CN210440800U - Horizontal type water separator for simultaneously serving and collecting balls - Google Patents

Abstract

The utility model provides a horizontal ball receiving and collecting water separator while serving, which comprises an outer barrel, wherein the side wall of the outer barrel is provided with a ball receiving port, a water outlet, a ball serving port and a water inlet; the water inlet and the water outlet are connected with a water inlet and outlet control valve, the water inlet and outlet control valve comprises an inner barrel which is placed in an outer barrel, a partition plate which is used for dividing the inner cavity of the inner barrel into a first inner cavity and a second inner cavity which are mutually independent is arranged in the inner barrel, two first through holes which respectively correspond to the ball collecting port and the water outlet are arranged on the side wall of the inner barrel of the first inner cavity, and a ball water separation filter screen is arranged in the first inner cavity; and two second openings which correspond to the ball outlet and the water inlet respectively are arranged on the side wall of the inner barrel of the second inner cavity, and a ball-water separation filter screen is arranged in the second inner cavity. Compared with the prior art, the water separator for sending and receiving the balls while achieving synchronous sending and receiving of the balls avoids the situation that the cleaning balls are retained on the ball collecting net of the ball catcher, effectively improves the ball receiving rate, is simple and reliable in structure, low in processing difficulty and suitable for various cleaning machines to clean.

Description

Horizontal type water separator for simultaneously serving and collecting balls

Technical Field

The utility model relates to a rubber ball washs the field, especially a horizontal limit is sent out limit and is received ball water separator.

Background

When cleaning air conditioning unit or condenser unit, adopt the rubber ball to wash usually, and the rubber ball need receive the ball and serve the ball when wasing, need adopt ball water separator to make rubber ball and separation of water again receiving and dispatching the ball in-process, cyclic utilization rubber ball washs like this. At present, common ball water separators in the market are firstly sent and then received, the ball water separators which are sent and then received are used for recovering rubber balls after all the rubber balls are sent, the rubber balls are easy to be retained on a ball collecting net of a ball catcher, and the ball collecting rate is not high.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the utility model provides a horizontal limit is sent out and is received ball water separator can realize limit is sent out the ball and is received the ball, effectively improves and receive the ball rate to power is extremely low, and simple structure is reliable, and the processing degree of difficulty is low, is applicable to end cover formula cleaning machine, two return stroke pipeline formula cleaning machines, single return stroke pipeline formula cleaning machine.

The utility model adopts the technical proposal that:

a horizontal ball collecting and separating device capable of sending balls while sending balls is characterized by comprising an outer barrel, wherein a ball collecting opening and a water outlet are formed in one side wall of the outer barrel, and a ball sending opening and a water inlet are formed in the other side wall of the outer barrel; the water inlet and the water outlet are both connected with a water inlet and outlet control valve for controlling the on-off of the water inlet and the water outlet, the business turn over water control valve is including putting into the inner tube in the urceolus, be equipped with the baffle that is used for dividing into the inner chamber of inner tube mutually independent first inner chamber and second inner chamber in the inner tube, be equipped with two first openings that correspond with receipts ball mouth and delivery port respectively on the inner tube lateral wall of first inner chamber, be equipped with the ball water separation filter screen that is used for preventing the first opening that the glueballs got into and correspond with the delivery port in the first inner chamber, be equipped with two second openings that correspond with send out ball mouth and water inlet respectively on the inner tube lateral wall of second inner chamber, be equipped with the ball water separation filter screen that is used for preventing the glueballs to get into the second opening that corresponds with the water inlet in the second inner chamber, the inner tube still is connected with and is used for driving the inner tube internal rotation to make two first openings and send out ball mouth and.

Preferably, the outer cylinder and the inner cylinder are coaxial, and two ends of the outer cylinder are embedded into sliding bearings to form revolute pairs with two ends of the inner cylinder; a gap is reserved between the inner wall of the outer barrel and the outer wall of the inner barrel, a connecting ring is embedded into the ball collecting port, the water outlet, the ball distributing port and the water inlet of the outer barrel, one end of the connecting ring is a plane, one end of the connecting ring is a saddle port surface, the saddle port surface is tightly attached to the outer surface of the inner barrel, and the ball collecting port, the water outlet, the ball distributing port and the water inlet of the outer barrel are communicated with four ports on the inner barrel respectively through the.

More preferably, the periphery of the saddle opening is provided with a sealing ring, and the sealing ring is tightly attached to the inner wall of the outer cylinder, so that the leakage amount is controlled to be extremely small.

Preferably, the axes of the ball collecting port and the water outlet on one side wall of the outer cylinder are on the same radial plane of the outer cylinder; the axes of the two first through holes on the side wall of the inner cylinder of the first inner cavity are positioned on the same radial surface of the inner cylinder; the axes of the ball-sending port and the water inlet on the other side wall of the outer cylinder are positioned on the same radial plane of the outer cylinder; the axes of the two second ports on the side wall of the inner cylinder of the second inner cavity are positioned on the same radial surface of the inner cylinder.

Preferably, the axes of the water outlet and the water inlet are in the same straight line; the axes of a first port and a second port are in the same straight line; the axes of the ball serving port and the ball receiving port are positioned on the same straight line; the axes of the other first through hole and the other second through hole are on the same straight line.

Preferably, the outer cylinder is horizontally arranged or has an included angle of less than or equal to 90 degrees with the horizontal plane.

Preferably, the partition plate is fixedly arranged in the inner barrel.

Preferably, a sight glass opening is formed at one end of the outer barrel, a sight glass is arranged in the sight glass opening, and a sealing strip used for being attached to the sight glass is arranged at one end of the partition board close to the sight glass opening.

Preferably, the rotary driver is an electric actuator, a pneumatic actuator or a hydraulic actuator.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model provides a horizontal ball receiving-while-serving water separator, when receiving balls, rubber balls and water flow enter a first inner cavity from a ball receiving port, and the water flow flows out from a water outlet; when serving, rivers flow into the second inner chamber from the water inlet, drive the glueballs and flow out from the service mouth, and first inner chamber and second inner chamber are independent each other, can realize serving the ball while receiving the ball, effectively improve and receive the ball rate to power is extremely low, and simple structure is reliable, and the processing degree of difficulty is low, is applicable to end cover formula cleaning machine, two return stroke pipeline formula cleaning machines, single return stroke pipeline formula cleaning machine in order to wash.

Drawings

Fig. 1 is a first schematic view of a horizontal ball collecting-while-launching water separator provided by the present invention;

fig. 2 is a schematic view of a horizontal ball collecting-while-launching water separator provided by the present invention;

fig. 3 is a sectional view of a horizontal ball collecting-while-launching water separator provided by the present invention;

FIG. 4 is a schematic view of an inner cylinder of the horizontal type ball collecting and launching water separator provided by the present invention;

fig. 5 is a schematic view of a connecting ring in a horizontal type ball receiving-while-launching water separator provided by the present invention;

fig. 6 is a schematic view of a sealing ring in the horizontal type ball receiving-while-launching water separator provided by the present invention;

fig. 7 is a schematic view of a sealing strip in the horizontal type edge-serving ball-collecting water separator provided by the present invention;

fig. 8 is a schematic view of the horizontal type ball-collecting-while-launching water separator applied to the end cap type cleaning machine provided by the present invention;

fig. 9 is a schematic view of the application of the horizontal type ball collecting-while-launching water separator provided by the present invention to a double-return-stroke pipeline type cleaning machine;

fig. 10 is a schematic view of the horizontal type side-serving ball-collecting water separator applied to a single-return-stroke pipeline type cleaning machine according to the present invention.

Detailed Description

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

The horizontal type ball receiving and discharging water separator comprises an outer cylinder 10, a ball receiving port 11 and a water outlet 12 are formed in one side wall of the outer cylinder 10, a ball discharging port 13 and a water inlet 14 are formed in the other side wall of the outer cylinder, the water inlet and the water outlet are both connected with a water inlet and outlet control valve 20 for controlling the on-off of the water inlet and the water outlet, the water inlet and outlet control valve 20 comprises an inner cylinder 21 arranged in the outer cylinder, a partition plate 22 for dividing an inner cavity of the inner cylinder into a first inner cavity 2101 and a second inner cavity which are independent from each other is arranged in the inner cylinder 21, two first through ports 211 corresponding to the ball receiving port and the water outlet are arranged on the inner cylinder side wall of the first inner cavity, a ball water separation filter screen 213 for preventing a glue ball from entering a first inner cavity corresponding to the water outlet is arranged in the first inner cavity, two second through ports 212 corresponding to the ball discharging port and the water inlet and the water outlet are arranged in the inner cylinder, a second through port 213 for preventing the glue ball from entering a second ball receiving port corresponding to the ball receiving port 213, and the inner cylinder 23, when the glue ball receiving port 13 and the glue ball discharging port 23 are driven by a PLC, the inner cylinder 13, the inner cylinder 21, the inner cylinder 23, the inner cylinder can be driven by a water outlet, the inner cylinder 13, the inner cylinder 13, the inner cylinder can be driven by the inner cylinder, the PLC, the inner cylinder can be driven by the inner cylinder, the inner cylinder can be driven by the inner cylinder, the PLC, the.

The outer cylinder 10 and the inner cylinder 21 are coaxial, and sliding bearings 15 are embedded in two ends of the outer cylinder 10 to form revolute pairs with two ends of the inner cylinder, so that the inner cylinder 21 can be conveniently driven by the inner cylinder driver 23 to slide in the outer cylinder 10.

As shown in fig. 6 and 7, in order to make the inner cylinder 21 rotate smoothly in the outer cylinder 10, a gap is left between the inner wall of the outer cylinder and the outer wall of the inner cylinder, the ball receiving port 11, the water outlet 12, the ball serving port 13 and the water inlet 14 of the outer cylinder 10 are all embedded with the connecting ring 16, one end of the connecting ring 16 is a plane, the other end is a saddle port surface, the saddle port surface is tightly attached to the outer surface of the inner cylinder, and the ball receiving port, the water outlet, the ball serving port and the water inlet on the outer cylinder are respectively communicated with four through ports on the inner cylinder through the connecting ring, so that the rotation of the inner cylinder 21 is not influenced, a sealing effect can be achieved, liquid is prevented from flowing. The periphery of the saddle opening is provided with a sealing ring 17, the sealing ring 17 is tightly attached to the inner wall of the outer cylinder, the leakage amount is controlled to be less, and the first inner cavity 2101 and the second inner cavity 2102 are prevented from water leakage. The materials of the connecting ring 16, the sealing ring 17 and the sliding bearing are not limited, and ultra-high molecular weight polyethylene or nylon is preferably adopted.

The partition 22 in the inner cylinder 20 can be arranged in the inner cylinder in a fixed manner, for example welded, or in a movable manner, for example plugged and snapped in. The partition 22 can divide the interior of the inner barrel 20 into a first interior 2101 and a second interior 2102.

For convenience in processing and manufacturing, the axes of the ball-collecting opening 11 and the water outlet 12 on one side wall of the outer cylinder 10 are on the same radial plane of the outer cylinder 10; the axes of the ball-sending port 13 and the water inlet 14 on the other side wall of the outer cylinder 10 are on the same radial plane of the outer cylinder; namely, the ball receiving port 11 and the water outlet 12 are arranged on one radial plane in a layered manner, and the ball serving port 13 and the water inlet 14 are arranged on the other plane in a layered manner; correspondingly, the axes of the two first ports 211 on the inner cylinder side wall of the first inner cavity 2101 are on the same radial plane of the inner cylinder 20; the axes of the two second openings 212 in the inner cylinder side wall of the second inner chamber 2102 are located on the same radial plane of the inner cylinder 20, i.e. the two first openings 211 are arranged in layers on one radial plane and the two second openings 212 are arranged in layers on the other radial plane.

As a best preferred embodiment, as shown in fig. 3 and 4, the axes of the water outlet 12 and the water inlet 14 are in the same straight line, and the water outlet 12 and the water inlet 14 are symmetrically arranged; the axes of a first port 211 and a second port 212 are in the same straight line; the axes of the ball serving port 13 and the ball receiving port 11 are positioned on the same straight line, and the ball serving port 13 and the ball receiving port 11 are symmetrically arranged; the axes of the other first through hole 211 and the other second through hole 212 are on the same straight line, that is, the axes of the four holes on the outer cylinder 10 are on the same radial plane, the holes on the two side walls of the outer cylinder 10 are symmetrically arranged, and the axes of the four holes on the inner cylinder 21 are also on the same radial plane, and the first through holes 211 and the second through holes 212 on the two side walls of the inner cylinder are symmetrically arranged, so that the two first through holes 211 respectively correspond to the ball receiving hole 11 and the water outlet 12, and the two second through holes 212 respectively correspond to the ball serving hole 13 and the water inlet 14, and can perform ball receiving and serving actions; when the inner cylinder rotary driver 23 drives the inner cylinder 21 to rotate by 90 degrees, the four through holes on the outer cylinder 10 do not correspond to the four through holes on the inner cylinder 21, when the inner cylinder rotary driver 23 drives the inner cylinder 21 to rotate by 180 degrees, the two first through holes 211 respectively correspond to the ball sending port 13 and the water inlet 14, the two second through holes 212 respectively correspond to the ball receiving port 11 and the water outlet 12, and ball receiving and sending actions can be continuously and simultaneously carried out. In addition, as a preferred embodiment, the diameters of the four openings of the outer cylinder 10 are the same as the diameters of the four openings of the inner cylinder 21.

In order to observe the ball receiving and serving states and add or take out the rubber ball conveniently, a sight glass opening 18 is formed at one end of the outer cylinder 10, and a sight glass is arranged in the sight glass opening; the inner tube 10 one end is sealed, and the other end is opened, opens one end and 18 intercommunications of sight glass mouth, conveniently adds the ball and gets the ball, leans on near sight glass mouth's baffle one end to be equipped with and is used for the laminating sealing strip 19 on the sight glass to prevent the phenomenon that liquid seepage appears in the inner tube rotation in-process.

The horizontal ball-water separator can be applied to the end cap type cleaning machine 100, as shown in fig. 8; it may also be used in a double-pass line washer 200, as shown in FIG. 9; it may also be used in a single-pass ducted washer 300, as shown in fig. 10, to clean a condenser, evaporator or air conditioning unit.

The concrete working process of the horizontal type ball water separator while serving is as follows: the inner cylinder rotary driver 23 drives the inner cylinder 21 to rotate, when the inner cylinder 21 is at 0 degree, two first through holes 212 on the inner cylinder 21 correspond to the ball serving port 13 and the water inlet 14, and two second through holes 212 correspond to the ball receiving port 11 and the water outlet 12; the ball serving and the ball receiving are carried out simultaneously, water flows into the second inner cavity 2102 from the water inlet 14 and the second through hole 212, and the rubber balls are driven to flow out from the second through hole 212 and the ball serving port 12; the rubber ball and the water flow enter the first inner cavity 2101 from the ball collecting port 11 and the first port 211, the rubber ball stays in the first inner cavity 2101, and the water flow flows out from the first port 211 and the water outlet 12; after the ball collection and the ball serving are finished, the inner cylinder rotary driver 23 drives the inner cylinder 21 to rotate, the inner cylinder 21 rotates for 90 degrees, the four through holes in the inner cylinder 21 do not correspond to the four through holes in the outer cylinder 10, and the sight glass opening can be opened to add the rubber balls; when the inner cylinder rotary driver drives the inner cylinder 21 to rotate 180 degrees, two first through openings 211 in the inner cylinder 21 correspond to the ball serving opening 13 and the water inlet 14 respectively, and two second through openings 212 correspond to the ball receiving opening 11 and the water outlet 12 respectively, namely, the first inner cavity 2101 and the second inner cavity 2102 in the inner cylinder 21 exchange positions, and the rubber ball staying during the original ball receiving process is taken as the rubber ball during the next ball serving process, so that the next ball receiving and ball serving are facilitated.

To sum up, the technical scheme of the utility model can be fully effectual the above-mentioned utility model purpose of realization, just the utility model discloses a structure and functional principle all obtain abundant verification in the embodiment, can reach anticipated efficiency and purpose, do not deviating from the utility model discloses a under the prerequisite of principle and essence, can make multiple change or modification to the embodiment of utility model. Therefore, the present invention includes all the alternative contents within the scope mentioned in the claims, and all the equivalent changes made within the claims of the present invention are included in the claims of the present application.

Claims (9)

1. A horizontal ball collecting and separating device capable of sending balls while sending balls is characterized by comprising an outer barrel, wherein a ball collecting opening and a water outlet are formed in one side wall of the outer barrel, and a ball sending opening and a water inlet are formed in the other side wall of the outer barrel; the water inlet and the water outlet are both connected with a water inlet and outlet control valve for controlling the on-off of the water inlet and the water outlet, the business turn over water control valve is including putting into the inner tube in the urceolus, be equipped with the baffle that is used for divideing into the inner chamber of inner tube mutually independent first inner chamber and second inner chamber in the inner tube, be equipped with two first openings that correspond with receipts ball mouth and delivery port respectively on the inner tube lateral wall of first inner chamber, be equipped with the ball water separation filter screen that is used for preventing the first opening that the glueballs got into and corresponds with the delivery port in the first inner chamber, be equipped with two second openings that correspond with send out ball mouth and water inlet respectively on the inner tube lateral wall of second inner chamber, be equipped with the ball water separation filter screen that is used for preventing the glueballs to get into the second opening that corresponds with the water inlet in the second inner chamber, the inner tube still is connected with and is used for driving the inner tube internal rotation to make two first openings and send out ball mouth and.

2. The horizontal ball water separator of claim 1, wherein: the outer cylinder and the inner cylinder are coaxial, and two ends of the outer cylinder are embedded into sliding bearings to form revolute pairs with two ends of the inner cylinder; a gap is reserved between the inner wall of the outer barrel and the outer wall of the inner barrel, a connecting ring is embedded into the ball collecting port, the water outlet, the ball distributing port and the water inlet of the outer barrel, one end of the connecting ring is a plane, one end of the connecting ring is a saddle port surface, the saddle port surface is tightly attached to the outer surface of the inner barrel, and the ball collecting port, the water outlet, the ball distributing port and the water inlet of the outer barrel are communicated with four ports on the inner barrel respectively through the.

3. The horizontal ball water separator of claim 2, wherein: and a sealing ring is arranged on the periphery of the saddle opening and is tightly attached to the inner wall of the outer barrel.

4. The horizontal ball water separator of claim 1, wherein: the axes of the ball collecting port and the water outlet on one side wall of the outer cylinder are positioned on the same radial plane of the outer cylinder; the axes of the two first through holes on the side wall of the inner cylinder of the first inner cavity are positioned on the same radial surface of the inner cylinder; the axes of the ball-sending port and the water inlet on the other side wall of the outer cylinder are positioned on the same radial plane of the outer cylinder; the axes of the two second ports on the side wall of the inner cylinder of the second inner cavity are positioned on the same radial surface of the inner cylinder.

5. The horizontal ball water separator of claim 1, wherein: the axes of the water outlet and the water inlet are positioned on the same straight line; the axes of a first port and a second port are in the same straight line; the axes of the ball serving port and the ball receiving port are positioned on the same straight line; the axes of the other first through hole and the other second through hole are on the same straight line.

6. The horizontal ball water separator of claim 1, wherein: the outer cylinder is horizontally arranged or has an included angle less than or equal to 90 degrees with the horizontal plane.

7. The horizontal ball water separator of claim 1, wherein: the partition board is fixedly arranged in the inner cylinder.

8. The horizontal ball water separator of claim 1, wherein: one end of the outer barrel forms a sight glass opening, a sight glass is arranged in the sight glass opening, and a sealing strip used for being attached to the sight glass is arranged at one end of the partition board close to the sight glass opening.

9. The horizontal ball water separator of claim 1, wherein: the rotary driver is an electric actuator, a pneumatic actuator or a hydraulic actuator.

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