CN215163749U - Novel rope-shaped washing machine - Google Patents

Abstract

The utility model discloses a novel rope-shaped washing machine, which comprises at least two water tanks, wherein a cloth feeding end of the first water tank is provided with a cloth feeding wheel device for feeding a fabric at a first speed, a cloth discharging end of the last water tank is provided with a cloth discharging wheel device for discharging the fabric at a second speed, and a cloth lifting wheel device for alternately conveying the fabric between the adjacent water tanks at a third speed is arranged between the adjacent water tanks; at least one of the first speed and the second speed is a variable speed, and the first speed and the second speed are not greater than the third speed; a swingable tension rod and a sensor device connected with the tension rod are arranged above the fabric in the water tank, and a control signal for controlling the cloth lifting wheel device to run reversely corresponds to the swinging of the tension rod. The utility model discloses a linkage of tension bar and sensor device realizes carrying cloth wheel device's traffic direction control, its simple structure, has effectively utilized the upper portion space of basin to the sensing mode is sensitive, stable.

Description

Novel rope-shaped washing machine

Technical Field

The utility model relates to a fabric washing equipment technical field, concretely relates to novel rope form rinsing machine.

Background

A rinsing machine for continuous washing can reach better washing effect, and it includes two at least basins, and the fabric passes through conveyor and gets into each basin in proper order and wash one by one, progressively washes the fabric totally, and present rinsing machine only carries out horizontal transport and washing to the fabric, and the dwell time of fabric in the basin is shorter, and washing effect is not good. In the process of washing the rope-shaped fabric, the fabric is rolled together in a rope shape, so that sufficient time is needed for immersion washing and rinsing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel rope form rinsing machine to solve the not enough of the prior art who mentions in the background art.

To achieve the above object, the present invention provides the following technical solutions:

a novel rope-shaped washing machine comprises at least two water tanks, wherein a cloth feeding wheel device for conveying fabrics into the first water tank at a first speed is arranged at a cloth feeding end of the first water tank, a cloth discharging wheel device for conveying the fabrics to the outside at a second speed is arranged at a cloth discharging end of the last water tank, and a cloth lifting wheel device for alternately conveying the fabrics between the adjacent water tanks at a third speed is arranged between the adjacent water tanks, so that the fabrics can be alternately accumulated in the two adjacent water tanks;

a swingable tension rod and a sensor device connected with the tension rod are arranged above the fabric in the water tank, and a control signal for controlling the cloth lifting wheel device to run reversely corresponds to the swinging of the tension rod; the tension bar can be oscillated by the force of the fabric on the tension bar during the raising of the fabric at the end of the accumulation of fabric in the water trough.

Preferably, at least one of the first speed and the second speed is a variable speed, and neither the first speed nor the second speed is greater than a third speed; in the primary washing process, the average value of the first speed is equal to the average value of the second speed; the one-time washing work is used as a fabric which is uninterrupted from end to finish the washing process.

Preferably, the cloth lifting wheel device comprises a cloth lifting wheel driven by a driving device and a swingable cloth pressing roller, and the fabric is tightly pressed between the cloth lifting wheel and the cloth pressing roller to be conveyed and is squeezed.

Preferably, nozzles for the fabric to pass through are respectively arranged on two sides of the cloth lifting wheel device, and two nozzles of one cloth lifting wheel device respectively correspond to two adjacent water tanks; and the connecting line of the lowest points of the nozzles at the two ends of the same water tank is positioned above the action point of the tension rod.

Preferably, the nozzle comprises a nozzle main body with a cavity arranged therein, a liquid inlet hole communicated with the cavity is formed in the side wall of the nozzle main body, a baffle ring and an upper nozzle barrel and a lower nozzle barrel which are sleeved up and down are arranged in the nozzle main body, an annular nozzle communicated with the cavity is formed by a gap between the upper nozzle barrel and the lower nozzle barrel, and the baffle ring is positioned on the periphery of the annular nozzle.

Preferably, the upper nozzle cylinder is fixedly installed in the nozzle body, a height adjusting mechanism is installed between the lower nozzle cylinder and the nozzle body, the lower nozzle cylinder is adjusted in height position by the height adjusting mechanism, and the size of the annular nozzle is changed along with the adjustment of the height position of the lower nozzle cylinder.

Preferably, the at least two water tanks are arranged transversely in parallel, and the fabric passes through each water tank in an S shape in sequence.

Preferably, a support rod longitudinally penetrating through all the water tanks is arranged in the washing machine, a pair of tension rod fixing plates are respectively arranged on the support rod corresponding to each water tank, and the tension rods are arranged between the pair of tension rod fixing plates in a swinging mode.

Preferably, the tension rod fixing plate is provided with a limiting rod for limiting the angle stroke of the tension rod.

Preferably, the sensor device comprises an induction force arm, a magnetic induction head and a magnetic sensor which is arranged at a preset position above the water tank and is matched with the induction, one end of the induction force arm is fixedly connected with the tension rod and synchronously rotates with the tension rod, and the other end of the induction force arm is fixedly connected with the magnetic induction head.

Compared with the prior art, the utility model, its beneficial effect lies in:

1. the utility model discloses a positive and negative direction operation of carrying cloth wheel device can prolong the pile time of fabric in the basin, increases the number of times that the fabric washed repeatedly, has improved work efficiency when improving the washing effect.

2. The utility model discloses a linkage of tension bar and sensor device realizes carrying cloth wheel device's traffic direction control, its simple structure, has effectively utilized the upper portion space of basin to the sensing mode is sensitive, stable.

3. The utility model discloses a change of first speed and/or second speed can be in real time adjusted the accumulation pile degree of the fabric in the basin.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic front view of the present invention.

Fig. 3 is a schematic view of the delivery in one of the troughs of the present invention.

Fig. 4 is a schematic structural view of the middle tension rod of the present invention.

Fig. 5 is a schematic side view of the middle tension rod of the present invention.

Fig. 6 is a schematic structural view of the cloth lifting wheel of the present invention.

Fig. 7 is a schematic structural diagram of the nozzle of the present invention.

In the figure: 1. a water tank 101, a first water tank 102, a middle water tank 103, a last water tank 104, a cloth feeding wheel device 105 and a cloth discharging wheel device; 2. a cloth lifting wheel device 201, a cloth lifting wheel 202 and a cloth pressing roller; 3. the nozzle comprises a nozzle body 301, a nozzle body 302, a cavity 303, a liquid inlet hole 304, a baffle ring 305, an upper nozzle barrel 306, a lower nozzle barrel 307, an annular nozzle 308, a hoop 309, a bolt 310 and a nut; 4. a tension bar; 5. a support bar; 6. fixing a force arm; 7. fixing a tension rod; 8. a limiting rod; 9. an induction force arm; 10. a magnetic induction head.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further specifically described below by way of embodiments and with reference to the accompanying drawings.

Example (b): a novel rope-shaped washing machine is shown in figures 1-7, and comprises a plurality of parallel transverse water tanks 1, wherein the water tanks are divided into a first water tank 101, a plurality of middle water tanks 102 and a last water tank 103, a cloth feeding end of the first water tank 101 is provided with a cloth feeding wheel device 104 for conveying fabric (the fabric is expressed as rope-shaped fabric) into the first water tank 101 at a first speed, a cloth discharging end of the last water tank 103 is provided with a cloth discharging wheel device 105 for conveying the fabric to the outside at a second speed, and a cloth lifting wheel device 2 for alternately conveying the fabric between adjacent water tanks at a third speed is arranged between adjacent water tanks, so that the fabric can be alternately accumulated in the adjacent two water tanks, the fabric is stacked in the water tanks 1 for a longer time, the washing time is prolonged, and the washing effect and the washing efficiency are improved.

In the structure, the water tank 1 is U-shaped in the longitudinal direction and has a certain length, so that the fabric can be conveniently piled. Since the plurality of water tanks are arranged in parallel and transversely, in order to enable the fabric to pass through each water tank transversely in turn, the cloth lifting wheel devices 2 are alternately arranged at the front and rear sides of the washing machine in turn, for example, the cloth feeding wheel device 104 is arranged at the front side end of the first water tank, the cloth lifting wheel device between the first water tank and the second water tank is arranged at the rear side end far away from the cloth feeding wheel device 104, the cloth lifting wheel device between the second water tank and the third water tank is arranged at the front side end near the cloth feeding wheel device 104, and the like. The fabric is led in from the cloth feeding wheel device 104, passes through the water tanks and the cloth lifting wheel device 2 in turn in an S shape, and finally is led out from the cloth discharging wheel device 105.

At least one of the first speed and the second speed is variable in the fabric transport speed, so that the fabric accumulation degree in the water tub 1 can be adjusted in real time. In this embodiment, the first speed, i.e. the cloth feeding speed, is constant, e.g. 10m/min, and the second speed can be adjusted by changing the rotational speed of the cloth outlet wheel arrangement 105. When more fabrics are piled in the water tank, the second speed is adjusted to be high, for example, to be 15 m/min; when the fabric is less piled in the water tank, the second speed is adjusted to be low, for example, 5 m/min; of course, the second speed may also be kept coincident with the first speed for a certain period of time.

It will be appreciated that the average value of the first speed and the average value of the second speed should be comparable during a single wash operation, i.e. the amount of fabric entering the washing machine and the amount of fabric leaving the washing machine are comparable during a single wash operation. The washing operation refers to a process of washing the fabric end to end without interruption. More strictly, the average of the first speed and the average of the second speed should be comparable over a time interval such that the accumulation of the fabric pile in the basin is maintained to a certain extent, for example 5 min.

However, in contrast, the third speed at which the fabric travels between adjacent troughs is greater than or equal to the first speed or the second speed, so that the fabric can be rapidly accumulated alternately in the adjacent two troughs, for example, at a third speed of 90 m/min.

In this embodiment, the top of fabric is equipped with can be in certain angle interval wobbling tension bar 4 and the sensor device who links to each other with tension bar 4 in the basin, and the control signal that will be used for controlling the cloth lifting wheel antiport corresponds to the swing of tension bar 4, drives the sensor device through the swing of tension bar 4 promptly and sends control signal to control cloth lifting wheel antiport. When the accumulation of the fabric in a certain water tank is terminated, the fabric is lifted while being stretched, and the tension rod 4 is driven to swing by the pushing force of the fabric acting on the tension rod 4 in the process of lifting the fabric.

Specifically, the relative middle part of rinsing machine is equipped with a bracing piece 5 that vertically runs through all basin lateral walls, the both ends of bracing piece 5 are respectively through fixed arm of force 6 fixed the setting on the both sides wall of rinsing machine, it is equipped with a pair of tension bar fixed plate 7 respectively to correspond every basin on the bracing piece 5, tension bar 4 can swing and set up between a pair of tension bar fixed plate 7, tension bar 4 wholly is the U-shaped, both sides are equipped with the gag lever post 8 that is used for restricting 4 angular travel of tension bar respectively about two arms of tension bar 4 on tension bar fixed plate 7, make tension bar 4 swing in certain angle interval, and should know, its angle vertical direction that should deviate when tension bar 4 is located the extreme low position.

The sensor device comprises an induction force arm 9, a magnetic induction head 10 and a magnetic sensor (not shown in the figure) which is arranged at a preset position on the machine body above the water tank and is matched with the magnetic induction head 10 for induction, one end of the induction force arm 9 is fixedly connected with the tension rod 4 and synchronously rotates with the tension rod 4, and the other end of the induction force arm 9 is fixedly connected with the magnetic induction head 10. The magnetic sensor is connected with a control device, the control device is connected with a driving device corresponding to the cloth lifting wheel device 2, and the tension rod 4 in each water tank simultaneously controls two cloth lifting wheel devices at two ends of the water tank correspondingly.

When the accumulation of the fabrics in a certain water tank is terminated, namely the fabrics stacked in the water tank are all conveyed by the cloth lifting wheel device 2 and stacked in an adjacent water tank, the fabrics in the water tank rise under the pulling of the cloth lifting wheel device 2, a thrust is given to the tension rod 4 after contacting the tension rod 4 in the rising process, the tension rod 4 is enabled to swing upwards for a certain angle (the angle is small for ensuring the sensitivity and is not more than 3 degrees, for example), the magnetic induction head 10 synchronously swings and is matched with the magnetic sensor for induction, the control device controls the corresponding cloth lifting wheel device 2 to run reversely after receiving a signal of the magnetic sensor, the fabrics stacked in the adjacent water tank are reversely conveyed to the water tank, and the like, so that the fabrics are alternately conveyed between the adjacent water tanks.

Specifically, the cloth lifting wheel device 2 comprises a cloth lifting wheel 201 driven by a servo motor, a cloth pressing roller 202 capable of swinging and nozzles 3 respectively arranged on two sides of the cloth lifting wheel device 2, the cloth pressing roller 202 presses the fabric between the cloth lifting wheel 201 and the cloth pressing roller 202 for conveying and squeezing, enough friction force is provided for conveying the fabric through the pressing and conveying of the cloth pressing roller 202, the condition that the fabric is wrinkled and wound in the conveying process is avoided, and the washing effect and efficiency are improved. The nozzles 3 on the two sides of the cloth lifting wheel device 2 are respectively positioned above the two adjacent water tanks and used for the fabric to pass through, and the connecting line of the lowest points of the nozzles at the two ends of the same water tank is positioned above the action point of the tension rod 4, so that the fabric can be ensured to contact the tension rod 4 before being straightened in the water tanks, and the fabric is prevented from being broken or damaged.

Preferably, the nozzle 3 includes a nozzle main body 301 having a cavity 302 therein, a liquid inlet 303 communicating with the cavity 302 is formed in a side wall of the nozzle main body 301, a baffle ring 304 and an upper nozzle cylinder 305 and a lower nozzle cylinder 306 sleeved up and down are disposed in the nozzle main body 301, a gap between the upper nozzle cylinder 305 and the lower nozzle cylinder 306 forms an annular nozzle 307 communicating with the cavity 302, and the baffle ring 304 is located at a periphery of the annular nozzle 307. The fabric passes through the upper nozzle barrel 305 and the lower nozzle barrel 306, washing water enters the cavity 302 through the liquid inlet hole 303, is pressurized through the annular nozzle 307 and then is sprayed out to spray and wash the passing fabric, and the flow rate is prevented from being influenced by the rotational flow of washing liquid by arranging the baffle ring 304; the utility model discloses in go up nozzle barrel 305 fixed mounting in nozzle main body 301, install high adjustment mechanism between lower nozzle barrel 306 and the nozzle main body 301, high adjustment mechanism includes the staple bolt 308 of being connected with nozzle main body 301 clamp, staple bolt 308 passes through bolt 309 and nut 310 and is connected with lower nozzle barrel 306, nut 310 divides to locate staple bolt 308 about the side, lower nozzle barrel 306 passes through staple bolt 308 and screws up the regulation of fixing the realization position along the nut 310 of bolt 309 removal rethread both sides, the size of annular nozzle 307 changes along the regulation of lower nozzle barrel 306 high position. The lower nozzle barrel 306 can be conveniently connected and mounted through the hoop 308, the size of the annular nozzle 307 can be changed as required, so that the flow rate and the spraying speed of the washing water can be adjusted, the use is more flexible, and the lower nozzle barrel has better applicability.

It is worth mentioning that in other embodiments of the present invention, the plurality of water tanks may be continuously disposed to be approximately in a straight line, the fabric basically moves along the track approximately in a single longitudinal plane, the cloth lifting wheel device 2 is disposed at the connection position of every two adjacent water tanks, and the tension rod 4 and the sensor device in each water tank are all independently disposed. The mode that this embodiment is horizontal side by side is on the one hand for the whole size of reduction rinsing machine to reduce equipment occupation space, on the other hand can be convenient for the integration of electrical system, shortens electrical connection line's distance.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. A novel rope-shaped washing machine is characterized by comprising at least two water tanks, wherein a cloth feeding end of a first water tank is provided with a cloth feeding wheel device for conveying a fabric into the first water tank at a first speed, a cloth discharging end of a last water tank is provided with a cloth discharging wheel device for conveying the fabric to the outside at a second speed, and a cloth lifting wheel device for alternately conveying the fabric between the adjacent water tanks at a third speed is arranged between the adjacent water tanks, so that the fabric can be alternately accumulated in the two adjacent water tanks;

a swingable tension rod and a sensor device connected with the tension rod are arranged above the fabric in the water tank, and a control signal for controlling the cloth lifting wheel device to run reversely corresponds to the swinging of the tension rod; the tension bar can be oscillated by the force of the fabric on the tension bar during the raising of the fabric at the end of the accumulation of fabric in the water trough.

2. The rope washer of claim 1, wherein at least one of said first speed and said second speed is variable, and neither said first speed nor said second speed is greater than a third speed; in the primary washing process, the average value of the first speed is equal to the average value of the second speed; the one-time washing work is used as a fabric which is uninterrupted from end to finish the washing process.

3. The novel rope-shaped washing machine as claimed in claim 1, wherein the cloth lifting wheel device comprises a cloth lifting wheel driven by a driving device and a swingable cloth pressing roller, and the fabric is tightly pressed between the cloth lifting wheel and the cloth pressing roller to be conveyed and is squeezed.

4. The novel rope-shaped washing machine as claimed in claim 1 or 3, wherein nozzles for the fabric to pass through are respectively arranged on two sides of the cloth lifting wheel device, and two nozzles of one cloth lifting wheel device respectively correspond to two adjacent water tanks; and the connecting line of the lowest points of the nozzles at the two ends of the same water tank is positioned above the action point of the tension rod.

5. The novel rope-shaped washing machine as claimed in claim 4, wherein the nozzle comprises a nozzle body with a cavity therein, a liquid inlet hole communicated with the cavity is formed in a side wall of the nozzle body, a baffle ring and an upper nozzle barrel and a lower nozzle barrel which are sleeved up and down are arranged in the nozzle body, a gap between the upper nozzle barrel and the lower nozzle barrel forms an annular nozzle communicated with the cavity, and the baffle ring is located at the periphery of the annular nozzle.

6. The novel rope-shaped washing machine as claimed in claim 5, wherein the upper nozzle tube is fixedly installed in the nozzle body, a height adjusting mechanism is installed between the lower nozzle tube and the nozzle body, the lower nozzle tube is adjusted in height and position through the height adjusting mechanism, and the size of the annular nozzle is changed along with the adjustment of the height and position of the lower nozzle tube.

7. The rope washer of claim 1, wherein said at least two water slots are juxtaposed and said fabric is S-shaped to pass through each of said water slots in sequence.

8. The rope-shaped washing machine as claimed in claim 7, wherein a support rod is provided in the washing machine and extends longitudinally through all the water tanks, a pair of tension rod fixing plates are provided on the support rod corresponding to each water tank, and the tension rod is swingably provided between the pair of tension rod fixing plates.

9. The novel rope-shaped washing machine as claimed in claim 8, wherein a limiting rod for limiting the angular travel of the tension rod is arranged on the tension rod fixing plate.

10. The novel rope-shaped washing machine as claimed in claim 8 or 9, wherein the sensor device comprises an induction force arm, a magnetic induction head and a magnetic sensor which is arranged at a predetermined position above the water tank and is matched with the induction, one end of the induction force arm is fixedly connected with the tension rod and rotates synchronously with the tension rod, and the other end of the induction force arm is fixedly connected with the magnetic induction head.

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