CN108106391A - A kind of tubing drying unit - Google Patents

Abstract

The present invention discloses a kind of tubing drying unit, and including the first transfer passage and drying baker, the first transfer passage runs through drying baker both ends, and heater, the first air inlet duct that described device further includes wind turbine and is connected with wind turbine are equipped in drying baker；First transfer passage is equipped with V-shaped groove, and the side wall of V-shaped groove is equipped with several uniformly distributed ventilation holes, and ventilation hole is connected with the first air inlet duct.First transfer passage is provided with V-shaped groove, it is structure wide at the top and narrow at the bottom, the wind entered from ventilation hole can flow up, tubing is made to be subject to buoyancy, the friction of tubing and the first transfer passage can not only be reduced, tubing is avoided to scrape, after tubing to be dried is delivered to drying baker by the first transfer passage, tubing heating surface area can also be increased, be heated evenly tubing, improve drying rate and efficiency.In addition, the air-flow entered from ventilation hole flows up, accelerate the air passage rates inside drying baker, and then accelerate the evaporation of moisture in tubing, tubing is avoided to soften due to high temperature.

Description

A kind of tubing drying unit

Technical field

The present invention relates to tubular object extruding technical field, more particularly to a kind of tubing drying unit.

Background technology

Tubing is exactly for doing the material of pipe fitting, the different tubing of different pipe fittings, and the quality of tubing directly determines The quality of pipe fitting.Tubing can be divided into welded tube and seamless pipe by moulding process, can be divided into pvc pipe, copper pipe, steel pipe, fibre by material Tie up pipe, multiple tube, compo pipe etc..

During fabrication, Pilger is usually used in the process in need further dried, such as seamless tubular goods to some tubing The reciprocal milling train of formula carries out cold rolling processing, first must carry out vacuum dynamic recrystallization treatment to tubing before the rolling.At Vacuum Heat Must tubing be first subjected to pickling and flushing before reason, remove the greasy dirt of tube surfaces, then by tubing surfaces externally and internally it is water stain into After row drying, then tubing is packed into vacuum heat treatment furnace and is heat-treated.The drying mode of tubing predominantly spontaneously dries at present, Microwave drying is dried or carried out using drying baker.

However, the mode spontaneously dried is extremely inefficient, especially winter is even more and can not spontaneously dry, so as not to tubing by bursting by freezing or To influence process since drying efficiency is low, and when using drying baker and during microwave drying, there are uneven heating it is even the problem of, into And the processing effect of tubing is influenced, wherein the equipment use cost of microwave drying is high.In addition, Conventional transport track is easily to tubing Outer wall is caused to wear, scraped.Therefore, it is heated evenly there is an urgent need for research and development one kind, drying efficiency height, and tubing at low cost drying dress It puts.

The content of the invention

The present invention provides a kind of tubing drying unit, and to solve, existing tubing drying unit uneven heating is even, drying efficiency The technical issues of low.

The present invention provides a kind of tubing drying unit, including the first transfer passage and drying baker, first transfer passage Heater is equipped in the drying baker both ends, the drying baker, described device further includes wind turbine and is connected with the wind turbine The first air inlet duct connect；First transfer passage is equipped with V-shaped groove, and the side wall of the V-shaped groove is equipped with several uniformly distributed lead to Air holes, the ventilation hole are connected with first air inlet duct.

Optionally, the second transfer passage through the drying baker both ends is equipped with above first transfer passage, it is described Second transfer passage is equipped with groove, and the bottom portion of groove is equipped with several uniformly distributed stomatas.

Optionally, the second transfer passage through the drying baker both ends is equipped with above first transfer passage, it is described The structure of second transfer passage is identical with first transfer passage；The wind turbine is also associated with the second air inlet duct, and described second Several ventilation holes set on transfer passage are connected with second air inlet duct.

Optionally, when the traffic direction of first transfer passage and second transfer passage is opposite, described first Elevator is connected between transfer passage and second transfer passage.

Optionally, temperature sensor and controller, the temperature sensor and the control are provided on the drying baker Device is electrically connected.

Optionally, barometer is additionally provided in the drying baker, frequency conversion exhaust fan, the air pressure are equipped at the top of the drying baker Meter and the frequency conversion exhaust fan are electrically connected respectively with the controller.

Optionally, the heater is between first transfer passage and second transfer passage.

Optionally, it is all provided at first transfer passage and the perforative drying baker both ends of second transfer passage There is gate, sealing ring is provided between the gate and the drying baker.

From above technical scheme, a kind of tubing drying unit provided by the invention, in use, starting drying baker first In heater preheated, start wind turbine afterwards, due to being provided with V-shaped groove on the first transfer passage, the first transfer passage is Structure wide at the top and narrow at the bottom, the wind entered from ventilation hole can flow up, so that tubing is subject to the upward buoyancy of air-flow, it is this Design can not only reduce the friction between tubing and the first transfer passage, avoid tubing and scraping damage occurs, when the first conveying After tubing to be dried is delivered in drying baker by passage, moreover it is possible to increase the heating surface area of tubing, so that tubing is heated evenly, Accelerate the drying rate of tubing, improve drying efficiency.In addition, the air-flow entered from ventilation hole can flow up, accelerate drying baker Internal air passage rates, and then accelerate the evaporation of moisture in tubing, it is additionally beneficial to avoid tubing because of the high temperature in drying baker And soften, and equipment cost can be reduced.

Description of the drawings

Fig. 1 is the structure diagram of the tubing drying unit shown in the embodiment of the present invention one；

Fig. 2 is the structure diagram of the first transfer passage shown in the embodiment of the present invention one；

Fig. 3 is the structure diagram of the tubing drying unit shown in the embodiment of the present invention two；

Fig. 4 is the sectional view of the second transfer passage shown in the embodiment of the present invention two；

Fig. 5 is the structure diagram of the tubing drying unit shown in the embodiment of the present invention three；

Fig. 6 is the structure diagram of the tubing drying unit shown in the embodiment of the present invention four；

Fig. 7 is the structure diagram of the tubing drying unit shown in the embodiment of the present invention five.

Marginal data：The first transfer passages of 1-；11-V shape slots；12- ventilation holes；2- drying bakers；21- heaters；22- temperature Sensor；23- controllers；24- barometers；25- frequency conversion exhaust fans；26- gates；27- sealing rings；3- wind turbines；31- first is entered the wind Road；The second air inlet ducts of 32-；The second transfer passages of 4-；41- grooves；42- stomatas；5- elevators.

Specific embodiment

In order to make those skilled in the art better understand the technical solutions in the application, below in conjunction with attached drawing, it is right Technical solution in the embodiment of the present application is clearly and completely described.

Embodiment one

As depicted in figs. 1 and 2, the tubing drying unit that the embodiment of the present invention one provides, including：First transfer passage 1 dries Dry case 2 and wind turbine 3, the first transfer passage 1 run through 2 both ends of drying baker, are equipped with heater 21 in drying baker 2, and wind turbine 3 is connected with the One air inlet duct 31；First transfer passage 1 is equipped with V-shaped groove 11, and the side wall of V-shaped groove 11 is equipped with several uniformly distributed ventilation holes 12, Ventilation hole 12 is connected with the first air inlet duct 31.

In use, the heater 21 started first in drying baker 2 is preheated, start wind turbine 3 afterwards, due to the first conveying V-shaped groove 11 is provided on passage 1 so that the first transfer passage 1 is structure wide at the top and narrow at the bottom, the wind meeting entered from ventilation hole 12 Flow up so that tubing is subject to the upward buoyancy of air-flow, this design can not only reduce tubing and the first transfer passage 1 it Between friction, avoid tubing occur scraping damage, when tubing to be dried is delivered in drying baker 2 by the first transfer passage 1 Afterwards, moreover it is possible to increase the heating surface area of tubing, so that tubing is heated evenly, accelerate the drying rate of tubing, improve drying efficiency. In addition, the air-flow entered from ventilation hole 12 can flow up, accelerate the air passage rates inside drying baker 2, and then accelerate pipe The evaporation of moisture in material is additionally beneficial to that tubing is avoided due to the high temperature in drying baker 2 to soften, and can reduce equipment cost.

In the present embodiment, heater 21 can be resistance wire, resistance coil, ceramic heater, electromagnetic heater, it is infrared plus Hot device etc..

Temperature sensor 22 and controller 23 are provided on drying baker 2, barometer 24, drying baker 2 are additionally provided in drying baker 2 Top is equipped with frequency conversion exhaust fan 25, and temperature sensor 22, barometer 24 and frequency conversion exhaust fan 25 are electrically connected respectively with controller 23.

Temperature sensor 22 is used to measure the temperature in drying baker 2, and barometer 24 is used to measure the gas pressure in drying baker 2 By force.Can be preset in controller 23 in drying baker 2 needs the drying temperature kept, when the drying baker 2 that temperature sensor 22 detects , it is necessary to cool down when interior temperature is higher than default drying temperature, then controller 23 controls frequency conversion exhaust fan 25 to increase exhaust velocity and row Air quantity, so as to fulfill the temperature reduced in drying baker 2；When temperature is dried less than default in the drying baker 2 that temperature sensor 22 detects During dry temperature, controller 23 controls heater 21 to heat up, while can reduce exhaust velocity and the row of frequency conversion exhaust fan 25 Air quantity so that temperature in drying baker 2 in a short time fast quick-recovery to default drying temperature value.Since heating cools down, wind Machine 3 can change the gas pressure in drying baker 2 by the conveying wind-force of ventilation hole 12 and tubing water evaporation process, therefore, be Make to remain a constant drying environment in drying baker 2, the air pressure in drying baker 2 is measured using barometer 24, meanwhile, Controller 23 makes the air pressure in drying baker 2 be maintained in a steady state value by controlling frequency conversion exhaust fan 25, and in drying baker 2 Drying environment will not be vented the wind entered in hole 12 and disturbed.

As the above analysis, the present invention is used to measure the temperature in drying baker 2, barometer 24 by temperature sensor 22 For measuring the gas pressure intensity in drying baker 2, controller 23 is according to temperature signal and air pressure signal, by controlling 21 He of heater Frequency conversion exhaust fan 25 makes the drying environment in drying baker 2 keep balance, i.e., maintains one always suitable for drying the environment of tubing In, the index (temperature, air pressure) of the drying environment can by controller 23 given threshold realize.Since tubing exists always Drying operation is performed in one constant drying environment, avoids shadow of the variation of environmental factor in drying baker 2 to drying efficiency It rings, therefore the present embodiment can effectively improve the drying rate and efficiency of tubing.Meanwhile the gas circulating direction in drying baker 2 is From bottom to top, gas is passed to the top of drying baker 2, is discharged at frequency conversion exhaust fan 25, i.e., the environment in drying baker 2 will not be right The wind-force generation of ventilation hole outflow obstructs, and tubing is subject to the buoyancy of ventilation hole interior air-flow, forced area increase, and tubing by Heat is more uniform, effectively increases the drying rate and drying efficiency of tubing.

Drying baker 2 is equipped with gate 26 at first transfer passage, 1 perforative both ends, is set between gate 26 and drying baker 2 It is equipped with sealing ring 27.In order to make that a relatively closed drying environment is kept in drying baker 2, excess calories is avoided to distribute, are caused Increase taking for tubing drying when preset temperature is not achieved in drying baker 2, gate 26, lock are provided at 2 both ends of drying baker Door 26 initially is in off state, and the gate of certain one end is opened when needing and feed, treats that tubing is sent to drying by the first transfer passage 1 When in case 2, the gate 26 is closed, then drying baker 2 is in air-tight state, carries out drying and processing, when meeting drying condition, opens Tubing is sent out drying baker 2 by other end gate through the first transfer passage 1.Drying condition described here can be basis Default drying environment in drying baker 2, the duration needed for estimation drying tubing by preset time threshold, are reached when drying takes During to threshold value, it is believed that tubing drying finishes, and can discharge；Can also add moisture detector in drying baker 2, pass through reality When measure drying baker 2 in measurement of moisture content of gas, to determine whether drying finish.It is set between the babinet of gate 26 and drying baker 2 Sealing ring 27 is put, the sealing performance of drying baker 2 can be improved, drying baker 2 is made to keep a stable drying environment, so as to improve Drying rate and drying efficiency.

Embodiment two

As shown in Figure 3 and Figure 4, difference lies in 1 top of the first transfer passage is equipped with to be run through embodiment two with embodiment one Second transfer passage 4 at 2 both ends of drying baker, the second transfer passage 4 are equipped with groove 41, and bottom portion of groove is equipped with several uniformly distributed gas Hole 42.

In the present embodiment, the gas circulating direction in drying baker 2 is also from bottom to top, from the ventilation of the first transfer passage 1 The wind entered in hole 12, can flow up, and several uniform stomatas 42 of the bottom portion of groove by the second transfer passage 4, effect On the tubing delivered to the second transfer passage 4, by controlling the air output of wind turbine 3 and going out wind velocity, it can make to pass through stomata 42 air-flow generates upward buoyancy to the tubing that the second transfer passage 4 delivers, so as to reduce the pipe of the second transfer passage 4 delivery Friction caused by material and scraping, enable the first transfer passage 1 synchronous with the second transfer passage 4, i.e., two transfer passages can With simultaneously, synchronization, concurrent working, so substantially increase the operating efficiency of tubing baking operation.Set groove 41 can be to avoid Since wind-force acts on tubing is caused to be scattered or drop out transfer passage.

Heater 21 is between the first transfer passage 1 and the second transfer passage 4, it is ensured that two transfer passage deliveries Tubing can uniformly, fully be heated, it is synchronous heated, and then improve the efficiency dried parallel.

The present embodiment is only additionally arranged one layer of transfer passage above the first transfer passage 1, if adding multilayer, then needs wind Machine 3 exports the wind-force of bigger, and wind-force is excessive, and tubing may be caused to be blown out transfer passage or tubing in drying course not Stablize and collide with the wall body of transfer passage, in addition, if adding multilayer transfer passage, then need the drying of volume bigger Case adds additional equipment cost.

Drying baker 2 is equipped with gate 26 at second transfer passage, 4 perforative both ends, is set between gate 26 and drying baker 2 It is equipped with sealing ring 27.Described in its serving as reference embodiment one, details are not described herein.

Embodiment three

As shown in figure 5, embodiment three is compared to embodiment one, difference lies in 1 top of the first transfer passage, which is equipped with, to be run through Second transfer passage 4 at 2 both ends of drying baker, the structure of the second transfer passage 4 are identical with the first transfer passage 1；Wind turbine 3 is also connected with There is the second air inlet duct 32, several ventilation holes set on the second transfer passage 4 are connected with the second air inlet duct 32.

The technical solution of the present embodiment is equivalent to the structure that Dual-layer is provided with for the first transfer passage 1, two layers of knot Structure can independent parallel work, the first air inlet duct 31 and the second air inlet duct 32 are communicated in the air outlet of wind turbine 3.Heater 21 is located at the Between one transfer passage 1 and the second transfer passage 4.

The present embodiment is only additionally arranged one layer of transfer passage above the first transfer passage 1, if adding multilayer, then needs wind Machine 3 exports the wind-force of bigger, and wind-force is excessive, and tubing may be caused to be blown out transfer passage or tubing in drying course not Stablize and collide with the wall body of transfer passage, in addition, if adding multilayer transfer passage, then need the drying of volume bigger Case adds additional equipment cost.

Example IV

As shown in fig. 6, example IV is compared to embodiment two, difference lies in when the first transfer passage 1 and the second conveying When the traffic direction of passage 4 is opposite, elevator 5 is connected between the first transfer passage 1 and the second transfer passage 4.

The technical solution of example IV provides a kind of pattern of tubing Xun Huan drying, the tubing in the first transfer passage 1 When being sent drying baker 2, tubing can be transported to the second transfer passage 4 by elevator 5, then be sent to drying baker 2 again Interior progress secondary drying processing；Or the second tubing in transfer passage 4 is sent drying baker 2, tubing is transported by elevator 5 It send to the first transfer passage 1, so as to carry out secondary drying processing.This mode is for single transfer passage, it is possible to reduce The drying time that tubing occupies on single transfer passage convenient for the drying of other follow-up tubing, dries so as to reduce all tubing Dry takes.

In addition, for existing tubing drying unit, after tubing drying finishes discharging, it can usually run into tubing and not dried Do sufficient situation, therefore, it is desirable to place it in again in drying unit and continue to dry, and then cause drying efficiency low.And In the present embodiment, the automation that can be realized secondary cycle or even repeatedly cycle is dried, and is ensured that tubing can be oven-dried completely, and is carried The high drying efficiency of tubing.

Embodiment five

As shown in fig. 7, embodiment five is with embodiment three, difference lies in when the first transfer passage 1 and the second transfer passage 4 Traffic direction it is opposite when, be connected with elevator 5 between the first transfer passage 1 and the second transfer passage 4.

In embodiment five, the working method of elevator and its technique effect of realization etc. can refer to the correlation of example IV Description and explanation, details are not described herein.

From above technical scheme, a kind of tubing drying unit provided by the invention, in use, starting drying baker first In heater preheated, start wind turbine afterwards, due to being provided with V-shaped groove on the first transfer passage, the first transfer passage is Structure wide at the top and narrow at the bottom, the wind entered from ventilation hole can flow up, so that tubing is subject to the upward buoyancy of air-flow, it is this Design can not only reduce the friction between tubing and the first transfer passage, avoid tubing and scraping damage occurs, when the first conveying After tubing to be dried is delivered in drying baker by passage, moreover it is possible to increase the heating surface area of tubing, so that tubing is heated evenly, Accelerate the drying rate of tubing, improve drying efficiency.In addition, the air-flow entered from ventilation hole can flow up, accelerate drying baker Internal air passage rates, and then accelerate the evaporation of moisture in tubing, it is additionally beneficial to avoid tubing because of the high temperature in drying baker And soften, and equipment cost can be reduced.

In addition, can also add the second transfer passage on the first transfer passage, the simultaneously and concurrently baking of Dual-conveying tall passage is realized Dry model or tubing Xun Huan drying pattern.Device provided by the invention can meet the high efficiency, automatic of tubing baking operation Change, inexpensive demand.

Just to refer each other for identical similar part between each embodiment in this specification, does not give above and repeating.

It should be noted that herein, the relational terms of such as " first " and " second " or the like are used merely to one A entity or operation with another entity or operate distinguish, without necessarily requiring or implying these entities or operation it Between there are any actual relationship or orders.Moreover, term " comprising ", "comprising" or its any other variant are intended to Cover non-exclusive inclusion, so that process, method, article or equipment including a series of elements not only include those Element, but also including other elements that are not explicitly listed or further include as this process, method, article or set Standby intrinsic element.

Those skilled in the art will readily occur to the present invention its after considering specification and putting into practice invention disclosed herein Its embodiment.This application is intended to cover the present invention any variations, uses, or adaptations, these modifications, purposes or Person's adaptive change follows the general principle of the present invention and including undocumented common knowledge in the art of the invention Or conventional techniques.Description and embodiments are considered only as illustratively, and true scope and spirit of the invention are by appended Claim is pointed out.

It should be appreciated that the invention is not limited in the precision architecture for being described above and being shown in the drawings, and And various modifications and changes may be made without departing from the scope thereof.The scope of the present invention is only limited by appended claim.

Claims (8)

1. a kind of tubing drying unit, including the first transfer passage (1) and drying baker (2), first transfer passage (1) is run through Drying baker (2) both ends are equipped with heater (21) in the drying baker (2), which is characterized in that described device further includes wind turbine (3) and with the wind turbine (3) the first air inlet duct (31) being connected；First transfer passage (1) is equipped with V-shaped groove (11), The side wall of the V-shaped groove (11) is equipped with several uniformly distributed ventilation holes (12), the ventilation hole (12) and first air inlet duct (31) connect.

2. tubing drying unit according to claim 1, which is characterized in that be equipped with above first transfer passage (1) The second transfer passage (4) through the drying baker (2) both ends, second transfer passage (4) is equipped with groove (41), described Bottom portion of groove is equipped with several uniformly distributed stomatas (42).

3. tubing drying unit according to claim 1, which is characterized in that be equipped with above first transfer passage (1) The second transfer passage (4) through the drying baker (2) both ends, the structure of second transfer passage (4) and described first defeated Send passage (1) identical；The wind turbine (3) is also associated with the second air inlet duct (32), second transfer passage (4) if on set Dry ventilation hole is connected with second air inlet duct (32).

4. the tubing drying unit according to Claims 2 or 3, which is characterized in that when first transfer passage (1) and institute State the second transfer passage (4) traffic direction it is opposite when, first transfer passage (1) and second transfer passage (4) it Between be connected with elevator (5).

5. tubing drying unit according to claim 1, which is characterized in that temperature biography is provided on the drying baker (2) Sensor (22) and controller (23), the temperature sensor (22) are electrically connected with the controller (23).

6. tubing drying unit according to claim 5, which is characterized in that be additionally provided with barometer in the drying baker (2) (24), frequency conversion exhaust fan (25), the barometer (24) and the frequency conversion exhaust fan (25) point are equipped at the top of the drying baker (2) It is not electrically connected with the controller (23).

7. the tubing drying unit according to Claims 2 or 3, which is characterized in that the heater (21) is located at described the Between one transfer passage (1) and second transfer passage (4).

8. the tubing drying unit according to Claims 2 or 3, which is characterized in that by first transfer passage (1) and institute It states and gate (26) is equipped at perforative drying baker (2) both ends of the second transfer passage (4), the gate (26) and the baking Sealing ring (27) is provided between dry case (2).