CN106744603B - Linear multi-station liquid sterile subpackaging equipment - Google Patents

Abstract

The utility model provides a aseptic partial shipment equipment of orthoscopic multistation liquid, is including setting up windrow platform, isolation mechanism, conveying mechanism, pushing equipment and filling spiral cover mechanism in the frame, wherein: the front end and the tail end of the conveying mechanism are respectively adjacent to the stacking platform and the material pushing mechanism, a suspended isolation mechanism is arranged above the conveying mechanism, an isolation fence is arranged in the isolation mechanism and extends to the upper portion of the stacking platform, the filling cap screwing mechanism and the material pushing mechanism are arranged adjacently and are provided with a synchronous belt transmission mechanism therebetween, the material pushing mechanism is provided with a material pushing head, and the material pushing head is connected with the synchronous belt transmission mechanism and reciprocates between the material pushing mechanism and the filling cap screwing mechanism along the synchronous belt transmission direction. The invention can realize the automatic control of the instant reverse cap removal, the aseptic liquid filling and the forward cap screwing of the aseptic bottle, reduces the possibility of bacterial contamination of products caused by a plurality of links in manual or semi-automatic production, solves the quality problems of easy fluctuation of the product state and the like, and improves the product quality.

Description

Linear multi-station liquid sterile subpackaging equipment

Technical Field

The invention relates to a technology in the field of liquid sterile filling, in particular to a linear multi-station liquid sterile subpackaging device.

Background

In the industries of bioengineering, medicine, in vitro diagnostic reagent and the like, a part of liquid products with larger volume (such as 50-1000 ml) need to be filled in a sterile environment, such as various animal serum products. The subpackage production of the product requires that a packaging material factory respectively carries out aseptic treatment on a bottle and a bottle cap, the bottle cap is screwed on the bottle in an aseptic environment for sealed package, and then the bottle cap is transported to a purchased liquid subpackage factory for aseptic filling of liquid products. During filling operation, the bottle cap needs to be unscrewed in an aseptic packaging area (an area under a hundred-grade clean laminar flow cover) environment, liquid is filled into the bottle cap, then the original bottle cap and the bottle body are screwed again, and finally the bottle cap leaves the aseptic packaging area to perform operation of other procedures.

At present, the filling operation is generally carried out in a star wheel station of equipment by adopting an intermittent circular motion mode in the industry, and 1-6 filling heads are usually arranged. The method is limited by the structure of equipment, the working paths of three main links of reverse uncapping, liquid filling and forward capping in the filling operation go back and forth and repeat, and positioning errors need to be corrected in time, so the production efficiency is not high, and the yield of sterile finished products finished in unit time is very limited.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a linear multi-station liquid sterile subpackaging device which can realize the automatic control of the instant reverse cap removal, the liquid filling and the forward cap screwing of the empty sterile bottle in a sterile working area.

The invention is realized by the following technical scheme:

the invention comprises a stacking platform, an isolation mechanism, a conveying mechanism, a material pushing mechanism and a filling cap screwing mechanism which are arranged on a rack, wherein: the front end and the tail end of the conveying mechanism are respectively adjacent to the stacking platform and the material pushing mechanism, a suspended isolation mechanism is arranged above the conveying mechanism, an isolation fence is arranged in the isolation mechanism and extends to the position above the stacking platform, the filling cap screwing mechanism and the material pushing mechanism are arranged adjacently, a synchronous belt transmission mechanism is arranged between the filling cap screwing mechanism and the material pushing mechanism, the material pushing mechanism is provided with a material pushing head, and the material pushing head is connected with the synchronous belt transmission mechanism and reciprocates between the material pushing mechanism and the filling cap screwing mechanism along the synchronous belt transmission direction;

the pushing equipment include: push away stub bar, push away stub bar linear guide, push away stub bar cylinder support and push away stub bar mounting platform, wherein: the material pushing head is fixedly connected with the movable end of the material pushing head cylinder, a material pushing head linear guide rail is arranged on the material pushing head corresponding to the material pushing head cylinder, the fixed end of the material pushing head cylinder is arranged on a material pushing head cylinder support, the material pushing head cylinder support is fixedly connected with a material pushing head mounting platform, and the material pushing head mounting platform is provided with a toothed belt meshing part meshed with a toothed synchronous belt in a synchronous belt transmission mechanism;

the filling cap screwing mechanism comprises: upper strata moving frame cylinder, upper strata moving frame, lower floor's fixed frame, filling head and spiral cover head, wherein: the lower floor's fixed frame is fixed in the frame, and the fixed frame top of lower floor is equipped with upper strata moving frame linear guide, is fixed with upper strata moving frame on the upper strata moving frame linear guide, and the stiff end setting of upper strata moving frame cylinder is on lower floor's fixed frame, expansion end and upper strata moving frame fixed connection, is equipped with one row of filling head and one row of spiral cover head along upper strata moving frame linear guide direction of motion in the upper strata moving frame.

The frame be equipped with the electric eye support of vertical setting in conveying mechanism terminal both sides, the electric eye support top is equipped with the crossbeam, is fixed with one row of bottle detection electric eyes that lack on the crossbeam.

And a linear guide rail of the material pushing head mounting platform connected with the material pushing head mounting platform is arranged on the rack along the transmission direction of the toothed synchronous belt.

The filling head set up on the filling head support and link to each other with the filling pump, filling head support both sides are connected with filling head support cylinder, filling head support cylinder one end and upper strata moving frame fixed connection.

The spiral cover head is arranged on the spiral cover head support and is connected with the spiral cover head motor, a spiral cover head support air cylinder and a spiral cover head support linear guide rail are arranged on two sides of the spiral cover head support, and one end of the spiral cover head support air cylinder is fixedly connected with the upper layer moving frame.

The isolation mechanism comprises: isolated column, isolated column support, fixed regulating block, dead lever and isolated column connecting rod, wherein: the isolated column equidistant setting and with isolated column connecting rod fixed connection, fixed regulating block sets up with the isolated column connecting rod relatively, and each fixed regulating block is equipped with the through-hole and links to each other through the dead lever, and the dead lever both ends are fixed at isolated column support top, and isolated column support bottom is fixed in the frame.

Technical effects

Compared with the prior art, the invention keeps the positioning of the bottle body unchanged all the time in the filling process, realizes the automatic control of the immediate reverse cap removal, the filling of the aseptic liquid and the forward cap screwing of the aseptic bottle with larger capacity by the linear reciprocating operation of the filling head and the cap screwing head, reduces the switching time of the cap removal and cap screwing operation before and after filling, shortens the separation time of the bottle cap and the bottle body, and improves the filling quality and the production efficiency; the invention also shortens the connecting time of the finished product bottle and the bottle to be filled through the linear reciprocating material pushing mechanism, and further improves the production efficiency; under the condition that the quantity of the filling heads and the quantity of the cap screwing heads are the same, the production efficiency can be improved by more than one time.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a side view taken from the direction A of FIG. 1;

FIG. 3 is a side view of FIG. 1 taken from the direction B;

FIG. 4 is a side view of FIG. 1 taken along line C;

FIG. 5 is a side view of FIG. 1 taken from direction D;

FIG. 6 is a schematic view of an electric eye bracket and a bottle-missing detection electric eye according to the present invention;

FIG. 7 is a schematic view of a missing bottle detection process according to the present invention;

in the figure: the device comprises a rack 1, an isolation fence 2, a conveying belt 3, a driving roller 4, a tensioning roller 5, a driven roller 6, an isolation fence support 7, a fixed adjusting block 8, a fixed rod 9, an isolation fence connecting rod 10, an aseptic filling bottle 11, a bottle-lack detection electric eye 12, an electric eye support 13, a pushing head 14, a pushing head cylinder support 15, a pushing head cylinder 16, a pushing head mounting platform 17, a pushing head mounting platform linear guide rail 18, a synchronous belt transmission mechanism 19, a transmission motor 20, a toothed synchronous belt 21, a toothed belt meshing piece 22, a pushing head linear guide rail 23, an upper layer moving frame linear guide rail 24, an upper layer moving frame cylinder 25, an upper layer moving frame 26, a lower layer fixed frame 27, a rotary cover head support cylinder 28, a filling head support cylinder 29, a rotary cover head support linear guide rail 30, a filling head support 31, a filling head 32, a rotary cover head motor 33, a rotary cover head support 34, a rotary cover head 35, a bottle fixing positioning block 36, a positioning block support 37, a positioning block cylinder 38, a fixed supporting platform 39, a conveying belt 40, a labeling stacking platform 42 and a filling platform 42.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

Example 1

As shown in fig. 1, the present embodiment includes a stacking platform 42, an isolation mechanism, a conveying mechanism, a pushing mechanism and a filling cap screwing mechanism, which are arranged on a rack 1, wherein: the front end and the tail end of the conveying mechanism are respectively adjacent to the stacking platform 42 and the material pushing mechanism, a suspended isolation mechanism is arranged above the conveying mechanism, an isolation fence 2 is arranged in the isolation mechanism, the isolation fence 2 extends to the position above the stacking platform 42, the filling cap screwing mechanism and the material pushing mechanism are arranged adjacently, a synchronous belt transmission mechanism 19 is arranged between the filling cap screwing mechanism and the material pushing mechanism, the material pushing mechanism is provided with a material pushing head 14, and the material pushing head 14 is connected with the synchronous belt transmission mechanism 19 and reciprocates between the material pushing mechanism and the filling cap screwing mechanism along the synchronous belt transmission direction;

as shown in fig. 1 and 2, the pushing mechanism includes: stub bar 14, stub bar linear guide 23, stub bar cylinder 16, stub bar cylinder support 15 and stub bar mounting platform 17 push away, wherein: the material pushing head 14 is fixedly connected with the movable end of a material pushing head cylinder 16, a material pushing head linear guide rail 23 is arranged on the material pushing head 14 corresponding to the material pushing head cylinder 16, the fixed end of the material pushing head cylinder 16 is arranged on a material pushing head cylinder support 15, the material pushing head cylinder support 15 is fixedly connected with a material pushing head mounting platform 17, and the material pushing head mounting platform 17 is provided with a toothed belt meshing part 22 meshed with a toothed synchronous belt 21 in a synchronous belt transmission mechanism 19;

as shown in fig. 3, 4 and 5, the filling and cap-screwing mechanism includes: upper moving frame cylinder 25, upper moving frame 26, lower fixed frame 27, filling head 32 and spiral cover head 35, wherein: the lower fixed frame 27 is fixed on the frame 1, the top of the lower fixed frame 27 is provided with an upper moving frame linear guide rail 24, the upper moving frame linear guide rail 24 is fixed with an upper moving frame 26, the fixed end of the upper moving frame cylinder 25 is arranged on the lower fixed frame 27, and the movable end is fixedly connected with the upper moving frame 26; a row of filling heads 32 and a row of cap screwing heads 35 are arranged in the upper layer moving frame 26 along the moving direction of the linear guide rail of the upper layer moving frame.

The material pushing head 14 is provided with a plurality of gaps corresponding to the shape and the size of the bottle body of the sterile filling bottle 11.

As shown in fig. 2, the conveying mechanism comprises a conveying belt 3 and a driving roller 4, a tension roller 5 and a driven roller 6 connected with the conveying belt.

As shown in fig. 1 and 2, the isolation mechanism includes: isolated column 2, isolated column support 7, fixed regulating block 8, dead lever 9 and isolated column connecting rod 10, wherein: 2 equidistant settings in isolated column make aseptic filling bottle 11 can get into the pusher head 14 smoothly with separating aseptic filling bottle 11, isolated column 2 and isolated column connecting rod 10 fixed connection, fixed regulating block 8 sets up with isolated column connecting rod 10 relatively, each fixed regulating block 8 is equipped with the through-hole and links to each other through dead lever 9, 9 both ends of dead lever are fixed at isolated column support 7 tops, isolated column support 7 bottoms is fixed in frame 1, fixed regulating block 8 passes through the relative position that bolt-up adjusted isolated column connecting rod 10 and dead lever 9, thereby adjust the height of isolated column 2.

As shown in fig. 6 and 7, the frame 1 is provided with vertically arranged electric eye supports 13 at two sides of the tail end of the conveying mechanism, a beam is arranged at the top of each electric eye support 13, and a row of bottle missing detection electric eyes 12 are fixed on the beam; when the bottle lack detection electric eye 12 detects that a bottle is lacking, the conveyer belt 3 continues to advance until the conveyer belt 3 stops running after each bottle-shaped gap of the material pushing head 14 is embedded with the bottle.

The push head mounting platform linear guide rail 18 connected with the push head mounting platform 17 is arranged on the machine frame 1 along the transmission direction of the toothed synchronous belt, and the push head mounting platform linear guide rail 18 plays a role in supporting the push head mounting platform 17 when the synchronous belt transmission mechanism 19 drives the push mechanism to move so as to keep balance and ensure the position precision of the whole mechanism during movement.

As shown in fig. 4, the filling head 32 is disposed on the filling head rack 31 and connected to the filling pump 41, a filling head rack cylinder 29 is connected to both sides of the filling head rack 31, and one end of the filling head rack cylinder 29 is fixedly connected to the upper layer moving frame 26.

As shown in fig. 3 and 5, the capping head 35 is disposed on the capping head support 34 and connected to the capping head motor 33, capping head support cylinders 28 are disposed on two sides of the capping head support 34, and one end of the capping head support cylinder 28 is fixedly connected to the upper moving frame 26;

preferably, the screw-on head support 34 is provided with screw-on head support linear guides 30 on both sides to further control the accuracy of the up-and-down position of the screw-on head before and after the screw-on operation for quick alignment of the bottle mouth.

As shown in fig. 1 and 5, a fixed supporting platform 39 of the sterile filling bottle 11 is arranged at the bottom of the filling and cap screwing mechanism, and the fixed supporting platform 39 is connected with a labeling conveyer belt 40 and is on the same level with the conveyer belt 3 and the labeling conveyer belt 40;

the side surface of the fixed supporting platform 39 is provided with a bottle fixing positioning block 36, the bottle fixing positioning block 36 is fixed on the positioning block bracket 37 and is provided with a positioning block cylinder 38, and the positioning block bracket 37 is fixedly connected with the bottle fixing cylinder 38.

The bottle fixing positioning block 36 is provided with a plurality of notches corresponding to the shape and the size of the body of the sterile filling bottle 11.

And two ends of each linear guide rail are provided with limiting devices.

When the embodiment of the invention is in use,

placing the sterile filling bottles 11 to be filled on the stacking platform 42 by manual or mechanized operation; the distance and the height of the isolation fence 2 are adjusted according to the size of the sterile filling bottle 11, on one hand, a plurality of channels are formed on the conveyer belt 3 to be matched with a material pushing mechanism and the like, on the other hand, the gravity center of the sterile filling bottle 11 is stabilized, and the sterile filling bottle 11 is prevented from falling down on the conveyer belt 3 to influence the subsequent production;

the conveyer belt 3 intermittently moves, the sterile filling bottle 11 enters a bottle-shaped gap of the material pushing head 14, the conveyer belt 3 stops moving when the bottle lack detection electric eye 12 does not detect the bottle lack, and the material pushing head mounting platform 17 drives the material pushing head 14 to move to enter a filling rotation station under the action of the synchronous belt transmission mechanism 19;

after entering the screwing station, the sterile filling bottle 11 is placed on the fixed supporting platform 39, and the positioning block cylinder 38 pushes the bottle fixing positioning block 36 to fix and position the empty sterile filling bottle 11; the cap screwing head support cylinder 28 pushes the cap screwing head support 34 to vertically descend until the cap screwing head 35 catches the bottle cap, the cap screwing head motor 33 rotates reversely, the bottle cap is loosened from the bottle body, meanwhile, the cap screwing head support cylinder 28 ascends and returns in the vertical direction, the cap screwing head 35 catches the bottle cap and is far away from the bottle body, the preset position is reached, and the cap screwing head support cylinder 28 stops working; then the upper layer moving frame cylinder 25 pushes the upper layer moving frame 26 to move forwards horizontally until the filling head 32 is aligned with the mouth of the empty bottle, the filling head support cylinder 29 pushes the filling head support 31 to descend vertically until the filling head 32 reaches a preset filling height, the stroke is finished, the filling pump 41 is started, and the filling pump is stopped after the preset filling amount is finished; the filling head support air cylinder 29 ascends and returns in the vertical direction, the upper layer moving frame air cylinder 25 pulls the upper layer moving frame 26 to return to the initial position in the horizontal direction, the stroke is finished after the cap screwing head 35 is aligned with the bottle mouth, the cap screwing head support air cylinder 28 pushes the cap screwing head support 34 to vertically descend to the bottle mouth, the cap screwing head motor 33 rotates forwards, the cap screwing head support air cylinder 28 continues descending, the bottle cap is screwed, and the cap screwing head support air cylinder 28 stops; then the cap screwing head 35 releases the cap, the cap screwing head motor 33 stops rotating, the cap screwing head support air cylinder 28 returns upwards vertically to drive the cap screwing head 35 to return to the initial position in the vertical direction, and the filling cap screwing mechanism is far away from the filled sterile filling bottle 11; the material pushing head cylinder 16 pulls the material pushing head 14 to be far away from the filled sterile filling bottle 11 until the stroke of the cylinder is finished, and meanwhile, the fixed bottle positioning block 36 is pulled by the positioning block cylinder 38 to return to be far away from the filled sterile filling bottle 11;

the transmission motor 20 rotates, the synchronous belt transmission mechanism 19 drives the material pushing mechanism to return to a position where a notch of the material pushing head 14 is matched with the position of the isolation fence 2, then the material pushing head cylinder 16 pushes forwards, and the material pushing head cylinder is embedded into an interval between the sterile filling bottles 11 waiting to be filled on the conveyer belt 3 to carry out next material pushing and filling; when the pushing head 14 enters the filling and rotating station again, the filled sterile filling bottle 11 is pushed to leave the fixed supporting platform 39 and enter the labeling conveyor belt 40, so as to enter the labeling link.

Claims (10)

1. The utility model provides an aseptic partial shipment equipment of orthoscopic multistation liquid which characterized in that, is including setting up windrow platform, isolation mechanism, conveying mechanism, pushing equipment and the filling spiral cover mechanism in the frame, wherein: the front end and the tail end of the conveying mechanism are respectively adjacent to the stacking platform and the material pushing mechanism, a suspended isolation mechanism is arranged above the conveying mechanism, an isolation fence is arranged in the isolation mechanism and extends to the position above the stacking platform, the filling cap screwing mechanism and the material pushing mechanism are arranged adjacently, a synchronous belt transmission mechanism is arranged between the filling cap screwing mechanism and the material pushing mechanism, the material pushing mechanism is provided with a material pushing head, and the material pushing head is connected with the synchronous belt transmission mechanism and reciprocates between the material pushing mechanism and the filling cap screwing mechanism along the synchronous belt transmission direction;

the pushing equipment include: push away stub bar, push away stub bar linear guide, push away stub bar cylinder support and push away stub bar mounting platform, wherein: the material pushing head is fixedly connected with the movable end of the material pushing head cylinder, a material pushing head linear guide rail is arranged on the material pushing head corresponding to the material pushing head cylinder, the fixed end of the material pushing head cylinder is arranged on a material pushing head cylinder support, the material pushing head cylinder support is fixedly connected with a material pushing head mounting platform, and the material pushing head mounting platform is provided with a toothed belt meshing piece which is meshed with a toothed synchronous belt in a synchronous belt transmission mechanism;

the filling cap screwing mechanism comprises: upper strata moving frame cylinder, upper strata moving frame, lower floor's fixed frame, filling head and spiral cover head, wherein: the lower floor's fixed frame is fixed in the frame, and the fixed frame top of lower floor is equipped with upper strata moving frame linear guide, is fixed with upper strata moving frame on the upper strata moving frame linear guide, and the stiff end setting of upper strata moving frame cylinder is on lower floor's fixed frame, expansion end and upper strata moving frame fixed connection, is equipped with one row of filling head and one row of spiral cover head along upper strata moving frame linear guide direction of motion in the upper strata moving frame.

2. A linear multi-station liquid aseptic split charging apparatus as claimed in claim 1, wherein said frame is provided with vertically arranged electric eye supports at both sides of the end of the conveying mechanism, a cross beam is provided at the top of the electric eye supports, and a row of bottle-missing detection electric eyes with the same number as the filling heads/cap-screwing heads are fixed on the cross beam.

3. A linear multi-station liquid aseptic subpackage equipment according to claim 1, wherein the rack is provided with a pushing head mounting platform linear guide rail connected with the pushing head mounting platform along the transmission direction of the toothed synchronous belt.

4. An in-line multi-station liquid aseptic sub-packaging apparatus as claimed in claim 1, wherein the bottom of said filling cap screwing mechanism is provided with a fixed supporting platform for aseptic filling bottles, the side surface of said fixed supporting platform is provided with a bottle fixing positioning block with a groove corresponding to the shape of the body of the aseptic filling bottles, the bottle fixing positioning block is fixed on the positioning block bracket and provided with a positioning block cylinder, and the positioning block bracket is fixedly connected with the bottle fixing cylinder.

5. An in-line multi-station liquid aseptic subpackage equipment according to claim 4, wherein the filling head of the filling cap screwing mechanism is arranged on a filling head bracket and is connected with a filling pump, a filling head bracket air cylinder is connected with two sides of the filling head bracket, and one end of the filling head bracket air cylinder is fixedly connected with the upper layer moving frame.

6. An in-line multi-station liquid aseptic split charging apparatus according to claim 4, wherein the filling cap screwing mechanism is characterized in that a cap screwing head is arranged on a cap screwing head support and is connected with a cap screwing head motor, cap screwing head support air cylinders are arranged on two sides of the cap screwing head support, and one end of each cap screwing head support air cylinder is fixedly connected with the upper layer moving frame.

7. A linear multi-station liquid aseptic dispensing equipment as claimed in claim 6, wherein the two sides of the screw cap head bracket are provided with screw cap head bracket linear guide rails.

8. A linear multi-station liquid aseptic subpackage equipment according to claim 4, wherein the fixed supporting platform, the conveying belt and the labeling conveying belt are positioned on the same level and are connected with the labeling conveying belt.

9. A linear multi-station liquid aseptic dispensing apparatus as claimed in claim 1, wherein said spacer means comprises: isolated column, isolated column support, fixed regulating block, dead lever and isolated column connecting rod, wherein: the isolated column equidistant setting and with isolated column connecting rod fixed connection, fixed regulating block sets up with the isolated column connecting rod relatively, and each fixed regulating block is equipped with the through-hole and links to each other through the dead lever, and the dead lever both ends are fixed at isolated column support top, and isolated column support bottom is fixed in the frame.

10. An in-line multi-station liquid aseptic dispensing apparatus as claimed in claim 1 wherein said pusher head is provided with a plurality of notches corresponding in shape and size to the body of the aseptic filled bottle.

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