CN204313587U - A kind of Novel dehydration device - Google Patents

Abstract

The utility model discloses a kind of Novel dehydration device, comprise support, first motor, set casing, dehydration tube, the perisporium of dehydration tube is provided with multiple first dewatering hole, the right-hand member of dehydration tube is connected with end cap, end cap is fixedly connected with rotating shaft, rotating shaft is connected with the output shaft of the first motor, the left end of dehydration tube is communicated with water squeezing shell, the left end sidewall of dehydration tube is also provided with can the first discharge door of folding, the bottom of set casing is formed with delivery port, the sidewall of water squeezing shell is connected with feed pipe, in water squeezing shell, pushing block is installed, the top of described water squeezing shell is provided with the drive unit for driving pushing block work, laterally dewatering plate is fitted with in water squeezing shell, dewatering plate is positioned at the below of feed pipe, dewatering plate is provided with multiple second dewatering hole, the madial wall of water squeezing shell is provided with the locating slot for dewatering plate head end plug-in mounting.The utility model can integrate extrusion dehydration and rotating centrifugal dehydrating function, precisely controls the dehydration dynamics of extrusion dehydration, significantly improves dehydrating effect.

Description

A kind of Novel dehydration device

Technical field

The utility model relates to a kind of dewater unit, is specifically related to a kind of Novel dehydration device.

Background technology

In actual life, often need to some as clothing, shoes, carpet, quilt cover clean after spin-dry process.At present, although had a lot of dewater units on the market, the dehydrating effect of these devices has not been fine.

Utility model content

For the deficiencies in the prior art, the utility model object is intended to provide a kind of Novel dehydration device, can integrate extrusion dehydration and rotating centrifugal dehydrating function, precisely controls the dehydration dynamics of extrusion dehydration, significantly improves dehydrating effect.

For achieving the above object, the utility model adopts following technical scheme:

A kind of Novel dehydration device, comprise support, the first rack-mount motor and set casing, laterally and the dehydration tube be installed in rotation in set casing, the perisporium of described dehydration tube is provided with multiple first dewatering hole, the right-hand member of described dehydration tube is removably connected with end cap, described end cap is fixedly connected with rotating shaft, described rotating shaft is connected with the output shaft of the first motor, the left end sidewall of described dehydration tube offers through hole, described support is also provided with water squeezing shell, described water squeezing shell is connected with dehydration tube by through hole, the left end sidewall of described dehydration tube is also provided with can the first discharge door of folding, the bottom of described set casing is formed with delivery port, the sidewall of described water squeezing shell is connected with feed pipe, being provided with in described water squeezing shell can its pushing block moved up and down relatively, the top of described water squeezing shell is provided with the drive unit for driving pushing block work, laterally pullable dewatering plate is fitted with in described water squeezing shell, described dewatering plate is positioned at the below of feed pipe, described dewatering plate is provided with multiple second dewatering hole, the madial wall of described water squeezing shell is provided with the locating slot for dewatering plate head end plug-in mounting location,

Described drive unit comprises the second motor be fixedly mounted on water squeezing shell, the sheath body be fixedly mounted on the second motor, be positioned at sheath body and the drive link be connected with the output shaft of the second motor, the drive sleeve be threaded with drive link, for limiting the limiting mechanism that drive sleeve rotates, described drive sleeve is fixedly connected with pushing block, and described drive link extends along the short transverse of sheath body.

Preferably, the inner roof wall of described water squeezing shell is provided with blowning installation, described blowning installation comprises tracheae, for tracheae being fixed on the stator on water squeezing shell, one end of described tracheae is provided with the suction nozzle for providing source of the gas to tracheae, described tracheae is provided with the blowing nozzle of inflatable mouth towards dewatering plate.

Preferably, described support is installed with the first fixed block, the top of described first fixed block has been bolted the second fixed block, and coordinate between described first fixed block and the second fixed block and be formed with cavity, described rotating shaft is installed in rotation in this cavity.

Preferably, described rotating shaft inner homogeneous is placed with multiple water channel, and described water channel extends along the radial direction of rotating shaft, and being connected in turn end to end of each water channel is through, form a bending water channel, the two ends of this bending water channel are formed with liquid inlet and liquid outlet respectively at the sidewall of rotating shaft.

Preferably, described limiting mechanism comprises the stationary magazine creel be sleeved in drive sleeve, the screw be inserted on stationary magazine creel, and described drive sleeve is formed with the first guide groove of the end head plug-in mounting for screw, described first guide groove extends along the short transverse of drive sleeve.

Preferably, described limiting mechanism also comprises the guide pillar be arranged in drive sleeve, and described sheath body is formed with the second guide groove of the end head plug-in mounting for guide pillar, described second guide groove extends along the short transverse of sheath body.

Preferably, the sidewall of described water squeezing shell is provided with can the second discharge door of folding, the described position of the second discharge door between feed pipe and dewatering plate.

Preferably, the described set casing lower casing that comprises upper casing, removably connect with upper casing.

Preferably, the below of described delivery port is provided with tank.

Preferably, described feed pipe place is provided with for controlling article falling speed and the vibrator preventing article from blocking.

The utility model beneficial effect is:

The utility model is by the setting of said structure, make article can first in water squeezing shell, first extrusion dehydration is carried out by pushing block, after extruding, extract dewatering plate out, article after extrusion dehydration fall in dehydration tube, centrifugal dehydration is carried out under the turning effort of dehydration tube, therefore, article can carry out extrusion dehydration and centrifugal dehydration successively in this device, and drive unit can drive the rotation of drive link, drive link can drive moving up and down of drive sleeve, by controlling the rotating speed of the second motor, what can control drive sleeve accurately moves up and down distance, and then precisely control the dehydration dynamics of extrusion dehydration, significantly improve dehydrating effect, simultaneously, the inner roof wall of water squeezing shell is provided with blowning installation, blowning installation comprises tracheae, for tracheae being fixed on the stator on water squeezing shell, one end of tracheae is provided with the suction nozzle for providing source of the gas to tracheae, tracheae is provided with the blowing nozzle of inflatable mouth towards dewatering plate, under the effect of blowning installation, while the speed of article dehydration can be accelerated, effectively can also remove the peculiar smell on article, in addition, rotating shaft inner homogeneous is placed with multiple water channel, water channel extends along the radial direction of rotating shaft, being connected in turn end to end of each water channel is through, form a bending water channel, the two ends of this bending water channel are formed with liquid inlet and liquid outlet, by the setting of these water channels respectively at the sidewall of rotating shaft, the cooling work of rotating shaft can be facilitated, effectively extend the service life of rotating shaft.

Accompanying drawing explanation

Fig. 1 is schematic front view of the present utility model;

Fig. 2 is the structural representation of drive unit of the present utility model;

Fig. 3 is the structural representation of blowning installation of the present utility model.

Wherein, 1, support; 2, the first motor; 3, lower casing; 4, upper casing; 5, dehydration tube; 6, end cap; 7, rotating shaft; 8, through hole; 9, water squeezing shell; 10, the second motor; 11, sheath body; 12, pushing block; 13, dewatering plate; 14, the second dewatering hole; 15, grip part; 16, the second discharge door; 17, vibrator; 18, feed pipe; 19, tank; 20, delivery port; 21, the first discharge door; 22, the first fixed block; 23, the second fixed block; 24, blowning installation; 241, stator; 242, suction nozzle; 243, tracheae; 244, blowing nozzle; 25, locating slot; 26, drive sleeve; 27, drive link; 28, stationary magazine creel; 29, guide pillar; 30, the second guide groove; 31, the first guide groove; 32, screw.

Detailed description of the invention

Below, by reference to the accompanying drawings and detailed description of the invention, the utility model is described further:

As shown in Figure 1, for a kind of Novel dehydration device of the present utility model, comprise support 1, be arranged on the first motor 2 and set casing on support 1, laterally and the dehydration tube 5 be installed in rotation in set casing, the perisporium of described dehydration tube 5 is provided with multiple first dewatering hole (not shown), the right-hand member of described dehydration tube 5 is removably connected with end cap 6, described end cap 6 is fixedly connected with rotating shaft 7, described rotating shaft 7 is connected with the output shaft of the first motor 2, the left end sidewall of described dehydration tube 5 offers through hole 8, described support 1 is also provided with water squeezing shell 9, described water squeezing shell 9 is connected with dehydration tube 5 by through hole 8, the left end sidewall of described dehydration tube 5 is also provided with can the first discharge door 21 of folding, the bottom of described set casing is formed with delivery port 20, the sidewall of described water squeezing shell 9 is connected with feed pipe 18, being provided with in described water squeezing shell 9 can its pushing block 12 moved up and down relatively, the top of described water squeezing shell 9 is provided with the drive unit for driving pushing block 12 to work, laterally pullable dewatering plate 13 is fitted with in described water squeezing shell 9, described dewatering plate 13 is positioned at the below of feed pipe 18, described dewatering plate 13 is provided with multiple second dewatering hole 14, the madial wall of described water squeezing shell 9 is provided with the locating slot 25 for dewatering plate 13 head end plug-in mounting location,

As shown in Figure 2, described drive unit comprises the second motor 10 be fixedly mounted on water squeezing shell 9, the sheath body 11 be fixedly mounted on the second motor 10, be positioned at sheath body 11 and the drive link 27 be connected with the output shaft of the second motor 10, the drive sleeve 26 be threaded with drive link 27, for limiting the limiting mechanism that drive sleeve 26 rotates, described drive sleeve 26 is fixedly connected with pushing block 12, and described drive link 27 extends along the short transverse of sheath body 11.When actual installation, the lower surface of the second motor 10 can pass the lower surface at the top of water squeezing shell 9 and be arranged on water squeezing shell 9.

The specific works process of this drive unit is: the rotary motion that can be driven drive link 27 by the second motor 10, because drive sleeve 26 and drive link 27 are threaded, and under the effect of the limiting mechanism of restriction drive sleeve 26 rotation, to moving up and down of drive sleeve 26 be driven, finally drive moving up and down of pushing block 12.Therefore, by controlling the rotating speed of the second motor 10 accurately, the propelling dynamics that pushing block 12 extrudes article can be controlled accurately, making the utility model precisely can control the dehydration dynamics of extrusion dehydration, obtain best dehydrating effect.

As shown in Figure 3, the inner roof wall of described water squeezing shell 9 is provided with blowning installation 24, described blowning installation 24 comprises tracheae 243, for tracheae 243 being fixed on the stator 241 on water squeezing shell 9, one end of described tracheae 243 is provided with the suction nozzle 242 for providing source of the gas to tracheae 243, described tracheae 243 is provided with the blowing nozzle 244 of inflatable mouth towards dewatering plate 13.After suction nozzle 242 is connected with extraneous compressed air, blowing nozzle 244 can be blown towards the direction of dewatering plate 13, effectively can also remove the peculiar smell on article while can accelerating the speed of article dehydration.During actual fabrication, the quantity of blowning installation 24 can be two.

Preferably, described support 1 is installed with the first fixed block 22, the top of described first fixed block 22 has been bolted the second fixed block 23, and coordinate between described first fixed block 22 and the second fixed block 23 and be formed with cavity, described rotating shaft 7 is installed in rotation in this cavity.

Preferably, described rotating shaft 7 inner homogeneous is placed with multiple water channel (not shown), described water channel extends along the radial direction of rotating shaft 7, being connected in turn end to end of each water channel is through, form a bending water channel, the two ends of this bending water channel are formed with liquid inlet and liquid outlet respectively at the sidewall of rotating shaft 7.By these through water channels that is connected in turn end to end, effectively can reduce the temperature in rotating shaft 7, thus extend the service life of rotating shaft 7.Its concrete operation principle is: rotating shaft 7 is after High Rotation Speed a period of time, a large amount of heats will be produced, now can pass into cooling fluid from liquid inlet, this cooling fluid is successively through these through water channels that is connected in turn end to end, finally flow out from liquid outlet, also the heat in rotating shaft 7 is taken out of together while flowing out, thus reduce the temperature in rotating shaft 7.

Preferably, described limiting mechanism comprises the stationary magazine creel 28 be sleeved in drive sleeve 26, the screw 32 be inserted on stationary magazine creel 28, described drive sleeve 26 is formed with the first guide groove 31 of the end head plug-in mounting for screw 32, described first guide groove 31 extends along the short transverse of drive sleeve 26.

Preferably, described limiting mechanism also comprises the guide pillar 29 be arranged in drive sleeve 26, and described sheath body 11 is formed with the second guide groove 30 of the end head plug-in mounting for guide pillar 29, described second guide groove 30 extends along the short transverse of sheath body 11.

Under the setting of above-mentioned limiting mechanism, drive sleeve 26 can only be moved up and down, and can not rotate.

Preferably, the end of described dewatering plate 13 is provided with grip part 15, can facilitate the pull work of dewatering plate 13.

Preferably, the sidewall of described water squeezing shell 9 is provided with can the second discharge door 16 of folding, described second position of discharge door 16 between feed pipe 18 and dewatering plate 13.Sometimes, only may need extrusion dehydration, and when not needing to carry out rotating centrifugal dehydration, by opening the second discharge door 16, article after extrusion dehydration are taken out, makes extrusion dehydration district of the present utility model and rotating centrifugal drying zone can independently dewatering work.

Preferably, the lower casing 3 that described set casing comprises upper casing 4, removably connects with upper casing 4, dismountable set casing can facilitate the cleaning of dehydration tube 5.Particularly, when needs cleaning and dewatering cylinder 5, upper casing 4 is dismantled, dehydration tube 5 can be exposed, then end cap 6 is dismantled, dismantlement work can be carried out to dehydration tube 5, thus facilitate the cleaning of dehydration tube 5.

Preferably, the below of described delivery port 20 is provided with tank 19, and can be used for the water liquid after collecting extrusion dehydration and rotating centrifugal dehydration, anti-sealing liquid is made dirty ground.

Preferably, described feed pipe 18 place is provided with for controlling article falling speed and the vibrator 17 preventing article from blocking.

In addition, as another improvement of the present utility model, pushing block 12 can be made up of flexible material, or the bottom of pushing block 12 is provided with can the air bag of inflation/deflation, make like this pushing block 12 downwards extruding article time, the effect of a buffering can be obtained, effectively prevent sharp-pointed pushing block 12 to stab article.

Overall work principle of the present utility model is: be inserted into by the head end of dewatering plate 13 after in locating slot 25, article to be drained off are put in feed pipe 18, then landing is in water squeezing shell 9, start the second motor 10, moving downward of final drive pushing block 12, under the cooperation of dewatering plate 13 and pushing block 12, extrusion dehydration process can be carried out to article, water liquid in the second dewatering hole 14 through finally flowing out from the delivery port 20 of set casing.After extrusion dehydration, extracted out in water squeezing shell 9 by dewatering plate 13, article drop downwards, and last landing is in dehydration tube 5.Then start the first motor 2, drive the rotation of rotating shaft 7, thus drive the synchronous rotary of end cap 6 and dehydration tube 5, carry out rotary dehydration process to article, water liquid finally flows out from the delivery port 20 of set casing through the first dewatering hole.After rotating centrifugal dehydration, close the first motor 2, open the first discharge door 21, just the article successively after extrusion dehydration and rotating centrifugal dehydration can be taken out.

For a person skilled in the art, according to technical scheme described above and design, other various corresponding change and distortion can be made, and all these change and distortion all should belong within the protection domain of the utility model claim.

Claims (10)

1. a Novel dehydration device, it is characterized in that: comprise support, the first rack-mount motor and set casing, laterally and the dehydration tube be installed in rotation in set casing, the perisporium of described dehydration tube is provided with multiple first dewatering hole, the right-hand member of described dehydration tube is removably connected with end cap, described end cap is fixedly connected with rotating shaft, described rotating shaft is connected with the output shaft of the first motor, the left end sidewall of described dehydration tube offers through hole, described support is also provided with water squeezing shell, described water squeezing shell is connected with dehydration tube by through hole, the left end sidewall of described dehydration tube is also provided with can the first discharge door of folding, the bottom of described set casing is formed with delivery port, the sidewall of described water squeezing shell is connected with feed pipe, being provided with in described water squeezing shell can its pushing block moved up and down relatively, the top of described water squeezing shell is provided with the drive unit for driving pushing block work, laterally pullable dewatering plate is fitted with in described water squeezing shell, described dewatering plate is positioned at the below of feed pipe, described dewatering plate is provided with multiple second dewatering hole, the madial wall of described water squeezing shell is provided with the locating slot for dewatering plate head end plug-in mounting location,

Described drive unit comprises the second motor be fixedly mounted on water squeezing shell, the sheath body be fixedly mounted on the second motor, be positioned at sheath body and the drive link be connected with the output shaft of the second motor, the drive sleeve be threaded with drive link, for limiting the limiting mechanism that drive sleeve rotates, described drive sleeve is fixedly connected with pushing block, and described drive link extends along the short transverse of sheath body.

2. Novel dehydration device as claimed in claim 1, it is characterized in that: the inner roof wall of described water squeezing shell is provided with blowning installation, described blowning installation comprises tracheae, for tracheae being fixed on the stator on water squeezing shell, one end of described tracheae is provided with the suction nozzle for providing source of the gas to tracheae, described tracheae is provided with the blowing nozzle of inflatable mouth towards dewatering plate.

3. Novel dehydration device as claimed in claim 1, it is characterized in that: described support is installed with the first fixed block, the top of described first fixed block has been bolted the second fixed block, coordinate between described first fixed block and the second fixed block and be formed with cavity, described rotating shaft is installed in rotation in this cavity.

4. Novel dehydration device as claimed in claim 1, it is characterized in that: described rotating shaft inner homogeneous is placed with multiple water channel, described water channel extends along the radial direction of rotating shaft, being connected in turn end to end of each water channel is through, form a bending water channel, the two ends of this bending water channel are formed with liquid inlet and liquid outlet respectively at the sidewall of rotating shaft.

5. Novel dehydration device as claimed in claim 1, it is characterized in that: described limiting mechanism comprises the stationary magazine creel be sleeved in drive sleeve, the screw be inserted on stationary magazine creel, described drive sleeve is formed with the first guide groove of the end head plug-in mounting for screw, described first guide groove extends along the short transverse of drive sleeve.

6. Novel dehydration device as claimed in claim 5, it is characterized in that: described limiting mechanism also comprises the guide pillar be arranged in drive sleeve, described sheath body is formed with the second guide groove of the end head plug-in mounting for guide pillar, described second guide groove extends along the short transverse of sheath body.

7. Novel dehydration device as claimed in claim 1, is characterized in that: the sidewall of described water squeezing shell is provided with can the second discharge door of folding, the described position of the second discharge door between feed pipe and dewatering plate.

8. Novel dehydration device as claimed in claim 1, is characterized in that: the lower casing that described set casing comprises upper casing, removably connects with upper casing.

9. Novel dehydration device as claimed in claim 1, is characterized in that: the below of described delivery port is provided with tank.

10. Novel dehydration device as claimed in claim 1, is characterized in that: described feed pipe place is provided with for controlling article falling speed and the vibrator preventing article from blocking.