CN205362242U - Rotation type torrent tube coupling can water cooling device - Google Patents

Abstract

(B, ) the utility model discloses a rotation type torrent tube coupling can water cooling device is equipped with initiative bushing pipe and in large quantities in 1 driven bushing pipe in bushing pipe support intraductal chamber in proper order, and the outer wall processing of initiative bushing pipe has drive gear. Managing the front end outer wall in the bushing pipe support and being equipped with the driven gear case, it has driven gear to adorn on the driven gear of driven gear incasement case rotation axis, and driven gear each other is the meshing with drive gear. There is each other driving gear box and driving gear box protecgulum for linking to each other on the top of driven gear case, is equipped with each other to be arranged in or to pass the bearing of driving gear box and driving gear box protecgulum for two of the driving gear rotation axis of the driving gear of meshing with driven gear, and the rotatory epaxial rotation axis Y type sealing washer of driving gear is inlayed in the driving gear box protecgulum, and the hubcap is continuous with the driving gear protecgulum. The rotation of owner / driven bushing pipe synchronous revolution and mill bar can be realized to this kind of device, improves whole device life, hot exchange ratio and mill bar yield, has practicality and spreading value. (B, )

Description

The energy-conservation Water cooling device of rotary turbulent pipe

Technical field

This utility model relates to a kind of chiller, particularly relates to a kind of spiral in industry with civil buildings and makes spiral cooling uniformly in During Controlled Rolling and reduce/reduce as far as possible the energy-conservation Water cooling device of rotary turbulent pipe of surface abrasion.

Background technology

Also adopting control refrigeration technique spiral to carry out Water cooling to improve intensity (but adding fragility) at present in the spiral operation of rolling after last one pass (i.e. K1 pass), the technique/device generally adopted when spiral Water cooling is it to be allowed to cool through a stocking passageway or bushing pipe.Having CN203678885U " the combined device of Water cooling without steam " and application number before this utility model is 201510196208.X " Chuan Shui mechanism ".General structure is its position of many turbulent pipe installed in bushing pipe in stocking cooling procedure is changeless, can not rotate as required or rotate, so in spiral Water cooling process, its one side (namely near the one side of turbulent pipe) is total contacts with the bottom surface of turbulent pipe or rubs, after one use period, the bottom surface of turbulent pipe is worn, and needs stop production to overhaul to change；It is worn by the contact surface also distinct program of the spiral of Water cooling simultaneously, reduces quality.Wear wetting system because shortening service life, add maintenance capacity and production cost, have much room for improvement.

Summary of the invention

The purpose of this utility model is in that providing a kind of improves turbulent pipe service life, spiral cooling effect and then improve yield rate and improve the energy-conservation Water cooling device of rotary turbulent pipe of rate of heat exchange.

For achieving the above object, the technical solution adopted in the utility model is: the energy-conservation Water cooling device of the rotary turbulent pipe of described one includes driving gear rotating shaft, hubcap, rotating shaft y-type seal ring, drive gear carrier protecgulum, drive gear carrier, driven tooth roller box, clutch shaft bearing and the second bearing, driven gear, actively bushing pipe, driven bushing pipe, bushing pipe support tube, nozzle carrier, stocking tail end pipe, stocking inlet tube, water inlet pipe, needle roller, driving gear, driven gear rotating shaft and travelling gear, it is connected with stocking inlet tube with one end of the nozzle carrier of water inlet pipe connection, the other end of nozzle carrier is connected with the front end of bushing pipe support tube.Be equipped with actively bushing pipe and the quantity driven bushing pipe more than 1 successively near nozzle carrier at the inner chamber of bushing pipe support tube, actively bushing pipe, driven bushing pipe with between bushing pipe support tube equipped with uniform or nonuniform mutation operator and quantity the needle roller more than 1.Upper side wall in the bushing pipe support tube front end near nozzle carrier is provided with driven tooth roller box, and position, intermediate portion is loaded in the clutch shaft bearing of driven gear chamber interior wall equipped with two of the driven gear rotating shaft of driven gear.Processing/be equipped with travelling gear on the outer wall of active bushing pipe, driven gear engages each other with travelling gear.Interconnective drive gear carrier and drive gear carrier protecgulum are installed on the top of driven tooth roller box, at the symmetrical inwall of drive gear carrier and drive gear carrier protecgulum equipped with the second bearing, two equipped with the driving gear rotating shaft of driving gear is arranged in the second bearing, and driving gear engages each other with driven gear.Being loaded on and be embedded in drive gear carrier protecgulum through the rotating shaft y-type seal ring on the driving gear rotating shaft of the second bearing and drive gear carrier protecgulum, the hubcap being sleeved on driving gear rotating shaft is connected by same drive gear carrier protecgulum.

The diameter of driving gear is more than or equal to the diameter of driven gear, and the diameter of driving gear is equal to or more than the diameter of travelling gear.

Adopt the energy-conservation Water cooling device of the rotary turbulent pipe of one such as technique scheme offer compared with prior art, have the technical effect that

1. adopt the rotary turbulent pipe of adjustable constant-speed, make the stocking (such as spiral) being cooled, when cooling, the eccentric wear to turbulent pipe inwall will not occur, improve the service life of turbulent pipe.

2. utilize the breaking of surface steam blanket when spinning up stocking Water cooling of turbulent pipe, make the steam-energy produced during Water cooling discharge quickly through semicircle orifice between pipe and tail end pipe outer tube in tail end pipe, take away heat, rate of heat exchange more than 20% can be improved.

3. adopt the rotary turbulent pipe of adjustable constant-speed, make iron scale that stocking produces when Water cooling not wearing water pipe inner accumulated and discharge in time, improve turbulent pipe service efficiency, reduce turbulent pipe replacing construction and reduction maintenance cost.

4. cooling effect during stocking Water cooling is more uniform, improves stocking (spiral) yield rate.

Accompanying drawing explanation

Fig. 1 is the assembling cross-sectional schematic of the energy-conservation Water cooling device of a kind of rotary turbulent pipe described in the utility model, is also Figure of abstract of the present utility model.

Fig. 2 is the B place enlarged diagram of Fig. 1.

Fig. 3 is the A A line section view enlarged diagram along Fig. 1.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in further detail.

As shown in drawings, the energy-conservation Water cooling device of the rotary turbulent pipe of one described in the utility model includes driving gear rotating shaft 1, hubcap 2, rotating shaft y-type seal ring 3, drive gear carrier protecgulum 4, drive gear carrier 5, driven tooth roller box 6, clutch shaft bearing 7(is also referred to as driven gear axle box bearing 7), driven gear 8, actively bushing pipe 9, driven bushing pipe 11, bushing pipe support tube 12, nozzle carrier 13, stocking tail end pipe 14, stocking inlet tube 15, water inlet pipe 16, needle roller 17, driving gear 18, driven gear rotating shaft 19, second bearing 20(is also referred to as driving gear axle box bearing 20), travelling gear 21(is also referred to as driving cog torus 21), wherein stocking tail end pipe 14, stocking inlet tube 15, water inlet pipe 16 is prior art.Being connected with stocking inlet tube 15 with one end of nozzle carrier 13 of water inlet pipe 16 connection and connect, and the other end of nozzle carrier 13 is connected with the front end of bushing pipe support tube 12 and connects, bushing pipe tail end pipe 14 is connected with the end of bushing pipe support tube 12 and connects.

Inner chamber at bushing pipe support tube 12 is equipped with actively bushing pipe 9 and the quantity driven bushing pipe 11 more than 1 successively near nozzle carrier 13, and actively bushing pipe 9 and driven bushing pipe 11 constitute rotary turbulent pipe.Actively bushing pipe 9 with between driven bushing pipe 11, each driven bushing pipe 11 is connected with each other to each other.(such as Fig. 3) actively bushing pipe 9, driven bushing pipe 11 with between bushing pipe support tube 12 equipped with the quantity needle roller 17 more than 1, and needle roller 17 can uniformly or nonuniform mutation operator.Structure, actively bushing pipe 9 and driven bushing pipe 11 constitute bearing arrangement by needle roller 17 with bushing pipe support tube 12 inwall, make active bushing pipe 9 and the quantity driven bushing pipe 11 more than 1 at bushing pipe support tube 12 inner chamber flexible rotating at the uniform velocity again.

(Fig. 1,2) to be provided with driven tooth roller box 6 as described in driven tooth roller box 6(at the upper side wall of bushing pipe support tube 12 front end near nozzle carrier 13 best for cube shape), at symmetrical two inwalls of driven tooth roller box 6 equipped with clutch shaft bearing 7 and the bearing block that matches with it, position, intermediate portion is loaded in clutch shaft bearing 7 equipped with two of the driven gear rotating shaft 19 of driven gear 8.Described driven gear 8 engages at the travelling gear 21 of active bushing pipe 9 outer wall each other with processing, wherein said travelling gear 21 can also be mounted in the gear ring on active bushing pipe 9 outer wall, the modulus making driven gear 8 during making is equal with the modulus of travelling gear 21, but the diameter of the diameter of driven gear 8 travelling gear 21 that is smaller than on actively bushing pipe 9.

Be provided with (shape is identical) drive gear carrier 5 and drive gear carrier protecgulum 4 on the top of driven tooth roller box 6, drive gear carrier 5 interconnects (bolt connects or welding) with drive gear carrier protecgulum 4.At the symmetrical inwall of drive gear carrier 5 and drive gear carrier protecgulum 4 equipped with the second bearing 20 and the bearing block that matches with it, two equipped with the driving gear rotating shaft 1 of driving gear 18 is arranged in the second bearing 20, being loaded on to be embedded in drive gear carrier protecgulum 4 through the rotating shaft y-type seal ring 3 on the driving gear rotating shaft 1 of the second bearing 20 and drive gear carrier protecgulum 4 and formed with driving gear rotating shaft 1 and seal structure, the hubcap 2 being sleeved on driving gear rotating shaft 1 is connected (best is that firm screw connects or is connected) with drive gear carrier protecgulum 4.

Assembling attached, driving gear 18 engages each other with driven gear 8, and the diameter of driving gear 18 is more than or equal to the diameter from first gear 8, but the diameter of driving gear 18 is equal to or more than the diameter of travelling gear 21.Drive driven gear 8 to rotate when driving gear 18 rotates, rotation and then the band nutating gear 21 of driven gear 8 rotate.The rotation of the described driving gear rotating shaft 1 being fixedly connected with driving gear 18 can be that motor drives or hydraulic-driven, known technology.When driving gear rotating shaft 1 rotates, drive driving gear 18, driven gear 8 and travelling gear 21 to rotate simultaneously, because travelling gear 21 is processing or is assemblied in the travelling gear on active bushing pipe 9 separately, so actively the rotation of bushing pipe 9 can drive the quantity being attached thereto driven bushing pipe 11 synchronous rotary more than 1, form rotary turbulent pipe form.

When controlling after cold stocking (being often referred to spiral) comes in from stocking inlet tube 15, open water inlet pipe 16 allows cooling water enter nozzle carrier 13 simultaneously, allow driving gear rotating shaft 1 rotate, synchronize the turbulent pipe rotation driving active bushing pipe 9 and being made up of many driven bushing pipes 11.(refer generally to all two to all five-slitting rolling technological requirements) is required according to production scene, control the rotating speed of driving gear rotating shaft 1 well, making actively bushing pipe 9 and the quantity driven bushing pipe 11 more than 1 be the uniform speed rotation of adjustable speed at bushing pipe support tube 12 inner chamber, its rotary speed controls in 0.5～5.0rpm scope.Owing to active bushing pipe 9 and driven bushing pipe 11 are uniform rotation, also can rotation at the uniform velocity stir so passing through the stocking in they central through holes, the cooling of such stocking is uniformly, and the contact internal walls with actively bushing pipe 9 and driven bushing pipe 11 is also intermittent contacts, avoid centralized eccentric wear, extend the service life of actively bushing pipe 9 and each driven bushing pipe 11.

Stocking after Water cooling enters cold bed after stocking tail end pipe 14 is gone out and is collected, packs.

Claims (2)

1. null1. the energy-conservation Water cooling device of rotary turbulent pipe，Including driving gear rotating shaft (1)、Hubcap (2)、Rotating shaft y-type seal ring (3)、Drive gear carrier protecgulum (4)、Drive gear carrier (5)、Driven tooth roller box (6)、Clutch shaft bearing (7) and the second bearing (20)、Driven gear (8)、Actively bushing pipe (9)、Driven bushing pipe (11)、Bushing pipe support tube (12)、Nozzle carrier (13)、Stocking tail end pipe (14)、Stocking inlet tube (15)、Water inlet pipe (16)、Needle roller (17)、Driving gear (18)、Driven gear rotating shaft (19) and travelling gear (21)，The one end of the nozzle carrier (13) connected with water inlet pipe (16) is connected with stocking inlet tube (15)，The other end of nozzle carrier (13) is connected with the front end of bushing pipe support tube (12)，It is characterized in that: the inner chamber at bushing pipe support tube (12) is equipped with actively bushing pipe (9) and the quantity driven bushing pipe (11) more than 1 successively near nozzle carrier (13)，Actively bushing pipe (9)、Driven bushing pipe (11) with between bushing pipe support tube (12) equipped with uniform or nonuniform mutation operator and quantity the needle roller (17) more than 1；Upper side wall in bushing pipe support tube (12) front end near nozzle carrier (13) is provided with driven tooth roller box (6), and position, intermediate portion is loaded in the clutch shaft bearing (7) of driven tooth roller box (6) inwall equipped with two of the driven gear rotating shaft (19) of driven gear (8)；Processing/be equipped with travelling gear (21) on the outer wall of active bushing pipe (9), driven gear (8) same to travelling gear (21) engages each other；

   Interconnective drive gear carrier (5) and drive gear carrier protecgulum (4) are installed on the top of driven tooth roller box (6), at the symmetrical inwall of drive gear carrier (5) and drive gear carrier protecgulum (4) equipped with the second bearing (20), two equipped with the driving gear rotating shaft (1) of driving gear (18) is arranged in the second bearing (20), and driving gear (18) same to driven gear (8) engages each other；Being loaded on and be embedded in drive gear carrier protecgulum (4) through the rotating shaft y-type seal ring (3) on the driving gear rotating shaft (1) of the second bearing (20) and drive gear carrier protecgulum (4), the hubcap (2) being sleeved on driving gear rotating shaft (1) is connected with drive gear carrier protecgulum (4).
2. 2. the energy-conservation Water cooling device of rotary turbulent pipe according to claim 1, it is characterized in that: the diameter of driving gear (18) is more than or equal to the diameter of driven gear (8), and the diameter of driving gear (18) is equal to or more than the diameter of travelling gear (21).