CN112033210B - Pipeline type unpowered rubber ball cleaning equipment - Google Patents

Abstract

The invention discloses a pipeline type unpowered rubber ball cleaning device, which comprises a condenser connecting pipe and a water pipe, and is designed into a pipeline type unpowered rubber ball cleaning device, an electric actuator is utilized to rotate a valve core of a part receiving and transmitting mechanism to enable the valve core to rotate 90 degrees to change the water inlet and outlet directions of water, when the actuator is in a 0-degree working position, a ball receiving water outlet and a ball receiving port in a valve body of the part receiving and transmitting mechanism are communicated, ball receiving work is carried out, when the actuator is in a 90-degree working position, a rubber ball outlet and a ball feeding water inlet are communicated, ball feeding work is carried out, standby is in a 45-degree working position, and when the valve body is closed for water inlet and outlet, 4 valves of the valve body can be maintained without influencing a cold machine.

Description

Pipeline type unpowered rubber ball cleaning equipment

Technical Field

The invention belongs to the related technical field of circulating water air conditioning units, and particularly relates to pipeline type unpowered rubber ball cleaning equipment.

Background

The rubber ball cleaning device is a device for cleaning a cooling pipe in the operation process of a condenser. The quality of the performance of the device determines the cleaning degree of the condenser, and then the refrigerating effect of the condenser is affected. In the prior art, most rubber ball cleaning devices adopt a manual or automatic timing mode to clean a condenser. Because the frequency and the period of the timing cleaning are set manually, the frequent cleaning condition can occur, thereby causing the waste of electric energy and shortening the service life of the rubber ball. Or may occur in a time-out condition, thereby affecting the operational efficiency of the condenser. Aiming at the defects in the prior art, the intelligent unpowered rubber ball cleaning device is needed to achieve the effects of timely cleaning a condenser and reducing energy consumption. The invention aims to provide an intelligent unpowered rubber ball cleaning device which is used for timely cleaning a condenser and reducing cleaning energy consumption.

The existing rubber ball cleaning equipment technology has the following problems: the existing unpowered rubber ball equipment in the inspected market is mostly an end cover type, pipeline through type, bypass type and other multi-type products, the end cover type is high in price and troublesome to maintain, if faults exist, the cooling machine is required to be stopped for maintenance, and various pipeline through type is also required to be stopped for maintenance.

Disclosure of Invention

The invention aims to provide pipeline type unpowered rubber ball cleaning equipment, which solves the problems that the unpowered rubber ball equipment exists in the examined market in the background technology, and is mostly an end cover type product, namely a pipeline through type product, a bypass type product and the like, the end cover type product is high in price and troublesome to maintain, and if faults exist, the pipeline through type product needs to be shut down for maintenance, and various pipeline through type products also need to be shut down for maintenance.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a pipeline type unpowered rubber ball cleaning equipment, includes condenser connecting pipe and raceway, the middle part of condenser connecting pipe is provided with receiving and dispatching mechanism valve body, the left end of condenser connecting pipe is provided with the condenser water inlet, the right-hand member of condenser connecting pipe is provided with delivery port flange, the lower extreme that the lower extreme of condenser connecting pipe is located receiving and dispatching mechanism valve body is connected with the raceway, the left end of raceway is provided with the condenser delivery port, the right-hand member of raceway is provided with the water inlet flange, receiving and dispatching mechanism valve body's upside flange joint has the rubber ball to advance the condenser pipeline, receiving and dispatching mechanism valve body's left end upside flange joint has the ball pipeline of receiving and dispatching mechanism valve body, receiving and dispatching mechanism valve body's downside is located the below flange joint of ball and advances the water pipe of receiving and dispatching mechanism valve body, receiving and dispatching mechanism valve body's right-hand member downside is located the below flange joint of ball outlet pipe, receiving and dispatching mechanism valve body's upper end flange joint has the seal cover, the upper end of seal cover is connected with receiving and dispatching mechanism spare case.

Preferably, the transceiver component valve core comprises a main shaft responsible for connecting an actuator, a receiving and sending ball inlet and outlet, a sealing groove, a rubber ball storage chamber and a valve core body, wherein the valve core body is arranged in a receiving and sending mechanism valve body, the sealing groove is uniformly arranged on the surface of the valve core body, the rubber ball storage chamber is arranged in the valve core body, the receiving and sending ball inlet and outlet are arranged at the upper end of the rubber ball storage chamber, the receiving and sending ball inlet and outlet is arranged at the lower right end of the rubber ball storage chamber, and the main shaft responsible for connecting the actuator is connected at the upper end of the valve core body.

Preferably, the receiving and dispatching mechanism valve body comprises an end cover flange, a rubber ball outlet, a valve pipe body, a ball service water inlet, a ball service water outlet and a ball service port, wherein the end cover flange is welded at the upper end of the valve pipe body, the rubber ball outlet is arranged at the upper side of the valve pipe body, the ball service water outlet is arranged below the rubber ball outlet at the lower side of the valve pipe body, the ball service port is connected at the upper side of the left end of the valve pipe body, and the ball service water inlet is connected at the lower side of the right end of the valve pipe body.

Preferably, the sealing sleeve comprises a gland, a sealing ring, a nylon guide sleeve and a sealing sleeve shell, wherein the nylon guide sleeve is arranged at the upper end of the sealing sleeve shell, the sealing ring is arranged above the nylon guide sleeve, and the gland is arranged above the sealing ring.

Preferably, the ball receiving pipeline and the ball receiving water outlet pipeline are fixedly installed with a ball receiving port and a ball receiving water outlet bolt on the valve body of the receiving and transmitting mechanism respectively and are connected with a condenser connecting pipe, the rubber ball feeding condenser pipeline and the rubber ball transmitting water inlet pipeline are fixedly installed with a rubber ball feeding outlet and a ball serving water inlet of the valve body of the receiving and transmitting mechanism respectively and are connected with a water conveying pipe, and the valve core of the transceiver component drives to work through an electric actuator.

Preferably, six seal grooves are formed in the valve body of the receiving and dispatching mechanism, the six seal grooves enable the valve core body to rotate stably in the valve body of the receiving and dispatching mechanism, the electric actuator is connected with the main shaft responsible for being connected with the actuator, when the electric actuator drives the main shaft responsible for being connected with the actuator to rotate, the valve core body is driven to rotate in the valve body of the receiving and dispatching mechanism, and the rubber ball storage chamber is rotated by the valve core body, so that the receiving and dispatching ball inlet and outlet and the receiving and dispatching ball inlet and the rubber ball outlet on the valve body of the receiving and dispatching mechanism, the service water inlet, the ball receiving water outlet and the ball receiving opening correspond.

Preferably, the valve pipe body is installed through end cover flange bolts and is connected with the sealing sleeve, the rubber ball outlet and the service water inlet are connected with the service water inlet pipeline and the ball collecting pipeline, so that the water pressure in the water pipe drives the cleaning ball into the valve pipe body from the service water inlet through the service water inlet pipeline, the cleaning ball is input into the condenser connecting pipe from the ball collecting pipeline through the rubber ball outlet, and then flows into the condenser from the condenser water inlet of the condenser connecting pipe along with the water pressure for flushing.

Preferably, the gland, the sealing ring and the nylon guide sleeve are arranged in the sealing sleeve shell and used for protecting the valve core of the cross-connected transceiver component, three sealing rings are arranged in total, and the three sealing rings are used for protecting the two nylon guide sleeves and the gland.

Compared with the prior art, the invention provides the pipeline type unpowered rubber ball cleaning equipment, which has the following beneficial effects:

the invention relates to a pipeline type unpowered rubber ball cleaning device, which is designed as a pipeline type unpowered rubber ball cleaning device, an electric actuator is utilized to rotate a valve core of a part receiving and transmitting mechanism to enable the valve core to rotate by 90 degrees so as to change the water inlet and outlet directions of water, when the actuator is in a 0-degree working position, a ball receiving water outlet and a ball receiving port in a valve body of the part receiving and transmitting mechanism are communicated, ball receiving work is performed, when the actuator is in a 90-degree working position, a rubber ball outlet and a ball serving water inlet are communicated, ball serving work is performed, standby is in a 45-degree working position, and when the valve body is closed for maintenance, the water inlet and outlet 4 valves of the valve body can be maintained without influencing a cold machine.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate and together with the embodiments of the invention and do not constitute a limitation to the invention, and in which:

FIG. 1 is a schematic diagram of a pipeline type unpowered rubber ball cleaning device;

FIG. 2 is a schematic diagram of the valve core structure of the transceiver mechanism of the pipeline type unpowered rubber ball cleaning device;

FIG. 3 is a schematic diagram of a valve body structure of a receiving and transmitting mechanism of the pipeline type unpowered rubber ball cleaning device;

fig. 4 is a schematic structural diagram of a sealing sleeve of the pipeline type unpowered rubber ball cleaning device provided by the invention;

In the figure: 1. a condenser water inlet; 2. a condenser water outlet; 3. the water outlet is connected with a flange; 4. the water inlet is connected with the flange; 5. a water inlet pipeline for sending rubber balls; 6. the rubber ball enters a condenser pipeline; 7. a ball collecting pipeline; 8. a ball receiving water outlet pipeline; 9. a receiving and transmitting mechanism valve body; 10. sealing sleeve; 11. a receiving and transmitting mechanism part valve core; 12. a condenser connecting tube; 13. a water pipe; 91. an end cap flange; 92. a rubber ball outlet; 93. a valve tube body; 94. a service water inlet; 95. a ball collecting water outlet; 96. a ball receiving port; 101. a gland; 102. a seal ring; 103. nylon guide sleeve; 104. a seal cartridge housing; 111. the main shaft is in charge of connecting the actuator; 112. receiving and transmitting ball entrance; 113. a ball receiving and sending water inlet and outlet; 114. sealing grooves; 115. a rubber ball storage chamber; 116. a valve core body.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1-4, the present invention provides a technical solution:

The pipe type unpowered rubber ball cleaning equipment comprises a condenser connecting pipe 12 and a water pipe 13, wherein the middle part of the condenser connecting pipe 12 is provided with a receiving and transmitting mechanism valve body 9, the receiving and transmitting mechanism valve body 9 comprises an end cover flange 91, a rubber ball outlet 92, a valve pipe body 93, a ball sending water inlet 94, a ball receiving water outlet 95 and a ball receiving port 96, the upper end of the valve pipe body 93 is welded with the end cover flange 91, the upper side of the valve pipe body 93 is provided with the rubber ball outlet 92, the lower side of the valve pipe body 93 is positioned below the rubber ball outlet 92 and provided with the ball receiving water outlet 95, the upper side of the left end of the valve pipe body 93 is connected with the ball receiving port 96, the lower side of the right end of the valve pipe body 93 is connected with a ball sending water inlet 94, cleaning balls are input into a condenser and output condenser through the rubber ball outlet 92, the ball sending water inlet 94, the ball receiving water outlet 95 and the ball receiving port 96 on the receiving and transmitting mechanism valve body 9, the left end of the condenser connecting pipe 12 is provided with a condenser water inlet 1, the right end of the condenser connecting pipe 12 is provided with a water outlet connecting flange 3, the lower end of the condenser connecting pipe 12 is positioned at the lower end of the receiving and transmitting mechanism valve body 9 and is connected with a water delivery pipe 13, the left end of the water delivery pipe 13 is provided with a condenser water outlet 2, the right end of the water delivery pipe 13 is provided with a water inlet connecting flange 4, the upper side flange of the receiving and transmitting mechanism valve body 9 is connected with a rubber ball inlet condenser pipeline 6, the left upper side flange of the receiving and transmitting mechanism valve body 9 is connected with a ball collecting pipeline 7, the lower side of the receiving and transmitting mechanism valve body 9 is positioned at the lower flange of the rubber ball inlet condenser pipeline 6 and is connected with a ball collecting water outlet pipeline 8, the lower flange of the right lower side of the receiving and transmitting mechanism valve body 9 is connected with a condenser connecting pipe 12, the upper end flange of the receiving and transmitting mechanism valve body 9 is connected with a sealing sleeve 10, the upper end of the sealing sleeve 10 is connected with a transceiver component valve core 11, the transceiver component valve core 11 comprises a main shaft responsible for connecting an actuator 111, a transceiver ball inlet and outlet 112, a transceiver ball inlet and outlet 113, a sealing groove 114, a rubber ball storage chamber 115 and a valve core body 116, wherein the valve core body 116 is arranged in the transceiver mechanism valve body 9, the sealing groove 114 is uniformly arranged on the surface of the valve core body 116, the rubber ball storage chamber 115 is arranged in the valve core body 116, the transceiver ball inlet and outlet 112 is arranged at the upper end of the rubber ball storage chamber 115, the transceiver ball inlet and outlet 113 is arranged at the lower right end of the rubber ball storage chamber 115, the main shaft responsible for connecting the actuator 111 is connected at the upper end of the valve core body 116, and the transceiver component valve core 11 is driven by the electric actuator to rotate the inlet and outlet of the transceiver mechanism valve body 9.

The pipeline type unpowered rubber ball cleaning equipment comprises a sealing sleeve 10, a gland 101, a sealing ring 102, a nylon guide sleeve 103 and a sealing sleeve shell 104, wherein the nylon guide sleeve 103 is arranged at the upper end of the sealing sleeve shell 104, the sealing ring 102 is arranged above the nylon guide sleeve 103, the gland 101 is arranged above the sealing ring 102, a valve core 11 of a receiving and transmitting mechanism part is protected through the sealing sleeve 10, a ball receiving pipeline 7 and a ball receiving and discharging pipeline 8 are respectively and fixedly arranged with a ball receiving port 96 and a ball receiving and discharging water outlet 95 on a valve body 9 of the receiving and transmitting mechanism through bolts, are connected with a condenser connecting pipe 12, a rubber ball inlet pipeline 6 and a rubber ball transmitting water inlet pipeline 5 are respectively and fixedly arranged with a rubber ball feeding outlet 92 and a ball delivering water inlet 94 of the valve body 9 of the receiving and transmitting mechanism, the valve core 11 of the receiving and transmitting mechanism part is driven by an electric actuator, wherein the water outlet connecting flange 3 and the water inlet connecting flange are connected with an external water delivery pipe 13, the condenser water inlet 1 and the condenser water outlet 2 are connected with the condenser, six sealing grooves 114 are arranged, the six sealing grooves 114 enable the valve core body 116 to rotate stably in the receiving and dispatching mechanism valve body 9, the electric actuator is connected with the main shaft responsible for connecting the actuator 111, when the electric actuator drives the main shaft to rotate, the valve core body 116 is driven to rotate in the receiving and dispatching mechanism valve body 9, the rubber ball storage chamber 115 is driven to rotate by the valve core body 116, the receiving and dispatching ball inlet 112 and outlet 113 are enabled to correspond to the rubber ball outlet 92, the ball service inlet 94, the ball receiving water outlet 95 and the ball receiving opening 96 on the receiving and dispatching mechanism valve body 9, when the electric actuator drives the main shaft to rotate in the receiving and dispatching mechanism valve body 9, the valve core body 116 is driven to rotate ninety degrees when the electric actuator drives the main shaft to rotate in the receiving and dispatching mechanism valve body 9, when standby is at forty-five degrees, the valve body water inlet and outlet 4 valves can be closed during maintenance, so that the cold machine is not affected.

The pipe type unpowered rubber ball cleaning equipment comprises a valve pipe body 93, wherein the valve pipe body 93 is connected and installed with a sealing sleeve 10 through an end cover flange 91 bolt, a rubber ball outlet 92 is connected with a rubber ball sending water inlet 94, a rubber ball sending water inlet pipeline 5 and a rubber ball receiving pipeline 7, so that water pressure in a water pipe 13 flushes a cleaning ball into the valve pipe body 93 from the rubber ball sending water inlet 94 through the rubber ball sending water inlet pipeline 5, the cleaning ball is input into a condenser connecting pipe 12 from the rubber ball receiving pipeline 7 through the rubber ball outlet 92, the cleaning ball flows into the condenser from a condenser water inlet 1 of the condenser connecting pipe 12 along water pressure, when an electric actuator drives a main shaft to be responsible for connecting an actuator 111 to rotate, a valve core 116 is driven to rotate by ninety degrees in a valve body 9 of a receiving mechanism, a rubber ball storage chamber 115 is driven to rotate by the valve core 116, a rubber ball receiving water outlet 95 and a rubber ball receiving inlet 96 on the valve pipe body 93, the cleaning ball flows into the condenser 12 along the condenser water outlet 2, the cleaning ball flows into the condenser connecting pipe 12 along the rubber ball receiving water inlet 6, flows into the condenser connecting pipe 103 from the rubber ball receiving water inlet 96 along the water inlet 96, flows into the sealing sleeve 103 along the water receiving water inlet 103, and is led into the sealing sleeve 102 along the sealing sleeve 101, and is correspondingly arranged between the sealing sleeve 101 and the sealing sleeve, and the sealing sleeve is used for sealing sleeve and sealing sleeve 102, and the sealing sleeve is used for sealing the sealing sleeve is protected, and the sealing sleeve is connected with the sealing sleeve and the sealing sleeve is sealed.

The working principle and the using flow of the invention are as follows: after the invention is installed, the condenser is cleaned by the pipeline type unpowered rubber ball cleaning equipment, firstly, the water outlet connecting flange 3 and the water inlet connecting flange are connected with the external water delivery pipe 13, then the water inlet 1 of the over-condenser and the water outlet 2 of the condenser are connected with the condenser, the electric actuator is utilized to rotate the valve core of the part receiving and transmitting mechanism, when the electric actuator drives the main shaft to rotate in charge of connecting the actuator 111, the valve core body 116 is driven to rotate by zero degree in the receiving and transmitting mechanism valve body 9, the rubber ball storage chamber 115 is driven to rotate by the valve core body 116, the receiving and transmitting ball inlet 112 and the receiving ball outlet 113 are correspondingly connected with the rubber ball outlet 92 and the ball service inlet 94 on the receiving and transmitting mechanism valve body 9, the water pressure in the water delivery pipe 13 is used for flushing the cleaning ball into the rubber ball storage chamber 115 in the valve core body 116 from the ball service inlet 94 through the rubber ball transmitting water inlet pipeline 5, then the cleaning ball is input into the condenser connecting pipe 12 along the ball receiving pipeline 7 and flows into the condenser from the condenser water inlet 1 of the condenser connecting pipe 12 for flushing along the water pressure, when the electric actuator driving main shaft is responsible for connecting the rotation of the actuator 111, the valve core 116 is driven to rotate ninety degrees in the interior of the valve body 9 of the transceiving mechanism, the rubber ball storage chamber 115 is rotated by the valve core 116, the ball receiving and receiving inlet 112 and the ball receiving inlet/outlet 113 are corresponding to the ball receiving water outlet 95 and the ball receiving inlet 96 on the valve body 93, the cleaning ball flows into the condenser connecting pipe 12 along the water pressure from the condenser water outlet 2, the cleaning ball flows into the ball receiving storage chamber 115 which is attached to the ball receiving inlet 96 along the ball receiving inlet/outlet 113 and corresponds to the ball receiving inlet 96 along the ball receiving inlet/outlet 113, when the electric actuator drives the main shaft to rotate in charge of connecting the actuator 111, the valve core 116 is driven to rotate in the transceiving mechanism valve body 9 to standby at forty-five degrees, 4 valves of the valve body inlet and outlet are closed during maintenance, so that the cold machine can not be influenced, the transceiver component valve core 11 is sealed and protected through the sealing sleeve 10 during operation, the sealing sleeve shell 104 is connected with the valve pipe body 93 through the end cover flange 91, and the gland 101, the sealing ring 102 and the nylon guide sleeve 103 are arranged in the sealing sleeve shell 104 and used for protecting by penetrating through the transceiving mechanism component valve core 11.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. Pipeline type unpowered rubber ball cleaning equipment comprises a condenser connecting pipe (12) and a water conveying pipe (13), and is characterized in that: the middle part of the condenser connecting pipe (12) is provided with a receiving and dispatching mechanism valve body (9), the left end of the condenser connecting pipe (12) is provided with a condenser water inlet (1), the right end of the condenser connecting pipe (12) is provided with a water outlet connecting flange (3), the lower end of the condenser connecting pipe (12) is connected with a water delivery pipe (13) at the lower end of the receiving and dispatching mechanism valve body (9), the left end of the water delivery pipe (13) is provided with a condenser water outlet (2), the right end of the water delivery pipe (13) is provided with a water inlet connecting flange (4), the upper side flange of the receiving and dispatching mechanism valve body (9) is connected with a rubber ball inlet condenser pipeline (6), the upper side flange of the left end of the receiving and dispatching mechanism valve body (9) is connected with a rubber ball receiving and dispatching pipeline (7), the lower side of the receiving and dispatching mechanism valve body (9) is connected with a water outlet pipeline (8), the lower side flange of the right end of the receiving and dispatching mechanism valve body (9) is connected with a sealing sleeve (12) of the receiving and dispatching mechanism (10); the receiving and dispatching mechanism part valve core (11) comprises a main shaft responsible for connecting an actuator (111), a receiving and dispatching ball inlet and outlet (112), a receiving and dispatching ball inlet and outlet (113), a sealing groove (114), a rubber ball storage chamber (115) and a valve core body (116), wherein the valve core body (116) is arranged in a receiving and dispatching mechanism valve body (9), the sealing groove (114) is uniformly arranged on the surface of the valve core body (116), the rubber ball storage chamber (115) is arranged in the valve core body (116), the receiving and dispatching ball inlet and outlet (112) is arranged at the upper end of the rubber ball storage chamber (115), the receiving and dispatching ball inlet and outlet (113) is arranged at the lower right end of the rubber ball storage chamber (115), and the upper end of the valve core body (116) is connected with the main shaft responsible for connecting the actuator (111); the receiving and dispatching mechanism valve body (9) comprises an end cover flange (91), a rubber ball outlet (92), a valve pipe body (93), a ball delivery inlet (94), a ball delivery outlet (95) and a ball delivery port (96), wherein the end cover flange (91) is welded at the upper end of the valve pipe body (93), the rubber ball outlet (92) is arranged at the upper side of the valve pipe body (93), the ball delivery outlet (95) is arranged below the rubber ball outlet (92) at the lower side of the valve pipe body (93), the ball delivery port (96) is connected at the upper side of the left end of the valve pipe body (93), and the ball delivery inlet (94) is connected at the lower side of the right end of the valve pipe body (93); the sealing sleeve (10) comprises a gland (101), a sealing ring (102), a nylon guide sleeve (103) and a sealing sleeve shell (104), wherein the nylon guide sleeve (103) is arranged at the upper end of the sealing sleeve shell (104), the sealing ring (102) is arranged above the nylon guide sleeve (103), and the gland (101) is arranged above the sealing ring (102); the ball receiving pipeline (7) and the ball receiving water outlet pipeline (8) are fixedly installed with a ball receiving port (96) and a ball receiving water outlet (95) on the receiving and sending mechanism valve body (9) through bolts respectively and are connected with the condenser connecting pipe (12), the rubber ball feeding condenser pipeline (6) and the rubber ball sending water inlet pipeline (5) are fixedly installed with a rubber ball feeding outlet (92) and a ball sending water inlet (94) of the receiving and sending mechanism valve body (9) respectively and are connected with the water delivery pipe (13), and the valve core (11) of the receiving and sending mechanism part drives to work through an electric actuator; six seal grooves (114) are formed in total, the six seal grooves (114) enable valve core bodies (116) to rotate stably in a receiving and sending mechanism valve body (9), an electric actuator is connected with a main shaft responsible connection actuator (111), when the electric actuator drives the main shaft responsible connection actuator (111) to rotate, the valve core bodies (116) are driven to rotate in the receiving and sending mechanism valve body (9), and a rubber ball storage chamber (115) is driven to rotate by the valve core bodies (116), so that a receiving and sending ball inlet (112) and a receiving and sending ball inlet (113) correspond to a rubber ball outlet (92), a ball sending water inlet (94), a ball receiving water outlet (95) and a ball receiving opening (96) on the receiving and sending mechanism valve body (9); the valve body (93) is connected with the sealing sleeve (10) through an end cover flange (91) bolt, the rubber ball outlet (92) is connected with the service ball water inlet (94) and the service ball water inlet pipeline (5) and the service ball receiving pipeline (7), so that the water pressure in the water conveying pipeline (13) flushes the cleaning ball into the valve body (93) from the service ball water inlet (94) through the service ball water inlet pipeline (5), and then the cleaning ball is input into the condenser connecting pipe (12) from the service ball pipeline (7) through the rubber ball outlet (92), and flows into the condenser from the condenser water inlet (1) of the condenser connecting pipe (12) to flush along the water pressure.

2. The pipe-in-pipe unpowered rubber ball cleaning device as in claim 1, wherein: gland (101), sealing washer (102) and nylon uide bushing (103) are installed in the inside of seal cover shell (104), and are used for cross-under receiving mechanism spare case (11) to protect, sealing washer (102) are provided with three altogether, and three sealing washer (102) protect two nylon uide bushing (103) and gland (101).