CN110185886B

CN110185886B - Bidirectional automatic ball receiving and sending device

Info

Publication number: CN110185886B
Application number: CN201910316412.9A
Authority: CN
Inventors: 庞威
Original assignee: Qiansheng Fluid Technology Wenzhou Co ltd
Current assignee: Qinfeng Technology Anhui Co ltd
Priority date: 2019-04-19
Filing date: 2019-04-19
Publication date: 2021-02-05
Anticipated expiration: 2039-04-19
Also published as: CN110185886A

Abstract

The invention discloses a bidirectional automatic ball receiving and sending device, which comprises a ball sending port, a connector, a small push ball, a second angle iron bracket and an adjusting bracket, wherein a first pneumatic ball valve positioned at the top end of a residual liquid tank is opened before use, the small push ball pushes all residual liquid or sediments in an internal connecting pipe into the residual liquid tank under the pushing of compressed gas, after the pushing is finished, the small push ball enters the internal connecting pipe at the tail end, the compressed gas in a pipeline is discharged through the residual liquid tanks at the two ends, the connector can be separated from the internal connecting pipe at the left end, the small push ball is taken out or is not opened after the ball sending port is opened, the push ball can automatically return to a ball inlet at the head end after the residual liquid or sediments in the pipeline are processed, in the whole ball pushing process, the path of the push ball passes through an external touch screen can be displayed, and the device can clean the residual liquid or sediments in the internal connecting pipe, the slurry loss is reduced, and the time for conveying the fluid, the time for cleaning the pipeline and the workload are reduced.

Description

Bidirectional automatic ball receiving and sending device

Technical Field

The invention relates to the field of ball receiving and sending devices, in particular to a bidirectional automatic ball receiving and sending device.

Background

Lithium electricity, pharmacy, biology, trades such as food, generally use conveying line to put different jars with thick liquids conveying, the jar is in transportation process, thick liquids deposit the part or can remain at the inboard liquid of pipe in conveying line, ordinary conveying line backward flow leaves the residue, the thick liquids loss has been increased in the use that leads to, and the time of fluid transport has been pressurized, the time and the work load of clearance pipeline, general receiving and dispatching ball device mounted position height is all inequality, external pneumatic valve needs external angle bar support length can not be adjusted in the use, it is poor to lead to external angle bar support suitability.

Disclosure of Invention

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides a bidirectional automatic ball receiving and sending device.

The invention is realized in such a way that a bidirectional automatic ball receiving and sending device is constructed, the device comprises a ball sending port, a connector, a small push ball, a first pneumatic ball valve, a second pneumatic ball valve, a main pump pipe tee joint, a quick-assembly diaphragm type pressure gauge, a net barrel type handle, a diaphragm type pressure sensor, a heavy type hoop component, an angle iron bracket, a second angle iron bracket and an adjusting bracket, the ball sending port is arranged on the outer side of the left end of the connector, the inner side of the left end of the connector is connected with the small push ball in a sliding way, the second pneumatic ball valve is arranged on the outer side of the right end of the connector, the left end of the connector is provided with a connecting pipe, the connecting part of the connecting pipe and the connector is fixedly connected through the heavy type hoop component, the connecting pipe in the middle of the left end of the connector is fixedly connected with the main pump pipe tee joint through the heavy type hoop component, the diaphragm type pressure gauge is arranged, the left end of a tee joint of the main pipe of the pump is fixedly connected with a first pneumatic ball valve through a heavy hoop component, the left end face of the first pneumatic ball valve is in bolted connection with a diaphragm type pressure sensor through the heavy hoop component, the outer side of a connecting pipe arranged in the connector is in bolted connection with an angle iron support, the outer side of the bottom end of the diaphragm type pressure sensor is provided with the connecting pipe, the outer side face of the connecting pipe is in bolted connection with a second angle iron support, the outer side of the connector is provided with an adjusting frame which comprises an upper clamping block, a lower clamping block, a fixing bolt, a screw rod, an adjusting disc, a supporting metal plate and a bottom frame, the front end and the rear end of the upper clamping block and the rear end of the lower clamping block are respectively provided with through holes, the through holes at the bottom end of the upper clamping block are fixedly connected with the lower clamping block through the fixing bolt, the middle part of the bottom end face of, the bottom end face of the adjusting plate penetrates through the inner side face of the supporting metal plate by 3cm, the inner side face of the supporting metal plate is cylindrical, a cushion block is arranged at the top end of the supporting metal plate, the top end of the supporting metal plate is connected with the cushion block through a bolt, the bottom end face of the supporting metal plate is welded with the bottom frame, and the inner side face of the upper clamping block and the inner side face of the lower clamping block are fixed to the outer side of the left end of the.

Preferably, the left side of the top end of the connector is respectively provided with an S1 sensor and an S2 sensor, and the model of the S1 sensor is the same as that of the S2 sensor.

Preferably, a window is arranged on the right side of the connecting pipe arranged in the right end of the diaphragm type pressure gauge, and a display screen is arranged inside the window.

Preferably, the pump main pipe tee joint is connected with the screw pump through a fixed connection pipe, and first pneumatic ball valves are installed on the top ends of the fixed connection pipes respectively.

Preferably, the bottom end of the connector is connected with a first pneumatic ball valve, and the bottom end of the first pneumatic ball valve at the bottom end is connected with the residual liquid tank through a built-in connecting pipe.

Preferably, the inner side surfaces of the upper clamping block and the lower clamping block are provided with anti-skid pads, and the thickness of the anti-skid pads is 7 mm.

Preferably, the outer diameter of the small pushball is smaller than the inner diameter of the service port, and two sealing diaphragms are arranged at the left end and the right end of the small pushball.

Preferably, the first pneumatic ball valve is provided with three, and the three first pneumatic ball valves are all the same in shape.

Preferably, the bottom end face of the underframe is glued with a foot pad, and the surface of the underframe is a smooth surface.

Preferably, the through hole at the bottom end of the screw is screwed with a fixing bolt, and the diameter of the disk protruding from the middle part of the fixing bolt is larger than that of the cushion block at the top end of the supporting metal plate.

The invention has the following advantages: the invention provides a bidirectional automatic ball receiving and sending device through improvement, compared with the same type of equipment, the bidirectional automatic ball receiving and sending device has the following improvement:

the method has the advantages that: the invention relates to a bidirectional automatic ball receiving and sending device, wherein the left end of a built-in connector is pulled out towards the left end, the outer side surface of the connector is jointed with the inner side surfaces of an upper clamping block and a lower clamping block and is connected and locked through a fixing bolt, because the lower clamping block is fixedly connected with the bottom frame at the bottom end through the screw rod, the bottom frame can simply fix the connector at the top end, and then the adjusting disc at the outer side of the screw rod is rotated, the adjusting disc rotates reversely to drive the upper clamping block and the lower clamping block to rise to the upper end, so that the right end of the connector is as high as the external connector, the connector is simply and fixedly supported by the adjusting frame, the adjusting frame can adjust the connectors arranged at different heights to be matched for use in the using process, the adaptability is strong, the connector is supported by the device, the connector can be prevented from accidentally falling to cause the second pneumatic ball valve to be broken and damaged in the process of taking the small ball pushing out from the connector.

The method has the advantages that: the invention discloses a bidirectional automatic ball receiving and sending device, wherein a first pneumatic ball valve positioned at the top end of a residual liquid tank is opened, a small push ball pushes all residual liquid or sediments in a built-in connecting pipe into the residual liquid tank under the pushing of compressed gas, after the pushing is finished, the small push ball enters the connecting pipe arranged in the tail end, the compressed gas in the pipeline is discharged through the residual liquid tanks at the two ends, the connector can be separated from the built-in connecting pipe at the left end, the ball serving port is opened to take out a small pushball or not, the pushball can automatically return to the ball inlet at the head end after processing residual liquid or sediment in the pipeline, in the whole process of pushing the pushball, the path passed by the pushball can be displayed on the touch screen arranged outside the window, the device realizes washing residual liquid or sediment in the built-in connecting pipe, reduces the slurry loss, and reduces the time of fluid delivery, the time of clearing up the pipeline and the work load.

Drawings

FIG. 1 is a front view of the structure of the present invention;

FIG. 2 is a partial view of the structure of the present invention;

FIG. 3 is a cross-sectional view of the connector structure of the present invention;

FIG. 4 is a front view of the structure of the adjustable frame of the present invention;

fig. 5 is a schematic view of the structure of the adjusting bracket of the invention.

Wherein: the device comprises a ball-serving port-1, a connector-2, a small push ball-3, a first pneumatic ball valve-4, a second pneumatic ball valve-5, a pump main pipe tee-6, a fast-assembly diaphragm pressure gauge-7, a net barrel type handle-8, a diaphragm type pressure sensor-9, a heavy clamp component-10, an angle iron bracket-11, a second angle iron bracket-12, an adjusting bracket-13, an upper clamping block-131, a lower clamping block-132, a fixing bolt-133, a screw-134, an adjusting disc-135, a supporting metal plate-136, a bottom frame-137, an S1 sensor-201, an S2 sensor-202, a window-203, a screw pump-204, a residual liquid tank-205, a fixed connecting pipe-206 and an anti-skid pad-130.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a bidirectional automatic ball receiving and sending device which comprises a ball sending port 1, a connector 2, a small push ball 3, a first pneumatic ball valve 4, a second pneumatic ball valve 5, a pump main pipe tee joint 6, a quick-assembly diaphragm type pressure gauge 7, a net cylinder type handle 8, a diaphragm type pressure sensor 9, a heavy type hoop component 10, an angle iron support 11, a second angle iron support 12 and an adjusting support 13, wherein the ball sending port 1 is arranged on the outer side of the left end of the connector 2, the inner side of the left end of the connector 2 is in sliding connection with the small push ball 3, the second pneumatic ball valve 5 is arranged on the outer side of the right end of the connector 2, a connecting pipe is arranged at the left end of the connector 2, the connecting part of the connecting pipe and the connector 2 is fixedly connected through the heavy type hoop component 10, the connecting pipe at the middle part of the left end of the connector 2 is fixedly connected with the pump main pipe tee joint 6 through the heavy type hoop component 10, the through hole on the inner side of the connector 2 is movably connected with the net barrel type handle 8, the left end of the main pipe tee joint 6 of the pump is fixedly connected with the first pneumatic ball valve 4 through the heavy hoop component 10, the left end surface of the first pneumatic ball valve 4 is connected with the diaphragm type pressure sensor 9 through the heavy hoop component 10 by a bolt, the outer side of the connecting pipe arranged in the connector 2 is connected with the angle iron bracket 11 by a bolt, the connecting pipe is arranged on the outer side of the bottom end of the diaphragm type pressure sensor 9, the outer side surface of the connecting pipe is connected with the second angle iron bracket 12 by a bolt, the adjusting frame 13 is arranged on the outer side of the connector 2, the adjusting frame 13 comprises an upper clamping block 131, a lower clamping block 132, a screw 134, an adjusting disc 135, a supporting metal plate 136 and a bottom frame 137, the front and rear ends of the upper clamping block 131 and the lower clamping block 132 are provided with through holes, the through hole on the bottom end of the upper clamping block, the outer side of the bottom end of the screw 134 is in threaded connection with the adjusting disc 135, the bottom end of the screw 134 penetrates through a through hole in the inner side of the supporting metal plate 136, the bottom end face of the adjusting disc 135 penetrates through 3cm of the inner side face of the supporting metal plate 136, the inner side face of the supporting metal plate 136 is cylindrical, a cushion block is arranged at the top end of the supporting metal plate 136, the top end of the supporting metal plate 136 is in bolted connection with the cushion block, the bottom end face of the supporting metal plate 136 is welded with the underframe 137, and the inner side faces of the upper clamping block 131 and.

Further, the left side of the top end of the connector 2 is respectively provided with an S1 sensor 201 and an S2 sensor 202, and the models of the S1 sensor 201 and the S2 sensor 202 are the same, so that the sensors can be purchased in batches.

Further, a window 203 is arranged on the right side of the connecting pipe arranged in the right end of the diaphragm type pressure gauge 7, and a display screen is arranged in the window 203, so that the working route of the small pushball 3 can be observed by the display screen on the surface of the window 203.

Further, the pump main pipe tee joint 6 is connected with the screw pump 204 through the fixed connection pipe 206, and the top end of the fixed connection pipe 206 is respectively provided with the first pneumatic ball valve 4, so that the backflow of the liquid in the built-in pipeline to the screw pump 204 is prevented through the first pneumatic ball valve 4.

Further, the bottom end of the connector 2 is connected with a first pneumatic ball valve 4, and the bottom end of the first pneumatic ball valve 4 at the bottom end is connected with the residual liquid tank 205 through a built-in connecting pipe, so that the liquid is recovered and placed in the liquid tank 205.

Further, the inner side surfaces of the upper clamping block 131 and the lower clamping block 132 are provided with the anti-slip pad 130, and the thickness of the anti-slip pad 130 is 7mm, so that the clamping force of the upper clamping block 131 and the lower clamping block 132 and the connector 2 can be favorably improved.

Furthermore, the diameter size of the outer side of the small pushing ball 3 is smaller than the diameter size of the inner side of the ball sending port 1, two sealing diaphragms are arranged at the left end and the right end of the small pushing ball 3, the small pushing ball 3 is favorably fixed inside the ball sending port 1, and the sealing performance is good in the using process.

Further, first pneumatic ball valve 4 is provided with three to three first pneumatic ball valve 4 shape is all the same, does benefit to first pneumatic ball valve 4 and purchases in batches.

Furthermore, the bottom end face of the underframe 137 is glued with a foot pad, and the surface of the underframe 137 is a smooth surface, so that the ground gripping performance of the underframe 137 is improved.

Furthermore, a fixing bolt is screwed in the through hole at the bottom end of the screw 134, and the diameter of the disk protruding from the middle part of the fixing bolt is larger than that of the cushion block at the top end of the supporting metal plate 136, so that the screw 134 is favorably fixed at the top end of the supporting metal plate 136.

The invention provides a bidirectional automatic ball receiving and sending device through improvement, which operates as follows;

firstly, connecting a first pneumatic ball valve 4 and a second pneumatic ball valve 5 with an external pipeline system, connecting the first pneumatic ball valve 4, the second pneumatic ball valve 5, an S1 sensor 201, an S2 sensor 202 and a window 203 with an external controller, pulling out the left end of a connector 2 to the left end, placing a ball sending port 1 at the inner side of the connector 2 into a small push ball 3, attaching the outer side surface of the connector 2 to the inner sides of an upper clamping block 131 and a lower clamping block 132, connecting and locking through hole fixing bolts 133 at the front end and the rear end of the upper clamping block 131 and the lower clamping block 132, because the lower clamping block 132 is fixedly connected with a bottom frame 137 at the bottom end through a screw 134, simply fixing the connector 2 at the top end through the bottom frame 137, rotating an adjusting disc 135 at the outer side of the screw 134, because the adjusting disc 135 is in threaded connection with the outer side of the bottom end of the screw 134 and fixed at the inner side of a support sheet metal plate 136, the adjusting disc 135 reversely rotates to drive the upper clamping block 131 and the lower clamping block 132 to rise, the right end of the connector 2 is as high as the external connector, the left end of the connector 2 is fixedly connected with the internal connecting pipeline through the heavy hoop assembly 10, the connector 2 is simply and fixedly supported through the adjusting frame 13, the adjusting frame 13 can adjust different heights to the connectors 2 installed at different heights in the using process to be matched for use, the adaptability is strong, the connector 2 is supported by the device, and the second pneumatic ball valve 5 can be prevented from being broken and damaged due to accidental falling of the connector 2 in the process of detaching the connector 2 and taking the small push ball 3;

secondly, an S1 sensor 201 is arranged outside the connector 2, an S1 sensor senses a small push ball 3, after the external controller receives a signal that the small push ball 3 enters the inside of the connector 2, the second pneumatic ball valve 5 and the two first pneumatic ball valves 4 at the bottom end of the internal connecting pipe are closed, and meanwhile, the external controller controls the passages of the first pneumatic ball valves 4 at the left end and the right end of the pump main pipe tee 6 to enable the external pipeline system to be opened to enter compressed gas (compressed air or nitrogen);

thirdly, the first pneumatic ball valve 4 positioned at the top end of the residual liquid tank 205 is opened, the small push ball 3 pushes all the residual liquid or sediment in the built-in connecting pipe into the residual liquid tank 205 under the push of compressed gas, after the push is finished, the small pushballs 3 enter the end built-in connecting pipe, the compressed gas in the pipeline is discharged through the residual liquid tanks 205 at the two ends, the connector 2 can be separated from the built-in connecting pipe at the left end, the small push ball 3 is taken out from the ball development port 1 or not opened, the push ball can automatically return to the ball inlet at the head end after processing the residual liquid or sediment in the pipeline, in the whole ball pushing process, the path through which the pushing ball passes can be displayed on the touch screen with the external window 203, so that residual liquid or sediment in the built-in connecting pipe can be cleaned, the loss of slurry is reduced, the time for conveying fluid is shortened, and the time and the workload for cleaning the pipeline are reduced.

The invention provides a bidirectional automatic ball receiving and sending device through improvement, the left end of an internal connector 2 is pulled out to the left end, the outer side surface of the connector 2 is attached to the inner sides of an upper clamping block 131 and a lower clamping block 132 and is connected and locked through a fixing bolt 133, the lower clamping block 132 is fixedly connected with a bottom frame 137 at the bottom end through a screw 134, the bottom frame 137 is used for simply fixing the connector 2 at the top end, an adjusting disc 135 at the outer side of the screw 134 is rotated, the adjusting disc 135 rotates reversely to drive the upper clamping block 131 and the lower clamping block 132 to rise towards the upper end, so that the height of the right end of the connector 2 is the same as that of the external connector, the connector 2 is simply and fixedly supported through an adjusting frame 13, the adjusting frame 13 can be used for adjusting different heights of the connectors 2 arranged at different heights in the using process, the device is strong in adaptability and supports the connector 2, and can prevent the connector 2 from being detached and taken out a small ball, the accidental dropping of the connector 2 causes the second pneumatic ball valve 5 to be broken and damaged; the first pneumatic ball valve 4 positioned at the top end of the residual liquid tank 205 is opened, the small push ball 3 pushes all the residual liquid or sediment in the built-in connecting pipe into the residual liquid tank 205 under the push of compressed gas, after the push is finished, the small pushballs 3 enter the end built-in connecting pipe, the compressed gas in the pipeline is discharged through the residual liquid tanks 205 at the two ends, the connector 2 can be separated from the built-in connecting pipe at the left end, the small push ball 3 is taken out from the ball development port 1 or not opened, the push ball can automatically return to the ball inlet at the head end after processing the residual liquid or sediment in the pipeline, in the whole process of pushing the ball, the path that the pushed ball passes through is displayed on the touch screen outside the window 203, the device realizes washing residual liquid or sediment in the built-in connecting pipe, reduces the slurry loss, and reduces the time of fluid delivery, the time of clearing up the pipeline and the work load.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A bidirectional automatic ball receiving and sending device is characterized in that: comprises a ball sending port (1), a connector (2), a small push ball (3), a first pneumatic ball valve (4), a second pneumatic ball valve (5), a pump main pipe tee joint (6), a fast-assembly diaphragm type pressure gauge (7), a net barrel type handle (8), a diaphragm type pressure sensor (9), a heavy clamp component (10), an angle iron bracket (11), a second angle iron bracket (12) and an adjusting bracket (13), wherein the ball sending port (1) is arranged on the outer side of the left end of the connector (2), the inner side of the left end of the connector (2) is in sliding connection with the small push ball (3), the second pneumatic ball valve (5) is arranged on the outer side of the right end of the connector (2), the left end of the connector (2) is provided with a connecting pipe, the connecting pipe and the connecting part of the connector (2) are fixedly connected through the heavy clamp component (10), the middle connecting pipe at the left end of the connector (2) is fixedly connected with the pump main pipe tee joint (6) through the heavy clamp component (10, connector (2) left end is provided with diaphragm type manometer (7), inboard through-hole of connector (2) and net barrel type hand (8) swing joint, the pump is responsible for tee bend (6) left end and is passed through heavy clamp subassembly (10) and first pneumatic ball valve (4) fixed connection, first pneumatic ball valve (4) left end face passes through heavy clamp subassembly (10) and diaphragm type pressure sensor (9) bolted connection, the built-in connecting pipe outside of connector (2) and angle bar support (11) bolted connection, the connecting pipe is installed in diaphragm type pressure sensor (9) bottom outside to connecting pipe lateral surface and second angle bar support (12) bolted connection, alignment jig (13) is installed in connector (2) outside, alignment jig (13) include clamp splice (131), lower clamp splice (132), fixing bolt (133), The clamping device comprises a screw rod (134), an adjusting disc (135), a supporting metal plate (136) and an underframe (137), wherein through holes are formed in the front end and the rear end of the upper clamping block (131) and the front end and the rear end of the lower clamping block (132), the through hole in the bottom end of the upper clamping block (131) is fixedly connected with the lower clamping block (132) through a fixing bolt (133), the middle of the bottom end face of the lower clamping block (132) is welded with the screw rod (134), the outer side of the bottom end of the screw rod (134) is in threaded connection with the adjusting disc (135), the bottom end of the screw rod (134) penetrates through the through hole in the inner side of the supporting metal plate (136), the bottom end face of the adjusting disc (135) penetrates through the 3cm inner side face of the supporting metal plate (136), the inner side face of the supporting metal plate (136) is cylindrical, a cushion block is arranged at the top end of the supporting metal plate (, the inner side surfaces of the upper clamping block (131) and the lower clamping block (132) are fixed on the outer side of the left end of the connector (2) through a fixing bolt (133).

2. The bi-directional automatic ball receiving and sending device according to claim 1, wherein: an S1 sensor (201) and an S2 sensor (202) are respectively installed on the left side of the top end of the connector (2), and the model of the S1 sensor (201) is the same as that of the S2 sensor (202).

3. The bi-directional automatic ball receiving and sending device according to claim 1, wherein: a window (203) is arranged on the right side of a connecting pipe arranged in the right end of the diaphragm type pressure gauge (7), and a display screen is arranged inside the window (203).

4. The bi-directional automatic ball receiving and sending device according to claim 1, wherein: the pump main pipe tee joint (6) is connected with the screw pump (204) through a fixed connecting pipe (206).

5. The bi-directional automatic ball receiving and sending device according to claim 1, wherein: the bottom end of the connector (2) is connected with a first pneumatic ball valve (4), and the bottom end of the first pneumatic ball valve (4) at the bottom end is connected with the residual liquid tank (205) through a built-in connecting pipe.

6. The bi-directional automatic ball receiving and sending device according to claim 1, wherein: and the inner side surfaces of the upper clamping block (131) and the lower clamping block (132) are provided with anti-skid pads (130), and the thickness of the anti-skid pads (130) is 7 mm.

7. The bi-directional automatic ball receiving and sending device according to claim 1, wherein: the diameter size of the outer side of the small push ball (3) is smaller than that of the inner side of the ball sending port (1), and two sealing diaphragms are arranged at the left end and the right end of the small push ball (3).

8. The bi-directional automatic ball receiving and sending device according to claim 1, wherein: the bottom end face of the underframe (137) is glued with a foot pad, and the surface of the underframe (137) is a smooth surface.

9. The bi-directional automatic ball receiving and sending device according to claim 1, wherein: the through hole at the bottom end of the screw rod (134) is screwed with a fixing bolt, and the diameter of the disk protruding from the middle part of the fixing bolt is larger than that of the cushion block at the top end of the supporting metal plate (136).