CN217779177U - Movable feeding mechanism of automatic infusion tube winding machine - Google Patents

Abstract

The utility model discloses a mobilizable transfer line automatic coil winding machine feed mechanism relates to medical instrument production technical field, its technical essential: the automatic conveying device comprises a transverse moving mechanism, wherein the transverse moving mechanism comprises a mounting frame, a transverse moving guide rail is arranged at the bottom of the mounting frame, the transverse moving guide rail is connected with a transverse moving block in a sliding manner, the transverse moving block is connected with a conveying mechanism through a telescopic mechanism, the conveying mechanism comprises a conveying frame, a first guide rail, a second guide rail, a third guide rail, a fourth guide rail and a material stirring mechanism for stirring and conveying a transfusion tube, the first guide rail and the second guide rail are matched and used for clamping an air inlet head of the transfusion tube, the third guide rail and the fourth guide rail are matched and used for placing a puncture head seat of the transfusion tube, a driving wheel driven by a motor is rotatably arranged at the bottoms of two ends of the mounting frame, which are close to one side of the conveying frame, a driving belt is sleeved on the driving wheel, the driving belt is fixedly connected with the transverse moving block through a connecting block, and stabilizing plates are arranged at the bottoms of two ends of the mounting frame, which is far away from one side of the conveying frame; the utility model discloses be convenient for automatic transport transfer line improves material loading efficiency.

Description

Movable feeding mechanism of automatic infusion tube winding machine

Technical Field

The utility model belongs to the technical field of the medical instrument production technique and specifically relates to a mobilizable transfer line automatic coil winding machine feed mechanism is related to.

Background

At present, most of infusion tubes are manually wound and packed, and a semi-automatic winding and bagging mode is adopted by a large part of enterprises, even if a large number of workers are needed to perform discontinuous operation, the packing speed cannot be fundamentally accelerated; based on the problem, an infusion tube automatic winding machine is urgently needed, and the automatic winding machine needs to comprise a feeding mechanism to convey infusion tubes so as to complete subsequent automatic winding operation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mobilizable transfer line automatic coil winding machine feed mechanism, the automatic transfer line of being convenient for improves material loading efficiency.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a mobilizable transfer line automatic coil winding machine feed mechanism, includes sideslip mechanism, sideslip mechanism includes the mounting bracket, the mounting bracket bottom is equipped with the translation guide rail, translation guide rail sliding connection has the sideslip piece, the sideslip piece is connected with conveying mechanism through telescopic machanism, conveying mechanism includes carriage, first guide rail, second guide rail, third guide rail, fourth guide rail and is used for stirring the stirring mechanism who carries the transfer line, first guide rail is used for the suction head of joint transfer line with the cooperation of second guide rail, third guide rail and fourth guide rail cooperation are used for placing the puncture headstock of transfer line, the mounting bracket is close to the rotatory drive wheel that is equipped with by motor drive in carriage one side both ends bottom, the cover is equipped with driving belt on the drive wheel, driving belt passes through connecting block and sideslip piece fixed connection, the mounting bracket is kept away from carriage one side both ends bottom and is equipped with the steadying plate.

By adopting the scheme, when the feeding mechanism is required to be used, firstly, the puncture head seat of the infusion tube is placed on the third guide rail and the fourth guide rail, the infusion tube body is clamped between the third guide rail and the fourth guide rail, and the air inlet head is clamped between the first guide rail and the second guide rail; then the material shifting mechanism shifts the infusion tube along the guide rail, so that the infusion tube moves towards the following winding device; the transverse moving mechanism drives the conveying mechanism to transversely move left and right, and the conveying mechanism can convey the infusion tube to different left and right winding devices, so that the subsequent winding work of left and right double stations is facilitated, and the feeding efficiency is improved; the specific working principle is as follows: the driving wheel rotates positively and negatively to drive one side of the transmission belt to move left and right, the transmission belt moving left and right provides power for the transverse moving block through the connecting block, so that moving power is provided for the conveying frame, the conveying frame is moved left and right, and when the conveying frame moves to a proper position, the telescopic mechanism extends to enable the conveying mechanism to be close to the winding device, and winding is facilitated; after the needed infusion tube is pulled out, the telescopic mechanism is contracted, so that the subsequent transverse movement of the conveying mechanism is facilitated; the mounting bracket is kept away from and is equipped with the steadying plate bottom in carriage one side both ends, and when the frame suitable position was installed to the mounting panel, the steadying plate was installed simultaneously, improved the positional stability of mounting bracket, increase of service life.

Preferably, the bottom of the transverse moving block is provided with an extension plate, the telescopic mechanism is a hydraulic rod arranged on the extension plate, the movable part of the hydraulic rod is connected with the conveying frame, and the bottom of the transverse moving block is slidably connected with the top of the conveying frame.

Preferably, the number of the material poking mechanisms is two and the material poking mechanisms are respectively arranged on two sides of the conveying frame.

Preferably, the material stirring mechanism comprises a material stirring table connected with the conveying frame, the material stirring table is rotatably provided with material stirring cams, the number of the material stirring cams is two, the material stirring cams are rotatably provided with the same stirring table, bristles are arranged on one side, facing the infusion tube, of the stirring table through a mounting plate, a material stirring motor used for driving the material stirring cams is arranged on the material stirring table, and the number of the material stirring motor is at least one.

Preferably, the conveying mechanism further comprises a fifth guide rail parallel to the fourth guide rail, and the fifth guide rail and the fourth guide rail are matched for limiting the vertical position of the puncture needle seat of the infusion tube.

The utility model discloses following beneficial effect has:

when the feeding mechanism needs to be used, firstly, the puncture head seat of the infusion tube is placed on the third guide rail and the fourth guide rail, the infusion tube body is clamped between the third guide rail and the fourth guide rail, the air inlet head is clamped between the first guide rail and the second guide rail, and the infusion tube is placed stably, simple and stable by utilizing the specific structure of the infusion tube; then the material shifting mechanism shifts the infusion tube along the guide rail, so that the infusion tube moves towards the following winding device; the transverse moving mechanism drives the conveying mechanism to transversely move left and right, and the conveying mechanism can convey the infusion tube to different left and right winding devices, so that the subsequent winding work of left and right double stations is facilitated, and the feeding efficiency is improved; the specific working principle is as follows: the driving wheel rotates positively and negatively to drive one side of the transmission belt to move left and right, the transmission belt moving left and right provides power for the transverse moving block through the connecting block, so that moving power is provided for the conveying frame, the conveying frame is moved left and right, and when the conveying frame moves to a proper position, the telescopic mechanism extends to enable the conveying mechanism to be close to the winding device, and winding is facilitated; after the needed infusion tube is pulled out, the telescopic mechanism is contracted, so that the subsequent transverse movement of the conveying mechanism is facilitated; the mounting bracket is kept away from and is equipped with the steadying plate bottom in carriage one side both ends, and when the frame suitable position was installed to the mounting panel, the steadying plate was installed simultaneously, improved the positional stability of mounting bracket, increase of service life.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

fig. 2 is a side view of an embodiment of the present invention;

fig. 3 is a schematic structural view of the material pushing mechanism according to the embodiment of the present invention.

In the figure: 101. a mounting frame; 102. a translation guide rail; 103. a drive wheel; 104. a drive belt; 105. connecting blocks; 106. transversely moving the blocks; 201. a first guide rail; 202. a second guide rail; 203. a third guide rail; 204. a fourth guide rail; 205. a fifth guide rail; 206. a carriage; 301. a material stirring platform; 302. a material poking cam; 303. a shifting table; 304. a material stirring motor; 305. mounting a plate; 306. brushing; 401. a stretching plate; 402. a hydraulic lever; 5. and a stabilizing plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

A movable feeding mechanism of an automatic infusion tube winding machine is disclosed, as shown in fig. 1-2, and comprises a transverse moving mechanism, wherein the transverse moving mechanism comprises an installation frame 101, a transverse moving guide rail 102 is arranged at the bottom of the installation frame 101, the transverse moving guide rail 102 is connected with a transverse moving block 106 in a sliding manner, the transverse moving block 106 is connected with a conveying mechanism through a telescopic mechanism, the conveying mechanism comprises a conveying frame 206, a first guide rail 201, a second guide rail 202, a third guide rail 203, a fourth guide rail 204 and a material stirring mechanism for stirring and conveying infusion tubes, the first guide rail 201 and the second guide rail 202 are matched and used for clamping an air inlet head of the infusion tube, the third guide rail 203 and the fourth guide rail 204 are matched and used for placing a puncture head seat of the infusion tube, a driving wheel 103 driven by a motor is rotatably arranged at the bottoms of two ends of one side of the installation frame 101 close to the conveying frame 206, a driving belt 104 is sleeved on the driving wheel 103, the driving belt 104 is fixedly connected with the transverse moving block 106 through a connecting block 105, and a stabilizing plate 5 is arranged at the bottoms of two ends of one side of the installation frame 101 far away from the conveying frame 206.

As shown in fig. 1-2, by adopting the above scheme, when the feeding mechanism needs to be used, firstly, the puncture head seat of the infusion tube is placed on the third guide rail 203 and the fourth guide rail 204, the infusion tube body is clamped between the third guide rail 203 and the fourth guide rail 204, the air inlet head is clamped between the first guide rail 201 and the second guide rail 202, and the infusion tube is placed stably, and is placed simply and stably by utilizing the specific structure of the infusion tube; then the material shifting mechanism shifts the infusion tube along the guide rail, so that the infusion tube moves towards the following winding device; the transverse moving mechanism drives the conveying mechanism to transversely move left and right, and the conveying mechanism can convey the infusion tube to different left and right winding devices, so that the subsequent winding work of left and right double stations is facilitated, and the feeding efficiency is improved; the specific working principle is as follows: the driving wheel 103 rotates forward and backward to drive one side of the transmission belt 104 to move left and right, the transmission belt 104 moving left and right provides power for the transverse moving block 106 through the connecting block 105, so that the moving power is provided for the conveying frame 206, the conveying frame 206 moves left and right, and when the conveying frame 206 moves to a proper position, the telescopic mechanism extends to enable the conveying mechanism to be close to the winding device, so that winding is facilitated; after the needed infusion tube is pulled out, the telescopic mechanism is contracted, so that the subsequent transverse movement of the conveying mechanism is facilitated; mounting bracket 101 is kept away from carriage 206 one side both ends bottom and is equipped with stabilizer plate 5, and when mounting panel 305 installed the frame suitable position, stabilizer plate 5 was installed simultaneously, improved mounting bracket 101's positional stability, increase of service life.

As shown in fig. 1-2, an extension plate 401 is arranged at the bottom of the traverse block 106, the telescopic mechanism is a hydraulic rod 402 arranged on the extension plate 401, the movable part of the hydraulic rod 402 is connected with the conveying frame 206, and the bottom of the traverse block 106 is slidably connected with the top of the conveying frame 206; the hydraulic rod 402 stretches to drive the conveying frame 206 to stretch, so that the transverse movement of the conveying frame 206 and the subsequent winding work are facilitated; through setting up extension board 401 and making and remain a section vertical distance between sideslip piece 106 and the carriage 206 for accessible slide rail sliding connection improves the stability of carriage 206 between sideslip piece 106 and the carriage 206.

As shown in fig. 1-2, the material-shifting mechanisms are two in number and are respectively arranged on two sides of the conveying frame 206, so that the material-shifting effect is improved, and the normal conveying of the infusion tube is ensured.

As shown in fig. 3, the material-shifting mechanism includes a material-shifting platform 301 connected to the conveying frame 206, the material-shifting platform 301 is provided with two material-shifting cams 302, the two material-shifting cams 302 are provided with the same shifting platform 303 in a rotating manner, one side of the shifting platform 303 facing the infusion tube is provided with bristles 306 through an installation plate 305, the installation plate 305 and the bristles 306 are preferably detachably connected, the material-shifting platform 301 is provided with a material-shifting motor 304 for driving the material-shifting cams 302, and the number of the material-shifting motors 304 is at least one; the motor drives the material stirring cam 302, so that the bristles 306 on the stirring platform 303 stir and feed the infusion tube, the bristles 306 have certain flexibility, the possibility of tearing the infusion tube can be reduced, and the stirring and feeding effect is not greatly influenced.

As shown in fig. 2, the conveying mechanism further comprises a fifth guide rail 205 parallel to the fourth guide rail 204, and the fifth guide rail 205 is matched with the fourth guide rail 204 for limiting the vertical position of the puncture needle seat of the infusion tube; further limiting the position of the infusion tube, thereby improving the stability of the delivery.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent replacements or modifications made based on the present invention to solve the same technical problems and achieve the same technical effects are all covered by the protection scope of the present invention.

Claims (5)

1. The utility model provides a mobilizable transfer line automatic coil winding machine feed mechanism which characterized in that: including sideslip mechanism, sideslip mechanism includes mounting bracket (101), mounting bracket (101) bottom is equipped with translation guide rail (102), translation guide rail (102) sliding connection has sideslip piece (106), sideslip piece (106) are connected with conveying mechanism through telescopic machanism, conveying mechanism includes carriage (206), first guide rail (201), second guide rail (202), third guide rail (203), fourth guide rail (204) and is used for stirring the group material mechanism of carrying the transfer line, first guide rail (201) and second guide rail (202) cooperation are used for the suction head of joint transfer line, third guide rail (203) and fourth guide rail (204) cooperation are used for placing the puncture headstock of transfer line, mounting bracket (101) are close to the rotatory drive wheel (103) that is equipped with by motor drive in carriage (206) one side both ends bottom, drive belt (104) are gone up in drive wheel (103), drive belt (104) are equipped with sideslip piece (106) fixed connection through connecting block (105), it is equipped with steadying plate (5) cover to keep away from carriage (206) one side both ends bottom in mounting bracket (101).

2. The feeding mechanism of an automatic winding machine for movable infusion tubes according to claim 1, characterized in that: an extension plate (401) is arranged at the bottom of the transverse moving block (106), the telescopic mechanism is a hydraulic rod (402) arranged on the extension plate (401), the movable part of the hydraulic rod (402) is connected with the conveying frame (206), and the bottom of the transverse moving block (106) is in sliding connection with the top of the conveying frame (206).

3. The feeding mechanism of an automatic winding machine for movable infusion tubes as claimed in claim 1, wherein: the number of the material poking mechanisms is two, and the material poking mechanisms are respectively arranged on two sides of the conveying frame (206).

4. The feeding mechanism of the automatic winding machine for movable infusion tubes as claimed in claim 3, wherein: dial material mechanism and include group material platform (301) of being connected with carriage (206), dial to rotate on material platform (301) and be equipped with and dial material cam (302), the quantity of dialling material cam (302) is two, two dial material cam (302) rotation and be equipped with same and dial platform (303), it is equipped with brush hair (306) towards transfer line one side through mounting panel (305) to dial platform (303), dial and be equipped with group material motor (304) that are used for the drive to dial material cam (302) on material platform (301), the quantity of dialling material motor (304) is one at least.

5. The feeding mechanism of an automatic winding machine for movable infusion tubes according to claim 1, characterized in that: the conveying mechanism further comprises a fifth guide rail (205) parallel to the fourth guide rail (204), and the fifth guide rail (205) is matched with the fourth guide rail (204) to limit the vertical position of the puncture needle seat of the infusion tube.

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