaging container when the liquid falls down to the bottom end in the packaging container can be solved, and sufficient supporting force is easily provided for packaging when the packaging container performs the filling operation, and sufficient convenience is provided when the packaging container is subjected to blanking after the filling operation.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of a part of the present utility model;

FIG. 3 is a schematic diagram of a portion of a second embodiment of the present utility model;

FIG. 4 is a schematic perspective view of a limiting structure according to the present utility model;

FIG. 5 is a second perspective view of the limiting structure of the present utility model;

Fig. 6 is a schematic perspective view of a limiting structure in the present utility model.

Reference numerals: filling equipment 1, discharge gate 11, rotary platform 2, rotation bottom plate 21, rotatory apron 22, drain hole 23, remove hole 24, lifting device 3, limit structure 4, counterpoint subassembly 41, rack 411, gag lever post one 412, remove counterpoint piece 413, two-bar bi-directional cylinder 414, connecting plate 42, spout 421, gag lever post two 422, spring 423, fixed subassembly 43, remove fixed piece 431, lifting connection frame 432, slip lug 433.

Description of the embodiments

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to specific embodiments of the present utility model and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The following describes in detail the technical solutions provided by the embodiments of the present utility model with reference to the accompanying drawings.

Referring to fig. 1-6, an embodiment of the utility model provides a gynecological antibacterial gel production device, which comprises a filling device 1, wherein one side of the filling device 1 is provided with a rotary platform 2, a discharge hole 11 on the filling device 1 corresponds to one end of the rotary platform 2 up and down, one side of the filling device 1 is also provided with a lifting device 3, the lifting device 3 is vertically positioned at the bottom end of the discharge hole 11 on the filling device 1, the lifting device 3 is also positioned at the lower end of the rotary platform 2, the rotary platform 2 is provided with a plurality of limiting structures 4 with uniformly distributed components, and each group of limiting structures 4 corresponds to the lifting device 3 vertically.

In the utility model, a plurality of packaging containers for antibacterial gel are placed on the rotary platform 2 one by one during operation, each packaging container corresponds to one limiting structure 4, the packaging containers are limited and fixed through the limiting structures 4, the operation of the rotary platform 2 can drive the packaging containers to correspond to the discharge ports 11 of the filling equipment 1 one by one, the positions of the packaging containers corresponding to the discharge ports 11 of the filling equipment 1 are adjusted through the operation of the limiting structures 4 and the lifting equipment 3, the positions of the packaging containers and the discharge ports 11 of the filling equipment 1 are adjusted, and the discharge ports of the filling equipment 1 are moved into the packaging containers, so that the antibacterial gel can be well filled into the packaging containers.

Preferably, the rotating end of the rotating platform 2 is a rotating bottom plate 21, a rotating cover plate 22 is arranged on the rotating bottom plate 21, an interval is arranged between the rotating bottom plate 21 and the rotating cover plate 22, a plurality of limiting structures 4 are all located in the interval arranged between the rotating bottom plate 21 and the rotating cover plate 22, a plurality of evenly distributed discharging holes 23 are all arranged on the rotating bottom plate 21 and the rotating cover plate 22, moving holes 24 are symmetrically arranged on two sides of each discharging hole 23 on the rotating bottom plate 21, each discharging hole 23 is in a communicating state with two corresponding moving holes 24, the discharging holes 23 arranged on the rotating bottom plate 21 and the rotating cover plate 22 are vertically corresponding, and each two vertically corresponding discharging holes 23 are corresponding to one group of limiting structures 4.

Preferably, the lifting device 3 is a lifting driving device capable of controlling the running speed, and the specific position of the limiting structure 4 is controlled when moving by the lifting device 3, which means that when the working end of the lifting device 3 moves, the moving numerical value of each time and the specific position of the working end after the movement can be regulated by the lifting device 3, so that when the lifting device 3 pushes the packaging container to move to the discharge port of the filling device 1, the positions of the packaging container and the discharge port of the filling device 1 can be kept at the positions where the antibacterial gel is suitable for filling and the antibacterial gel is not exposed and sputtered during filling.

Preferably, each group of the limiting structures 4 includes an alignment component 41, a connecting plate 42 and a fixing component 43, the alignment component 41 is located in a space between the rotating base plate 21 and the rotating cover plate 22, the alignment component 41 corresponds to the discharging hole 23, two connecting plates 42 are arranged at the bottom ends of the alignment component 41, two connecting plates 42 are symmetrically arranged at one moving hole 24, the fixing component 43 is located below the rotating base plate 21, the top end of the fixing component 43 is connected between the two connecting plates 42, and the bottom ends of the fixing component 43 vertically correspond to the lifting device 3.

Preferably, the alignment assembly 41 includes a placement frame 411, a first limit rod 412, a second movable alignment block 413 and a dual-rod bidirectional cylinder 414, the placement frame 411 is located above the rotating bottom plate 21, the placement frame 411 is located at the upper end of the discharge opening 23, the placement frame 411 does not shield the discharge opening 23 and the movable hole 24, the first limit rod 412 and the second movable alignment block 413 are both provided with two, the first limit rod 412 is symmetrically arranged in the placement frame 411, the two movable alignment blocks 413 are symmetrically arranged at two ends of the first two limit rods 412, the dual-rod bidirectional cylinder 414 is arranged on the side wall of the placement frame 411, and two working ends of the dual-rod bidirectional cylinder 414 are respectively connected to the two movable alignment blocks 413.

Preferably, two sliding grooves 421 are symmetrically formed in each connecting plate 42, a second limiting rod 422 and two springs 423 are arranged in each sliding groove 421, the two springs 423 are arranged around the second limiting rod 422, and the two springs 423 are respectively located at the upper end and the lower end of the second limiting rod 422.

In the utility model, the limiting rod 422 arranged in the connecting plate 42 is used for connecting the fixing assembly 43, so that the fixing assembly 43 is limited when sliding on the connecting plate 42, the fixing assembly 43 is prevented from shifting when moving, the spring 423 can enable the fixing assembly 43 to be slower in the moving process, and the liquid in the packaging container is prevented from being exposed in the moving process.

Preferably, the fixing assembly 43 includes two moving fixing blocks 431 and lifting connection frames 432, the moving fixing blocks 431 are provided with two moving fixing blocks 431, each moving fixing block 431 is provided with two sliding protruding blocks 433, each sliding protruding block 433 is located in one sliding groove 421, each sliding protruding block 433 is connected with one limiting rod two 422 in a sliding mode, each sliding protruding block 433 is located between two springs 423, each moving fixing block 431 is movably located on one side of one connecting plate 42 through two sliding protruding blocks 433, the lifting connection frames 432 are in a U-shaped arrangement, the top ends of the lifting connection frames 432 are respectively connected to the bottom ends of the two moving fixing blocks 431, and the bottom ends of the lifting connection frames 432 vertically correspond to the lifting device 3.

In the utility model, the two movable alignment blocks 413 can relatively move on the first limiting rods 412 through the operation of the double-rod bidirectional air cylinder 414, so that the two movable alignment blocks 413 can limit the top end of the packaging container to enable the opening of the packaging container to vertically face upwards, the two movable fixing blocks 431 can synchronously move along with the movement of the connecting plate 42 when the two movable alignment blocks 413 move, the two movable fixing blocks 431 mainly act on the bottom end of the fixed guarantee container, and the bottom end of the packaging container is supported by the lifting connecting frame 432 in a matched mode, so that the packaging container cannot deviate when being filled, and the problem that the packaging container falls due to weight generated by filling is avoided.

The foregoing is merely exemplary of the present utility model and is not intended to limit the present utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are to be included in the scope of the claims of the present utility model.

Claims (7)

1. The gynecological antibacterial gel production device comprises filling equipment (1), and is characterized in that a rotary platform (2) is arranged on one side of the filling equipment (1), and a discharge hole (11) on the filling equipment (1) corresponds to one end of the rotary platform (2) up and down;

One side of the filling equipment (1) is also provided with lifting equipment (3), the lifting equipment (3) is vertically positioned at the bottom end of a discharge hole (11) on the filling equipment (1), and the lifting equipment (3) is also positioned at the lower end of the rotary platform (2);

A plurality of limiting structures (4) with uniformly distributed components are arranged on the rotating platform (2), and each group of limiting structures (4) vertically corresponds to the lifting equipment (3);

the lifting device (3) is a lifting driving device capable of controlling the running speed, and the specific position of the limiting structure (4) is in a controllable state when the limiting structure moves through the lifting device (3).

2. The gynecological antibacterial gel production device according to claim 1, wherein the rotating end of the rotating platform (2) is a rotating bottom plate (21), a rotating cover plate (22) is arranged on the rotating bottom plate (21), a space is arranged between the rotating bottom plate (21) and the rotating cover plate (22), and a plurality of groups of limiting structures (4) are all positioned in the space arranged between the rotating bottom plate (21) and the rotating cover plate (22).

3. The gynecological antibacterial gel production device according to claim 2, wherein a plurality of evenly distributed discharge ports (23) are respectively arranged on the rotary bottom plate (21) and the rotary cover plate (22), moving holes (24) are symmetrically formed in two sides of each discharge port (23) on the rotary bottom plate (21), each discharge port (23) is in a communicating state with two corresponding moving holes (24), the discharge ports (23) arranged on the rotary bottom plate (21) and the rotary cover plate (22) are vertically corresponding, and each two vertically corresponding discharge ports (23) are corresponding to one group of limiting structures (4).

4. The gynecological antibacterial gel production device according to claim 1, wherein each group of limiting structures (4) comprises an alignment assembly (41), connecting plates (42) and a fixing assembly (43), the alignment assemblies (41) are located in intervals between a rotating bottom plate (21) and a rotating cover plate (22), the alignment assemblies (41) correspond to the discharging holes (23), the connecting plates (42) are two, the two connecting plates (42) are symmetrically arranged at the bottom ends of the alignment assemblies (41), each connecting plate (42) is located in one moving hole (24), the fixing assembly (43) is located below the rotating bottom plate (21), the top ends of the fixing assemblies (43) are connected between the two connecting plates (42), and the bottom ends of the fixing assemblies (43) vertically correspond to the lifting equipment (3).

5. The gynecological antibacterial gel production device according to claim 4, wherein the alignment assembly (41) comprises a placing frame (411), a first limiting rod (412), a first movable alignment block (413) and a double-rod bidirectional cylinder (414), the placing frame (411) is located above the rotating bottom plate (21), the placing frame (411) is located at the upper end of the discharging hole (23), the placing frame (411) does not shade the discharging hole (23) and the movable hole (24), the first limiting rod (412) and the first movable alignment block (413) are respectively provided with two limiting rods, the first limiting rods (412) and the second limiting rods (413) are symmetrically arranged in the placing frame (411), the second movable alignment block (413) is symmetrically arranged at two ends of the first limiting rods (412), the double-rod bidirectional cylinder (414) is arranged on the side wall in the placing frame (411), and two working ends of the double-rod bidirectional cylinder (414) are respectively connected to the second movable alignment block (413).

6. The gynecological antibacterial gel production device according to claim 4, wherein two sliding grooves (421) are symmetrically formed in each connecting plate (42), a limiting rod two (422) and two springs (423) are arranged in each sliding groove (421), the two springs (423) are arranged around the limiting rod two (422), and the two springs (423) are respectively arranged at the upper end and the lower end of the limiting rod two (422).

7. The gynecological antibacterial gel production device according to claim 6, wherein the fixing component (43) comprises two movable fixing blocks (431) and lifting connecting frames (432), the movable fixing blocks (431) are provided with two sliding protruding blocks (433) which are oppositely arranged on each movable fixing block (431), each sliding protruding block (433) is located in one sliding groove (421), each sliding protruding block (433) is in sliding connection with one limiting rod II (422), each sliding protruding block (433) is located between two springs (423), each movable fixing block (431) is movably located on one side of one connecting plate (42) through two sliding protruding blocks (433), the lifting connecting frames (432) are arranged in a U shape, the top ends of the lifting connecting frames (432) are respectively connected to the bottom ends of the two movable fixing blocks (431), and the bottom ends of the lifting connecting frames (432) vertically correspond to lifting equipment (3).