CN110681635A

CN110681635A - Siphon overflow water washing tank

Info

Publication number: CN110681635A
Application number: CN201911081970.8A
Authority: CN
Inventors: 蔡炎江
Original assignee: FOSHAN SHUNDE JUNDA ELECTRONIC Co Ltd
Current assignee: FOSHAN SHUNDE JUNDA ELECTRONIC Co Ltd
Priority date: 2019-11-07
Filing date: 2019-11-07
Publication date: 2020-01-14
Anticipated expiration: 2039-11-07
Also published as: CN110681635B

Abstract

The invention discloses a siphon overflow rinsing bath, which comprises at least two water tanks, wherein a communication pipe is arranged between every two adjacent water tanks, one end of the communication pipe in the opposite upper water tank is connected with an overflow pipe, the overflow pipe is vertically arranged, one end of the communication pipe in the opposite lower water tank is provided with a siphon pipe, one end of the siphon pipe is connected with the communication pipe, the other end corresponding to the siphon pipe is opposite to a water inlet close to a water pump in the opposite lower water tank, and the height position of an upper end pipe orifice of the overflow pipe is higher than that of one end pipe orifice of the siphon pipe close to the water inlet.

Description

Siphon overflow water washing tank

Technical Field

The invention relates to the technical field of rinsing baths, in particular to a siphon overflow rinsing bath.

Background

At present, the rinsing bath is used for carrying out a rinsing process on a workpiece, in order to clean and save water, the rinsing bath is generally set to be of a multi-stage overflow type, the conveying direction of the workpiece is opposite to the arrangement direction of the multi-stage overflow rinsing baths, so that water inside the water bath of the last rinsing process is relatively cleanest, when the multi-stage rinsing bath adopts an overflow water-saving scheme, because naturally overflowing water flows objectively have flow resistance between each stage of water bath, the overflow speed of the mode is slow, the water flow is influenced by the flow resistance to form a water level difference between the two stages of water bath, the larger the working flow of water body is, the larger the water level difference is, if the height difference size of the water bath set by the multi-stage rinsing bath is not enough, the water level of an upstream water bath overflows outwards, and the downstream lacks water because the water flow is not fast enough to supplement, therefore, enough height difference size needs to be preset for each, as a result, other corollary equipment is difficult to adapt to huge height difference and is inconvenient for personnel to operate.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a siphon overflow rinsing bath with high overflow efficiency.

The purpose of the invention is realized by the following technical scheme.

The invention comprises at least two water tanks, wherein the water tanks are arranged end to end in a grounding way, the water tank at the head is provided with a water inlet pipe for supplementing clean water, the water tank at the tail is provided with a drain pipe for discharging sewage, each water tank is provided with a water pump, the water pump comprises a water inlet and a water outlet, the water outlet is connected with a water washing pipeline, the water washing pipeline is connected with a water washing nozzle for cleaning objects, the water washing nozzle is arranged above the corresponding water tank, a communicating pipe for communicating the two adjacent water tanks is arranged between the adjacent water tanks, one end of the communicating pipe in the opposite upper water tank is connected with an overflow pipe, the overflow pipe is vertically arranged, one end of the communicating pipe in the opposite lower water tank is provided with a siphon pipe, one end of the siphon pipe is connected with the communicating pipe, and the other end corresponding to the siphon pipe, the overflow pipe is communicated with the siphon pipe through a communicating pipe, and the height position of the upper end pipe orifice of the overflow pipe is higher than the height position of the siphon pipe orifice at one end close to the water inlet.

Preferably, an overflow water level adjuster for adjusting the height of the overflow water level is arranged at the upper end of the overflow pipe, the overflow water level adjuster is tubular, and the lower end of the overflow water level adjuster is movably and vertically mounted at the upper end of the overflow pipe in a matched manner.

Preferably, the lower end of the overflow water level regulator is screwed with the upper end of the overflow pipe.

Preferably, the siphon is vertical to be set up, the siphon upper end is equipped with the siphon regulator that is used for adjusting the siphon volume, the siphon regulator is the tubulose, the siphon regulator cup joints through the screw the siphon upper end, the upper end mouth of pipe of siphon regulator is close to the water inlet.

Preferably, the overflow pipe, the communication pipe, and the siphon pipe are integrally provided.

Preferably, the drain pipe is provided with a drainage overflow part, the drainage overflow part is vertically arranged, and the upper end part of the drainage overflow part is in threaded connection with the overflow water level regulator.

Compared with the prior art, the invention has the following beneficial effects: the invention is characterized in that a communicating pipe for communicating two adjacent water tanks is arranged between the adjacent water tanks, one end of the communicating pipe in the opposite upper water tank is connected with an overflow pipe, the overflow pipe is vertically arranged, one end of the communicating pipe in the opposite lower water tank is provided with a siphon pipe, one end of the siphon pipe is connected with the communicating pipe, the other end corresponding to the siphon pipe is opposite to a water inlet close to a water pump in the opposite lower water tank, the height position of an upper end pipe orifice of the overflow pipe is higher than the height position of a pipe orifice at one end of the siphon pipe close to the water inlet, through the arrangement, when the water pump pumps water in the washing tank at the current level, negative pressure can be generated on the pipe orifices of the siphon pipe, the water in the communicating pipe and the overflow pipe is sucked by the negative pressure to flow to the lower water tank, the water pressure in the siphon pipe, the purpose of the overflow with higher speed has been reached, reduce each basin surface of water difference in height by a wide margin, reached the effect of being convenient for adapt to other peripheral equipment, reduced the manufacturing cost of equipment, the personnel's operation of also being convenient for, simultaneously, through vertical overflow pipe that sets up for when higher level's basin water level drops to overflow pipe upper end mouth of pipe, realize the automatic shutdown siphon under the condition that does not have other additional automatically controlled equipment, reduced the manufacturing cost of basin relatively.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic view of a multi-stage water tank according to the present invention.

FIG. 3 is a schematic diagram of a multi-stage water tank of the prior art.

Fig. 4 is a schematic top view of an embodiment of the invention.

Description of reference numerals: 1-communicating tube; 2-an overflow pipe; 201-overflow water level regulator; 3-siphon; 301-siphon regulator; 4-water inlet pipe; 401-a water inlet valve; 5, a drain pipe; 501-a drainage overflow part; 6, a water pump; 601-a water inlet; 602-water outlet; 7-washing the pipeline with water; 8-washing the spray head; 9-a water tank; 10-a sink divider plate; 11-siphon accelerated overflow device; 12-an overflow baffle; 20-a workpiece; 21-conveying device.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1 and 2, the present invention includes at least two water tanks 9, the water tanks 9 may be welded by stainless steel plates, the water tanks 9 are used for storing and returning water for cleaning a workpiece 20, each water tank 9 is arranged end to end in a grounding manner, the water tank 9 at the head is provided with a water inlet pipe 4 for supplying clean water, the water inlet pipe 4 may be provided with a water inlet valve 401, the water tank 9 at the tail is provided with a water outlet pipe 5 for discharging sewage, each water tank 9 is provided with a water pump 6, the water pump 6 is a common product in the market, a motor of the water pump 6 is erected and installed on the upper side of the water tank 9, when the water in the water tank 9 is at a set water surface height, a pump body of the water pump 6 is immersed under the water surface, of course, the pump body of the water pump 6 actually is immersed a bit deeper, the water pump 6 includes a water inlet 601 and a water outlet 602, the water outlet, the one end of the water washing pipeline 7 above the work piece 20 is connected with the water washing nozzle 8 used for cleaning the work piece 20, the water washing nozzle 8 is arranged above the corresponding water tank 9, the lower part of the water washing nozzle 8 is provided with a plurality of small holes, the water sprayed from the small holes has strong impact force and can quickly wash away sundries on the work piece, the flushing efficiency is improved, a communicating pipe 1 used for communicating two adjacent water tanks 9 is arranged between the adjacent water tanks 9, the communicating pipe 1 can be made of plastic pipes or stainless steel pipes and penetrates through a water tank partition plate 10, in order to avoid the pollutants in the water tank 9 from flowing back to a superior water tank, a gap between the communicating pipe 1 and the water tank partition plate 10 can be sealed by glass cement, one end of the communicating pipe 1 in the superior water tank 9 is connected with an overflow pipe 2, as shown in figure 1, the overflow pipe 2 is vertically arranged, in the embodiment of figure 1, if there are more water tanks 9, as shown in fig. 2, and so on, the right one is called the opposite lower water tank 9, one end of the communicating pipe 1 in the opposite lower water tank 9 is provided with the siphon tube 3, one end of the siphon tube 3 is connected with the communicating pipe 1, the other corresponding end of the siphon tube 3 is opposite to the water inlet 601 close to the water pump 6 in the opposite lower water tank 9, the distance from the upper nozzle of the siphon tube 3 to the water inlet 601 of the water pump 6, i.e. the dimension L1 in fig. 2 (when the siphon regulator 301 described below is installed, L1 is the distance from the uppermost end of the siphon regulator 301 to the water inlet 601), the dimension L1 is preferably a little smaller than the inner diameter dimension of the siphon tube 3, but not too close to affect the self-circulation in the water tank 9, the overflow pipe 2 is communicated with the siphon tube 3 through the communicating pipe 1, the communicating pipe 1 is preferably, therefore, other pipeline arrangement is facilitated, the height position of the upper end pipe orifice of the overflow pipe 2 is higher than the height position of the siphon pipe 3 close to the one end pipe orifice of the water inlet 601 of the water pump 6 in the corresponding lower-level water tank 9, because the negative pressure generated by the water pump 6 for pumping water to the upper end pipe orifice of the siphon pipe 3 is relatively less, if the position of the upper end pipe orifice of the overflow pipe 2 is lower than the upper end pipe orifice of the siphon pipe 3, the water pumping suction force of the water pump 6 to the siphon pipe 3 can be counteracted by the gravity of the water in the pipe or even the water pumping can not be realized, the overflow pipe 2, the communication pipe 1 and the siphon pipe 3 jointly form a siphon acceleration overflow device 11, and as shown in fig. 2, when the water tanks have a plurality of stages, the.

The working principle of the invention and the beneficial effects brought by the invention are explained as follows: as shown in FIG. 2, initially, there is no water in all the water tanks 9, the tap water flows from the water inlet pipe 4 into the first water tank 9, i.e. the left water tank 9 in FIG. 1, the water in this water tank 9 overflows the upper end orifice of the overflow pipe 2 inside the water tank, the water flows from the communicating pipe 1 to the next water tank 9, i.e. the right water tank 9 in FIG. 1, the water discharge pipe 5 can be sealed at the beginning, the water can be filled into each water tank 9 quickly, after the water is filled, each water pump 6 starts to work, the flushing work starts, the workpiece 20 is loaded by the conveying device 21 to run against the multi-stage water tanks, i.e. the workpiece 20 is conveyed from the last water tank 9 to the first water tank 9, the water washing nozzle 8 flushes the workpiece 20, the workpiece 20 takes away a small amount of water, most of the water flows back to the lower water tank 9, clean water is continuously replenished from the water inlet pipe 4, in the process, the water pump 6 generates suction force to the upper end nozzle of the siphon 3, the suction force is caused by that water at the position rapidly flows from the periphery to enter the water inlet 601 of the water pump 6, the flowing speed is high, the pressure at the upper end nozzle of the siphon 3 is relatively low, the water at the upper end nozzle of the siphon 3 is also sucked by the water pump 6 to flow, the water pressure in the siphon 3 is simultaneously reduced, at the same time, similar to the siphon principle, the low pressure appears in the pipe due to the flowing of the water in the pipe, so the water is continuously supplemented from the relatively high pressure position to the low pressure position, the concrete expression is that the water is sucked from the upper end nozzle of the relative upper-level overflow pipe 2 to enter the water pump 6, if the water level of the upper-level water tank 9 is relatively high, the water slowly overflows to the lower-level lower-, a or B that FIG. 1 shows is the surface of water position of illustration, when being less than A or B surface of water in FIG. 1, siphon and overflow all automatic stop, even make many levels basin establish ties, the water head also can not be too big, under the not very big condition of displacement, according to the in-service use condition, the water level that can set up basin 9 even is reverse to increase step by step, the water pump 6 volume of drawing water also does not receive the influence simultaneously, because the siphon effect stops the back, water in this level basin 9 still can flow into water inlet 601 fast, carry out the basin inner loop, the not enough condition of spray volume can not appear. As shown in fig. 3, each stage of the multi-stage sink of the prior art is separated by an overflow baffle 12 with gradually decreasing height, and because the natural overflow flow rate is insufficient, the water level of the upper stage sink is particularly high, so that the water level of the sink is set to be gradually decreased to prevent water from overflowing outside the first sink, if the sink has many stages, the water level difference is very large, other supporting equipment is difficult to adapt, and the operation of personnel is inconvenient, therefore, the invention is a great progress compared with the prior art; some prior arts may use a liquid level sensor to cooperate with an automatically controlled independent water pump to slow down or adjust the water level of each water tank, but this way greatly increases the cost, and when the sensor fails, other adverse effects may be brought, and the overflow pipe 2 of the present invention is vertically arranged, and has the functions of overflow and water pumping balance water level, so as to realize the function of automatically stopping water pumping when the water level reaches the set position, compared with the prior arts, the present invention has the advantages of cost and energy saving, and higher reliability, and the unexpected effect is that, if a water body detention area is formed due to extremely high local water flow resistance caused by the blockage of other external devices in the relative upper water tank 9, the communicating pipe 1 can be lengthened, the overflow pipe 2 can be arranged in these areas, as the overlooking direction shown in fig. 4 schematically shows this situation, the overflow pipe 2 can rapidly pump away the water in these areas, the water in the upper water tank is relatively clean and the water level is stable, which is an effect that the prior art shown in the attached figure 3 can not realize.

Further, as shown in fig. 1, an overflow water level regulator 201 is arranged at the upper end of the overflow pipe 2, the overflow water level regulator 201 is tubular, the lower end of the overflow water level regulator 201 is movably and vertically fitted at the upper end of the overflow pipe 2, the inner diameter of the overflow water level regulator 201 and the outer diameter of the upper end of the overflow pipe 2 are in transition fit, so that the overflow water level regulator 201 can be pushed and pulled by hand to move relative to the overflow pipe 2, and the purpose of regulating the water level of the water tank 9 is achieved, and thus, the water level of each water tank 9 can be regulated independently according to actual use conditions, so that the invention has good adaptability and indirectly reduces production cost.

Further, the lower end of the overflow water level regulator 201 is in threaded connection with the upper end of the overflow pipe 2, so that the overflow water level regulator 201 can adjust the water level of the water tank more conveniently and easily.

Furthermore, the siphon pipe 3 is vertically arranged, so that the water pump 6 is convenient to adapt to installation and pipeline arrangement, the upper end part of the siphon pipe 3 is provided with the siphon regulator 301 for regulating siphon quantity, the siphon regulator 301 is tubular, the siphon regulator 301 is sleeved at the upper end part of the siphon pipe 3 through threads, and the upper end opening of the siphon regulator 301 is close to the water inlet 601.

Furthermore, the overflow pipe 2, the communication pipe 1 and the siphon pipe 3 are integrated, and the pipe similar to the U shape shown in fig. 1 can be simply manufactured by adopting a method of heating the plastic pipe and then bending the plastic pipe.

Further, the drain pipe 5 is provided with a drain overflow portion 501, the drain overflow portion 501 is vertically arranged, the upper end of the drain overflow portion 501 is screwed with the overflow water level regulator 201, and through the arrangement, the drain pipe 5 can take overflow and pollution discharge effects into consideration, and the effect of saving materials is achieved.

Claims

1. A siphon overflow rinsing bath is characterized in that: comprises at least two water tanks (9), wherein the water tanks (9) are arranged end to end in a grounding way, the water inlet pipe (4) used for supplementing clean water is arranged at the water tank (9) at the head, the water drain pipe (5) used for discharging sewage is arranged at the water tank (9) at the tail, the water pump (6) is installed at each water tank (9), the water pump (6) comprises a water inlet (601) and a water outlet (602), the water outlet (602) is connected with a washing pipeline (7), the washing pipeline (7) is connected with a washing nozzle (8) used for cleaning objects, the washing nozzle (8) is arranged above the corresponding water tank (9), a communicating pipe (1) used for communicating two adjacent water tanks (9) is arranged between the adjacent water tanks (9), one end of the communicating pipe (1) in the opposite superior water tank (9) is connected with an overflow pipe (2), and the overflow pipe (2) is vertically arranged, the siphon pipe (3) is arranged at one end, in the lower-level water tank (9), of the communication pipe (1), one end of the siphon pipe (3) is connected with the communication pipe (1), the other end, corresponding to the siphon pipe (3), of the siphon pipe is opposite to a water inlet (601) close to the lower-level water tank (9), the overflow pipe (2) is communicated with the siphon pipe (3) through the communication pipe (1), and the height position of an upper end pipe orifice of the overflow pipe (2) is higher than the height position of one end pipe orifice, close to the water inlet (601), of the siphon pipe (3).

2. The siphon overflow rinsing bath according to claim 1, characterized in that: the overflow device is characterized in that an overflow water level regulator (201) used for regulating the height of an overflow water level is arranged at the upper end of the overflow pipe (2), the overflow water level regulator (201) is tubular, and the lower end of the overflow water level regulator (201) is movably mounted at the upper end of the overflow pipe (2) in a matching mode in a vertically movable mode.

3. The siphon overflow sink of claim 2, wherein: the lower end part of the overflow water level regulator (201) is in threaded connection with the upper end part of the overflow pipe (2).

4. The siphon overflow rinsing bath according to claim 1, characterized in that: the vertical setting of siphon (3), siphon (3) upper end is equipped with siphon regulator (301) that are used for adjusting the siphon volume, siphon regulator (301) are the tubulose, siphon regulator (301) cup joint through the screw siphon (3) upper end, the upper end mouth of pipe of siphon regulator (301) is close to water inlet (601).

5. The siphon overflow rinsing bath according to claim 1, characterized in that: the overflow pipe (2), the communicating pipe (1) and the siphon pipe (3) are integrated.

6. The siphon overflow rinsing bath according to claim 3, characterized in that: the drain pipe (5) is provided with a drainage overflow part (501), the drainage overflow part (501) is vertically arranged, and the upper end of the drainage overflow part (501) is in threaded connection with the overflow water level regulator (201).