CN203985594U - Variable height sewage discharger - Google Patents

Abstract

The utility model provides a kind of variable height sewage discharger, comprise base, circulation groove, inner and outer tubes, circulation groove is set on base, inner tube is located in base, and outer tube sleeve is located on circulation groove, and outer tube sleeve is located at outside inner tube, the height of inner tube upper surface is lower than the height of outer tube upper surface, base is provided with the first double wedge, and circulation groove is provided with the draw-in groove of multiple different length, and the first double wedge of base is fastened in draw-in groove.The first double wedge of base is stuck in the draw-in groove of different length on circulation groove, and the height of circulation groove is also thereupon different.If the first double wedge is fastened in the draw-in groove that length is less, the height of circulation groove is lower; If the first double wedge card is established in the draw-in groove that length is larger, the height of circulation groove is higher.And circulation groove is directly connected with outer tube, the lifting of circulation groove height makes the corresponding lifting of the height of outer tube, and the height of outlet of sewer is also by corresponding raising.

Description

Variable height sewage discharger

Technical field

The utility model belongs to the drainage of fish jar, more specifically relates to a kind of variable height sewage discharger.

Background technology

People are in the process of breeding fish, in order to increase the degree of viewing and admiring of fish jar, can add various sands, handstone etc. in fish jar bottom, if when the height of the sand adding and handstone is higher, can affect the discharge of fish jar sewage, and then affect the work of the whole filtration system of fish jar.

Utility model content

In order to solve the problems of the technologies described above, the utility model provides a kind of can carry out the sewage discharger highly regulating according to the thickness of the sand of fish jar bottom and handstone.

In order to reach above-mentioned technical purpose, the technical solution of the utility model is as follows:

Variable height sewage discharger, comprise base, circulation groove, inner and outer tubes, circulation groove is set on base, inner tube is located in base, and outer tube sleeve is located on circulation groove, and outer tube sleeve is located at outside inner tube, the height of inner tube upper surface is lower than the height of outer tube upper surface, base is provided with the first double wedge, and circulation groove is provided with the draw-in groove of multiple different length, and the first double wedge of base is fastened in draw-in groove.

Its beneficial effect is: the first double wedge of base is stuck in the draw-in groove of different length on circulation groove, and the height of circulation groove is also thereupon different.If the first double wedge is fastened in the draw-in groove that length is less, the height of circulation groove is lower; If the first double wedge card is established in the draw-in groove that length is larger, the height of circulation groove is higher.And circulation groove is directly connected with outer tube, the lifting of circulation groove height makes the corresponding lifting of the height of outer tube, and the height of outlet of sewer is also by corresponding raising.

In some embodiments, base is equipped with heightening ring, is provided with the second draw-in groove in heightening ring, and the first double wedge is fastened in the second groove, increases outside circle and is provided with the second double wedge, and the second double wedge is fastened in the first draw-in groove.

Its beneficial effect is: in the time that the draw-in groove that on circulation groove, length is the longest cannot meet the thickness requirement of fish jar bottom sand, can improve with heightening ring the height of outfall.

In some embodiments, on base, be equipped with the first heightening ring, on the first heightening ring, be arranged with the second heightening ring, in the first heightening ring, be provided with the first groove, the first heightening ring is provided with the second double wedge outward, is provided with the second groove in the second heightening ring, the second heightening ring is provided with the 3rd double wedge outward, the first double wedge is fastened in the first groove, and the second double wedge is fastened in the second groove, and the 3rd double wedge is fastened in draw-in groove.

Its beneficial effect is: the height that can increase with two even multiple heightening rings outfall.

Brief description of the drawings

Fig. 1 is the exploded perspective view of the variable height sewage discharger of the utility model embodiment mono-;

Fig. 2 is the cross-sectional schematic of the variable height sewage discharger of the utility model embodiment mono-;

Fig. 3 is that the master of the base of the variable height sewage discharger of the utility model embodiment mono-looks schematic diagram;

Fig. 4 is the schematic top plan view of the base of the variable height sewage discharger of the utility model embodiment mono-;

Fig. 5 is the elevational schematic view of the base of the variable height sewage discharger of the utility model embodiment mono-;

Fig. 6 is the structural representation of the circulation groove of the variable height sewage discharger of the utility model embodiment mono-;

Fig. 7 is that the master of the circulation groove of the variable height sewage discharger of the utility model embodiment mono-looks schematic diagram;

Fig. 8 is the schematic top plan view of the circulation groove of the variable height sewage discharger of the utility model embodiment mono-;

Fig. 9 is the elevational schematic view of the circulation groove of the variable height sewage discharger of the utility model embodiment mono-;

Figure 10 is the exploded perspective view of the variable height sewage discharger of the utility model embodiment bis-;

Figure 11 is the structural representation of the heightening ring of the variable height sewage discharger of the utility model embodiment bis-;

Figure 12 is that the master of the heightening ring of the variable height sewage discharger of the utility model embodiment bis-looks schematic diagram;

Figure 13 is the schematic top plan view of the heightening ring of the variable height sewage discharger of the utility model embodiment bis-;

Figure 14 is the elevational schematic view of the heightening ring of the variable height sewage discharger of the utility model embodiment bis-;

Figure 15 is the exploded perspective view of the variable height sewage discharger of the utility model embodiment tri-.

Embodiment

Below in conjunction with accompanying drawing, the utility model will be further described.

Embodiment mono-

As shown in Fig. 1～2, variable height sewage discharger comprises base 1, circulation groove 2, inner tube 3 and outer tube 4.Circulation groove 2 is set on base 1, and inner tube 3 is set in base 1, and outer tube 4 is set on circulation groove 2, and outer tube 4 is set in outside inner tube 3, inner tube 3 upper surfaces height lower than the height of outer tube 4 upper surfaces.

As shown in Fig. 3～5, base 1 comprises chassis 11 and tube connector 12, and chassis 11 and tube connector 12 are integrated.Chassis 11 is provided with the octagon of through hole for middle part, and the endoporus of tube connector 12 is connected with the through hole on chassis 11.The lateral wall of tube connector 12 is provided with 121, four the first double wedges 121 of four the first double wedges by the end face circle quartering of tube connector 12.

As shown in Fig. 6～9, circulation groove 2 is class cylindrical shape, the side of circulation groove 2 is provided with many grooves, the length that offers four the first draw-in grooves 21, four the second draw-in groove 22, four the 3rd draw-in grooves 23 and four the 4th draw-in groove 24, the first draw-in grooves 21, the second draw-in groove 22, the 3rd draw-in groove 23 and the 4th draw-in grooves 24 in many articles of grooves of circulation groove 2 increases successively.The bottom surface circle of circulation groove 2 is divided into the quartering by four the first draw-in grooves 21, the bottom surface circle of circulation groove 2 is divided into the quartering by four the second draw-in grooves 22, the bottom surface circle of circulation groove 2 is divided into the quartering by four the 3rd draw-in grooves 23, and the bottom surface circle of circulation groove 2 is divided into the quartering by four the 4th draw-in grooves 24.

When the thickness of fish jar bottom sand hour, four of base 1 the first double wedges 121 are fastened on respectively in four the first draw-in grooves 21 of circulation groove 2, outer tube 4 is set on circulation groove 2, inner tube 3 is set on the tube connector 12 of base 1.The height of outer tube 4 upper surfaces is higher than the height of inner tube 3 upper surfaces.Sewage in fish jar flows in the gap between outer tube 4 and inner tube 3 by the gap between groove and the outer tube 4 of circulation groove 2, then passes through the through hole discharge on the chassis 11 of inner tube 3 and base 1.Along with the increase of fish jar bottom sand thickness, four of base 1 the first double wedge 121 can be fastened in four the second draw-in grooves 21 of circulation groove 2 or four the 3rd draw-in grooves 23 or four the 4th draw-in grooves 24 to increase the height of outfall.

Embodiment bis-

On the basis of embodiment mono-, when four the first double wedges 121 of base 1 are fastened on respectively in four the 4th draw-in grooves 24 of circulation groove 2, be that the height of outfall is while having reached the highest, still cannot meet the demands, in the present embodiment, as shown in figure 10, a heightening ring is set between circulation groove 2 and base 1.

As shown in Figure 11～14, the first heightening ring 5 comprises that the first body 51 and the second body 52, the first bodys 51 and the second body 52 are integrated, and the diameter of the first body 51 is greater than the diameter of the second body 52.The madial wall of the first body 51 is provided with 511, four the first grooves 511 of four the first grooves by the end face circle quartering of the first body 51.The lateral wall of the second body 52 is provided with 521, four the second double wedges 521 of four the second double wedges by the end face circle quartering of the second body 52.

The first double wedge 121 of base 1 is fastened in the second groove 511 of the first heightening ring 5, four of the first heightening ring 5 the second double wedges 521 are fastened on respectively in four the 4th draw-in grooves 24 of circulation groove 2, inner tube 3 is located in the second body 52 of the first heightening ring 5, and outer tube 4 is set on circulation groove 2.In the present embodiment, the height of outfall has been improved to the height of first heightening ring 5 compared with the maximum sewage draining exit of embodiment mono-.

Embodiment tri-

On the basis of embodiment bis-, as shown in figure 15, two heightening rings are set between base 1 and circulation groove 2, two heightening rings are set between base and circulation groove 2, the height of outfall can have been improved on the basis of embodiment bis-to the height of a heightening ring again.

The second heightening ring 6 comprises the 3rd body and the 4th body, and the 3rd body and the 4th body are integrated, and the diameter of the 3rd body is greater than the diameter of the 4th body.The madial wall of the 3rd body is provided with four the second grooves, and four the second grooves are by the end face circle quartering of the 3rd body.The lateral wall of the 4th body is provided with four the 3rd double wedges, and four the 3rd double wedges are by the end face circle quartering of the 4th body.

The first double wedge 121 of base 1 is fastened in the first groove 511 of the first heightening ring 5, the second double wedge 521 of the first heightening ring 5 is arranged with in the second groove 611 of the second heightening ring 6, thereby the second heightening ring 6 and the first heightening ring 5 are coupled together, the 3rd double wedge 621 of the second heightening ring 6 is fastened in the 4th draw-in groove 24 of circulation groove 5, inner tube 3 is located in the 4th body of the second heightening ring, and outer tube 4 is set on circulation groove 2.

In actual applications, can be according to the thickness of fish jar bottom sand, the first double wedge 121 of base 1 is stuck in to the height of adjusting outfall in the draw-in groove of differing heights of circulation groove 2, or between base 1 and circulation groove 2, adjust the height of outfall by the number of increase and decrease heightening ring simultaneously, the height of outfall can be regulated arbitrarily.

Above-described is only the preferred embodiment of the utility model variable height sewage discharger; to those skilled in the art; not paying under the prerequisite of creative work, can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (3)

1. variable height sewage discharger, it is characterized in that, comprise base, circulation groove, inner and outer tubes, described circulation groove is set on described base, described inner tube is located in described base, described outer tube sleeve is located on described circulation groove, described outer tube sleeve is located at outside described inner tube, the height of described inner tube upper surface is lower than the height of described outer tube upper surface, described base is provided with the first double wedge, described circulation groove is provided with the draw-in groove of multiple different length, and the first double wedge of described base is fastened in described draw-in groove.

2. variable height sewage discharger according to claim 1, it is characterized in that, on described base, be arranged with the first heightening ring, in described the first heightening ring, be provided with the first groove, described the first double wedge is fastened in described the first groove, and described the first heightening ring is provided with the second double wedge outward, and described the second double wedge is fastened in described draw-in groove, described inner tube is fastened in described the first heightening ring, and described outer tube sleeve is located on described circulation groove.

3. variable height sewage discharger according to claim 1, it is characterized in that, on described base, be equipped with the first heightening ring, on described the first heightening ring, be arranged with the second heightening ring, in described the first heightening ring, be provided with the first groove, described the first heightening ring is provided with the second double wedge outward, in described the second heightening ring, be provided with the second groove, described the second heightening ring is provided with the 3rd double wedge outward, described the first double wedge is fastened in described the first groove, described the second double wedge is fastened in described the second groove, described the 3rd double wedge is fastened in described draw-in groove, described inner tube is fastened in described the second heightening ring, described outer tube sleeve is located on described circulation groove.