CN216301643U - Full-automatic packing apparatus of vein needle - Google Patents

Abstract

The utility model discloses a full-automatic packaging device for intravenous needles, which comprises a rotating disk, clamping mechanisms, a winding mechanism and a bagging mechanism, wherein the rotating disk is provided with a plurality of clamping mechanisms; pack vein needle through the mode of automatic packing, the cost is lower simultaneously, is applicable to the vein needle packing of small batch volume, and packing speed is faster.

Description

Full-automatic packing apparatus of vein needle

Technical Field

The utility model relates to the field of processing equipment in medical instruments, in particular to a full-automatic packaging device for intravenous needles.

Background

The prior intravenous needle needs to be packed after being processed and assembled, the prior packing device mainly packs the intravenous needle in a manual packing mode or packs the intravenous needle by a mechanical arm, the packing efficiency is low, meanwhile, the manual packing mode is adopted, so that the labor intensity of workers is higher, meanwhile, the existing vein needle mechanical packing device winds the catheter of the vein needle into a ring shape through the winding device, then the vein needle wound into a plurality of circles is clamped by the clamp, then the wound vein needle is pushed into the packaging bag by the clamp for packaging, the cost of the equipment is high, the packing speed is high, but when the intravenous needle production is less, if the packing is carried out by adopting large-scale equipment, the cost is too high, and meanwhile, the packing of the large-scale equipment is not practical for packing the intravenous needles in small batches.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model discloses a full-automatic packaging device for intravenous needles, which is used for packaging the intravenous needles in an automatic packaging mode, is low in cost, is suitable for packaging intravenous needles in small batches, and is high in packaging speed.

In order to achieve the purpose, the scheme of the utility model is as follows: the utility model provides a full-automatic packing apparatus of vein needle, constructs including rotary disk, clamping, wire winding mechanism and bagging-off mechanism, wherein is provided with a plurality of clamping on the rotary disk and constructs, is provided with wire winding mechanism in every clamping mechanism, constructs through wire winding and winds the vein needle, is provided with bagging-off mechanism on the outer wall of rotary disk, constructs through bagging-off and packs the vein needle that the wire winding is good.

Preferably, the rotating disc is a circular disc body of which the bottom is connected with a motor, a plurality of sliding grooves extending outwards are formed in the circular disc body, a clamping mechanism is arranged in each feeding groove of the circular disc body, the clamping mechanism is a lifting clamping seat, a winding mechanism is arranged on one side of the lifting clamping seat, and the winding mechanism is two rotatable limiting rods and is in linkage lifting with the lifting clamping grooves.

Preferably, the bagging mechanism comprises a bag body conveying component, an opening component and a material pushing component, wherein the conveying component is two conveying belts for pressing the bag body, the conveying belts press the tail part of the bag body, the opening component comprises a fixing frame and a negative pressure adsorption frame, the fixing frame is positioned at the bottom of the bag body, the negative pressure adsorption frame is positioned above the bag body, a cylinder for driving the negative pressure adsorption frame to ascend and descend is fixed on the negative pressure adsorption frame, a negative pressure hole is formed in the top of the fixing frame and the bottom of the negative pressure adsorption frame, the bag body is opened through ascending of the top adsorption frame, a through hole is formed in the center of the rotating disk, the material pushing component is embedded in the through hole, a channel is arranged between the rotating disk and the bagging mechanism, the vein needle which is wound is pushed into the channel through the material pushing component, a sliding component is arranged on the outer wall of the channel, and the two ends of the channel are respectively connected with the bag body through the sliding component, The sliding grooves are butted.

Compared with the prior art, the utility model has the advantages that: 1. pack vein needle through the mode of automatic packing, the cost is lower simultaneously, is applicable to the vein needle packing of small batch volume, and packing speed is faster.

Drawings

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

Fig. 2 is a cross-sectional view of the present invention.

FIG. 3 is a schematic view of the bagging mechanism of the present invention.

The bag packaging machine comprises a rotating disk 1, a sliding groove 1.1, a through hole 1.2, a clamping mechanism 2.1, a lifting clamping seat 2.2, a winding mechanism 2.3, a limiting rod 3, a bagging mechanism 3.1, a bag body conveying assembly 3.2, an opening assembly 3.3, a fixing frame 3.4, a negative pressure adsorption frame 3.5, a negative pressure hole 3.6, a material pushing assembly 3.7, a channel 3.8 and a sliding assembly.

Detailed Description

The utility model will now be further elucidated with reference to the drawing.

As shown in fig. 1-3, a fully automatic packaging device for intravenous needles comprises a rotating disk 1, a plurality of clamping mechanisms 2, a winding mechanism 2.2 and a bagging mechanism 3, wherein the rotating disk 1 is provided with the plurality of clamping mechanisms 2, the intravenous needles are clamped on the clamping mechanisms 2 manually, meanwhile, the plurality of clamping mechanisms 2 on the rotating disk 1 can realize continuous clamping and continuous packaging, the bottom of the rotating disk 1 is fixed with a stepping motor in a welding manner, the rotating disk 1 is driven to rotate by the stepping motor (the stepping motor rotates at the same angle each time, so that the position is butted), so that the plurality of winding mechanisms 2.2 on the rotating disk 1 and the clamping mechanisms 2 are butted with the bagging mechanism 3 in sequence, the packaging efficiency is high, the winding mechanism 2.2 is arranged on the outer side of each clamping mechanism 2, the intravenous needles are wound by the winding mechanism 2.2, the outer wall of the rotating disc 1 is provided with a bagging mechanism 3, the opening of the bag body is realized through the bagging mechanism 3, the vein needle which is wound is pushed into the bag body to be packaged, and the wound vein needle is bagged through the bagging mechanism 3.

The rotary disc 1 is a circular disc body with the bottom connected with a motor, a plurality of outwards extending sliding grooves 1.1 are arranged on the circular disc body, the sliding grooves 1.1 are distributed on the circular disc body in an annular array, a clamping mechanism 2 is arranged in each feeding groove of the circular disc body, the clamping mechanism 2 is a lifting clamping seat 2.1 (the lifting clamping seat 2.1 is arranged on the inner side of the feeding groove, the middle of the lifting clamping seat 2.1 is provided with a clamping groove, the clamping groove clamps the end part of a vein needle, the bottom of each lifting clamping seat 2.1 is fixedly provided with an air cylinder in a welding mode, the air cylinder is embedded into the rotary disc 1, the bottom of the clamping groove of the lifting clamping seat 2.1 is provided with a supporting plate, the supporting plate is fixedly welded with the bottom of the sliding groove 1.1, when the lifting clamping seat 2.1 descends, the end part of the vein needle limited in the clamping groove leaves the clamping groove through the supporting plate, so that bagging is convenient to carry out after the winding is finished), a winding mechanism 2.2 is arranged on the outer side of the lifting clamping seat 2.1, the winding mechanism 2.2 is two rotatable limiting rods 2.3 and the limiting rods 2.3 are linked with the lifting clamping groove to lift (the rotating disk 1 is hollow inside, a fixing plate welded with the lifting clamping seat 2.1 is arranged at the bottom of each sliding groove 1.1, a stepping motor is fixed on the fixing plate in a welding mode, two limiting rods 2.3 and the limiting rods 2.3 protrude out of the sliding grooves 1.1 in a welding mode are fixed on an output shaft of the stepping motor, winding of the vein needle is achieved through rotation of the limiting rods 2.3), when clamping is conducted, the end portion of the vein needle is clamped in the lifting groove, a hose of the vein needle is clamped between the two limiting rods 2.3, winding is achieved through rotation of the limiting rods 2.3, and when the limiting rods 2.3 descend, the vein needle is separated from the limiting rods 2.3 to be packaged.

The bagging mechanism 3 comprises a bag body conveying component 3.1, an opening component 3.2 and a material pushing component 3.6, wherein the conveying component is two conveying belts for pressing the bag body, the conveying belts press the tail part of the bag body (the conveying belts are arranged up and down and are mutually attached, and the tail part of the bag body is clamped through the two conveying belts, so that conveying is realized), conveying of the bag body is realized through conveying of the conveying belts, the opening component 3.2 comprises a fixing frame 3.3 and a negative pressure adsorption frame 3.4, wherein the fixing frame 3.3 is positioned at the bottom of the bag body (the fixing frame 3.3 is positioned at the head end of the bag body), the negative pressure adsorption frame 3.4 is positioned above the bag body (the negative pressure adsorption frame 3.4 is also positioned at the head end), a cylinder for driving the negative pressure adsorption frame 3.4 to lift up and down is fixed on the negative pressure adsorption frame 3.4 in a welding mode (the cylinder body of the cylinder is fixed on the ground through a bracket, and a piston rod of the cylinder is fixed on the negative pressure adsorption frame 3.4 in a welding mode, the ascending and descending of the negative pressure adsorption frame 3.4 are realized through the expansion and contraction of the air cylinder), the negative pressure holes 3.5 are formed in the top of the fixing frame 3.3 and the bottom of the negative pressure adsorption frame 3.4, and the bag body is opened through the ascending of the top adsorption frame; a through hole 1.2 is arranged in the center of the rotating disc 1, a material pushing component 3.6 is embedded in the through hole 1.2 (the material pushing component 3.6 is a cylinder and a push block, the cylinder is positioned in the through hole 1.2 of the rotating disc 1, the cylinder is fixed on a bracket through a bolt, the bracket is fixed on the ground through a bolt, a piston rod of the cylinder is fixed with the push block in a welding mode, when the cylinder is lifted, the push block extends into a sliding groove 1.1, a wound vein needle in the sliding groove 1.1 is pushed away from the sliding groove 1.1 through the push block, so that the push block pushes the wound vein needle into a bag body, a channel 3.7 (namely a hollow pipeline) is arranged between the rotating disc 1 and the bag filling mechanism 3, the wound vein needle is pushed into the channel 3.7 through the material pushing component 3.6, a sliding component 3.8 is arranged on the outer wall of the channel 3.7 (the sliding component 3.8 is also fixed through the bracket, and the sliding component 3.8 is a linear motor on the ground, the channel 3.7 is driven by the linear motor to move left and right, when the linear motor moves left, the channel 3.7 is butted with the sliding groove 1.1, when the linear motor moves rightwards, the right end of the channel 3.7 is inserted into the opened bag body), the two ends of the channel 3.7 are respectively butted with the bag body and the sliding groove 1.1 through the sliding component 3.8, when the channel 3.7 is butted with the sliding groove 1.1, the pushing block pushes the vein needle into the channel 3.7, meanwhile, the channel 3.7 and the push block move rightwards together, so that the push block and the channel 3.7 push the vein needle into the bag body, then retracting and returning at the same time, thus realizing bagging, the feeding of the utility model is operated manually, other packaging is carried out in a full-automatic mode, the equipment structure is simpler and the cost is lower, meanwhile, compared with manual packaging, the packaging speed is higher, and the packaging method is suitable for packaging small-batch intravenous needles.

Claims (3)

1. The utility model provides a full-automatic packing apparatus of vein needle, constructs with bagging-off mechanism including rotary disk, clamping, wire winding mechanism, its characterized in that, wherein is provided with a plurality of clamping mechanisms on the rotary disk, is provided with wire winding mechanism in every clamping mechanism, constructs through wire winding and carries out the wire winding to the vein needle, is provided with bagging-off mechanism on the outer wall of rotary disk, constructs through bagging-off and bags the vein needle that the wire winding is good.

2. The fully automatic packaging device for intravenous needles according to claim 1, wherein the rotating disc is a circular disc body with a motor connected to the bottom thereof, a plurality of outwardly extending sliding grooves are formed in the circular disc body, a clamping mechanism is arranged in each feeding groove of the circular disc body, the clamping mechanism is a lifting cassette, a winding mechanism is arranged on one side of the lifting cassette, the winding mechanism is two rotatable limiting rods, and the limiting rods and the lifting cassette are linked to lift.

3. The fully automatic packaging device for intravenous needles according to claim 2, wherein the bagging mechanism comprises a bag body conveying component, an opening component and a pushing component, wherein the conveying component is two conveying belts for pressing the bag body, the conveying belts press the tail part of the bag body, the opening component comprises a fixed frame and a negative pressure adsorption frame, the fixed frame is positioned at the bottom of the bag body, the negative pressure adsorption frame is positioned above the bag body, a cylinder for driving the negative pressure adsorption frame to lift up and down is fixed on the negative pressure adsorption frame, negative pressure holes are formed in the top of the fixed frame and the bottom of the negative pressure adsorption frame, the bag body is opened through the lifting of the top adsorption frame, a through hole is formed in the center of the rotating disc, the pushing component is embedded in the through hole, a channel is formed between the rotating disc and the bagging mechanism, and the vein needle which is wound is pushed into the channel through the pushing component, the sliding assembly is arranged on the outer wall of the channel, and the two ends of the channel are respectively butted with the bag body and the sliding groove through the sliding assembly.

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