JP2010259964A - Liquid sprinkler - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid sprinkler which can be suitably used not only for accurately grasp an instantaneous flow and an integrated flow, but also, for measuring other various useful results. <P>SOLUTION: This liquid sprinkler 1 is equipped with a manual faucet 4 which switches a liquid to be discharged from a sprinkling liquid tank 2 by a pump 3, to the sprinkling side A or the return side B to the sprinkling liquid tank 2 and vice versa. In addition, the liquid sprinkler includes a flow sensor 5 arranged between the pump 3 and the faucet 4, detection means 6 and 7 which detect whether or not the faucet 4 is switched to the sprinkling side A and a control means 8 which performs a predetermined arithmetic operation based on the detection results of the flow sensor 5 and the detection results of the detection means 6 and 7. The detection means and are such as a pressure sensor 6 arranged on the sprinkling side and a limit switch 7 which opens/closes by operating the switching operation member 20 of the faucet 4. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a liquid spraying apparatus.

  As described in Patent Document 1, as a liquid spraying device, a spray liquid tank, a pump for discharging the liquid in the spray liquid tank, and a liquid discharged by the pump to the spray side and the spray liquid tank A manual three-way cock for switching to the return side is known.

  Patent Documents 2 and 3 describe that a flow rate sensor is provided in a piping system of a liquid spraying device, and a detection result by the flow rate sensor is input to a control device to be used for managing spraying work.

JP 2005-199214 A JP-A-8-206557 JP 2004-313086 A

  By the way, the flow sensor described in Patent Document 2 is disposed between a nozzle and a three-way cock for switching the liquid discharged by the pump between the spray side and the return side to the spray liquid tank. . Further, as described in paragraph 0030, the flow sensor of Patent Document 3 is used for grasping the instantaneous flow rate at the current time point and the integrated flow rate from the start of the operation of the device to the present time. When applied to a manual cock such as that described in Document 1, as in Patent Document 2, a position where only the flow rate during actual spraying can be detected, that is, the three-way cock and nozzle Between the two.

  The present invention proposes a liquid spraying device that is different from the application of such a conventional technique, and can provide various other effects in addition to grasping the instantaneous flow rate and the integrated flow rate. It is what.

  The liquid spraying device according to the present invention is configured to switch the sprayed liquid tank, the pump for discharging the liquid in the sprayed liquid tank, and the liquid discharged by the pump between the spraying side and the return side to the sprayed liquid tank. A liquid spraying device comprising a manual cock, wherein a flow rate sensor is disposed between the pump and the cock, and detecting means for detecting whether the cock is switched to the spraying side, Control means for receiving a detection result by the flow sensor and a detection result by the detection means and performing a predetermined calculation is provided (claim 1).

  According to the present invention, when the cock is switched to the spray side, the liquid is sprayed, and when the cock is switched to the return side, the liquid spray is stopped and the liquid discharged by the pump is returned to the spray liquid tank. It is. Since the flow rate sensor is disposed between the pump and the cock, the flow rate is detected not only during actual spraying but also when returning (when spraying is stopped). Since the detection means detects whether or not the spraying side has been switched, the instantaneous flow rate and integration only during actual spraying can be performed by inputting this detection result and the detection result by the flow rate sensor to the control means. The flow rate and the remaining amount of liquid in the spray liquid tank can be ascertained.

  Further, according to the present invention, when the pump is in operation, the flow sensor always detects the flow rate during spraying or when returning (when spraying is stopped). By inputting into the means, the operating time of the pump can be easily grasped, and when a malfunction occurs in the pump, it can be grasped quickly.

Furthermore, in the present invention, since the flow rate sensor is disposed between the pump and the cock, the flow rate sensor is disposed at a downstream position on the spraying side of the three-way cock due to restrictions on piping layout or the like. There is an advantage that it can cope even when it is not possible.
As a preferred specific example of the detection means, a pressure sensor disposed on the spraying side can be cited. In this case, the pressure sensor can also have a function as a second sensor for knowing the spray width described in Japanese Patent No. 3982827 and a function for monitoring an appropriate spray pressure according to spray conditions, Is preferred.

  As a more preferred specific example of the detection means, a limit switch that opens and closes by operation of the switching operation member of the cock can be mentioned. The advantage of this embodiment is particularly remarkable in the case of a liquid spraying apparatus having a partial spraying cock.

  For example, before switching the cock to the return side, if the sprinkling operation is stopped by accidentally closing all the partial spray cocks that have been open until then, the piping on the spray side downstream from the cock Residual pressure is generated in the interior, making it impossible to determine the end of spraying by the pressure sensor. On the other hand, if the limit switch is provided, the stop of spraying can be reliably detected by the limit switch.

  As a preferable specific example of the predetermined calculation, an operation for calculating the remaining liquid amount in the spray liquid tank can be cited (claim 4). In this way, there is an advantage that the liquid level meter that has been required so far in order to grasp the residual liquid amount in the spray liquid tank can be omitted. Conventionally, as the liquid level meter, a float type, an optical type, a magnetic sensing type, an electrostatic type, a pressure type, etc. are used, and any of these liquid level meters can be adopted, Where errors due to vibration or inclination of the spray liquid tank cannot be avoided, there is no room for such errors to occur according to the present embodiment, which is preferable.

It is a systematic diagram which shows the piping system and control system of the liquid spraying apparatus which concern on 1st embodiment of this invention. It is a systematic diagram which shows the piping system and control system of the liquid spraying apparatus which concern on 2nd embodiment of this invention.

  Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

  Here, a boom sprayer for farm work will be described as an example of the liquid spraying apparatus according to an embodiment of the present invention. The boom sprayer is mounted on a traveling machine body such as an agricultural tractor or a riding management machine (not shown). And the boom which has many nozzles is extended in the left-right direction of the said traveling body, and sprays control liquid, liquid manure, etc., moving in the field by the said traveling body. The present invention can be applied not only to a boom sprayer but also to a speed sprayer as disclosed in Patent Document 2. The speed sprayer is a sprayer that sprays liquid while traveling between trees such as orchards.

  A boom sprayer 1 shown in FIGS. 1 and 2 includes a spray liquid tank 2, a pump 3 that discharges liquid in the spray liquid tank 2, a spray side A that sprays the liquid discharged by the pump 3, and the spray liquid tank. A manual cock (main cock) 4 for switching to the return side B to 3 is provided. Further, the boom sprayer 1 includes a flow rate sensor 5 disposed between the pump 3 and the main cock 4 and detection means 6 for detecting whether or not the main cock 4 is switched to the spraying side A. 7 and a control means 8 for performing a predetermined control in response to the detection result by the flow sensor 5 and the detection results by the detection means 6 and 7.

  As the detection means, a pressure sensor 6 disposed on the pipe on the spraying side A or a limit switch 7 that opens and closes by operation of a switching operation member of the main cock 4 can be used. FIG. 1 shows an example in which a pressure sensor 6 is used as the detection means, and FIG. 2 shows an example in which a limit switch 7 is used as the detection means. For the other parts, the embodiment of FIG. 1 and FIG. 2 is the same.

First, a configuration common to FIGS. 1 and 2 will be described.
1 and 2, the pump 3 has a suction port 3 a communicating with the spray liquid tank 2 through a suction line 9, and a discharge port 3 b having a liquid distributor 11 via a discharge line 10. It is communicated to. From the liquid distributor 11, a plurality of liquid supply conduits 13a, 13b, corresponding to the number of boom divisions (in the example of FIGS. 1 and 2, three of the left boom 12a, the central boom 12b, and the right boom 12c). 13c extends, and each of the liquid supply pipes 13a, 13b, and 13c communicates with a number of spray nozzles N disposed along the booms 12a, 12b, and 12c. On the liquid supply pipes 13a, 13b, and 13c, manual partial spray cocks 14a, 14b, and 14c are disposed so that spraying can be controlled for each boom.

  On the discharge line 10 from the pump 3 to the liquid distributor 11, an electric pressure regulating valve 15, the flow sensor 5, the main cock 4, and a pressure sensor 16 are sequentially arranged from the upstream side. Is arranged.

  The pressure regulating valve 15 communicates with the spray liquid tank 2 through a spill pipe 17. The pressure regulating valve 15 is opened when the spray pressure is about to exceed a set pressure regulation value, and by returning a part of the liquid to the spray liquid tank 2 through the spillage pipe 17, the spray nozzle N The back pressure is controlled to be constant. The pressure regulation value of the pressure regulating valve 15 is automatically controlled by a microcomputer constituting the control means 8 so that uniform spraying is always achieved regardless of changes in the moving speed of the boom sprayer 1 during spraying. The boom sprayer 1 is provided with a vehicle speed sensor 21 for detecting the traveling speed of the traveling machine body during the spraying operation. The detection result of the vehicle speed sensor 17 together with the detection result of the pressure sensor 16 is the control means. 8 is continuously input and used to control the pressure regulation value.

  The flow sensor 5 continuously detects the liquid flow rate between the pressure regulating valve 15 and the main cock 4. The detection result is displayed on the display panel 18 of the driver's seat of the traveling machine body as an instantaneous flow rate at that time. In the illustrated example, the display panel 18 is configured integrally with the control means 8.

  The main cock 4 is a three-way cock and communicates with the spray liquid tank 3 through a return line 19. Therefore, when the main cock 4 is switched to the spraying side A, the liquid discharged from the pump 3 is pumped toward the liquid distributor 11, and when the main cock 4 is switched to the return side B, the pump 3 The total amount of liquid to be discharged is returned to the spray liquid tank 2.

  The pressure sensor 16 detects the back pressure of the spray nozzle N. This detection result is also input to the control means 8 and displayed on the display panel 18. The pressure sensor 16 corresponds to a second sensor for knowing the spray width described in Japanese Patent No. 3982827, and also has a function of monitoring an appropriate spray pressure in accordance with spray conditions.

  1 and 2, the flow rate sensor 5 is disposed between the pump 3 and the main cock 4. For this reason, while the pump 3 is in operation, the flow sensor 5 always detects the flow rate, whether during spraying or when returning (when spraying is stopped). This detection result is input to the control means 8. As a result, the operation time of the pump 3 can be easily grasped, and when a malfunction occurs in the pump 3, it can be grasped quickly. The operation time of the pump 3 and an alarm or the like when a malfunction occurs in the pump 3 can be displayed on the display panel 18.

  In the example of FIGS. 1 and 2, the flow sensor 5 is disposed between the pump 3 and the main cock 4, so that the downstream side of the main cock 4 on the spraying side A due to restrictions on the piping layout or the like. There is an advantage that it is possible to cope with the case where the flow sensor cannot be disposed at the position.

  On the other hand, in the example of FIGS. 1 and 2, if the pump 3 is in operation, the flow sensor 5 always detects the flow rate not only during actual spraying but also when returning (spraying stop). If the detection result of the flow sensor 5 is used as it is, it is impossible to grasp the total spray amount from the work start time to the current time.

  Therefore, in the embodiment of FIGS. 1 and 2, the detection means 6 and 7 for detecting whether or not the main cock 4 is switched to the spraying side A are provided, and the detection result and the detection by the flow sensor 5 are provided. Both detection results by the means 6 and 7 are input to the control means 8, and the control means 8 performs a predetermined calculation.

  Specific examples of the predetermined calculation include calculation of the total spray amount and calculation of the tank remaining amount. That is, only when it is determined that the main cock 4 has been switched to the spraying side A by the flow path determination function of the detection means 6 and 7, the detection result of the flow sensor 5 is used to perform the control. The total spray amount is calculated in the means 8, and the detection result of the flow rate sensor 5 at other times is not used for the calculation of the total spray amount. This makes it possible to accurately grasp the total application amount. Further, the control means 8 performs an operation for calculating the remaining liquid amount in the spray liquid tank 2, that is, an operation of subtracting the total spray amount from the initial liquid amount (given) in the spray liquid tank 2. By doing so, it becomes possible to grasp the remaining amount of the tank. The calculated total spray amount and the remaining tank amount are displayed on the display panel 18.

  If the tank remaining amount is calculated as described above, a liquid level gauge that has been conventionally required for grasping the tank remaining amount can be omitted. Conventionally, as the liquid level meter, a float type, an optical type, a magnetic sensing type, an electrostatic type, a pressure type, etc. are used, and any of these liquid level meters can be adopted, Where errors due to vibration or inclination of the spray liquid tank 2 cannot be avoided, there is no room for such errors to occur according to the present embodiment, which is preferable.

  As another specific example of the predetermined calculation, the calculation of the non-pressure accumulated operation time of the pump 3 and the accumulated operation time for each working pressure, and the replacement timing of the consumable parts of the pump 3 performed using these calculation results A prediction calculation, a life prediction calculation, etc. can also be mentioned.

  Next, specific examples of the detection means 6 and 7 will be described.

  First, in the example of FIG. 1, the pressure sensor 6 with a flow path determination function is formed by adding the flow path determination function to the pressure sensor 16 disposed on the spray side A. That is, at the time of actual spraying work, a spray pressure of a predetermined value or more is detected by the pressure sensor 6 with a flow path determining function, but when spraying is stopped by switching the main cock 4 to the return side B, The value detected by the pressure sensor 6 with the flow path determining function is rapidly reduced. Therefore, the detection result of the pressure sensor 6 with a flow path determination function is continuously input to the control means 8, and whether the pressure sensor 6 with a flow path determination function has detected a pressure equal to or higher than a predetermined value is determined. In the control means 8, it is used as an index as to whether or not to perform the predetermined calculation. The control means 8 performs the predetermined calculation only when the pressure sensor 6 with a flow path determination function detects a pressure equal to or higher than a predetermined value.

  Note that the pressure sensor 16 is also used in the example of FIG. 2, but this is for performing the various functions described above, and not for use as the detection means 6.

  In the example of FIG. 2, a limit switch 7 that opens and closes by operation of a switching operation member of the main cock 4 is used as the detection means. Specifically, for example, the limit switch 7 is disposed in the vicinity of the switching operation lever 20 of the main cock 4. By operating the switching operation lever 20 to the spraying position, the switching operation lever 20 comes into contact with the switch lever of the limit switch 7 and drives it. As a result, the limit switch is turned on, and the signal is input to the control means 8. When the switching operation lever 20 is operated from the spraying position to another position, the limit switch 7 is turned off. Only when a signal indicating that the limit switch 7 is ON is input to the control means 8, the control means 8 performs the predetermined calculation.

  By the way, as shown in FIGS. 1 and 2, when the partial spray cocks 14a, 14b, 14c are provided corresponding to the booms 12a, 12b, 12c, in the example of FIG. Attention should be paid to this point.

  For example, in FIG. 1, among the three partial spray cocks 14a, 14b, and 14c, the left boom cock 14a and the central boom cock 14b are closed, and partial spray is performed only from the remaining one right boom 12c. Suppose that Here, when spraying from the right boom 12c in operation is stopped, there is no problem if the main cock 4 is immediately switched to the return side B. However, before the operation of switching the main cock 4 to the return side B, if the partial spray cock 14c that has been opened is closed and spraying is stopped, all the partial spray cocks are closed. Therefore, residual pressure is generated in the pipe on the spraying side A downstream of the main cock 4. Since this residual pressure is detected by the pressure sensor 16 (6) and input to the control means 8, if the residual pressure exceeds the predetermined value, spraying is stopped. Thus, calculation of the total spray amount and the like is performed in the control means 8. Therefore, in the case of the example in FIG. 1, it is necessary to take care to give priority to the operation of the main cock 4 when stopping partial spraying.

  The example of FIG. 2 is advantageous in that such attention is not necessary. Further, the example of FIG. 2 also has a merit in cost because it is only necessary to add an inexpensive limit switch.

DESCRIPTION OF SYMBOLS 1 Liquid spraying device 2 Spray liquid tank 3 Pump 4 Manual switching cock 6 Detection means (pressure sensor)
7 Detection means (limit switch)
8 Control means 20 Switching operation member (switching operation lever)
A Spreading side B Return side

Claims (4)

  The spray liquid tank (2), the pump (3) for discharging the liquid in the spray liquid tank (2), the liquid discharged by the pump (3) from the spray side (A) and the spray liquid tank (3 ) Is a liquid spraying device (1) having a manual cock (4) for switching to the return side (B) to the return side (B), and a flow rate sensor (5) between the pump (3) and the cock (4). ) And detecting means (6, 7) for detecting whether or not the cock (4) is switched to the spraying side (A), a detection result by the flow sensor (5), and the detecting means A liquid spraying device comprising a control means (8) for receiving a detection result of (6, 7) and performing a predetermined calculation.   The liquid spraying device according to claim 1, wherein the detection means is a pressure sensor (6) disposed on the spraying side (A).   The liquid spraying device according to claim 1, wherein the detecting means is a limit switch (7) that opens and closes by an operation of a switching operation member (20) of the cock (4).   The liquid spraying device according to claim 1, 2, or 3, wherein the predetermined calculation is a calculation for calculating a residual liquid amount in the spray liquid tank (2).

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