JPH1080481A - Enema device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an enema device which does not act an excess pressure on the inside of the anus and has high safety by providing the device with a contrast medium supply device which supplies contrast media between a holding vessel and the inside of the anus via a contrast medium supply pipe and a catheter by squeezing this contrast medium supply pipe in its axial direction. SOLUTION: The barium holding vessel 6 is inserted into the holder 2 of an enema machine body 1 and an air supply pipe 5 is connected to the body 1 and is detained by a clip 9, thereafter, a supply/discharge pipe 3 is pressed to the upper part of a rotating body. A pipe retainer 8 is detained by a stopper 10. Next, the supply/discharge pipe 3 and the air supply pipe 5 are connected to the catheter and a power source switch is turned on. A barium injection switch is kept pressed to send the barium to the front end of the catheter 4. Next, the front end is inserted into the anus to a position shown by a mark and, thereafter, air is supplied to expand a detaining bag 4e to detain the catheter. When the barium injection switch is pushed, the supply/discharge pipe 3 is squeezed by a roller, by which the barium is delivered at a fixed speed to the catheter 4 side and to supply the barium into the anus.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an X-ray examination of the lower digestive tract such as the large intestine and the small intestine, in which a contrast agent, for example, barium is injected into the intestine from the anus and then air is injected to inflate the intestinal tract. The present invention relates to an enema machine capable of performing double contrast imaging and discharging the barium remaining in the rectum.

[0002]

2. Description of the Related Art Conventionally, this type of enema has various structures. For example, a barium supply / discharge mechanism that connects a barium storage tank and a catheter via a barium supply / discharge pipe, and an air supply mechanism that connects an air delivery compressor and a catheter via an air supply pipe are provided. Then, first, pressure is applied to the barium storage tank, and barium in the storage tank is injected into the anus via the barium supply / discharge pipe and the catheter at the pressure, and then the air supply pipe and the catheter are compressed by the compressor. There is a device in which air is injected into the anus via the mouth (Japanese Patent Publication No. 55-46729).

[0003]

However, in the above-mentioned structure, when the pressure is applied to the inside of the contrast medium holding container to send out the contrast medium, the valve is opened in the case of failure of the electric system. It is also conceivable that the pressure acting on the holding container may be left inside and act on the anus, resulting in a problem in safety. Therefore, the object of the present invention is to
In order to solve the above-mentioned problems, it is an object of the present invention to provide a safe enema machine in which no extra pressure acts in the anus.

[0004]

SUMMARY OF THE INVENTION To achieve the above object, the present invention provides a contrast agent holding container, and a flexible contrast agent supply having one end attached to the holding container and the other end attached to a catheter. A pipe, and a contrast agent supply device that supplies the contrast agent between the holding container and the anus via the contrast agent supply tube and the catheter by squeezing the contrast agent supply tube in the tube axis direction. It is characterized by the following.

[0005] The air supply device further includes an air supply tube having one end attached to the air supply device. The other end of the air supply tube is attached to the catheter. After the contrast agent is supplied into the anus by the device, the air delivery device may supply air into the anus via the air supply pipe and the catheter.

Further, in the above configuration, the contrast agent supply device includes a driving unit that revolves a rotating body in which a plurality of rollers are rotatably disposed outside in a forward and reverse direction, and a driving unit that rotates the rotating body of the driving unit. A tube holder that presses and contacts the contrast agent supply tube with the roller; and a holder that holds the contrast agent supply tube. The contrast agent supply is performed by revolving the roller of the rotating body of the drive unit in the forward direction. It is also possible to arrange so that the tube is squeezed along the tube axis direction and the contrast agent is sent from the holding container to the catheter side.

Further, in the contrast agent supply device, the contrast agent supply pipe is squeezed along the tube axis direction by the rotation of the roller of the rotating body of the drive unit in the reverse direction, and the contrast agent is supplied to the catheter by the catheter. To the holding container side.

[0008]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an intestinal enema according to an embodiment of the present invention; FIG. As shown in FIGS. 1 and 2, the remote enema machine according to the present embodiment includes an air supply mechanism and a barium supply mechanism as a contrast agent, and supplies pressurized air into the anus from the air supply mechanism. When the air pressure in the anus exceeds a predetermined pressure within a predetermined time, the drive of the air supply mechanism is stopped, and when the pressure in the anus exceeds the predetermined pressure outside the predetermined time, the air is injected into the anus. It is configured so as to discharge the air and barium. This intestinal tractor supplies and discharges barium and supplies air while checking lesions and stenosis in the intestine by remote operation. On the other hand, the barium supply mechanism includes a barium holding container 6 and a flexible barium supply tube corresponding to a flexible contrast agent supply tube having one end attached to the holding container 6 and the other end attached to the catheter 4. Pressure is applied to the discharge pipe 3 and the barium supply / discharge pipe 3 so that barium is supplied between the holding container 6 and the inside of the anus.
And a barium supply / discharge device that supplies / discharges the barium. A container holder 2 for holding the holding container 6 upside down is rotatably mounted on one side surface of the cover 12 of the barium supply / discharge device. (Not shown), the container holder 2 is rotated and the holding container is rotated even when the body 1 is tilted along with the tilt of the fluoroscopy table when attached to a railing or the like of a handrail via a fixture 19. 6 is always located along the vertical direction.

As shown in FIGS. 3 to 5, on the left side of the body 1 of the enema apparatus shown in FIG. 1, a driving unit 7, a supply / discharge tube holding mechanism, which constitutes a contrast medium supply device, A supply and discharge pipe holding mechanism. The drive unit 7 includes a motor 13 fixed to a main body casing 18 and a rotating body 22 fixed to a forward / reverse rotation shaft 13a of the motor 13 so as to be relatively non-rotatable. The rotating body 22 supports three rollers 23, 23, 23 between a pair of rotating plates 22a, 22b each having a rotating shaft fixing hole 22c so as to freely rotate by pins 24, 24, 24, respectively. At the same time, the rotation of the rotating body 22 revolves around the rotation axis of the motor 13. In addition, 25 is a cover. The supply / discharge tube holding mechanism presses the barium supply / discharge tube 3 against the upper surface of the rotating body. That is,
The supply / discharge tube holding mechanism has a tube holder 8 and a stopper 10 for positioning the tube holder 8 at a predetermined position.
The tube retainer 8 has one end of a base 8d pivotally attached to the enema machine body 1 with a pin 20 and integrates a curved portion 8c, a flat portion 8b, and a small curved portion 8a, which are larger than the base side. It is formed in a way. The tube retainer 8 is engaged with a pin 21 whose lower surface of the small curved portion 8a at the tip protrudes from the left side surface of the enema machine body 1. The stopper 10 has a base portion rotatably mounted around the pin 21.
Rollers 10a, 10a,
10a is rotatably mounted, and a lever 10b is provided at the tip.
Is formed. Therefore, after the barium supply / discharge pipe 3 is placed on the upper surface of the rotating body 22, the pipe holder 8
From above, and the small curved portion 8a of the tube retainer 8 is engaged with the pin 21. When the lever 10b of the stopper 10 is grasped by hand and the stopper 10 is rotated around the pin from the position indicated by the dashed line in FIG. 5 to the position indicated by the solid line, the pair of rollers 10a, 10a Gets over the small curved portion 8a of the tube holder 8, enters the flat portion 8b, and positions the tube holder 8 in a state where the barium supply / discharge tube 3 is pressed against the rotating body 22 by the lower curved surface of the tube holder 8. . The supply / discharge tube holding mechanism includes a pair of clips 9 and 9 as holders.
As shown in FIGS. 6 to 8, a pair of engagement members 30 and 3
1 is rotatably supported by a pin 32, and one engaging member 30 is fixed to the left side surface of the enema device 1. Each of the engagement members 30 and 31 is formed to bend in a substantially U-shape in a plane, and the other engagement member 31 fits outside the one engagement member 30. Notch grooves 30a, 30a; 31a, 31a each having a width slightly smaller than the outer diameter of the barium supply / discharge tube 3 are formed on the side surfaces of the engagement members 30, 31, respectively. Therefore, in a state where the other engagement member 31 is fitted to the one engagement member 30, as shown in FIG.
A circular through hole 33 is formed, and the barium supply / discharge pipe 3 is located here. That is, after inserting the supply / discharge pipe 3 into the grooves 30a, 30a of one of the engagement members while slightly bending the same, the other engagement member 31 is fitted to the one engagement member 30, and the other engagement member 31 is fitted to the other engagement member 30. Grooves 31a, 31 of engagement member 31
The supply / discharge pipe 3 is inserted into the a while being slightly bent, and the supply / discharge pipe 3 is positioned between the grooves 30a, 30a; 31a, 31a of the engagement members 30, 31 in a bent state. The supply / discharge tube 3 is locked by the clip 9.

Here, a mechanism by which barium is sent out by the driving unit 7 will be described. That is, in a state where the supply / discharge tube 3 is supported by the pair of clips 9, 9 and the tube holder 8, the rotating body 22 sends barium from the holding container 6 to the catheter side (counterclockwise in FIG. 2). When the roller 23 rotates, the roller 23 revolves while rotating by rotating so as to press the supply / discharge tube 3 against the lower surface of the curved portion 8 c of the tube holder 8. The crushed and drained tube is squeezed toward the catheter side in the axial direction, and the barium in this portion is sent to the catheter side. When the roller 23 is further moved by the rotation of the rotating body 22 and the pressing of the roller 23 is stopped, the roller 23 returns to the original state by the elastic force of the supply / discharge pipe 3. At this time, barium is sucked from the holding container side,
The barium is pressed by the next roller 23 in the same manner as described above, and the barium is sent to the catheter side. By performing this operation continuously, barium can be sent out at a constant speed.

The air supply mechanism is provided in the body 1 of the enema and includes a micro pump 17 (maximum infusion rate of 2.5 l / min) as an air delivery device, one end of which is attached to the pump 17 and another. An air supply tube 5 is attached to the end of the catheter 4. The air supply pipe 5 has a solenoid valve 1
6, the electromagnetic valve 16 is normally kept closed, and the air in the air supply pipe 5 is sucked into the holding container via the catheter 4 when barium and air to be described later are discharged.
The barium emission is prevented from decreasing. Therefore, only when the pump 17 is driven, the solenoid valve 16 is opened, and pressurized air is supplied from the supply pipe 5. A pressure switch 45 and a relief valve 46 are provided between the electromagnetic valve 16 and the pump 17.
The pressure switch 45 controls the air pressure P in the air supply pipe 5.
When the pressure exceeds a predetermined pressure P ₁ , for example, 100 mmHg, an abnormal signal is output to a control circuit 42 described later. When the pressure switch 45 does not operate for any reason and the air pressure P exceeds a set pressure P ₂ higher than the predetermined pressure P ₁ , for example, 150 mmHg, the relief valve 46 does not operate. This is for letting the air inside escape to the outside.

As shown in FIG. 9, the pump 17 and the motor 13 are both printed circuit boards 14 (see FIG. 2).
And is controlled by the control circuit 42 via the operation unit 41. The control circuit 4
An alarm circuit 43 is connected to 2 and turns on an alarm lamp or sounds an alarm buzzer according to the output of the abnormal signal. In FIG. 2, reference numeral 11 denotes a connector for connecting a remote control cable, and reference numeral 15 denotes a manifold. On the other hand, as shown in FIG. 10, the catheter 4 has a large-diameter barium supply / discharge passage 4i, a small-diameter air supply passage 4k in FIG. Two air supply paths 4j are formed. A catheter locking bag 4e, both sides of which are in close contact with the outer surface of the main body, is formed on the distal end side of the main body 4d. After the locking bag 4e is inserted into the anus, air is supplied from the second air supply passage 4j. Then, the locking bag 4e expands like a balloon as shown by the dotted line, and the catheter 4 does not come out of the anus naturally. At the further tip of the catheter 4, a barium inlet / outlet 4f communicating with the barium supply / discharge passage 4i and an air supply notch (crocodile mouth) 4g communicating with the first air supply passage 4k are formed. On the other hand, the rear end side of the main body 4d is branched into three connecting portions 4a, 4b, 4c, of which two connecting portions 4a, 4b are connected to the barium supply / discharge pipe 3 and the air supply pipe 5, respectively. You. The remaining one connecting portion 4c is connected to an unillustrated syringe, and supplies air to the second air supply path 4j by moving the piston of the syringe to inflate the locking bag 4e. . A check valve 26 is inserted into the connection portion 4b, and when inhaling barium or air in the intestine into the catheter 4, the check valve 26 is connected to the pump 1 via the air supply pipe 5.
7 is prevented from entering. 4 l is the catheter 4
Is a mark indicating the insertion position when the is inserted into the anus.

The operation panel of the operation unit 41 connected to the enema machine 1 by a cable is shown in FIG.
Shown in 50 is a reset switch, 51 is the motor 1
3, a barium injection switch for driving 3; an emergency lamp 52; an air injection switch 53 for driving the pump 17;
5 is a barium discharge switch for reverse rotation of the motor 13, 56 is a power switch, 57 is an emergency switch, 58 is a control unit case, 59 is connected to the other end of the cable having one end connected to the enema body 1 Connector. The operation panel is provided in an operation room separate from the imaging room in order to prevent the operator from being exposed to radiation. The operation panel displays a barium and air injection state on a television screen for an X-ray television monitor in the operation room. This is for remote operation by the operator.

The operation of the enema device having the above configuration will be described. First, the barium holding container 6 to which the barium supply / discharge tube 3 is connected is inserted upside down into the holder 2 of the enema body 1 and the air supply tube 5 is connected to the body 1. After the supply / discharge tube 3 is locked by the pair of clips 9, 9, the supply / discharge tube 3 is pressed against the upper part of the rotating body 22 by the tube retainer 8, and the stopper 10 engages the tube retainer 8. Stop. Then, the supply / discharge tube 3 and the air supply tube 5 are connected to the catheter 4. Then, after the power switch 56 is turned on, the barium injection switch 51 is kept pressed to send barium to the distal end of the catheter 4. Next, after inserting the distal end of the catheter 4 into the anus up to the position indicated by the mark 41, for example, air of 30 to 50 cc is supplied by a syringe to inflate the locking bag 4e, and the catheter 4 is inflated.
Is locked in a state inserted into the anus. And
The barium injection switch 51 is pressed. This switch 5
The motor 13 is driven only while the button 1 is kept pressed, and the rotating body 22 rotates, and the plurality of rollers 23, 23, 23
, The barium is sent out from the holding container side to the catheter side at a constant speed, and the barium is supplied into the anus via the catheter 4. Required amount (for example, 300
When barium (about 600 ml) is injected, the barium injection switch 51 is released.

Next, in order to inflate the large intestine for double contrast, the air injection switch 53 is pressed to inject air into the intestine from the anus. A flowchart for this operation is shown in FIG. The pump 17 is driven to supply air into the anus via the air supply pipe 5 and the catheter 4 only while the air injection switch 53 is kept pressed. At this time, a predetermined time, for example 5 seconds of pressing the air injection switch 53, within, the air pressure P in the air supply pipe 5 exceeds 100mmHg at a predetermined pressure P _1, the control circuit 4
2, the trouble lamp 54 is turned on and the trouble alarm buzzer sounds, and the driving of the pump 17 is automatically stopped. Is this way air pressure P within 5 seconds began to exceed the 100 mm Hg (P _1), either the air supply pipe 5 is merely bent, air supply port 4g of the catheter 4 is closed, or Since the air supply port 4g of the catheter 4 is in contact with the wall of the intestine and the air supply port is obstructed, it is considered that there is no abnormality in the intestine. It is sufficient to simply stop the drive of the pump 17 by 42.
Therefore, after the drive is stopped, after the cause is determined and solved, if the reset switch 50 is pressed, the trouble lamp 54 goes out, the buzzer stops, and the air injection switch 53 becomes operable. When the switch 53 is kept pressed, the supply of air can be started again.

[0016] On the other hand, when the air pressure P in the air supply pipe 5 after 5 seconds elapse after pressing the air injection switch 53 is above the predetermined pressure P ₁ exceeds 100 mm Hg, large intestine there is abnormalities in the intestine It is considered that a burden was imposed, and as a result, the air pressure P increased, and it was dangerous to supply more air and to keep the already supplied air and barium injected into the intestine. Therefore, the control circuit 42 turns on the emergency lamp 52, sounds the alarm buzzer for emergency, stops the operation of the pump 17, and controls the air and air inside the anus via the catheter 4 and the barium supply / discharge pipe 3. Drain barium. That is, the motor 13 is rotated in the reverse direction, and the rotating body 22 is rotated in the opposite direction to the above. Therefore, air and barium in the intestine are sucked into the supply / discharge pipe 3 and are returned to the holding container 6 so that the intestinal pressure can be reduced. After 5 seconds from the start of the reverse rotation of the rotating body 22, the emergency lamp 52 is turned off, the buzzer is stopped, and the air injection switch 53 is enabled. This is because, if the barium and the air are continuously discharged for about 5 seconds, it is possible to avoid an abnormal situation in which a large burden is imposed on the intestine according to empirical rules. When supplying barium again within 5 seconds after the start of the reverse rotation, if the reset switch 50 is pressed, the emergency lamp 52 is turned off, the buzzer is stopped, and the air injection switch 53 is operable. Becomes Therefore, if the switch 53 is kept pressed, the supply of air can be started again.

When the barium discharge switch 55 is pressed, excess barium in the rectum can be discharged to be stored in the holding container 6 through the supply / discharge tube 3.
When the barium and the air are discharged by pressing the discharge switch 55, when the air injection switch 53 is pressed at the same time as the switch 55, the pump 17 is driven at the same time and the air is supplied from the air supply pipe 5 into the intestine. While injecting, the barium and the air in the intestine are discharged from the supply / discharge pipe 3, and the replacement of barium and air can be performed without contraction of the rectum. It is possible to prevent the contrast effect from being impaired. If it is necessary to lower the intestinal pressure for some reason, pressing the emergency switch 57 causes the barium to be discharged only for about 5 seconds. Thereafter, the air injection switch 53 becomes operable in the same manner as described above. According to the above embodiment, the control circuit 42
Therefore, when the pressure P of the air becomes equal to or higher than the predetermined pressure P ₁ , it is appropriate according to the cause, that is, when the air can be resupplied, the air once injected into the intestine is not removed. While the cause can be investigated and solved, the air and barium can be immediately discharged when re-supply of the air is dangerous and when it is better to discharge the injected air. In the case of sending barium by applying pressure to the barium holding container, the valve is left open in the case of failure of the electric system and the pressure acting in the container acts on the anus. It is conceivable that the barium is fed into the anus by squeezing the barium supply / discharge tube 3 instead of supplying barium by pressure in the above-mentioned enema machine,
Even in the case of the failure of the electric system as described above, no extra pressure acts in the anus, and the safety is higher. Moreover, since with the relief valve 46 in addition to the pressure switch 45, any chance as a result of a malfunction of the electrical system, without the pressure switch 45 is actuated, the air pressure P becomes a predetermined pressure P ₁ or more and the set pressure exceeds P ₂ air can be released to the air supply pipe outside from the relief valve 46,
Compared to the case where all valves are composed of electrical parts,
Safety can be improved. Further, the holding container 6,
If the supply / discharge pipe 3 and the catheter 4 are discarded by one use, it is very hygienic and infectious diseases can be effectively prevented. In this case, by providing the check valve 26 on the catheter 4, even if the check valve 26 is contaminated with barium when inhaling barium and air, the check valve 26 is also discarded together with the catheter 4, so that the sanitary condition is further improved. This is very favorable in terms of quality. When attaching the supply / discharge tube 3 to the main body 1, the supply / discharge tube 3 is placed on the upper portion of the rotating body 22, then locked by the pair of clips 9, 9, further pressed by the tube holder 8, and stopped by the stopper 10. Since it is only necessary to hold this, the holding mechanism of the supply / discharge pipe 3 becomes simple,
In addition, the operation becomes easy. In addition, the amount of barium to be injected into the anus is limited to the maximum capacity of the container 6, and no more is injected, so that the management of the injection amount of barium becomes easy. On the other hand, conventionally, in the case of using a barium storage tank that holds an amount sufficient to inject a plurality of patients, the management of the amount of barium to be injected has been complicated.

It should be noted that the present invention is not limited to the above embodiment, but can be implemented in various other modes. For example, the holding container 6 is not limited to the holder that holds the holder 2 upside down. The holding container 6 is inserted into the holder 2 without being turned upside down, and the leading end of the supply / discharge tube 3 is inserted so as to reach the container bottom. Most of the barium may be sucked out of the holding container into the supply / discharge pipe. Further, the container 6 is not limited to the one held by the main body 1 and may be held by another member. In addition, the predetermined time, the predetermined pressure, and the set pressure are merely determined as described above from empirical rules, and are not limited to the above numerical values, and may be arbitrary values.

As described in detail above, according to the enema of this embodiment, when air is supplied from the air delivery device into the anus, the air pressure in the anus is maintained for a predetermined time, for example, for a very short time after the start of the supply. When the pressure exceeds a predetermined pressure, the air supply pipe is simply bent, the air supply port of the catheter is closed, or the air supply port of the catheter contacts the wall of the intestine and the air supply port is closed. This is considered to be the cause of the above, and it is sufficient to simply stop the driving of the air delivery device. Therefore, after the drive is stopped, the above-mentioned causes are investigated and solved, and then the supply of air can be started again. On the other hand, if the pressure in the anus exceeds the predetermined pressure outside the predetermined time, there is an abnormal site in the intestine, and it is considered that the pressure has increased due to this, supply of more air, and Since it is dangerous to keep the already supplied air and contrast agent injected into the intestine, the driving of the air delivery device is stopped, and the catheter and the contrast agent supply device are driven by reverse driving of the driving device. The air and the contrast agent in the anus are discharged through the discharge tube. Therefore,
According to the above configuration, when the pressure of the air becomes equal to or higher than the predetermined pressure, the cause is appropriately determined according to the cause, that is, when the air can be resupplied, the air once injected into the intestine is not removed. On the other hand, when the resupply of air is dangerous and when it is better to discharge the injected air, the air and the contrast agent can be immediately discharged.

Further, if a relief valve is provided, even if the pressure switch does not operate due to a failure of the electric system, if the air pressure exceeds a predetermined pressure and exceeds a set pressure, air is supplied from the relief valve. The valve can escape to the outside of the pipe, and safety can be improved as compared with a case where all the valves are constituted by electrical parts.

[0021]

As described above in detail, the present invention has the following effects. In other words, in the conventional apparatus in which pressure is applied to the inside of the contrast agent holding container to send out the contrast agent, in the case of a failure of the electric system, the valve is left open and the pressure acting in the holding container is reduced. It is also conceivable that it acts in the anus. However, according to this enema machine,
Since the contrast agent is fed into the anus by squeezing the contrast agent supply pipe, even in the case of a failure of the electric system as described above, no extra pressure is applied to the anus, so that the safety is higher. It will be.

[Brief description of the drawings]

FIG. 1 is a perspective view of an enema machine according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view of a main body of the enema machine.

FIG. 3 is a plan view of a main body of the enema machine.

FIG. 4 is a front view of a main body of the enema machine.

FIG. 5 is a left side view of a main body of the enema machine.

FIG. 6 is a perspective view of the clip in a non-fitting state.

FIG. 7 is a perspective view of the clip in a fitted state.

FIG. 8 is a front view of the clip in a fitted state.

FIG. 9 is a block diagram of the enema main body.

FIG. 10 is an enlarged view of a distal end portion of the catheter.

FIG. 11 is a plan view of an operation panel.

FIG. 12 is a flowchart relating to air injection of the above-mentioned enema machine.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Enema body, 2 ... Barium holding container holder, 3 ... Barium supply / discharge tube, 4 ... Catheter, 5 ... Air supply tube,
6 barium holding container, 7 drive unit, 8 tube holder, 9
... tube clip, 10 ... stopper, 11 ... connector, 12
... cover, 13 ... motor, 14 ... printed circuit board, 15 ...
Manifold, 16 ... Solenoid valve, 17 ... Pump, 18 ... Casing, 19 ... Fixing bracket, 20, 21 ... Pin, 22 ...
Rotating body, 23: roller, 24: pin, 25: cover, 2
6 ... check valve, 30, 31 ... engaging member, 32 ... pin, 41
... operation unit, 42 ... control circuit, 43 ... alarm circuit, 45 ... pressure switch, 46 ... solenoid valve, 50 ... reset switch,
51: Barium injection switch, 52: Emergency lamp, 53: Air injection switch, 54: Trouble lamp, 55: Barium discharge switch, 56: Power switch, 57: Emergency switch, 58: Control unit case, 59: Connector.

Claims (4)

[Claims] 1. A contrast agent holding container (6), a flexible contrast agent supply pipe (3) having one end attached to the holding container and the other end attached to a catheter (4); A contrast agent supply device (7, 8, or 10) for supplying a contrast agent between the holding container and the anus via the contrast agent supply tube and the catheter by squeezing the tube in the tube axis direction;
9) An enema machine comprising: 2. An air delivery device (17), and an air supply tube (5) having one end attached to the air delivery device, wherein the other end of the air supply tube is attached to the catheter, After supplying the contrast agent into the anus by the contrast agent supply device, supply air into the anus via the air supply pipe and the catheter by the air delivery device,
An enema device according to claim 1. 3. The contrast agent supply device, comprising: a drive section (7) in which a plurality of rollers (23) revolve in a forward and reverse direction with respect to a rotating body (22) rotatably disposed outside the rotating body; A tube holder (8) for pressing the contrast agent supply pipe against the roller of the rotating body of the unit, and a holder (9) for holding the contrast agent supply pipe; 3. The intestinal enema according to claim 1, wherein the contrast agent supply pipe is squeezed along the axial direction of the tube by the revolving in the forward direction so that the contrast agent is sent from the holding container to the catheter side. 4. 4. The contrast agent supply device according to claim 1, wherein the contrast agent supply pipe is squeezed along the tube axis direction by revolving the roller of the rotating body of the drive unit in the reverse direction, so that the contrast agent is removed from the catheter by the catheter. The intestinal enema according to claim 3, which is fed to the holding container side.