KR101464481B1 - Auto discharge equipment of vacuum toilet system - Google Patents

Abstract

The present invention relates to an automatic discharging device of a vacuum toilet system and, more specifically, a device capable of collecting wastewater of a toilet (night soil, foreign substance) by forcibly sucking the wastewater into an upper vacuum container in a vacuum state and automatically discharging the wastewater to a septic tank when a fixed amount of wastewater is collected. An upper vacuum container (91) having a first level sensor (61) and a second level sensor (62) placed above and below in an upper part and a lower vacuum container (93) having a third level sensor (61′) and a fourth level sensor (62′) placed above and below in an upper part are included. The upper part of the upper vacuum container includes an inlet (3) while having a soil pipe (2) connecting an external toilet with washbowls to be adjacent to the first level sensor (61) and the second level sensor (62). A lower part of the upper vacuum container (91) has an upper outlet (99) including an upper valve in a lower part to be inserted into the upper part of the lower vacuum container (93) while being adjacent to the third level sensor (61′) and the fourth level sensor (62′). A first electronic valve (65) is placed between the upper vacuum container (91) and the lower vacuum container (93) to be connected with a pipe. A lower part of the lower vacuum container (93) has a lower outlet (99′) including a lower valve (100′) in a lower part to be inserted into a soil tank (8). The upper part of the upper vacuum container (91) includes at least one vacuum pump (30) and a condensate water tank (83).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

[0001] The present invention relates to an automatic discharging device for a vacuum toilet system, and more particularly, to a vacuum toilet system for automatically discharging waste water from a toilet into a vacuum container in a vacuum state, We propose an automatic discharge device.

Generally, a vacuum type toilet is designed to collect and collect sewage, manure, dirt, foreign substances (hereinafter collectively referred to as "sewage") generated in a toilet or washstand by vacuum suction, And is connected through a sewage pipe from a sewage generation source such as a toilet and a sink for generating sewage. When the amount of the sewage collected in the vacuum container becomes a certain amount, it is sensed by the sensing means and sent to the predetermined septic tank by the lower exhaust means.

However, since the discharge means is discharged together with the foreign matter, the drain pump is overloaded or clogged, and troubles are frequent and troublesome to repair. In addition to the high price of the waste treatment device, And a problem of occupying a large installation area such as a vacuum container and a discharge pump.

As a means for solving the above problems, a domestic registered patent No. 1190379, which is registered as the same person as the present applicant, has been proposed

As shown in FIG. 1 and FIG. 2, the stipulated patent discloses that the waste water of the toilet 1. 1 '(a portion of the air in the toilet 1. 1') is discharged by the vacuum (-) pressure inside the vacuum container 10 formed by the vacuum pump 30 The level of the wastewater is sensed by the level sensor 34 and the electromagnetic valve 36 is operated as the level of the wastewater in the vacuum container 10 is raised. The first valve 20 is closed and the second valve 20 'is opened by the weight of the waste water so that the sewage in the vacuum container 10 is discharged to the purification tank 8 .

In this method, while the first valve 20 is closed and the second valve 20 'is opened by the weight of the wastewater, the wastewater in the vacuum container 10 is discharged to the purification tank 8 (20 to 30 seconds) The additional wastewater generated by using the toilet 1, 1 'in the vacuum container 10 is not sucked into the vacuum container 10 but stagnates in the sewage pipe 2. If one or two urinals 1, 1 'are used, the wastewater generated in the toilet 1 can be accommodated to some extent according to the capacity of the installed sewage pipe 2. However, if the capacity of the toilet pipe 2 is exceeded, (20 to 30 seconds), there is a problem that the function of the "automatic discharge device of the vacuum toilet system" is stopped.

1. Domestic registered patent No. 1190379 (Oct.

An object of the present invention is to provide a vacuum cleaner which is capable of increasing the level of wastewater in the upper vacuum container 91 and detecting the level of the wastewater by the first level sensor 61 and operating the first and second solenoid valves 65, While the upper and lower valves 100 and 100 'provided at the discharge port of the vacuum container 91 and the lower vacuum container 93 discharge the wastewater from the upper and lower vacuum containers 91 and 93 to the purification tank (20 ~ 30 seconds) using the toilet (1), the sewage is discharged to the septic tank without the stagnation of sewage in the sewage pipe (2) even if additional sewage is generated.

The present invention is characterized in that the upper level vacuum container 91 having the second level sensor 62 and the first level sensor 61 disposed above and below the upper level and the fourth level sensor 62 ' A lower vacuum container 93 having a third level sensor 61 'is provided and an inlet 3 is provided at an upper part of the upper vacuum container. A sewage pipe 2 connecting an external toilet bowl and washstand is mounted, Level sensor 62 and the first level sensor 61. An upper discharge port 99 having an upper valve 100 is attached to a lower portion of the upper vacuum container 91 to discharge the lower vacuum container 93 The first level sensor 62 'and the third level sensor 61' are brought close to each other while being connected to the upper portion of the upper vacuum container 91 and the lower vacuum container 93, And a lower discharge port 99 'having a lower valve 100' at its lower end is attached to the lower part of the lower vacuum container 93. The lower discharge port 99 ' And a condensate tank 83 is provided on the upper portion of the upper vacuum chamber 91 together with one or more vacuum pumps 30. The vacuum pump 30 is installed in the upper portion of the upper vacuum chamber 91. [

The present invention automatically discharges wastewater by varying the vacuum pressure in the upper and lower vacuum containers (91, 93), thereby eliminating the need for a separate discharge pump, reducing the risk of breakage or failure due to driving a separate discharge pump And it is economical, easy to maintain and manage, and has an excellent effect of maximizing the space efficiency of the installation compared with the conventional vacuum system.

In addition, even when the upper and lower vacuum vessels 91 and 93 are at atmospheric pressure due to failure of the vacuum generating device, the upper valve 100 and the lower valve 100 'are opened by the self weight of the wastewater, 91 and 93 are discharged to the septic tank, even if additional sewage is generated using the toilet 1, the sewage can be discharged to the septic tank without the stagnation of the sewage in the sewage pipe 2.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a conventional vacuum-type soil treatment apparatus according to the prior art. Fig.
Fig. 2 is an internal cross-sectional view showing a vacuum container according to the prior art.
Fig. 3 is a view showing a vacuum type soil treatment apparatus according to the present invention. Fig.
4 is an internal cross-sectional view of an upper and a lower vessel of a vacuum system according to the present invention.
5 is a side view of the upper and lower containers of the vacuum system according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to an automatic evacuation system for a vacuum toilet system, comprising an upper vacuum container (91) having a second level sensor (62) disposed above and below and a first level sensor (61) A lower vacuum container 93 having a fourth level sensor 62 'and a third level sensor 61' is provided and an inlet 3 is provided at an upper portion of the upper vacuum container, And the upper discharge port 99 having the upper valve 100 at the lower end thereof is provided at the lower portion of the upper vacuum container 91. The upper discharge port 99 is connected to the second level sensor 62, And is connected to the upper portion of the lower vacuum container 93 so as to be brought close to the fourth level sensor 62 'and the third level sensor 61', and the upper vacuum container 91 and the lower vacuum container 93 ' And a first electromagnetic valve (65) is provided between the first vacuum chamber (93) and the second vacuum chamber (93) A lower outlet 99 'having a lower valve 100' is mounted on the lower part of the lower vacuum container 93 and is introduced into the septic tank 8, And a condensate tank 83 is provided on the upper portion of the vacuum vessel 91 together with one or more vacuum pumps 30. [

The suction pump 81 is automatically shut off after the pressure of the upper vacuum container 91 is restored to the vacuum pump 30 so that the suction of the exhaust gas containing the steam of the upper vacuum container 91 is interrupted The third solenoid valve 73 is configured to operate the vacuum pump 30 (idle) for a certain period of time in a state in which the vacuum pump 30 is operated to remove the moisture of the oil in the vacuum pump 30.

The vacuum pump 30 detects the clogging of the oil filter 76 provided in the vacuum pump 30 and stops the vacuum pump 30 when the pressure of the vacuum pump discharge side is higher than the set pressure. 3 pressure sensor (74).

The condensed water tank 83 is provided with a fourth solenoid valve 85 and a fifth level sensor 86 to collect the condensed water vapor contained in the exhaust gas of the vacuum pump 30, Is opened for a predetermined time to keep the level of the condensate tank 83 constant and is higher than a certain level of the condensate tank 83 so that the fifth level sensor 86 is operated to stop the vacuum pump 30 .

When the pressure of the lower vacuum container 93 is not a normal vacuum pressure or the second solenoid valve 66 is opened when the first solenoid valve 65 is opened, The first pressure sensor 64 is configured to detect when the pressure of the lower vacuum container 93 is not at atmospheric pressure and send the signal to the sub panel 41 to send a malfunction or alarm sound.

In the upper vacuum container 91 and the lower vacuum container 93, the functional test of the present system, the cleaning of the upper and lower vacuum containers 91 and 93, the cleaning of the upper and lower vacuum containers 91 and 93 First, second, and third external connection portions 96, 97, and 98 are configured to temporarily discharge the first and second external connection portions.

The above is explained in more detail as follows.

First, the present invention includes a second pressure sweeper 72 for sensing the vacuum pressure in the upper vacuum container 91, a vacuum pump 30 for maintaining the vacuum pressure therein, a third electronic switch for automatically opening and closing the pump suction pipe 81, The third pressure sensor 74 for sensing the pressure on the discharge side of the pump 30, the condensate tank 83 for collecting the condensed water of the pump 30 exhaust gas, and the condensate tank 83 are maintained at a constant level A fifth level sensor 86 for sensing the level of the condensate tank 83, first and second level sensors 61 and 62 for detecting the wastewater of the upper vacuum vessel 91, Third and fourth level sensors 61 'and 62' for detecting the wastewater of the lower vacuum container 93, a first pressure sensor 64 for sensing the pressure of the lower vacuum container 93, A first solenoid valve 65 for equalizing the vacuum pressures of the lower vacuum chamber 91 and the lower vacuum chamber 93, a second solenoid valve 66 for removing the vacuum pressure of the lower vacuum chamber 93, (Not shown) provided in the lower vacuum container 93 The upper valve 100 provided at the bottom of the upper vacuum chamber 91 and the lower valve 100 provided at the bottom of the lower vacuum chamber 93 And main and sub panels 40 and 41 for controlling the overall operation of the apparatus.

The upper and lower vacuum containers 91 and 93 are closed cylinders, and the lower part is cone-shaped, and upper and lower parts are assembled into a flange to facilitate maintenance and maintenance. A sewage pipe 2 connected to a discharge device 52 such as a toilet bowl 1 and a washbowl 53 is connected to the outside of the inlet 3 provided on the side of the upper vacuum container, The upper valve 100 is provided at the upper part outlet 99 and the lower valve 100 'is provided at the lower outlet 99' of the cone part of the lower vacuum container 93.

The upper valve 100 completely closes the upper discharge port 99 of the upper vacuum container 91 when the pressure in the upper vacuum container 91 is a vacuum pressure or a vacuum state and the pressure in the lower vacuum container 93 is at atmospheric pressure The pressure in the upper vacuum container 91 and the pressure in the lower vacuum container 93 are lightly closed at the same vacuum pressure. Thereby, the upper valve 100 is opened by the weight of a small amount of wastewater in the upper vacuum container 91, and the sewage in the upper vacuum container 91 flows to the lower vacuum container 93. The lower valve 100 'completely blocks the lower outlet 99' of the lower vacuum container 93 when the pressure in the lower vacuum container 93 is a vacuum pressure, that is, a vacuum state and is at atmospheric pressure in the septic tank 8 , And the pressure in the lower vacuum container 93 and the pressure in the purification tank 8 are in the same state at the atmospheric pressure. The lower valve 100 'is opened by the weight of a small amount of wastewater in the lower vacuum container 93, and the wastewater in the lower vacuum container 93 is discharged to the purification tank 8.

According to the present invention, the valves 100 and 100 'have a structure in which a valve disk 103 for opening and closing the upper discharge port 99 or the lower discharge port 99' is assembled to the bracket 101 with a rubber plate 102 having elasticity . In other words, as shown in the drawing, the upper and lower valves 100 and 100 'are provided with a valve disc 103 on one side of a valve seat 105 formed at the tip of an elbow curved into' L ' A leakage preventing member including a rubber packing 104 is provided on the contact surface between the valve seat 105 and the valve disc 103 as a means for preventing leakage.

Next, the vacuum pump 30 forcibly discharges the air through the pump suction pipe 81 connected to the upper vacuum container 91, thereby reducing the pressure inside the upper vacuum container 91 and generating a vacuum pressure Thereby maintaining the vacuum state. At this time, the second pressure sensor 72 attached to the main panel 40 detects the pressure inside the container, and the vacuum pump 30 is operated under the control of the main panel 40, Thereby maintaining the internal pressure of the valve body within a predetermined range.

The first level sensor 61 for detecting the wastewater in the upper vacuum container 91 When the level of the wastewater in the vacuum container rises and reaches a predetermined amount, the first solenoid valve 65 is opened by signaling to the sub panel 41 and the upper vacuum container 91 and the lower vacuum container 93 are the same as the vacuum pressure of the solenoid valve. The second level sensor 62 detects the wastewater when the amount of wastewater in the upper vacuum vessel 91 increases above the first level sensor 61, and has a function of generating an alarm and stopping the system for abnormality of the present system. The third level sensor 61 'for detecting the wastewater in the lower vacuum chamber 93 detects the signal when the wastewater in the lower vacuum chamber 93 is not discharged smoothly and outputs a signal to the sub- The fourth level sensor 62 'has a function of opening the second solenoid valve 66 to bring the lower vacuum chamber 93 into the atmospheric pressure to discharge the wastewater. The fourth level sensor 62' And detects the wastewater when the level of the three-level sensor 61 'is increased to thereby generate an alarm for the abnormality of the present system and stop the system.

When the first solenoid valve 65 is opened, the vacuum pressure of the upper vacuum container 91 and that of the lower vacuum container 93 are equal to each other, So that the wastewater in the upper vacuum container 91 is discharged to the lower vacuum container 93. At this time, both the upper and lower vacuum containers 91 and 93 maintain the vacuum pressure state, and the lower valve 100 'is completely closed. After a predetermined time (about 15 to 30 seconds), the second solenoid valve 66 is opened simultaneously with the closing of the first solenoid valve 65 under the control of the sub panel 41, The upper valve 100 is closed and the lower valve 100 'is opened so that the wastewater collected in the lower vacuum vessel 93 is discharged to the purification tank 8 .

The main and sub panels 40 and 41, which are provided to control the overall operation of the apparatus, control the apparatus according to the signals detected by the components, and a speaker (not shown) for transmitting an alarm sound when a malfunction or a failure occurs, And a warning lamp for notifying the danger.

The third solenoid valve 73 provided additionally automatically opens and closes the pump suction pipe 81 under the control of the main panel 40 according to the signal of the second pressure sweeper 72, The vacuum pump 30 is operated for a predetermined time (idle) even when the pressure of the vacuum pump 30 is restored to the normal state and the third solenoid valve 73 is closed, Helps to remove moisture inhaled into oil.

 The third pressure sensor 74 senses the pressure on the discharge side of the vacuum pump 30 and detects whether the oil filter 76 provided on the discharge side of the vacuum pump 30 is blocked. When the pressure on the discharge side of the vacuum pump 30 is higher than the set pressure Thereby causing the vacuum pump 30 to stop.

The condensed water tank 83 is a tank in which condensed water generated by the condensation of water vapor contained in the exhaust gas of the vacuum pump 30 is collected and the fourth electromagnetic valve 85 is opened and closed under the control of the main panel 40, The fifth level sensor 86 senses the level of the condensate tank 83 and stops the vacuum pump 30 when the level of the condensate tank 83 is higher than a predetermined level.

The first pressure sensor 64 for sensing the pressure of the lower vacuum container 93 is configured such that when the pressure of the lower vacuum container 93 is not a normal vacuum pressure when the first solenoid valve 65 is opened, When the pressure of the lower vacuum container 93 is not at atmospheric pressure when the valve 66 is opened and sends a signal to the sub panel 41 to send a malfunction or a malfunction alarm sound (not shown).

The first, second, and third external connection portions 96, 97, and 98 provided respectively in the upper vacuum container 91 and the lower vacuum container 93 are used for functional testing of the system, upper and lower vacuum containers 91 and 93 ) For cleaning, and for use in a system failure.

[0030] In operation of the automatic discharging device of the vacuum toilet system constructed as described above, a vacuum pressure is applied to the upper vacuum container 91 by the vacuum pump 30, and the pressure sensor senses the same and keeps it constant . At this time, the lower vacuum container 93 is in the atmospheric pressure state, and the upper valve 100 is completely closed by the pressure difference between the upper vacuum container 91 and the lower vacuum container 93. Thereafter, when the toilet 1 is used, waste water in the toilet and the sewage pipe is sucked into the upper vacuum container 91 through the discharging device 52, the sewage pipe 2 and the inlet 3, The wastewater is blocked by the closed upper valve 100 by the pressure difference between the upper vacuum container 91 and the lower vacuum container 93; The vacuum level of the upper vacuum chamber 91 and the vacuum level of the lower vacuum chamber 93 is lower than the vacuum level of the lower vacuum chamber 93 as the first solenoid valve 65 is opened. The upper valve 100 is opened by the weight of the wastewater in the upper vacuum chamber 91 and the wastewater is discharged to the lower vacuum chamber 93. The wastewater discharged to the lower vacuum chamber 93 is discharged to the lower vacuum Is collected in the lower container by the lower valve 100 'closed by the atmospheric pressure difference between the vacuum pump 30 of the container 93 and the purification tank 8. [ After the first solenoid valve 65 is closed and the second solenoid valve 66 is opened at a predetermined time (about 15 to 30 seconds), the vacuum pressure of the lower vacuum chamber 93 is set to the standby state The upper valve 100 is closed and the lower valve 100 'is opened by the weight of the wastewater collected in the lower vacuum container 93, and the wastewater is automatically discharged to the purification tank.

The vacuum pump 30 maintains the vacuum pressure of the upper vacuum container 91 constant by the second pressure sweeper 72 even during the discharge process. Therefore, the wastewater generated by the continuous use of the toilet 1 is continuously sucked into the upper vacuum container 91 through the inlet 3 and the discharge device 52 and the sewage pipe 2 without any obstacle, The discharge process is repeated.

In addition, after the pressure in the upper vacuum container 91 has returned to a normal level, the third solenoid valve 73 automatically cuts off the pump suction pipe 81 to discharge the water vapor of the upper vacuum container 91 The vacuum pump 30 is operated (idle) for a certain period of time in a state where suction of the gas is stopped, thereby removing the moisture of the oil in the vacuum pump 30 with the internal heat of the vacuum pump 30 thus generated.

The third pressure sensor 74 provided on the discharge side of the vacuum pump 30 detects whether the oil filter 76 installed in the vacuum pump 30 is blocked or not so as not to be mixed with the exhaust gas discharged to the outside When the pressure of the vacuum pump discharge side is higher than the set pressure, the vacuum pump 30 is stopped.

The condensed water tank 83 in which the condensed water vapor contained in the exhaust gas of the vacuum pump 30 is collected is opened for a predetermined time while the vacuum pump 30 is operated And the fifth level sensor 86 detects the level of the condensate tank 83 and stops the vacuum pump 30 when the level is higher than a predetermined level.

The first pressure sensor 64 for sensing the pressure of the lower vacuum container 93 is configured such that when the pressure of the lower vacuum container 93 is not a normal vacuum pressure when the first solenoid valve 65 is opened, When the pressure of the lower vacuum container 93 is not at atmospheric pressure when the valve 66 is opened and sends a signal to the sub panel 41 to send a malfunction or a malfunction alarm sound (not shown).

The first, second, and third external connection portions 96, 97, and 98 provided respectively in the upper vacuum container 91 and the lower vacuum container 93 are used for functional testing of the system, upper and lower vacuum containers 91 and 93 And for temporarily discharging the wastewater from the upper and lower vacuum vessels 91 and 93 when the system fails.

1: toilet 2: sewage pipe 3: inlet
30: Vacuum pump 61: First level sensor 62: Second level sensor
61 ': third level sensor 62': fourth level sensor 63: first pressure gauge
63 ': second pressure gauge 64: first pressure sensor 65: first solenoid valve
66: second solenoid valve 72: second pressure sensor 73: third solenoid valve
74: Third pressure sensor 81: Pump suction pipe 83: Condensate tank
85: fourth solenoid valve 91: upper vacuum container 93: lower vacuum container
99: upper outlet 99 ': lower outlet 100: upper valve
100 ': Lower valve 103: Valve disk

Claims (6)

An automatic discharge device for a vacuum toilet system,
An upper vacuum container 91 having upper and lower second level sensors 62 and a first level sensor 61 and a fourth level sensor 62 ' A lower vacuum chamber 93 having a vacuum chamber 61 '
The upper level of the upper vacuum chamber is provided with an inlet 3 and a sewage pipe 2 connected to an external toilet bowl and washstand is installed to approach the second level sensor 62 and the first level sensor 61,
An upper discharge port 99 having an upper valve 100 is attached to a lower portion of the upper vacuum container 91 and connected to the upper portion of the lower vacuum container 93 to connect the fourth level sensor 62 ' 3-level sensor 61 '
A first solenoid valve (65) is provided between the upper vacuum chamber (91) and the lower vacuum chamber (93) and connected by a pipe,
One side of the second solenoid valve 66 mounted on the side surface of the lower vacuum chamber 93 is exposed to the atmosphere,
A lower discharge port 99 'having a lower valve 100' is attached to the lower portion of the lower vacuum container 93 and is introduced into the septic tank 8,
Wherein a condensate tank (83) is provided on the upper portion of the upper vacuum container (91) together with one or more vacuum pumps (30).
The vacuum pump according to claim 1, wherein the vacuum pump (30) is automatically shut off the pump suction pipe (81) after the pressure of the upper vacuum chamber (91) Wherein the third solenoid valve (73) is configured to operate the vacuum pump (30) for a certain period of time (idle) in a state where the suction of the vacuum pump Automatic discharge device.
The vacuum pump (30) according to claim 1, wherein the vacuum pump (30) detects whether the oil filter (76) provided in the vacuum pump (30) is blocked or not. When the pressure of the vacuum pump discharge side is higher than the set pressure, Wherein the third pressure sensor (74) is configured to stop the second valve (74).
The condensed water tank according to claim 1, wherein the condensed water tank (83) is provided with a fourth solenoid valve (85) and a fifth level sensor (86) to collect condensed water vapor contained in the exhaust gas of the vacuum pump (30) The electromagnetic valve 85 is opened for a predetermined time to keep the level of the condensate tank 83 constant and when the level of the condensate water 83 is higher than a certain level of the condensate tank 83, And stopping the automatic ventilation of the toilet bowl.
The vacuum cleaner according to claim 1, wherein a pressure of the lower vacuum container (93) is not a normal vacuum pressure when the first solenoid valve (65) is opened, The first pressure sensor 64 is configured to detect when the pressure of the lower vacuum container 93 is not at atmospheric pressure and send the signal to the sub panel 41 to send a malfunction or alarm sound The automatic discharge device of the vacuum toilet system.
The system of claim 1, wherein the upper vacuum container (91) and the lower vacuum container (93) are provided with functional tests of the system and cleaning of the upper and lower vacuum containers (91, 93), upper and lower vacuum containers (91, 93, 97) for temporarily discharging the wastewater from the first and second external connection ports (96, 97, 98).

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