KR101380808B1 - Suction syringe life testing apparatus - Google Patents

Abstract

The present invention relates to an apparatus for testing suction syringe life, which is capable of testing a suction syringe in use for dental clinic. The present invention is mainly configured by including: a syringe fixing means (100) fixing one end and the other end of one end of the suction syringe (10); a syringe operating means (200) operating an operating switch (11) of the suction syringe (10) fixed to the syringe fixing means (100); a test water supply tank (300) supplying test water to the suction syringe (10) through a test water supply hose (310) connected to one end of the suction syringe (10); a test water collecting tank (400) collecting the test water exhausted through a test water collecting hose (410) connected to the other end of the suction syringe (10); a vacuum pump (500) supplying a vacuum to the test water collecting hose (410) so that the test water of the test water supply hose (310) is exhausted to the test water collecting hose (410) through the suction syringe (10); a sensor (600) sensing a perfusion state of test water flowing through the test water supply hose (310) or the test water collecting hose (410); and a test means (700) indentifying a sensing state of the sensor (600) in a state that a syringe operating means (200) is operated and testing whether the suction syringe (10) is failed.

Description

Suction syringe life test device {SUCTION SYRINGE LIFE TESTING APPARATUS}

The present invention relates to a suction syringe life test apparatus that can evaluate the life of the suction syringe used in dental care.

In general, a dental suction device is used to inhale the extract, such as pus, saliva, tooth cuttings, etc. generated during dental practice from the mouth of the patient.

Such a suction device is to provide a vacuum pressure to the suction syringe, so that the air flowing into one end of the suction syringe to the other end to discharge the pus or saliva during dental treatment. Here, the suction syringe protrudes to one side, and when the operation switch is operated, a vacuum is provided to suck the pus or saliva.

In addition, the above-mentioned suction syringe may be used in surgery to inhale the disinfectant solution disinfecting the pus or wounds generated in the wound during the surgery.

However, the suction syringe described above has a problem that the suction force is lowered at the time of medical treatment as it is supplied without undergoing a test procedure and saliva or pus is not quickly and smoothly sucked.

The problem to be solved by the present invention is to provide a suction syringe life test device that can test the life of the suction syringe used in dental care.

The suction syringe life test apparatus of the present invention includes a syringe fixing means 100 for fixing one end and the other end of the suction syringe 10 and an operation switch of the suction syringe 10 fixed to the syringe fixing means 100 ( 11) a test water supply tank 300 for supplying test water to the suction syringe 10 through a syringe operation means 200 for operating the test means and a test water supply hose 310 connected to one end of the suction syringe 10; And, the test water recovery tank 400 and the test water recovery hose discharged through the test recovery hose 410 connected to the other end of the suction syringe 10, the test water suction hose 310 of the test water suction syringe (10) Vacuum pump 500 to provide a vacuum in a state connected to the test recovery hose 410 to be discharged to the test recovery hose 410 through the), the test water supply hose 310 or the test recovery hose 410 Perfusion state of the test water flowing through the test water supply hose 310 or the test recovery hose 410 installed in the Test means 700 connected to the sensor 600 and the sensor 600 to sense the sensing state of the sensor 600 by testing the sensing state of the sensor 600 in the state of operating the syringe operating means 200 Characterized in that it comprises a.

Preferably, the syringe fixing means 100 is a support screw tab 111 is formed and the pedestal 110, the recess 112 is formed so as to support the lower end of the suction syringe 10, and the support screw tab 111 A corresponding through hole 141 is formed, and the upper presser 140 for pressing the upper end of the suction syringe 10 and a screw threaded to the support screw tab 111 in a state penetrated through the through hole 141. A bolt 160, a support screw tab 151 is formed, and a lower support 150 on which the other end of the suction syringe 10 is supported, and a long hole 121 corresponding to the support screw tab 151 is formed and suction A plurality of support pieces 120 respectively supporting both ends of the other end of the syringe 10, and the support pieces 120 are screwed to the support screw tab 151 in a state penetrated through the long hole 121 to support the support piece 120 to the pedestal 110. It is characterized by consisting of a fixing bolt 130 for fixing.

Preferably, the syringe actuating means 200 includes an actuating cylinder 210 that expands and contracts the cylinder shaft 211, and a movable plate 220 fixed to the cylinder shaft 211 to be reciprocated by the actuation of the actuating cylinder 210. ), And the lifting plate 230, which is located in the spaced apart state of the upper movable plate 220, the screw shaft hole 231 is formed, and is operable fixed to the lower portion of the lifting plate 230 of the suction syringe (10) One end is pivotally fixed to the moving plate 220 while being screwed to the screw clamp hole 231 of the elevating plate 230 and the grip plate 240 which is inserted into the operation switch 11 and held on the other end of the head. One end is fixed to the moving plate 220 in a state penetrated by the screw shaft 250 and the elevating plate 230 is formed 251 is formed of a guide shaft 260 to guide the lifting of the elevating plate 230 It features.

Preferably, the test water supply tank 300 has a connecting pipe 320 having one end connected to the test water supply hose 310 and the other end reaching from the inside to the bottom to provide the test water to the test water supply hose 310. It is characterized in that it is mounted.

Preferably, the test means 700 is a test water supply hose 310 or the state in which the operation cylinder 210 of the syringe operation means 200 is operated so that the operation switch 11 of the suction syringe 10 is opened. Recognizing that the sensor 600 detects a state in which the test water is not perfused in the test recovery hose 410, it is determined that the suction syringe 10 to be tested is defective, and the test water supply hose 310 or the test recovery number Recognizing that the sensor 600 detects a state in which the test water flows through the hose 410, the suction syringe 10 to be tested is characterized in that it is good.

Preferably, both ends of the circulation hose 810 are respectively connected to the lower part of each of the test water supply tank 300 and the test recovery tank 400, and the test water of the test recovery tank 400 is connected to the test water supply tank ( It is characterized in that the circulation pump 800 is connected to penetrate the circulation hose 810 to circulate to 300.

Preferably, the non-return valve 900 for preventing the test water from flowing back from the test water supply tank 300 to the test water recovery tank 400 is mounted on the circulation hose 810.

The suction syringe life test apparatus according to the present invention has the advantage of being able to test the life of the suction syringe used in dental care, to evaluate the life of the suction syringe, and to allow the long-life syringe to be spread and used.

1 is a perspective view of a suction syringe life test apparatus according to the present invention.
Figure 2 is a cross-sectional view showing the inside of the present invention.
Figure 3 is an enlarged perspective view of the main portion of the present invention.
Figure 4 is a perspective view showing a state before the suction syringe is fixed to the syringe fixing means of the present invention.
Figure 5 is a perspective view showing a state in which one end of the suction syringe is fixed to the syringe fixing means of the present invention.
Figure 6 is a perspective view showing a state in which both ends of the suction syringe is fixed to the syringe fixing means of the present invention.

Hereinafter, the suction syringe life test apparatus of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 and 2, the suction syringe life test apparatus of the present invention is syringe holding means 100, the syringe operating means 200, the test water supply tank 300, the test recovery tank ( 400, a vacuum pump 500, a sensor 600, and test means 700.

As shown in FIGS. 4 to 6, the syringe fixing means 100 is for fixing one end and the other end of the suction syringe 10, and a support screw tab 111 is formed and one end of the suction syringe 10. A pedestal 110 having a recess 112 formed therein to support the lower portion thereof, and a through hole 141 corresponding to the support screw tab 111 are formed, and the upper presser 140 for pressing the upper end of the suction syringe 10 at one end. ), A fastening bolt 160 screwed to the support screw tab 111 in a state penetrated through the through hole 141, and a support screw tab 151 are formed to support the lower end of the suction syringe 10. A lower support 150 and a long hole 121 corresponding to the support screw tab 151 are formed and penetrate the plurality of support pieces 120 and the long hole 121 respectively supporting the opposite ends of the suction syringe 10. Is screwed to the support screw tab 151 in a state consisting of a fixing bolt 130 for fixing the support piece 120 to the pedestal 110.

Therefore, while the lower end of the suction syringe 10 is supported by the pedestal 110 while the upper end of the suction syringe 10 is pressed by the syringe upper presser 140, the fastening bolt 160 is a through hole. One end of the suction syringe 10 is fixed between the upper pressing table 140 and the pedestal 110 as it is screwed to the support screw tab 111 while penetrating 141. Then, after the fixing bolt 130 is screwed to the support screw tab 151 to a minimum through the long hole 121, by moving the support pieces 120 in the pedestal 110 of the suction syringe 10 Once in the state to support both sides, by tightening the fixing bolt 130 to the support screw tab 151 to ensure that the support piece 120 is fixed to the lower support 150 by the suction syringe (10) by the support piece 120 The other end of) is fixed.

As shown in FIG. 3, the syringe operation means 200 is for operating the operation switch 11 of the suction syringe 10 fixed to the syringe fixing means 100, and the operation of stretching the cylinder shaft 211. The cylinder 210, the movable plate 220 fixed to the cylinder shaft 211 so as to move reciprocally by the operation of the operating cylinder 210, and the screw shaft hole ( 231 is formed, the lifting plate 230, the forceps 240, which is operably fixed to the lower portion of the lifting plate 230 is fitted to the operation switch 11 of the suction syringe 10, and lifting plate ( One end is pivotally fixed to the movable plate 220 in the state that is screwed to the screw shaft hole 231 of 230 and penetrates through the screw shaft 250 and the elevating plate 230, the head 251 is formed at the other end One end is fixed to the moving plate 220 in a state made of a guide shaft 260 for guiding the lifting of the lifting plate 230.

Accordingly, when the head 251 is rotated, the screw shaft 250 is idlely rotated by the moving plate 220 and the guide plate 270 to be described later by the screw shaft hole 231 screwed to the screw shaft 250 to be rotated. The lifting plate 230 is lowered while being supported by the guide shaft 260. At this time, the tongs 240 fixed to the elevating plate 230 is positioned on the operation switch 11 of the suction syringe 10. Next, the tongs 240 are fitted to the operation switch 11 of the suction syringe 10 to hold the operation switch 11. Subsequently, when the operation cylinder 210 stretches the cylinder shaft 211 repeatedly, the operation plate 11 coupled to the cylinder shaft 211 is reciprocated to move the operation switch 11 held by the tongs 240. Can be operated repeatedly. That is, when the operation switch 11 is repeatedly operated, since the operation switch 11 opens and closes the suction syringe 10 repeatedly, it may be repeated that the test water passes or stops the suction syringe 10.

In addition, the syringe operation means 200 may further include a guide plate 270 through which the other end of the guide shaft 260 is fixed and the screw shaft 250 is penetrated to be idle. Such, the guide plate 270 is fixed to the other end of the guide shaft 260, one end of which is fixed to the moving plate 220, the guide shaft 260 is stably fixed to guide the lifting of the lifting plate 230 safely The head 251 of the screw shaft 250 having one end rotatably fixed to the movable plate 220 may protrude upward, while the other end of the screw shaft 250 is fixed to be idling, and thus the head 251 may be rotated. In this case, the screw shaft 250 may be rotated in a stable state.

As shown in FIG. 2, one end of the test water supply hose 310 is connected to one end of the suction syringe 10, and the other end of the test water supply hose 310 is connected to the test water supply tank 300. Therefore, the test water supply hose 310 provides the test water supplied from the test water supply tank 300 to one end of the suction syringe 10.

The test water supply tank 300 is for supplying test water to the test water supply hose 310 while being connected to the other end of the test water supply hose 310, to provide the test water to the test water supply hose 310. One end is connected to the test water supply hose 310 and the other end is connected to the connecting pipe 320 from the bottom to the inside. Therefore, the test water stored in the test water supply tank 300 may be supplied to the test water supply hose 310 through the connection pipe 320.

One end of the test recovery hose 410 is connected to the other end of the suction syringe 10, and the other end of the test recovery hose 410 is connected to the test recovery tank 400. Therefore, the test recovery hose 410 guides the test water discharged through the suction syringe 10 to be recovered to the test recovery tank 400.

The test recovery tank 400 is directly connected to the other end of the test recovery hose 410 to recover the test water discharged from the test recovery hose 410. Therefore, the test water recovered through the test recovery hose 410 is filled in the test recovery tank 400.

The vacuum pump 500 may provide a vacuum while being connected to the test recovery hose 410 such that the test water of the test water supply hose 310 is discharged to the test recovery hose 410 through the suction syringe 10. . Therefore, when the vacuum is provided to the test recovery hose 410 by the vacuum pump 500, the test water of the test water supply tank 300 is supplied to the test water supply hose 310 by the vacuum provided to the test recovery hose 410. Since it is provided to one end of the suction syringe 10 through), when operating the operation switch 11 of the suction syringe 10, the test water is moved from one end of the suction syringe 10 to the other end. At this time, the moving test water is recovered to the test recovery tank 400 through a test recovery hose 410 connected to the other end of the suction syringe 10. Of course, when the operation switch 11 of the suction syringe 10 is operated in reverse, the vacuum pump 500 is operated so that the test water cannot be moved through the suction syringe 10 even when a vacuum is provided to the test recovery hose 410. do.

The sensor 600 senses the perfusion state of the test water flowing through the test water supply hose 310 or the test recovery hose 410 while being installed in the test water supply hose 310 or the test recovery hose 410. do. That is, the sensor 600 may be configured as a flow sensor for detecting the flow of the fluid, the test water flows through the test water supply hose 310 or the test recovery hose 410 or the state that the test water does not flow through Sensing.

The test means 700 is connected to the sensor 600 to recognize the sensing state of the sensor 600 in the state in which the syringe operation means 200 is operated to test the failure of the suction syringe 10, and a programmable IC It may be configured to include a PCB on which a chip and an electronic component are mounted, may be controlled by an input of the touch panel 710, and may display both parts of the suction syringe 10 tested through the touch panel 710. have. Therefore, in the state where the test means 700 operates the operation cylinder 210 of the syringe operation means 200 so that the operation switch 11 of the suction syringe 10 is opened, the test water supply hose 310 or When the sensor 600 recognizes that the test water is flowing through the test recovery hose 410, the suction syringe 10 is determined to be good, and the test water supply hose 310 or the test recovery hose 410 is detected. If it is recognized that the sensor 600 senses that the test water is not perfused state is determined that the suction syringe 10 is bad. On the contrary, in the state in which the test means 700 operates the operation cylinder 210 of the syringe operation means 200 so that the operation switch 11 of the suction syringe 10 is reversely closed, the test water supply hose 310 When the sensor 600 senses that the test water is perfused in the test recovery hose 410 or the test recovery hose 410, the suction syringe 10 is determined to be inferior, and the test water supply hose 310 or the test recovery hose ( In operation 410, when the sensor 600 recognizes that the test water is not perfused, the suction syringe 10 is determined to be good. That is, the test means 700 may test the suction syringe 10 to determine whether the suction syringe 10 is positive or negative. Here, it is preferable that the test means 700 repeatedly tests the suction syringe 10 a predetermined number of times to improve the reliability of the test.

In addition, both ends of the circulation hose 810 are respectively connected to the lower portion of each of the test water supply tank 300 and the test recovery tank 400, and the test water of the test recovery tank 400 is connected to the test water supply tank 300. The circulation pump 800 is connected to the circulation hose 810 to circulate to the circulation hose, and the backflow prevention valve 900 which prevents the test water from flowing back from the test water supply tank 300 to the test water recovery tank 400. ) Is mounted in the circulation hose 810. Therefore, when the circulation pump 800 is operated, since the test water of the test recovery tank 400 is supplied to the test water supply tank 300 through the circulation hose 810 and filled, the test water supply tank 300 is tested. The test water may be continuously supplied to the water supply hose 310.

As described above, the present invention provides a vacuum to the test recovery hose 410 by operating the vacuum pump 500 while fixing one end and the other end of the suction syringe 10 using the syringe fixing means 100. Therefore, the test water of the test water supply tank 300 is provided to the suction syringe 10 through the test water supply hose 310. Subsequently, the test means 700 operates the syringe operation means 200 to move the test water through the suction syringe 10. Subsequently, since the sensor 600 senses the test water moving through the suction syringe 10, the test means 700 detects the sensing state of the sensor 600 to determine whether the suction syringe 10 is tested. can do.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the above description is intended to be illustrative, and not restrictive, and that the scope of the present invention will be defined by the appended claims rather than the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

10: suction syringe 11: operation switch
100: syringe fixing means 110: pedestal
111: support screw tab 112: groove
120: support piece 121: long hole
130: fixing bolt 140: upper presser
141: through hole 150: lower support
151: support screw tab 160: fastening bolt
200: syringe operation means 210: operation cylinder
211: cylinder shaft 220: moving plate
231: screw shaft hole 230: lifting plate
240: clamp 250: screw shaft
251 head 260 guide shaft
300: test water supply tank 310: test water supply hose
320: connector 400: test recovery tank
410: test recovery hose 500: vacuum pump
600: sensor 700: test means
800: circulation pump 810: circulation hose
900: non-return valve

Claims (7)

Syringe fixing means 100 for fixing one end and the other end of the suction syringe 10,
A syringe operating means 200 for operating the operation switch 11 of the suction syringe 10 fixed to the syringe fixing means 100,
A test water supply tank 300 for supplying test water to the suction syringe 10 through a test water supply hose 310 connected to one end of the suction syringe 10,
A test recovery tank 400 in which test water discharged through the test recovery hose 410 connected to the other end of the suction syringe 10 is recovered;
A vacuum pump 500 which provides a vacuum while being connected to the test recovery hose 410 so that the test water of the test water supply hose 310 is discharged to the test recovery hose 410 through the suction syringe 10, and
A sensor 600 for sensing the perfusion state of the test water flowing through the test water supply hose 310 or the test recovery hose 410 while being installed in the test water supply hose 310 or the test recovery hose 410;
Recognizing a sensing state of the sensor 600 in the state connected to the sensor 600 operating the syringe operation means 200, characterized in that it comprises a test means 700 for testing the failure of the suction syringe (10) Suction syringe life test device. The method of claim 1, wherein the syringe fixing means 100
A base 110 having a support thread tab 111 formed therein and a recess 112 formed to support a lower end of the suction syringe 10;
A through hole 141 corresponding to the support screw tab 111 is formed and the upper pressing table 140 for pressing the upper end of the suction syringe 10,
A fastening bolt 160 which is screwed to the supporting screw tab 111 in a state that penetrates the through hole 141;
The support screw tab 151 is formed and the lower support 150, the other end of the suction syringe 10 is supported,
A plurality of support pieces 120 each having a long hole 121 corresponding to the support screw tab 151 and supporting the opposite ends of the suction syringe 10, respectively;
Suction syringe life test device, characterized in that consisting of a fixing bolt 130 for fixing the support piece 120 to the pedestal 110 is screwed to the support screw tab 151 in a state penetrated through the long hole (121). The method according to claim 1, the syringe operating means 200
An operation cylinder 210 which expands and contracts the cylinder shaft 211,
A moving plate 220 fixed to the cylinder shaft 211 to be moved reciprocally by the operation of the operation cylinder 210,
Lifting plate 230 and the screw shaft hole 231 is formed while being spaced apart in the upper portion of the moving plate 220,
A forceps 240 operatively fixed to the lower part of the elevating plate 230 and inserted into and gripped by the operation switch 11 of the suction syringe 10;
A screw shaft 250 having one end pivotably fixed to the movable plate 220 and a head 251 formed at the other end while being screwed to the screw shaft hole 231 of the elevating plate 230;
Suction syringe life test device, characterized in that consisting of a guide shaft 260 for guiding the lifting of the lifting plate 230 is fixed to the moving plate 220 in a state penetrating the lifting plate 230. The method of claim 1, wherein the test water supply tank 300
Suction syringe life test device, characterized in that one end is connected to the test water supply hose 310 to provide the test water to the test water supply hose 310 and the other end reaches from the inside to the bottom. . The method according to claim 1, the test means 700
In the state where the operation cylinder 210 of the syringe operation means 200 is operated so that the operation switch 11 of the suction syringe 10 is opened, the test water supply hose 310 or the test recovery hose 410 is tested. Recognizing that the sensor 600 detects a state in which the water is not perfused, it is determined that the suction syringe 10 to be tested is defective, and the test water is perfused from the test water supply hose 310 or the test recovery hose 410. Suction syringe life test device, characterized in that it determines that the suction syringe (10) is tested if it recognizes that the sensor 600 detects the state. The method according to claim 1,
Both ends of the circulation hose 810 are respectively connected to the lower portion of each of the test water supply tank 300 and the test recovery tank 400,
Suction syringe life test device, characterized in that the circulation pump 800 is connected to pass through the circulation hose 810 to circulate the test water of the test recovery tank 400 to the test water supply tank (300). The method of claim 6,
Suction syringe life test device, characterized in that the non-return valve 900 for preventing the back flow of the test water from the test water supply tank 300 to the test water recovery tank 400 is mounted on the circulation hose (810).

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