A float switch, including a junction box, a switch, a guide rod, a float, a link mechanism, and a seal assembly. The switch is disposed in the junction box. The junction box is tightly coupled to the link mechanism. The float is flexibly disposed on the guide rod. The link mechanism includes a sealing member, a cylindrical pin, a connecting rod, a support, and a shift fork; one end of the link mechanism is connected to the switch via the shift fork, and the other end of the link mechanism is connected to the guide rod. The support includes a first through hole and a second through hole which are perpendicular to one another. The connecting rod includes a through hole corresponding to the second through hole of the support. The connecting rod runs through the first through hole of the support.

A float switch, including a junction box, a switch, a guide rod, a float, a link mechanism, and a seal assembly. The switch is disposed in the junction box. The junction box is tightly coupled to the link mechanism. The float is flexibly disposed on the guide rod. The link mechanism includes a sealing member, a cylindrical pin, a connecting rod, a support, and a shift fork; one end of the link mechanism is connected to the switch via the shift fork, and the other end of the link mechanism is connected to the guide rod. The support includes a first through hole and a second through hole which are perpendicular to one another. The connecting rod includes a through hole corresponding to the second through hole of the support. The connecting rod runs through the first through hole of the support.

A flow or level switch comprises a sensor/switch assembly which is adapted for mounting in connection with either a fitting having an offset defining a channel to detect fluid flow through an orifice into the channel or a tank having a ball float to detect the level of the ball float in the tank. A switch module comprises a control rod which reciprocates and activates a switch unit having a bi-positionable contact member. A follower, which may be in the form of an axle with an angularly fixed projection, engages the control rod to cause the contact member to move.

A flow or level switch comprises a sensor/switch assembly which is adapted for mounting in connection with either a fitting having an offset defining a channel to detect fluid flow through an orifice into the channel or a tank having a ball float to detect the level of the ball float in the tank. A switch module comprises a control rod which reciprocates and activates a switch unit having a bi-positionable contact member. A follower, which may be in the form of an axle with an angularly fixed projection, engages the control rod to cause the contact member to move.

A circulating bath (10) including a heater (18) configured to heat a fluid (34) in a reservoir (22). The heater (18) is configured to be operatively connected to a source of power (50) by a control circuit (39) operatively coupled to the heater (18). First and second fluid level sensors (14) (16) are operatively coupled to the control circuit (39), and provide signals indicative of a low fluid condition in the reservoir (22). The control circuit (39) is configured to receive the signals from the fluid level sensors (14) (16), and disconnect the heater (18) from the source of power (50) in response to receiving a signal from either of the first and second fluid level sensors (14), (16) indicative of a low fluid condition.

A circulating bath (10) including a heater (18) configured to heat a fluid (34) in a reservoir (22). The heater (18) is configured to be operatively connected to a source of power (50) by a control circuit (39) operatively coupled to the heater (18). First and second fluid level sensors (14) (16) are operatively coupled to the control circuit (39), and provide signals indicative of a low fluid condition in the reservoir (22). The control circuit (39) is configured to receive the signals from the fluid level sensors (14) (16), and disconnect the heater (18) from the source of power (50) in response to receiving a signal from either of the first and second fluid level sensors (14), (16) indicative of a low fluid condition.

A multi-probe sender may include a multi-probe having a reed switch arrangement in which reed switches form a level-sensitivity obtaining interval at which a value overlap is prevented in consideration of a resistance-value tolerance range, and having a probe layout forming an intersection interval at which value interference is prevented in consideration of an interval overlap of the reed switches.

An apparatus configured to dispense a cleaner composition includes an apparatus outlet in fluid communication with an exterior of the apparatus, a dispenser device configured to be operated to selectively dispense an amount of the cleaning composition through the apparatus outlet, and a controller configured to operate the dispenser device to cause the amount of the cleaning composition to be dispensed through the apparatus outlet without manual intervention. The apparatus is configured to be electrically connected with a float switch concurrently with dispensing the cleaning composition, and the apparatus is configured to cause at least a portion of an air conditioning system to shut down in response to receiving a signal generated by the float switch.

Adjustable add-on apparatuses for switches and associated methods are provided. In some embodiments, a float can actuate a first arm of the apparatus in response to a fluid level. The first arm can then actuate a second arm of the apparatus and, in turn, the second arm can open or close a switch, such as a micro switch. In some embodiments, the switch can be opened or closed through a lever and plunger assembly. Further, in some embodiments, apparatus can include a biasing means to bias the second arm into a first or second position without allowing it to rest in between the positions. Such apparatuses can include a micro switch or be retrofit to one. Methods of opening and closing a micro switch are also provided.

Adjustable add-on apparatuses for switches and associated methods are provided. In some embodiments, a float can actuate a first arm of the apparatus in response to a fluid level. The first arm can then actuate a second arm of the apparatus and, in turn, the second arm can open or close a switch, such as a micro switch. In some embodiments, the switch can be opened or closed through a lever and plunger assembly. Further, in some embodiments, apparatus can include a biasing means to bias the second arm into a first or second position without allowing it to rest in between the positions. Such apparatuses can include a micro switch or be retrofit to one. Methods of opening and closing a micro switch are also provided.