CN211682290U - Molding and cutting device for respiratory anesthesia loop - Google Patents

Abstract

The utility model discloses a plastic cutting device of a respiratory anesthesia loop, which comprises a base, and also comprises a traction mechanism, a cutting mechanism and a material receiving box which are fixedly connected on the base in sequence, wherein the traction mechanism comprises a vertically arranged support plate, the support plate is fixedly connected on the base, one side of the support plate is provided with an upper transmission mechanism and a lower transmission mechanism which are symmetrically arranged, the other side of the support plate is provided with a traction driving mechanism, the cutting mechanism comprises a frame which is fixedly connected on the base, the middle part of the frame is fixedly connected with a horizontally arranged cutting plate, and one end of the cutting plate, which is far away from the traction mechanism, is provided with two guide rollers which are symmetrically arranged up and down; the top of frame is installed cut-off knife mechanism, and the tip of cut-off knife mechanism is towards cutting plate direction. The respiratory anesthesia loop can be conveniently drawn and tidied through the improvement, and the cutting stability and the cutting effect are improved; the waste materials are convenient to recycle, and the product utilization rate is improved.

Description

Molding and cutting device for respiratory anesthesia loop

Technical Field

The utility model relates to the technical field of medical treatment, especially, relate to a mould type cutting device in anesthesia circuit breathes.

Background

In the clinical operation or nursing process, it is usually necessary to communicate the anesthesia machine or the breathing machine with the respiratory tract of the patient by using a respiratory anesthesia loop, so as to be used as a passage for medical gases such as anesthetic gas to enter the patient. The production process of the respiratory anesthesia loop comprises the processes of injection molding, cutting, disinfection and the like, at present, the cutting of the respiratory anesthesia loop after injection molding generally has two forms, firstly, manual cutting not only causes high labor cost, but also causes the cutting surface to be rough and uneven; secondly, cut through simple cutting device, this kind of cutting device can not arrange in order the anesthesia circuit of breathing that treats to cut for the precision greatly reduced that cuts, moreover this kind of cutting device function singleness.

Disclosure of Invention

The utility model provides a model cutting device that moulds in anesthesia return circuit breathes to solve present manual work and cut with high costs or the problem of cutting device function singleness. In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

a plastic cutting device of a respiratory anesthesia loop comprises a base, and further comprises a drawing mechanism, a cutting mechanism and a material receiving box which are sequentially and fixedly connected to the base, wherein the drawing mechanism comprises a vertically arranged support plate, the support plate is fixedly connected to the base, an upper transmission mechanism and a lower transmission mechanism which are symmetrically arranged are arranged on one side of the support plate, a drawing driving device is arranged on the other side of the support plate, the upper transmission mechanism is positioned above the lower transmission mechanism and arranged at intervals, the upper transmission mechanism comprises an upper driving belt wheel and an upper driven belt wheel, and the upper driving belt wheel is in transmission connection with the upper driven belt wheel through a conveying belt; the lower transmission mechanism comprises a lower driving belt wheel and a lower driven belt wheel, and the lower driving belt wheel is in transmission connection with the lower driven belt wheel through a transmission belt; the cutting mechanism comprises a rack fixedly connected to the base, a horizontally arranged cutting plate is fixedly connected to the middle of the rack, and two guide rollers which are symmetrically arranged up and down are mounted at one end, far away from the traction mechanism, of the cutting plate; the top of frame is installed cut-off knife mechanism, and the tip of cut-off knife mechanism is towards cutting plate direction.

Preferably, the device still includes guiding mechanism, and guiding mechanism is located the drawing mechanism and cuts between the mechanism, and guiding mechanism includes the support, and support fixed connection is on the base, and fixed connection has the guide holder that the level set up on the support, the dead lever of the vertical setting of top fixedly connected with of guide holder, and last sliding connection has the slide bar with dead lever symmetry and parallel arrangement of guide holder, has offered on the guide holder and has been used for the gliding slip hole of slide bar.

Preferably, the guide seat is of a hollow structure, a lead screw is connected in the guide seat in a rotating mode, a sliding block is connected to the lead screw in a threaded mode, and the sliding block is fixedly connected with the sliding rod.

Preferably, one end of the screw rod close to the sliding rod penetrates through the guide seat, and the end part of the screw rod is fixedly connected with a rotating hand wheel.

Preferably, the top fixedly connected with backup pad of the one end of rotatory hand wheel is kept away from to the guide holder, installs the guide cylinder that two levels set up in the backup pad, and the guide cylinder internal rotation is connected with the installation axle, has evenly seted up a plurality of mounting holes in the backup pad, and the one end that the installation axle is close to the backup pad passes the mounting hole and with bolt threaded connection.

Preferably, drive arrangement includes the mounting panel that the level set up, mounting panel fixed connection is on the side of extension board, fixedly connected with gear motor on the mounting panel, the gear motor transmission is connected with down the pivot, the pivot passes the extension board and rotates with the extension board to be connected down, gear motor's one end and lower driving pulley fixed connection are kept away from to the pivot down, fixedly connected with down the transmission gear in the pivot down between gear motor and the extension board, down the transmission gear meshing is connected with the transmission gear, go up the pivot on the fixedly connected with of transmission gear, go up the pivot and pass the extension board and rotate with the extension board and be connected, go up the pivot and keep away from the one end and last driving pulley fixed connection of going up the transmission.

Preferably, the cutter mechanism is positioned at one end of the rack far away from the traction mechanism, the cutter mechanism comprises an air cylinder, a cutter head and a cutter holder, the fixed end of the air cylinder is fixedly connected to the top end of the rack, and the piston rod end of the air cylinder is fixedly connected with the cutter holder; the bottom end of the cutter holder is fixedly connected with a cutter head, and the cutter head faces the cutting plate; the side of blade holder fixedly connected with the connecting plate of level setting, the bottom fixedly connected with semicircle annular clamp ring of connecting plate.

Preferably, offer the recess that is used for placing the anesthesia return circuit of breathing along its length direction on the cutting board, the recovery hole has still been seted up to the bottom on the cutting board, and the recovery hole is linked together and is located the below of cut-off knife mechanism with the recess, installs the dirty tank on the base of recovery hole below, can dismantle between the top of dirty tank and the recovery hole and be connected and be linked together, and the lateral wall of dirty tank is connected with the negative pressure machine through the connecting pipe.

Preferably, connect the top of workbin to open, connect the hang plate that the bottom surface fixedly connected with slope of workbin set up, the one end fixed connection of hang plate is on the lateral wall that connects the workbin to be close to waste tank one end, and the other end fixed connection of hang plate is on the diapire of keeping away from waste tank one end that connects the workbin.

The utility model discloses the beneficial effect who has does: the utility model discloses set up traction mechanism, guiding mechanism, cutting mechanism and connect the workbin, traction mechanism carries out the tractive and arranges in order to the anesthesia loop of breathing that gets into the type of moulding cutting device for anesthesia loop is carried to cutting mechanism, and guiding mechanism guides anesthesia loop of breathing, is convenient for to prescribe a limit to anesthesia loop position in horizontal direction and vertical direction to it carries out further arrangement, has avoided anesthesia loop of breathing's entanglement and rocking, has improved its stability and cutting effect; the groove arranged in the cutting mechanism is convenient for further limiting the position of the anesthesia respiration loop, and the compression ring compresses the anesthesia respiration loop to ensure the cutting smoothness; the scrap materials brought by cutting are recovered through the arrangement of the recovery hole and the waste material groove, the recovery hole also prevents the cutter head from frequently touching the groove to cause the groove to be full of shear marks, and the service life of the device is prolonged; the cut respiratory anesthesia loop is conveyed to the material receiving box through the guide roller.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the traction drive mechanism of the present invention;

fig. 3 is a schematic structural view of the guiding mechanism of the present invention;

fig. 4 is a schematic structural diagram of the cutting mechanism of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

A plastic cutting device of a respiratory anesthesia loop comprises a base 1, and further comprises a drawing mechanism 2, a guide mechanism 3, a cutting mechanism 4 and a material receiving box 5 which are fixedly connected to the base 1 in sequence, wherein the drawing mechanism 2 comprises a vertically arranged support plate 6, the support plate 6 is fixedly connected to the base 1, one side of the support plate 6 is provided with an upper transmission mechanism 7 and a lower transmission mechanism 8 which are symmetrically arranged, the other side of the support plate 6 is provided with a drawing driving mechanism, the upper transmission mechanism 7 is positioned above the lower transmission mechanism 8 and is arranged at intervals, the upper transmission mechanism 7 comprises an upper driving belt pulley 701 and an upper driven belt pulley 702, and the upper driving belt pulley 701 is in transmission connection with the upper driven belt pulley 702 through a conveying belt 9; the lower transmission mechanism 8 comprises a lower driving belt wheel 801 and a lower driven belt wheel 802, and the lower driving belt wheel 801 is in transmission connection with the lower driven belt wheel 802 through a transmission belt 9; the traction driving mechanism comprises a horizontally arranged mounting plate 10, the mounting plate 10 is fixedly connected to the side face of a support plate 6, a speed reducing motor 11 is fixedly connected to the mounting plate 10, the speed reducing motor 11 is connected with a lower rotating shaft 803 in a transmission mode, the lower rotating shaft 803 penetrates through the support plate 6 and is rotatably connected with the support plate 6, one end, far away from the speed reducing motor 11, of the lower rotating shaft 803 is fixedly connected with a lower driving pulley 801, a lower transmission gear 804 is fixedly connected to the lower rotating shaft 803 between the speed reducing motor 11 and the support plate 6, an upper transmission gear 704 is meshed with the lower transmission gear 804, an upper rotating shaft 703 is fixedly connected to the upper transmission gear 704, the upper rotating shaft 703 penetrates through the support plate 6 and is rotatably connected with the support plate 6, and one end, far away from. The gear motor 11 drives the lower rotating shaft 803 to rotate, the lower rotating shaft 803 drives the lower driving belt wheel 801 to rotate, and the lower driving belt wheel 801 drives the lower driven belt wheel 802 to rotate through the conveying belt 9; the lower rotating shaft 803 also drives the lower transmission gear 804 to rotate, the lower transmission gear 804 drives the upper transmission gear 704 to rotate, the upper transmission gear 704 drives the upper driving pulley 701 to rotate, and the upper driving pulley 701 drives the upper driven pulley 702 to rotate through the conveyor belt 9; the upper transmission mechanism 7 and the conveyor belt 9 of the lower transmission mechanism 8 are synchronously transmitted and have opposite transmission directions. The channel between the upper transmission mechanism 7 and the lower transmission mechanism 8 forms a channel of the respiratory anesthesia loop, and when the respiratory anesthesia loop passes through, the transmission belts 9 of the upper transmission mechanism 7 and the lower transmission mechanism 8 respectively hold the upper wall and the lower wall of the respiratory anesthesia loop tightly, so that the respiratory anesthesia loop is pulled to move forwards.

Guiding mechanism 3 includes support 12, and support 12 fixed connection is on base 1, and fixed connection has the guide seat 13 that the level set up on support 12, and the vertical dead lever 14 that sets up of top fixedly connected with of guide seat 13 still has sliding rod 15 with dead lever 14 symmetry and parallel arrangement on the guide seat 13, offers on the guide seat 13 to be used for the gliding sliding hole 16 of sliding rod 15. The guide seat 13 is of a hollow structure, a lead screw 17 is rotatably connected in the guide seat 13, a slide block 18 matched with the lead screw is connected to the lead screw 17 in a threaded manner, and the slide block 18 is fixedly connected with the slide rod 15. One end of the screw 17 close to the sliding rod 15 passes through the guide seat 13 and the end part thereof is fixedly connected with a rotating hand wheel 19. The lead screw 17 is driven to rotate by adjusting the rotating hand wheel 19, so that the slide block 18 moves along the length direction of the lead screw 17, the slide rod 15 slides along the length direction of the slide hole 16, the distance between the fixed rod 14 and the slide rod 15 can be adjusted according to respiratory anesthesia loops with different pipe diameters, and the respiratory anesthesia loop is fixed in the horizontal direction. The sliding rod 15 and the fixing rod 14 are rotatably connected with a roller 22 made of rubber.

The top fixedly connected with backup pad 20 of the one end of rotatory hand wheel 19 is kept away from to guide holder 13, installs the guide cylinder 21 that two levels set up on the backup pad 20, and the rotation is connected with installation axle 32 in the guide cylinder 21, has evenly seted up a plurality of mounting holes on the backup pad 20, and the one end that installation axle 32 is close to backup pad 20 passes the mounting hole and with bolt threaded connection. The installation holes at different positions are selected according to the different pipe diameters of the respiratory anesthesia loop to adjust the distance between the two guide cylinders 21, so that the respiratory anesthesia loop is fixed in the vertical direction. The guide cylinder 21 is close to the traction mechanism 2, and the sliding rod is close to the shearing mechanism 4; of course, the guide cylinder 21 may be close to the shearing mechanism 4, while the slide bar is close to the pulling mechanism 2. The guide cylinder 21, the fixed rod 14 and the sliding rod 15 form a structure in a shape like a Chinese character 'jing', so that the respiratory anesthesia loop is fixed in the horizontal and vertical directions, and the guide effect is realized.

The cutting mechanism 4 comprises a rack 24 fixedly connected to the base 1, a horizontally arranged cutting plate 28 is fixedly connected to the middle of the rack 24, two guide rollers 23 which are symmetrically arranged up and down are mounted at one end, far away from the traction mechanism 2, of the cutting plate 28, the two guide rollers 23 are driven by a servo motor, and the guide rollers 23 convey the cut respiratory anesthesia loop. A cutter mechanism 25 is mounted at one end of the top of the frame 24, which is far away from the traction mechanism 2, the cutter mechanism 25 comprises a cutter head 2501, a cutter seat 2502 and an air cylinder 2503, the fixed end of the air cylinder 2503 is fixedly connected to the top end of the frame 24, and the piston rod end of the air cylinder 2503 is fixedly connected with the cutter seat 2502; the bottom end of the knife holder 2502 is fixedly connected with a knife head 2501, the knife head 2501 faces the cutting plate 28, the width of the knife head 2501 is a, the maximum diameter of the produced respiratory anesthesia loop is r, and a is larger than r, so that the cutting of the respiratory anesthesia loop can be finished after the knife falls down. The lifting of the cutter head 2501 is realized by the lifting of the piston rod of the cylinder 2503, so that the cutter head 2501 cuts the respiratory anesthesia loop. The side of blade holder 2502 is fixed with the connecting plate 2504 of horizontal arrangement, and the bottom of connecting plate 2504 passes through spliced pole fixedly connected with semicircle annular clamp ring 2505, and when cylinder 2503's piston rod descended, clamp ring 2505 downstream compressed tightly the anesthesia circuit of breathing until clamp ring 2505 to prevent to breathe the anesthesia circuit round trip movement and bring the trouble for cutting at the in-process of cutting. The end of compression ring 2505 is lower than the end of cutting head 2501 to better compress the respiratory anesthesia circuit.

Offer the recess 26 that is used for placing the anesthesia return circuit of breathing along its length direction on the cutting board 28, recovery hole 27 has still been seted up to the bottom on the cutting board 28, and recovery hole 27 is linked together and is located the below of cut-off knife mechanism 25 with recess 26, installs waste tank 29 on the base 1 of recovery hole 27 below, and waste tank 29's top is linked together and can dismantle with recovery hole 27. The respiratory anesthesia loop is directly conveyed into the groove 26 by the guide mechanism 3, when the cutter mechanism 25 falls down, the end part of the pressing ring 2505 falls into the recovery hole 27 so that the inner diameter part of the pressing ring 2505 presses the respiratory anesthesia loop, and the cutter head 2501 also falls into the recovery hole 27 after cutting is finished, so that the cutter head 2501 is prevented from being frequently cut to damage the cutting plate 28; the waste left after cutting is finished flows into a waste groove 29 through a recovery hole 27, so that the waste is prevented from polluting a cutting plate 28, in order to improve the recovery rate of the waste, the side wall of the waste groove 29 is connected with a negative pressure machine 30 through a connecting pipe, and the selected negative pressure machine 30 is a commercially available product; the waste material in the waste material groove 29 can be recycled, and the waste of materials is reduced.

Connect the top of workbin 5 to open, the anesthesia return circuit of breathing after cutting passes and drops to connect workbin 5 after guide roll 23, for prevent to connect the one end that is close to waste material groove 29 in the workbin 5 and appear piling up, connect the hang plate 31 that the slope of the bottom surface fixedly connected with of workbin 5 set up, the one end fixed connection of hang plate 31 is on the lateral wall that connects workbin 5 to be close to waste material groove 29 one end, the other end fixed connection of hang plate 31 is on the diapire that connects workbin 5 from waste material groove one end.

The using method comprises the following steps: starting the gear motor 11, driving the lower transmission mechanism 8 to rotate by the gear motor 11 through the lower rotating shaft 803, driving the upper transmission mechanism 7 to rotate by the lower rotating shaft 803 through the lower transmission gear 804 and the upper transmission gear 704, and pulling the respiratory anesthesia loop to move forwards by the conveyor belts 9 of the upper transmission mechanism 7 and the lower transmission mechanism 8; adjusting the space between the fixed rod 14 and the sliding rod 15 and the space between the two guide cylinders 21 in the guide mechanism 3 according to the pipe diameter of the cut respiratory anesthesia loop; the respiratory anesthesia loop passes through the guide mechanism 3 and enters the groove 26; start cylinder 2503, tool bit 2501 and clamp ring 2505 whereabouts simultaneously, clamp ring 2505 compresses tightly the anesthesia loop of breathing that waits to cut, and tool bit 2501 falls down and cuts the anesthesia loop of breathing, cuts the waste material that brings and falls into waste tank 29, and the anesthesia loop of breathing after cutting falls into through guide roll 23 and connects in the workbin 5.

The above embodiments are not intended to limit the shape, material, structure, etc. of the present invention in any form, and all of the technical matters of the present invention belong to the protection scope of the present invention to any simple modification, equivalent change and modification of the above embodiments.

Claims (9)

1. The utility model provides a mould type cutting device in anesthesia circuit breathes, the device includes the base, its characterized in that: the device also comprises a traction mechanism, a cutting mechanism and a material receiving box which are sequentially and fixedly connected to the base, wherein the traction mechanism comprises a vertically arranged support plate, the support plate is fixedly connected to the base, one side of the support plate is provided with an upper transmission mechanism and a lower transmission mechanism which are symmetrically arranged, the other side of the support plate is provided with a traction driving mechanism, the upper transmission mechanism is positioned above the lower transmission mechanism and is arranged at an interval, the upper transmission mechanism comprises an upper driving belt wheel and an upper driven belt wheel, and the upper driving belt wheel is in transmission connection with the upper driven belt wheel through a conveying belt; the lower transmission mechanism comprises a lower driving belt wheel and a lower driven belt wheel, and the lower driving belt wheel is in transmission connection with the lower driven belt wheel through a transmission belt; the cutting mechanism comprises a rack fixedly connected to the base, a horizontally arranged cutting plate is fixedly connected to the middle of the rack, and two guide rollers which are symmetrically arranged up and down are mounted at one end, far away from the traction mechanism, of the cutting plate; the top of frame is installed cut-off knife mechanism, and the tip of cut-off knife mechanism is towards cutting plate direction.

2. The molding and cutting device of a respiratory anesthetic circuit according to claim 1, characterized in that: the device still includes guiding mechanism, and guiding mechanism is located the drawing mechanism and cuts between the mechanism, and guiding mechanism includes the support, and support fixed connection is on the base, and the guide seat that the fixed connection has the level to set up on the support, the dead lever of the vertical setting of top fixedly connected with of guide seat, the last still sliding connection of guide seat have with dead lever symmetry and parallel arrangement's slide bar, offer on the guide seat and be used for the gliding sliding hole of slide bar.

3. The molding and cutting device of a respiratory anesthetic circuit according to claim 2, characterized in that: the guide seat is of a hollow structure, a lead screw is connected in the guide seat in a rotating mode, a sliding block is connected to the lead screw in a threaded mode, and the sliding block is fixedly connected with the sliding rod.

4. The molding and cutting device of a respiratory anesthetic circuit according to claim 3, characterized in that: one end of the screw rod close to the sliding rod penetrates through the guide seat, and the end part of the screw rod is fixedly connected with a rotating hand wheel.

5. The molding and cutting device of a respiratory anesthetic circuit according to claim 4, characterized in that: the top fixedly connected with backup pad of the one end of rotatory hand wheel is kept away from to the guide holder, installs the guide cylinder that two levels set up in the backup pad, and the guide cylinder internal rotation is connected with the installation axle, has evenly seted up a plurality of mounting holes in the backup pad, and the one end that the installation axle is close to the backup pad passes the mounting hole and with bolt threaded connection.

6. The molding and cutting device of a respiratory anesthetic circuit according to claim 1, characterized in that: tractive actuating mechanism includes the mounting panel that the level set up, mounting panel fixed connection is on the side of extension board, fixedly connected with gear motor on the mounting panel, the gear motor transmission is connected with down the pivot, the pivot passes the extension board and rotates with the extension board to be connected down, gear motor's one end and lower driving pulley fixed connection are kept away from to the pivot down, fixedly connected with down drive gear on the pivot down between gear motor and the extension board, down drive gear meshing is connected with the drive gear, go up the pivot on the fixedly connected with of drive gear, it passes the extension board and rotates with the extension board to go up the pivot and is connected, go up the pivot and keep away from the one end and the last driving pulley fixed connection of going up drive.

7. The molding and cutting device of a respiratory anesthetic circuit according to claim 1, characterized in that: the cutting mechanism is positioned at one end, far away from the traction mechanism, of the rack and comprises an air cylinder, a cutter head and a cutter holder, the fixed end of the air cylinder is fixedly connected to the top end of the rack, and the end of a piston rod of the air cylinder is fixedly connected with the cutter holder; the bottom end of the cutter holder is fixedly connected with a cutter head, and the cutter head faces the cutting plate; the side of blade holder fixedly connected with the connecting plate of level setting, the bottom fixedly connected with semicircle annular clamp ring of connecting plate.

8. The molding and cutting device of a respiratory anesthetic circuit according to claim 7, characterized in that: offer the recess that is used for placing the anesthesia return circuit of breathing along its length direction on the cutting board, the recovery hole has still been seted up to the bottom of cutting board, and the recovery hole is linked together and is located the below of cut-off knife mechanism with the recess, installs the dirty tank on the base of recovery hole below, can dismantle between the top of dirty tank and the recovery hole and be connected and be linked together, and the lateral wall of dirty tank is connected with the negative-pressure machine through the connecting pipe.

9. The molding and cutting device of a respiratory anesthetic circuit according to claim 8, characterized in that: connect the top of workbin to open, connect the hang plate that the bottom surface fixedly connected with slope of workbin set up, the one end fixed connection of hang plate is on the lateral wall that connects the workbin to be close to waste material groove one end, and the other end fixed connection of hang plate is on the diapire that connects the workbin to keep away from waste material groove one end.

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