CN214241391U - Infusion tube bagging mechanism - Google Patents
Infusion tube bagging mechanism Download PDFInfo
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- CN214241391U CN214241391U CN202022354232.0U CN202022354232U CN214241391U CN 214241391 U CN214241391 U CN 214241391U CN 202022354232 U CN202022354232 U CN 202022354232U CN 214241391 U CN214241391 U CN 214241391U
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- placing groove
- bag
- material placing
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Abstract
The utility model relates to the field of medical equipment production, especially, relate to a transfer line bagging-off mechanism. Comprises a machine tool bracket, a fixed material placing groove and a movable material placing groove of a transfusion tube; a feed inlet is formed in one side of the fixed material placing groove, and a material fixing claw capable of moving horizontally is arranged above the feed inlet; the fixed material placing groove and the movable material placing groove are both groove body structures with two sides penetrating through, and a horizontal penetrating notch convenient for the material fixing claw to move and stretch out is arranged at the upper end of each groove body structure along the length direction of the groove body structure; the movable material placing groove is arranged on one side of the output end of the fixed material placing groove, the fixed material placing groove transfers materials to the movable material placing groove through the material fixing claws, and the materials are conveyed to the inner bag sleeving mechanism on the right side through the movable material placing groove. This device adopts mechanical integration packing technique, and one to two workman can control whole production line comprehensively for production efficiency improves greatly.
Description
Technical Field
The utility model relates to the field of medical equipment production, especially, relate to a transfer line bagging-off mechanism.
Background
At present, most of infusion tubes are packed manually, and a semi-automatic bagging mode is adopted by a large part of enterprises, even if a large number of workers are needed to carry out discontinuous operation, the packing speed cannot be increased fundamentally; based on the problem, a fully-automatic infusion tube bagging mechanism is developed.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects of the prior art, adapt to the actual needs and provide a transfusion tube bagging mechanism.
In order to realize the utility model discloses a purpose, the utility model discloses a technical scheme do: a transfusion tube bagging mechanism comprises a machine tool bracket 1, a fixed material placing groove 2 and a movable material placing groove 3 of a transfusion tube 13; a feed inlet is formed in one side of the fixed material placing groove 2, and a material fixing claw 5 capable of moving horizontally is arranged above the feed inlet; the fixed material placing groove 2 and the movable material placing groove 3 are both groove body structures with two sides penetrating through, and a horizontal penetrating notch 201 which is convenient for the material fixing claw 5 to move and extend is arranged at the upper end of each groove body structure along the length direction of the groove body structure; the movable material placing groove 3 is arranged on one output side of the fixed material placing groove 2, the fixed material placing groove 2 transfers materials to the movable material placing groove 3 through the material fixing claws 5, and the materials are conveyed to the inner bag sleeving mechanism on the right side through the movable material placing groove 3.
The bag sleeving mechanism comprises a fixed bag opening plate 6 arranged at the lower part and a movable bag opening plate 7 arranged at the upper part; a plurality of air holes 8 are uniformly formed in the movable bag opening plate 7 and the fixed bag opening plate 6; a first pneumatic cylinder 9 capable of driving the movable bag opening plate to vertically move and a second pneumatic cylinder 10 capable of driving the movable bag opening plate to horizontally move are arranged above the movable bag opening plate 7; bag board 7 is opened in the activity and fixed bag board 6 front side of opening is provided with plastic bag case 11, and bag board 7 is opened in the activity sends the plastic bag to fixed bag board 6 top of opening through first pneumatic cylinder 9 and second pneumatic cylinder 10, opens bag board 7 through fixed bag board 6 and the activity and opens the plastic bag and open and send into the material.
The feeding port of the movable material placing groove 3 close to the fixed bag opening plate 6 is a wedge-shaped feeding port 301.
The end, far away from the movable material placing groove 3, of the fixed bag opening plate 6 is hinged with the machine tool support 1, the hinged end 601 of the fixed bag opening plate is connected with a servo motor, and a rubber bag filled in the infusion tube is vertically moved out by rotating the fixed bag opening plate 6.
The plastic bag box 11 is provided with more than one spare plastic bag box with the same shape, the bottoms of the plastic bag box 11 and the spare plastic bag box are provided with sliding grooves, and the sliding grooves of the plastic bag box 11 and the spare plastic bag box can be arranged on sliding rails at the bottoms of the plastic bag box and the spare plastic bag box in a sliding mode.
A movable material pushing block 12 is arranged between the fixed material placing groove 2 and the movable material placing groove 3, and the movable material pushing block 12 can push the infusion tube 13 in the groove body of the movable material placing groove 3 to move into the rubber bag along the discharging direction of the groove body.
One side of the movable material pushing block 12 is provided with a pneumatic cylinder capable of pushing the movable material pushing block to move back and forth and left and right.
The beneficial effects of the utility model reside in that:
this device adopts mechanical integration packing technique, and one to two workman can control whole production line comprehensively for production efficiency improves greatly.
Drawings
The present invention will be further described with reference to the accompanying drawings and embodiments.
FIG. 1 is a simplified structure of the present invention;
FIG. 2 is a schematic structural view of the present invention;
FIG. 3 is a partial schematic structural view;
FIG. 4 is a schematic view of a fixed material holding tank;
fig. 5 is a schematic view of the movable material placing groove.
Detailed Description
The invention will be further described with reference to the following figures and examples:
see fig. 1-4.
The utility model discloses a transfusion tube bagging mechanism, which comprises a machine tool bracket 1, a fixed material placing groove 2 and a movable material placing groove 3 of a transfusion tube 13; a feed inlet is formed in one side of the fixed material placing groove 2, and a material fixing claw 5 capable of moving horizontally is arranged above the feed inlet; the fixed material placing groove 2 and the movable material placing groove 3 are both groove body structures with two sides penetrating through, and a horizontal penetrating notch 201 which is convenient for the material fixing claw 5 to move and extend is arranged at the upper end of each groove body structure along the length direction of the groove body structure; the movable material placing groove 3 is arranged on one output side of the fixed material placing groove 2, the fixed material placing groove 2 transfers materials to the movable material placing groove 3 through the material fixing claws 5, and the materials are conveyed to the inner bag sleeving mechanism on the right side through the movable material placing groove 3.
The bag sleeving mechanism comprises a fixed bag opening plate 6 arranged at the lower part and a movable bag opening plate 7 arranged at the upper part; a plurality of air holes 8 are uniformly formed in the movable bag opening plate 7 and the fixed bag opening plate 6; a first pneumatic cylinder 9 capable of driving the movable bag opening plate to vertically move and a second pneumatic cylinder 10 capable of driving the movable bag opening plate to horizontally move are arranged above the movable bag opening plate 7; bag board 7 is opened in the activity and fixed bag board 6 front side of opening is provided with plastic bag case 11, and bag board 7 is opened in the activity sends the plastic bag to fixed bag board 6 top of opening through first pneumatic cylinder 9 and second pneumatic cylinder 10, opens bag board 7 through fixed bag board 6 and the activity and opens the plastic bag and open and send into the material.
The feeding port of the movable material placing groove 3 close to the fixed bag opening plate 6 is a wedge-shaped feeding port 301.
The end, far away from the movable material placing groove 3, of the fixed bag opening plate 6 is hinged with the machine tool support 1, the hinged end 601 of the fixed bag opening plate is connected with a servo motor, and a rubber bag filled in the infusion tube is vertically moved out by rotating the fixed bag opening plate 6.
The plastic bag box 11 is provided with more than one spare plastic bag box with the same shape, the bottoms of the plastic bag box 11 and the spare plastic bag box are provided with sliding grooves, and the sliding grooves of the plastic bag box 11 and the spare plastic bag box can be arranged on sliding rails at the bottoms of the plastic bag box and the spare plastic bag box in a sliding mode.
A movable material pushing block 12 is arranged between the fixed material placing groove 2 and the movable material placing groove 3, and the movable material pushing block 12 can push the infusion tube 13 in the groove body of the movable material placing groove 3 to move into the rubber bag along the discharging direction of the groove body.
One side of the movable material pushing block 12 is provided with a pneumatic cylinder capable of pushing the movable material pushing block to move back and forth and left and right.
Firstly, a wound infusion tube is conveyed into a fixed material placing groove 2 from one side of the fixed material placing groove 2 through a material fixing claw 5, a movable material placing groove 3 moves to the fixed material placing groove 2 to be attached to the fixed material placing groove under the action of a pneumatic cylinder, the infusion tube is conveyed into the movable material placing groove 3 through the material fixing claw 5, and the movable material placing groove 3 provided with the infusion tube moves to one side of a fixed bag opening plate 6; the movable bag opening plate 7 sucks the plastic bags from the plastic bag box 11 on one side and sends the plastic bags to the position above the fixed bag opening plate 6, the air holes 8 on the fixed bag opening plate 6 and the air holes 8 on the movable bag opening plate 7 suck the plastic bags to open the plastic bags, the movable material pushing block 12 arranged on one side moves between the movable material placing groove 3 and the fixed material placing groove 2 under the pushing of an air pressure rod, and is pushed to extend into the movable material placing groove 3 under the action of a horizontal pneumatic cylinder to push the infusion tubes in the movable material placing groove into the opened plastic bags; the hinged end 601 is driven by a servo motor to rotate vertically, and bagging is completed.
The above mentioned is only the embodiment of the present invention, not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings or the direct or indirect application in the related technical field are included in the patent protection scope of the present invention.
Claims (7)
1. An infusion tube bagging mechanism is characterized in that: comprises a machine tool bracket (1), a fixed material placing groove (2) and a movable material placing groove (3) of a transfusion tube (13); a feed inlet is formed in one side of the fixed material placing groove (2), and a material fixing claw (5) capable of moving horizontally is arranged above the feed inlet; the fixed material placing groove (2) and the movable material placing groove (3) are both groove body structures with two sides penetrating through, and a horizontal penetrating notch (201) convenient for the material fixing claw (5) to move and extend out is arranged at the upper end of each groove body structure along the length direction of the groove body structure; the movable material placing groove (3) is arranged on one output side of the fixed material placing groove (2), the fixed material placing groove (2) transfers materials into the movable material placing groove (3) through the material fixing claw (5), and the movable material placing groove (3) is moved to convey the materials to the inner bag sleeving mechanism on the right side to perform bag sleeving.
2. The infusion tube bagging mechanism according to claim 1, wherein: the bag sleeving mechanism comprises a fixed bag opening plate (6) arranged at the lower part and a movable bag opening plate (7) arranged at the upper part; a plurality of air holes (8) are uniformly formed in the movable bag opening plate (7) and the fixed bag opening plate (6); a first pneumatic cylinder (9) capable of driving the movable bag opening plate (7) to vertically move and a second pneumatic cylinder (10) capable of driving the movable bag opening plate to horizontally move are arranged above the movable bag opening plate; bag board (7) and fixed bag board (6) front side of opening are opened in the activity are provided with plastic bag case (11), and bag board (7) is opened in the activity send the plastic bag to fixed bag board (6) top of opening through first pneumatic cylinder (9) and second pneumatic cylinder (10), open bag board (7) through fixed bag board (6) of opening and the activity and open the plastic bag and send into the material.
3. An infusion tube bagging mechanism according to claim 2, wherein: the feeding port of the movable material placing groove (3) close to the fixed bag opening plate (6) is a wedge-shaped feeding port (301).
4. An infusion tube bagging mechanism according to claim 2, wherein: the end, far away from the movable material placing groove (3), of the fixed bag opening plate (6) is hinged with the machine tool support (1), the hinged end (601) of the fixed bag opening plate is connected with a servo motor, and a rubber bag filled in the infusion tube is vertically moved out by rotating the fixed bag opening plate (6).
5. An infusion tube bagging mechanism according to claim 2, wherein: the glue bag box (11) is provided with more than one standby glue bag box with the same shape, the bottoms of the glue bag box (11) and the standby glue bag box are provided with sliding grooves, and the sliding grooves of the glue bag box (11) and the standby glue bag box can be arranged on sliding rails at the bottoms of the glue bag box and the standby glue bag box in a sliding mode.
6. An infusion tube bagging mechanism according to claim 2, wherein: a movable material pushing block (12) is arranged between the fixed material placing groove (2) and the movable material placing groove (3), and the movable material pushing block (12) can push a liquid conveying pipe (13) in the groove body of the movable material placing groove (3) to move into the rubber bag along the discharging direction of the groove body.
7. An infusion tube bagging mechanism according to claim 6, wherein: one side of the movable material pushing block (12) is provided with a pneumatic cylinder which can push the movable material pushing block to move back and forth and left and right.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022354232.0U CN214241391U (en) | 2020-10-21 | 2020-10-21 | Infusion tube bagging mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022354232.0U CN214241391U (en) | 2020-10-21 | 2020-10-21 | Infusion tube bagging mechanism |
Publications (1)
Publication Number | Publication Date |
---|---|
CN214241391U true CN214241391U (en) | 2021-09-21 |
Family
ID=77729843
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202022354232.0U Active CN214241391U (en) | 2020-10-21 | 2020-10-21 | Infusion tube bagging mechanism |
Country Status (1)
Country | Link |
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CN (1) | CN214241391U (en) |
-
2020
- 2020-10-21 CN CN202022354232.0U patent/CN214241391U/en active Active
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