CN202849794U - Reversing structure for high-temperature cheese dyeing machine - Google Patents

Abstract

The utility model provides a reversing structure for a high-temperature cheese dyeing machine. According to the reversing structure for the high-temperature cheese dyeing machine, pressure water in a water pump directly flows into a pipeline, and then is directly conveyed into a water inlet of a groove body through the pipeline; and the whole water flow circulates in one direction. The reversing structure for the high-temperature cheese dyeing machine has a simple internal structure and is low in manufacture cost; due to one-direction circulating, the reversing structure has low water consumption and a super-low bath ratio, saves a large amount of dyeing materials and steam, reduces discharge capacity, is low in dyeing cost and achieves the purposes of energy conservation and environment protection; and moreover, the internal structure only needs to bear the impact of the water under the one-direction circulating, so that abrasion of the internal structure is low, equipment is hard to damage, and service life of the equipment is long. The reversing structure for the high-temperature cheese dyeing machine comprises an upper groove body and a water pump, and is characterized in that a water outlet of the upper groove body is connected with an inlet of a water pump through a bend; an outlet of the water pump is communicated to a water inlet of the upper groove body; elbows are connected from the outlet of the water pump to the water inlet of the upper groove body; and corners of an outer shell of the elbow are all in curve transition.

Description

A kind of commutating structure of high temperature yarn package dyeing machine

Technical field

The utility model relates to the technical field of yarn package dyeing machine structure, is specially a kind of commutating structure of high temperature yarn package dyeing machine.

Background technology

The commutating structure of existing yarn package dyeing machine, China Patent No. ZL200520074155.6, September 13 2006 Granted publication day, patent name is " commutating structure of cone dyeing machine ", its content is seen Fig. 1, Fig. 2: it comprises takes over 10, take over 10 along take over 8 radially be plugged in take over 8 and with take over 8 and pass through mutually and communicate, adapter 8 takes over 7 along radially being plugged in of adapter 7, adapter 7 takes over 6 along radially being plugged in of adapter 6, the top 9 of adapter 6 is the taper type guard, taking in 10, along take over 10 be axially installed with steering spindle 1, it is dull and stereotyped skilful that steering spindle 1 is set with commutation, and commutation dull and stereotyped 15 contact and will take over 10 left end and right-hand member with the inwall of taking over 10 and take over 8 top and bottom and separates, and steering spindle 1 is by turning to drives structure and adapter 6 to be tightly connected.Turn to drives structure to comprise commutation end cap 5, end-cap assembly 16, connect between the two, commutation end cap 5 is tightly connected with the flange 17 that is installed on adapter 6, end-cap assembly 16 is set in steering spindle 1, steering spindle 1 is set with bearing 18, both sides at bearing 18, steering spindle l is respectively installed with bearing (ball) cover 3 and bearing block 4, be connected with screw between bearing (ball) cover 3 and the bearing block 4, bearing block 4 is connected with end-cap assembly 16, periphery at rotating shaft l is set with cylinder seat 2, and cylinder seat 2 is connected with bearing block 4.

This commutating structure need to guide whole liquid flow system to carry out forward circulation, recycled back under the diverse location state of commutation flat board, its internal structure is complicated, manufacturing cost is high, and owing to need forward circulation, recycled back, what need that abundant water can guarantee to dye normally carries out, its bath raio is large, and the consumption rate that causes water is large, dye material, steam consumption is large, and the whole dyeing course time, cost long, dyeing was high; Owing to forward circulation, recycled back need hocket, so that the wearing and tearing of internal structure are large, increased the damage of equipment simultaneously, so that the working life of equipment is short.

Summary of the invention

For the problems referred to above, the utility model provides a kind of commutating structure of high temperature yarn package dyeing machine, and it is so that the press water in the water pump directly is passed into pipeline, and the cell body water inlet directly sent into press water by pipeline, whole current one-way circulation, internal structure is simple, low cost of manufacture; One-way circulation is so that the consumption of water is little, bath raio is ultralow, save a large amount of dye material and steam, minimizing blowdown flow rate, the dyeing cost is low, reaches the purpose of energy-conserving and environment-protective; In addition, internal structure only need be born the impact of the water of one-way circulation, so that the wearing and tearing of internal structure are little, equipment is not fragile, so that the long working life of equipment.

A kind of commutating structure of high temperature yarn package dyeing machine, its technical scheme is such: it comprises the top cell body, water pump, it is characterized in that: the delivery port of described top cell body connects the entrance of described water pump by bend pipe, the outlet of described water pump is communicated to the water inlet of described top cell body, the water inlet that is exported to described top cell body of described water pump is connected with elbow, the equal arc transition in shell body corner of described elbow, space between the shell body of described bend pipe and described elbow forms the pipeline of arc transition, described elbow, bend pipe all is positioned at enclosure interior, the delivery port of described top cell body, the water inlet of top cell body is separate, be not communicated with.

It is further characterized in that: described pipeline connection is to the bottom drainpipe;

Described bend pipe is circumscribed with water inlet pipe;

Described bend pipe is circumscribed with charge pipe.

After adopting the utility model, because the delivery port of described top cell body connects the entrance of described water pump by bend pipe, the outlet of described water pump is communicated to the water inlet of described top cell body, only surplus circulation of total inside, the water inlet that is exported to the top cell body of water pump is connected with elbow, the equal arc transition in shell body corner of elbow, space between the shell body of bend pipe and described elbow forms the pipeline of arc transition, press water in the water pump directly is passed into pipeline, the cell body water inlet directly sent into press water by pipeline, whole current one-way circulation, internal structure is simple, low cost of manufacture; One-way circulation is so that the consumption of water is little, bath raio is ultralow, save a large amount of dye material and steam, minimizing blowdown flow rate, the dyeing cost is low, reaches the purpose of energy-conserving and environment-protective; In addition, internal structure only need be born the impact of the water of one-way circulation, so that the wearing and tearing of internal structure are little, equipment is not fragile, so that the long working life of equipment; And because the space between the shell body of bend pipe and described elbow forms the pipeline of arc transition, it is so that the press water in the water pump directly is passed into pipeline, the cell body water inlet directly sent into press water by pipeline, so that the pressure that water pump need not provide extra pressure to guarantee the press water of cell body inside, and then reach the purpose of energy-conserving and environment-protective.

Description of drawings

Fig. 1 is the commutating structure view one of existing high temperature yarn package dyeing machine;

Fig. 2 is the commutating structure view two of existing high temperature yarn package dyeing machine;

Fig. 3 is front view structural representation of the present utility model.

The specific embodiment

See Fig. 3, it comprises top cell body 1, water pump 2, bend pipe 3, the delivery port 4 of top cell body 1 connects the entrance 5 of water pump 2 by bend pipe 3, the outlet 6 of water pump 2 is communicated to the water inlet 7 of top cell body 1, the outlet 6 of water pump 2 to the water inlet 7 of top cell body 1 is connected with elbow 8, the equal arc transition 9 in the shell body corner of elbow 8, the space between the shell body of bend pipe 3 and elbow 8 forms the pipeline 11 of arc transition, and bend pipe 3 and elbow 8 are positioned at housing 10 inside.Pipeline 11 is communicated to bottom drainpipe 12; Bend pipe 3 is circumscribed with water inlet pipe (not shown in FIG., as to belong to existing mature technology); Bend pipe 3 is circumscribed with charge pipe 13, and the feeding end of charge pipe 13 passes the internal cavity that passes into bend pipe 3 behind housing 10, the elbow 8; The delivery port 4 of top cell body 1, the water inlet 7 of top cell body 1 do not interconnect.14 is blast pipe among the figure.Arrow is the flow direction of water among the figure.

Claims (4)

1. the commutating structure of a high temperature yarn package dyeing machine, it comprises the top cell body, water pump, it is characterized in that: the delivery port of described top cell body connects the entrance of described water pump by bend pipe, the outlet of described water pump is communicated to the water inlet of described top cell body, the water inlet that is exported to described top cell body of described water pump is connected with elbow, the equal arc transition in shell body corner of described elbow, space between the shell body of described bend pipe and described elbow forms the pipeline of arc transition, described elbow, bend pipe all is positioned at enclosure interior, the delivery port of described top cell body, the water inlet of top cell body is separate, be not communicated with.

2. the commutating structure of a kind of high temperature yarn package dyeing machine according to claim 1, it is characterized in that: described pipeline connection is to the bottom drainpipe.

3. the commutating structure of a kind of high temperature yarn package dyeing machine according to claim 1, it is characterized in that: described bend pipe is circumscribed with water inlet pipe.

4. the commutating structure of a kind of high temperature yarn package dyeing machine according to claim 1, it is characterized in that: described bend pipe is circumscribed with charge pipe.

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