CN210104875U - Vertical intelligent pressure-superposed energy-saving water supply equipment - Google Patents

Abstract

The utility model provides a vertical intelligence is folded and is pressed energy-conserving water supply equipment, including the equipment base, pump body pipe network system and switch board are all settled on the equipment base, pump body pipe network system includes stationary flow jar and pump in a plurality of forcing pipes, stationary flow jar vertical setting and bottom are fixed on the equipment base through the supporting legs, the water inlet and the municipal pipe network of stationary flow jar are linked together, the water inlet of pump is linked together in delivery port and each forcing pipe, the pump includes the water pump in the forcing pipe, motor and water conservancy diversion cover, water pump and motor are connected and all arrange the water conservancy diversion in the cover, the equal vertical setting of pump and bottom are all fixed with the equipment base through water conservancy diversion cover end cover flange in each forcing pipe, the switch board includes the PLC controller, be equipped with the manometer on the stationary flow jar, manometer. The utility model discloses can reach energy-conserving purpose, and the vertical installation of pump in the forcing pipe, can improve the life of water pump and motor to occupation of land space is little, saves area.

Description

Vertical intelligent pressure-superposed energy-saving water supply equipment

Technical Field

The utility model relates to a secondary water supply equipment especially relates to a vertical intelligence is folded and is pressed energy-conserving water supply equipment.

Background

In central city or big city, because during the water peak, the water consumption is very big, the water pressure or the flow of municipal pipe network often can be not enough or not enough, if the direct water intaking from the municipal pipe network of secondary water supply equipment, will take place to rob the water phenomenon, cause the municipal pipe network to produce the negative pressure, make the pipe network break easily, produce the pipe network loss of leaking. Therefore, the secondary water supply equipment is strictly forbidden to directly take water from the municipal pipe network. Usually, the water supply equipment with a domestic water tank is adopted for solving the problem and the non-negative pressure secondary water supply equipment (provided with a steady flow tank and a centrifugal pump or a horizontal pump in a pipe) is adopted for solving the problem.

For water supply equipment with a domestic water tank, a water pump is adopted to provide power, and a large amount of energy loss is caused due to the fact that surplus pressure of a municipal pipe network cannot be utilized, and the defect is obvious.

In addition, for non-negative pressure secondary water supply equipment (provided with a steady flow tank and a centrifugal pump), although the surplus pressure of a municipal pipe network can be utilized, the purpose of energy conservation is achieved, and water cannot be robbed. However, the centrifugal pump and the motor are exposed in the air, and medium isolation is not available, so that the noise is large, and the noise is serious; secondly, centrifugal pump and motor all adopt natural wind to cool off, and the cooling effect is not good, generates heat easily, influences the life of centrifugal pump and motor, and the defect is obvious.

In addition, for non-negative pressure secondary water supply equipment (provided with a steady flow tank and a horizontal pump in a pipe), although the surplus pressure of a municipal pipe network can be utilized, the purpose of energy conservation is achieved, and water cannot be robbed. However, the pump in the horizontal pipe has overlong overall dimension, large occupied space and no land saving; secondly, because the pump in the horizontal pipe is too long in size, the coaxiality of the water pump and the motor is not easy to guarantee, so that the radial abrasion of the water pump and the motor is increased, and the service life of the water pump and the motor is influenced.

Therefore, it is necessary to design a vertical intelligent pressure-superposed water supply device to solve the deficiencies or defects of the three common secondary water supply devices.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving water supply equipment is folded to vertical intelligence, aim at being used for solving the life of current secondary water supply equipment water pump and motor short and take up an area of the big, not problem in land of space.

The utility model discloses a realize like this:

the utility model provides a vertical intelligent pressure-superposed energy-saving water supply device, which comprises a device base, a pump body pipe network system and a control cabinet, wherein the pump body pipe network system and the control cabinet are arranged on the device base, the pump body pipe network system comprises a steady flow tank and a plurality of pressure pipe middle pumps, the steady flow tank is vertically arranged, the bottom of the steady flow tank is fixed on the device base through a supporting leg, the water inlet of the steady flow tank is communicated with a municipal pipe network, the water outlet of the steady flow tank is communicated with the water inlet of each pressure pipe middle pump, the pressure pipe middle pumps comprise a water pump, a motor and a flow guide sleeve, the water pump is connected with the motor and is arranged in the flow guide sleeve, the pressure pipe middle pumps are vertically arranged, the bottom of each pressure pipe middle pump is fixed with the device base through a flow guide sleeve end cover flange, the control cabinet comprises, the pressure gauge and the motor are electrically connected with the PLC.

Further, a vacuum suppressor is arranged on the steady flow tank.

Furthermore, a vent valve and a temperature sensor are arranged on the pump in the pressurization pipe, and the temperature sensor is electrically connected with the PLC.

Further, pump body pipe network system still includes the collector pipe of intaking, the collector pipe of intaking transversely set up in the stationary flow jar with between the pump in the forcing pipe, the water inlet of collector pipe of intaking with the delivery port of stationary flow jar passes through flange joint, the delivery port of collector pipe of intaking have a plurality ofly and respectively with a plurality ofly the water inlet of pump is connected in the forcing pipe, the delivery port of collector pipe of intaking is equipped with the fast-assembling butterfly valve, the water inlet of pump is equipped with the fast-assembling joint in the forcing pipe, the fast-assembling butterfly valve with correspond the fast-assembling joint passes through the fast-assembling clamp fixedly.

Furthermore, the pump body pipe network system still includes a plurality of connecting pipes, and is a plurality of the connecting pipe is all vertical setting and position and a plurality of pump one-to-one in the forcing pipe, each the water inlet of connecting pipe with correspond the delivery port of pump in the forcing pipe is connected, the water inlet of delivery manifold has a plurality ofly and respectively with a plurality of the delivery port of connecting pipe is connected.

Furthermore, the water outlet of the pump in the pressure pipe is consistent with the water inlet of the connecting pipe in height and is provided with a right-angled elbow, and the right-angled elbows of the pump in the pressure pipe and the water inlet of the connecting pipe are connected together through a flange.

Furthermore, the water outlet of the connecting pipe is provided with a quick connector, the water inlet of the water outlet collecting pipe is sequentially connected with a quick check valve and a quick butterfly valve, and the quick butterfly valve of the water outlet collecting pipe is fixed with the corresponding quick connector of the connecting pipe through a quick clamp.

Furthermore, the water outlet collecting pipes are transversely arranged below the connecting pipes, and supporting pieces are arranged at two ends of each water outlet collecting pipe and fixed on the equipment base.

Furthermore, be equipped with pressure sensor, solenoid valve and pressure relay on the water collecting pipe of going out, pressure sensor and the solenoid valve all with the PLC controller electricity is connected.

Furthermore, the equipment base is flat, and four corners of the bottom of the equipment base are provided with shock-absorbing sizing blocks.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model provides a vertical intelligent pressure-superposed energy-saving water supply equipment, adopt pump in stationary flow jar and the forcing pipe, can make full use of municipal pipe network pressure, can not receive the influence of municipal pipe network water peak again, reach energy-conserving purpose, and the mode of vertical installation is adopted to pump in the forcing pipe, more can guarantee the axiality of water pump and motor, reduce the radial wear of water pump and motor, improve the life of water pump and motor, and occupation space is little, save area, manometer on the stationary flow jar and motor in the forcing pipe in the pump all are connected with the PLC controller electricity, when stationary flow jar pressure undersize short of water, PLC controller control motor closes, guarantee the operation safety, and can realize intelligent control.

Drawings

Fig. 1 is a schematic view of a whole vertical intelligent pressure-superposed energy-saving water supply device provided by an embodiment of the present invention;

fig. 2 is a structural diagram of a pump body pipe network system provided by the embodiment of the present invention;

fig. 3 is a structural diagram of a steady flow tank provided by the embodiment of the present invention;

fig. 4 is a structural diagram of a pump in a pressurization pipe according to an embodiment of the present invention;

fig. 5 is a structural view of a connection pipe member according to an embodiment of the present invention;

fig. 6 is a structural diagram of a water outlet collecting pipe provided by the embodiment of the present invention;

fig. 7 is a structural diagram of a water inlet collecting pipe provided by the embodiment of the present invention;

fig. 8 is a structural diagram of an apparatus base according to an embodiment of the present invention.

Description of reference numerals: 1-a steady flow tank, 11-a flange, 12-a vacuum suppressor, 13-a remote transmission pressure gauge, 14-a supporting leg, 2-a pressure pipe pump, 21-a flow guide sleeve, 22-an exhaust valve, 23-a temperature sensor, 24-a quick connector, 25-a flow guide sleeve end cover flange, 3-a connecting pipe, 31-a right-angled elbow, 4-a water outlet collecting pipe, 41-an electromagnetic valve, 42-a pressure relay, 43-a pressure sensor, 44-a quick butterfly valve, 45-a quick check valve, 5-a supporting piece, 6-a water inlet collecting pipe, 7-an equipment base, 71-a shock absorption sizing block and 8-a control cabinet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 4, an embodiment of the present invention provides a vertical intelligent pressure-superposed energy-saving water supply device, which includes a device base 7, a pump body pipe network system and a control cabinet 8, wherein the pump body pipe network system and the control cabinet 8 are both disposed on the device base 7, the pump body pipe network system includes a flow stabilizing tank 1 and a plurality of pressure pipe pumps 2, the flow stabilizing tank 1 is vertically disposed, and the bottom of the flow stabilizing tank 1 is fixed on the device base 7 through three support legs 14, a water inlet of the flow stabilizing tank 1 is communicated with a municipal pipe network through a flange 11, a water outlet of the flow stabilizing tank is communicated with a water inlet of each pressure pipe pump 2, the pressure pipe pumps 2 include a water pump, a motor and a flow guide sleeve 21, the water pump is connected with the motor and is disposed in the flow guide sleeve 21, each pressure pipe pump 2 is vertically disposed, and the bottom of each pressure pipe pump is fixed with the device base 7, the control cabinet 8 comprises a PLC controller, a remote transmission pressure gauge 13 is arranged on the steady flow tank 1, and the remote transmission pressure gauge 13 and the motor are electrically connected with the PLC controller.

The embodiment of the utility model provides a vertical intelligent pressure-superposed energy-saving water supply equipment, adopt stationary flow jar 1 and pressure tube in pump 2, can make full use of municipal pipe network pressure, can not receive the influence of municipal pipe network water peak again, reach energy-conserving purpose, and in the pressure tube pump 2 adopt the mode of vertical installation, more can guarantee the axiality of water pump and motor, reduce the radial wear of water pump and motor, improve the life of water pump and motor, and occupation space is little, save area, the last teletransmission manometer 13 of stationary flow jar 1 and the pressure tube in the motor of pump 2 all be connected with the PLC controller electricity, when stationary flow jar 1 pressure undersize during water shortage, PLC controller control motor closes, guarantee operation safety, and can realize intelligent control.

As shown in fig. 3, as a preferred embodiment of the present invention, a vacuum suppressor 12 is disposed on the steady flow tank 1, and is used for suppressing the negative pressure generated in the steady flow tank 1, and keeping the pressure of the tap water pipe network balanced, so as to achieve the purpose of preventing water robbery.

As shown in fig. 7, further, pump body pipe network system still includes intake collector pipe 6, intake collector pipe 6 transversely set up in stationary flow jar 1 with between the pump 2 in the forcing pipe, intake collector pipe 6's water inlet with stationary flow jar 1's delivery port passes through flange 11 and connects, specifically, stationary flow jar 1's delivery port is located stationary flow jar 1's bottom and extends to the horizontal direction through elbow bend, elbow bend's end has flange 11, intake collector pipe 6 place the position with stationary flow jar 1's delivery port position is parallel, intake collector pipe 6's water inlet is located the lateral wall and the water inlet end also has flange 11, thereby intake collector pipe 6's flange 11 of water inlet department with stationary flow jar 1's the flange 11 of water outlet department is connected the two together. The delivery port of inlet collector pipe 6 has a plurality ofly and respectively with a plurality ofly the water inlet of pump 2 is connected in the forcing pipe, specifically, a plurality of delivery ports of inlet collector pipe 6 are located on the lateral wall of inlet collector pipe 6 and relative with the water inlet, and the delivery port is equipped with fast-assembling butterfly valve 44, the water inlet of pump 2 is located on the lateral wall of pump 2 in the forcing pipe and the water inlet is equipped with fast-assembling joint 24 in the forcing pipe, fast-assembling butterfly valve 44 with correspond fast-assembling joint 24 is fixed through the fast-assembling clamp to link together the two, the installation is fixed convenient.

As shown in fig. 5 and 6, the pump body pipe network system further includes a plurality of connecting pipes 3 and a water collecting pipe 4, the connecting pipes 3 are vertically arranged and are in one-to-one correspondence with the plurality of pressure pipe pumps 2, a water inlet of each connecting pipe 3 is connected with a water outlet of the corresponding pressure pipe pump 2, and a plurality of water inlets of the water collecting pipe 4 are respectively connected with the water outlets of the connecting pipes 3. Specifically, the delivery port of pump 2 is located the top of pump 2 in the forcing pipe, the water inlet of connecting pipe 3 is located the top of connecting pipe 3, the delivery port of pump 2 in the forcing pipe with the water inlet highly uniform of connecting pipe 3 just all is equipped with elbow bend 31, and elbow bend 31 of the two links together through flange 11. Furthermore, the water outlet collecting pipes 4 are transversely arranged below the connecting pipes 3, supporting pieces 5 are arranged at two ends of each water outlet collecting pipe 4, and the supporting pieces 5 are fixed on the equipment base 7. The water outlet of the connecting pipe 3 is provided with a quick connector 24, the water inlet of the water outlet collecting pipe 4 is sequentially connected with a quick check valve 45 and a quick butterfly valve 44, and the quick butterfly valve 44 of the water outlet collecting pipe 4 is fixed with the corresponding quick connector 24 of the connecting pipe 3 through a quick clamp.

The utility model discloses a large amount of fast-assembling joints 24, fast-assembling clamp, quarter bend 31, fast-assembling check valve 45 and fast-assembling butterfly valve 44 etc. have both made things convenient for production and processing, have made things convenient for the installation to maintain again, have saved a large amount of expenses of labor.

As shown in fig. 4 and 6, as a preferred embodiment, the pump 2 in the pressurizing pipe is provided with an exhaust valve 22 and a temperature sensor 23, and the temperature sensor 23 is electrically connected to the PLC controller. The exhaust valve 22 is used for exhausting air in the guide sleeve 21 and filling the interior of the guide sleeve with water before the motor is started, and the temperature sensor 23 is used for detecting the temperature of the motor in the guide sleeve 21 and transmitting the temperature to the PLC. Further, a pressure sensor 43, an electromagnetic valve 41 and a pressure relay 42 are arranged on the water outlet collecting pipe 4, and both the pressure sensor 43 and the electromagnetic valve 41 are electrically connected with the PLC controller. The pressure sensor 43 is used for detecting the pressure in the effluent water collecting pipe 4 and transmitting the pressure to the PLC; the pressure relay 42 is used for controlling the whole system to stop running when the pressure in the water outlet collecting pipe 4 reaches the set maximum value, so as to prevent the inside of the system from being damaged; the electromagnetic valve 41 is used for controlling the opening of the temperature sensor 23 through the PLC when the temperature detected by the temperature sensor is higher, so that hot water in the diversion sleeve 21 is discharged, cold water enters the motor to cool the motor, and the motor is prevented from being damaged.

As shown in fig. 8, the structure of the device base 7 is refined, the device base 7 is in a flat plate shape, and shock absorbing sizing blocks 71 are arranged at four corners of the bottom of the device base to play a role in shock absorption, so that the device is protected.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a vertical intelligent pressure-superposed energy-saving water supply equipment which characterized in that: comprises an equipment base, a pump body pipe network system and a control cabinet, wherein the pump body pipe network system and the control cabinet are both arranged on the equipment base, the pump body pipe network system comprises a flow stabilizing tank and a plurality of pressure pipe pumps, the flow stabilizing tank is vertically arranged, the bottom of the flow stabilizing tank is fixed on the equipment base through supporting legs, the water inlet of the steady flow tank is communicated with a municipal pipe network, the water outlet is communicated with the water inlet of the pump in each pressurizing pipe, the pressure pipe middle pumps comprise water pumps, motors and flow guide sleeves, the water pumps are connected with the motors and are arranged in the flow guide sleeves, the pressure pipe middle pumps are vertically arranged, the bottoms of the pressure pipe middle pumps are fixed with the equipment base through flow guide sleeve end cover flanges, the switch board includes the PLC controller, be equipped with the manometer on the stationary flow jar, the manometer and the motor all with the PLC controller electricity is connected.

2. The vertical intelligent pressure-superposed energy-saving water supply equipment as claimed in claim 1, wherein: and a vacuum suppressor is arranged on the steady flow tank.

3. The vertical intelligent pressure-superposed energy-saving water supply equipment as claimed in claim 1, wherein: and an exhaust valve and a temperature sensor are arranged on the pump in the pressurization pipe, and the temperature sensor is electrically connected with the PLC.

4. The vertical intelligent pressure-superposed energy-saving water supply equipment as claimed in claim 1, wherein: the pump body pipe network system still includes the collector pipe of intaking, the collector pipe of intaking transversely set up in the stationary flow jar with between the pump in the forcing pipe, the water inlet of the collector pipe of intaking with the delivery port of stationary flow jar passes through flange joint, the delivery port of the collector pipe of intaking have a plurality ofly and respectively with a plurality ofly the water inlet of pump is connected in the forcing pipe, the delivery port of the collector pipe of intaking is equipped with the fast-assembling butterfly valve, the water inlet of pump is equipped with the fast-assembling joint in the forcing pipe, the fast-assembling butterfly valve with correspond the fast-assembling joint passes through the fast-assembling clamp fixedly.

5. The vertical intelligent pressure-superposed energy-saving water supply equipment as claimed in claim 1, wherein: the pump body pipe network system further comprises a water outlet collecting pipe and a plurality of connecting pipes, the connecting pipes are vertically arranged, the positions of the connecting pipes are in one-to-one correspondence with the pumps in the pressurizing pipes, the water inlets of the connecting pipes are connected with the corresponding water outlets of the pumps in the pressurizing pipes, and the water inlets of the water outlet collecting pipe are provided with a plurality of water outlets which are respectively connected with the connecting pipes.

6. The vertical intelligent pressure-superposed energy-saving water supply equipment according to claim 5, characterized in that: the water outlet of the pump in the pressure pipe is identical in height with the water inlet of the connecting pipe, and the water outlet of the pump in the pressure pipe and the water inlet of the connecting pipe are both provided with right-angled bends, and the right-angled bends are connected together through flanges.

7. The vertical intelligent pressure-superposed energy-saving water supply equipment according to claim 5, characterized in that: the quick-mounting butterfly valve of the water outlet collecting pipe is fixed with the corresponding quick-mounting connector of the connecting pipe through a quick-mounting clamp.

8. The vertical intelligent pressure-superposed energy-saving water supply equipment according to claim 5, characterized in that: the water outlet collecting pipes are transversely arranged below the connecting pipes, and supporting pieces are arranged at two ends of each water outlet collecting pipe and fixed on the equipment base.

9. The vertical intelligent pressure-superposed energy-saving water supply equipment according to claim 5, characterized in that: and the water outlet water collecting pipe is provided with a pressure sensor, an electromagnetic valve and a pressure relay, and the pressure sensor and the electromagnetic valve are electrically connected with the PLC.

10. The vertical intelligent pressure-superposed energy-saving water supply equipment as claimed in claim 1, wherein: the equipment base is flat, and four corners of the bottom of the equipment base are provided with shock-absorbing sizing blocks.

Images