CN219905553U

CN219905553U - Linen processing system

Info

Publication number: CN219905553U
Application number: CN202321025749.2U
Authority: CN
Inventors: 江涛
Original assignee: Jiexi Shanghai Environmental Protection Technology Co ltd
Current assignee: Jiexi Shanghai Environmental Protection Technology Co ltd
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2023-10-27
Anticipated expiration: 2033-04-28

Abstract

The utility model provides a linen processing system, which comprises a collecting subsystem and an automatic discharging subsystem; the automatic discharging subsystem comprises a high-level sensor, a controller, a conveying mechanism and a collecting frame; the feed inlet is connected with a linen pipeline, a fan is arranged in the extraction opening, and linen is sucked into the collection bin under the action of negative pressure; when the controller detects that the linen capacity reaches the set capacity threshold, the linen in the collection bin is transmitted to the turnover frame through the transmission mechanism. This scheme utilizes the negative pressure to collect the linen in collecting the storehouse to detect and collect the linen capacity in the storehouse, when the capacity reached the settlement threshold value, conveying mechanism was come out with collecting the linen conveying in the storehouse and is handled with the next step, and whole in-process collection storehouse has replaced a large amount of collection boxes, has also improved linen recovery efficiency when improving resource utilization, and collect the linen and with the linen convey the in-process of turnover frame need not artifical contact linen, reduced staff's health hidden danger.

Description

Linen processing system

Technical Field

The utility model relates to the field of linen treatment, in particular to a linen treatment system.

Background

The linen is a piece of fabric such as a quilt cover, a pillowcase, a pillow towel and the like provided in a hotel or a hospital, and after the linen is used, the used fabric needs to be cleaned and replaced in time in order to ensure the safety and health of other users. In order to solve the problems that the existing manual work is used for recycling the linen, time and labor are wasted, the workload of staff is increased, various relevant information is recorded in the linen recycling process, and the problems of missing and wrong recording are easy to occur, and the recycling bin which is convenient for recording information and can sterilize dirty linen appears in the market.

But this kind of collection box is unreasonable to dirty linen's accommodation space utilization, and a collection box only can accomodate less linen, therefore hospital or hotel need be equipped with a large amount of collection boxes, and resource utilization is not high, and retrieves linen very inconvenient, needs the manual work to pack linen into the incasement, and collection efficiency is low and causes the hidden danger to staff's health.

Therefore, in the linen collecting process, the problems of low resource utilization rate, low collecting efficiency and potential hazards to the health of staff are needed to be solved.

Disclosure of Invention

The embodiment of the utility model provides a linen system, which is used for solving the problems of low resource utilization rate, low collection efficiency and potential hazards to the health of staff in the linen collection and treatment process.

The embodiment of the utility model provides a linen processing system, which comprises a linen processing system and is characterized by comprising a collecting subsystem and an automatic discharging subsystem; the automatic discharging subsystem comprises a high-level sensor, a controller, a conveying mechanism and a collecting frame;

the collecting bin comprises a bin door and a bin body, wherein an extraction opening and a feeding opening are formed in the outside of one side, opposite to the bin door, of the bin body; the feed inlet is connected with the linen pipeline, the air extraction opening is internally provided with the fan, the fan is used for extracting air from the collecting bin, so that negative pressure is formed in the collecting bin, and linen entering the linen pipeline under the action of the negative pressure is sucked into the collecting bin from the feed inlet;

a high-level sensor is arranged above the inner part of one side of the collection bin, which is close to the extraction opening, and is used for acquiring the linen capacity information in the collection bin and feeding back the linen capacity information to a controller;

the controller is used for controlling the fan to stop working and starting a conveying mechanism positioned at the bottom of the collection bin when the capacity of the linen reaches a set capacity threshold, and the conveying mechanism is used for conveying the linen in the collection bin to the turnover frame.

Optionally, the system further comprises a counting subsystem, wherein the counting subsystem comprises an RFID linen label and an RFID linen label reading device, the RFID linen label is sewn on each piece of linen, and the RFID linen label reading device is used for sending a query signal to the RFID linen label after detecting that the RFID linen label enters the collection bin and reading linen information carried by the RFID linen label.

Optionally, the air extraction opening is also connected with an air exhaust pipeline, and the air exhaust pipeline is used for exhausting the air extracted from the collecting bin into the atmosphere after being introduced into the dedusting and deodorizing chamber for treatment.

Optionally, a cabin door cylinder which is connected with the top of the cabin body in a matching way is arranged at the top of the cabin door and is used for controlling the cabin door to be opened and closed;

locking cylinders are arranged on two sides of the top of the cabin door and used for locking the cabin door so that the cabin door is in sealing fit with the cabin body; the pressure release valve is arranged on the outer side of the top of the collecting bin and used for rapidly discharging the pressure in the collecting bin.

Optionally, a disinfection lamp is installed on the inner side of the top of the collection bin and used for disinfecting linen in the collection bin.

Optionally, the conveying mechanism comprises a speed regulating motor arranged on the outer surface of the collecting bin, and a belt bracket which are arranged on the inner side of the bottom of the collecting bin;

the belt is used for supporting and transporting the linen in the collection bin; the belt bracket is used for supporting the belt; the speed regulating motor is used for regulating the conveying speed of the belt so as to control the amount of linen falling into the collecting frame.

Optionally, a plurality of RFID cloth grass label reading devices are arranged in the collection bin, and the RFID cloth grass label reading devices are respectively located: the cabin door is arranged at the inner side of the top of the cabin door, the inner side of the cabin body is close to the feeding hole, and the bottom of the inner side of the collecting cabin is arranged.

Optionally, a belt access hole is formed in the bottom of the collecting bin and close to a side wall surface of the conveying mechanism, and the belt access hole is of a detachable structure.

Optionally, the bottom of the collecting bin is provided with a base, and the base is used for supporting the collecting bin, so that the height of the collecting bin is greater than that of the turnover frame.

The embodiment of the utility model has at least the following beneficial effects:

the utility model provides a linen processing system, which comprises a collecting subsystem and an automatic discharging subsystem; the automatic discharging subsystem comprises a high-level sensor, a controller, a conveying mechanism and a collecting frame; the collection bin comprises a bin door and a bin body, wherein an extraction opening and a feed opening are arranged in the bin body; the feed inlet is connected with the linen pipeline, a fan is arranged in the extraction opening, and linen entering the linen pipeline under the action of negative pressure is sucked into the collection bin from the feed inlet; the collecting bin is internally provided with a high-level sensor which is used for feeding back the acquired linen capacity information in the collecting bin to the controller; when the controller detects that the linen capacity reaches the set capacity threshold, the fan is controlled to stop working, and a conveying mechanism is started, and the conveying mechanism conveys the linen in the collection bin to the turnover frame. In this scheme utilize the negative pressure to concentrate the collection of linen in collecting the storehouse to utilize high-order sensor to detect the capacity of collecting the linen in the storehouse, when the capacity reached the settlement threshold value, utilize transport mechanism to convey out with carrying out next step processing with collecting the linen in the storehouse, whole in-process collection storehouse has replaced a large amount of collection boxes, has also improved linen recovery efficiency when having improved resource utilization, and collect the linen and with the linen convey to the in-process of turnover frame need not artifical contact linen, reduced staff's health hidden danger.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a linen processing system according to an embodiment of the present utility model;

FIG. 2 is a schematic top view of a linen processing system according to an embodiment of the present utility model;

fig. 3 is a schematic diagram of a speed regulating motor and a belt access opening of a linen processing system according to an embodiment of the present utility model.

Reference numerals:

1-a cabin body; 2-cabin door; 3-an extraction opening; 4-a feed inlet; 5-high level sensor; 6-RFID grass-laying label reading equipment; 7-cabin door cylinders; 8, locking a cylinder; 9-a pressure release valve; 10-sterilizing lamps; 11-a speed regulating motor; 12-a belt; 13-a belt support; 14-a belt access port; 15-a base.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

FIG. 1 is a schematic diagram of a linen processing system according to an embodiment of the present utility model.

As shown in fig. 1, includes a collection subsystem and an automatic evacuation subsystem; the automatic discharging subsystem comprises a high-level sensor 5, a controller, a conveying mechanism and a collecting frame;

the collection bin comprises a bin door 2 and a bin body 1, wherein an extraction opening 3 and a feed opening 4 are formed in the outside of one side, opposite to the bin door 2, of the bin body 1; the feed inlet 4 is connected with a linen pipeline, the air extraction opening 3 is internally provided with the fan, the fan is used for extracting air from the collecting bin, so that negative pressure is formed in the collecting bin, and linen entering the linen pipeline under the action of the negative pressure is sucked into the collecting bin from the feed inlet 4;

a high-level sensor 5 is arranged above the inner part of one side, close to the air extraction opening 3, of the collecting bin, and the high-level sensor 5 is used for acquiring the linen capacity information in the collecting bin and feeding the linen capacity information back to the controller;

In the embodiment of the utility model, the linen used by a hotel or a hospital is packed and then put into a dirty clothes putting port, and the packed linen sequentially passes through a vertical groove, a discharge valve chamber and an underground pipeline, enters a central collection station, then enters a linen pipeline and finally enters the linen processing system provided by the embodiment.

The linen processing system of the present embodiment is mainly divided into a collection subsystem and an automatic discharge subsystem according to functional distinction. The collecting subsystem specifically comprises a collecting bin and a fan, and the collecting bin comprises a cabin door 2 and a cabin body 1.

FIG. 2 is a schematic top view of a linen evacuation system.

As shown in fig. 2, two pipeline openings, namely an extraction opening 3 and a feed opening 4, are arranged in the cabin body 1 at positions opposite to the cabin door 2. The feed inlet 4 pipeline is connected with the linen pipeline, and the fan is arranged in the extraction opening 3 pipeline. Under the state that the cabin door 2 is closed, the fan pumps out the gas in the cabin through the pumping hole 3, so that negative pressure is formed in the cabin, and the suction force is generated by the feeding hole 4 under the action of the negative pressure, so that the linen in the linen pipeline is sucked into the collecting cabin.

The automatic discharging subsystem specifically comprises a high-level sensor 5, a controller, a conveying mechanism and a collecting frame.

The high-level sensor 5 is a laser ranging sensor, which emits a very thin laser beam to the target when in operation, the photoelectric element receives the laser beam reflected by the target, and the timer measures the time from the emission to the reception of the laser beam, and calculates the distance from the observation position to the target. In the embodiment of the utility model, the actual capacity of the linen in the collection bin is obtained according to the distance from the position of the linen in the actual collection bin measured by the laser ranging sensor to the sensor and the total receivable length of the linen collected in the collection bin.

The high-level sensor 5 feeds back the detected capacity information in the collection bin to the controller, and displays the capacity change on a display screen of the controller in real time. The conveying mechanism is positioned at the bottom of the collecting bin, and in the collecting bin, the linen is sucked into the collecting bin through negative pressure, and as the negative pressure is large enough, the linen is thrown on the cabin door 2 at first and slides down along the cabin door 2 to fall on the bottom of the collecting bin. As more and more linen is sucked into the collection bin, the linen is first superimposed to a certain height at the same location and then discharged along the bottom in the collection bin in the direction of the feed opening 4.

When the capacity of the linen in the collecting bin is below the threshold, the collecting efficiency is always kept in the optimal state, and when the capacity of the linen in the collecting bin is below the threshold, the collecting efficiency is affected by negative pressure due to limited space in the collecting bin, so that when the capacity of the linen in the collecting bin reaches the preset capacity value, the controller gives a prompt, and when the linen needs to be further processed, an operator opens the cabin door 2 and starts the conveying mechanism, and the conveying mechanism conveys the linen on the conveying mechanism into an external turnover frame.

In summary, the present utility model provides a linen processing system, which includes a collecting subsystem and an automatic discharging subsystem; the automatic discharging subsystem comprises a high-level sensor, a controller, a conveying mechanism and a collecting frame; the collection bin comprises a bin door and a bin body, wherein an extraction opening and a feed opening are arranged in the bin body; the feed inlet is connected with the linen pipeline, a fan is arranged in the extraction opening, and linen entering the linen pipeline under the action of negative pressure is sucked into the collection bin from the feed inlet; the collecting bin is internally provided with a high-level sensor which is used for feeding back the acquired linen capacity information in the collecting bin to the controller; when the controller detects that the linen capacity reaches the set capacity threshold, the fan is controlled to stop working, and a conveying mechanism is started, and the conveying mechanism conveys the linen in the collection bin to the turnover frame. In this scheme utilize the negative pressure to concentrate the collection of linen in collecting the storehouse to utilize high-order sensor to detect the capacity of collecting the linen in the storehouse, when the capacity reached the settlement threshold value, utilize transport mechanism to convey out with carrying out next step processing with collecting the linen in the storehouse, whole in-process collection storehouse has replaced a large amount of collection boxes, has also improved linen recovery efficiency when having improved resource utilization, and collect the linen and with the linen convey to the in-process of turnover frame need not artifical contact linen, reduced staff's health hidden danger.

In a possible implementation manner, the system further comprises a counting subsystem, wherein the counting subsystem comprises an RFID linen label and an RFID linen label reading device 6, the RFID linen label is sewn on each piece of linen, and the RFID linen label reading device 6 is used for sending a query signal to the RFID linen label after detecting that the RFID linen label enters the collection bin and reading the linen information carried by the RFID linen label.

In the embodiment of the utility model, the RFID is Radio Frequency Identification (radio frequency identification), and the common name of the RFID is an electronic tag. RFID is a contactless automatic identification technology that identifies a target object by a radio frequency signal and acquires related data provided in a tag. The RFID linen label refers to an RFID electronic label sewn on the linen, and the electronic label is provided with a unique identification code, namely each linen is provided with a unique management identification. The RFID linen label is provided with information such as specification, model, cleaning cycle times and the like corresponding to each piece of linen.

The RFID linen label is matched with the RFID linen label reading equipment 6, the RFID linen label reading equipment 6 always sends a searching signal when working, and if the RFID linen label in the searching range exists, the RFID linen label can send a response signal. After the linen enters the collection bin, the RFID linen label reading equipment 6 arranged in the collection bin inquires and reads the RFID linen labels in the collection bin, and feeds information in the read RFID linen labels back to the management system.

The management system performs statistical analysis on the information such as the specification, the model, the number, the cleaning cycle number and the like in the RFID linen label according to the information received in the RFID linen label, and helps to predict the service life end date of each piece of linen, and corresponding work order information is generated in the system. The whole counting process of the points omits a manual sorting link, and is more accurate and efficient.

Further, a plurality of RFID cloth label reading devices 6 are arranged in the collection bin, and the RFID cloth label reading devices 6 are respectively positioned in the collection bin: the inner side of the top of the cabin door 2 is positioned, the inner side of the cabin body 1 is positioned close to the feeding hole 4, and the bottom of the inner side of the collecting cabin is positioned.

In the embodiment of the utility model, the RFID cloth label reading device 6 is arranged at the inner side of the top of the cabin door 2, one is arranged at the inner side of the cabin body 1 close to the feeding port 4, and two are arranged at the bottom of the inner side of the collecting cabin along the horizontal direction due to longer length in the horizontal direction. This arrangement ensures that both the RFID cloth labels in the horizontal and vertical directions can be read by the RFID cloth label reading device 6.

In one possible embodiment, the air extraction opening 3 is also connected to an air exhaust line for exhausting the air extracted from the collection compartment into the atmosphere after the dust and odor removal chamber is treated.

In the embodiment of the utility model, the air extraction opening 3 of the collecting bin is connected with an air exhaust pipeline which is connected with the dust removal deodorizing chamber. Because the linen used by hotels or hospitals has dust or possibly smell to a certain extent, the fan sucks the linen into the collection bin through the extraction opening 3, and meanwhile, the dust or smell sucked from the linen is discharged into the exhaust pipeline through the fan, and the exhaust pipeline then leads the gas into the dust-removing deodorizing chamber, and after the dust-removing deodorizing treatment, the gas reaches the national gas emission standard and is discharged into the atmosphere.

In a possible implementation manner, the cabin door top is provided with a cabin door cylinder which is in matched connection with the cabin body top and is used for controlling the cabin door switch;

In the embodiment of the utility model, as shown in fig. 2, a cabin door cylinder 7 is arranged at the top of the cabin door 2, and the cabin door cylinder 7 is matched with the top of the cabin body 1, so that the opening and closing of the cabin door 2 can be controlled. Two locking cylinders 8 are arranged on two sides of the top of the cabin door 2, when the cabin door 2 is closed, the cabin door 2 and the cabin body 1 are further in sealing fit through the locking cylinders 8, and if the cabin door is not sealed, a gap is formed at the cabin door 2 when the fan pumps air through the pumping hole 3, so that the effect of generating negative pressure can be influenced.

The collecting bin top sets up relief valve 9, when collecting work stops, when the linen in the collecting bin is required to be discharged, operating personnel opens relief valve 9 earlier, makes the quick discharge of collecting bin internal pressure, then opens the both sides locking cylinder 8 of hatch door 2, opens hatch door cylinder 7 again, opens hatch door 2 at last, makes linen can discharge.

In one possible implementation mode, a disinfection lamp is arranged on the inner side of the top of the collecting bin and used for disinfecting the linen in the collecting bin.

In the embodiment of the utility model, as shown in fig. 1, a disinfection lamp 10 is also arranged in the collection bin, so that the linen entering the collection bin can be disinfected integrally.

In one possible implementation mode, the conveying mechanism comprises a speed regulating motor arranged on the outer surface of the collecting bin, and a belt bracket which are arranged on the inner side of the bottom of the collecting bin;

the belt is used for supporting and transporting the linen in the collection bin; the belt bracket is used for supporting the belt; the speed regulating motor is used for regulating the conveying speed of the belt 12 so as to control the amount of linen falling into the collecting frame.

In the embodiment of the present utility model, as shown in fig. 1, the conveying mechanism includes a speed-adjusting motor 11, a belt 12, and a belt bracket 13.

Fig. 3 is a schematic diagram illustrating the arrangement of the speed regulating motor 11 and the belt access opening 14 of the linen processing system according to the embodiment of the present utility model.

As shown in fig. 3, the speed regulating motor 11 is arranged on the outer surface of the collecting bin, so that the operation is convenient. The belt 12 and the belt bracket 13 are installed inside the bottom of the collecting bin. Since the linen in the collection bin has a certain weight, the belt 12 is supported by the belt support 13, and the belt 12 is prevented from being pressed down. The speed regulating motor 11 can regulate the conveying speed of the belt 12, and the amount of linen falling into the turnover frame is controlled by controlling the conveying speed of the belt 12.

In one possible implementation mode, a belt access hole is formed in the bottom of the collecting bin, close to a side wall surface of the conveying mechanism, and the belt access hole is of a detachable structure.

In the embodiment of the utility model, as shown in fig. 3, a belt access hole 14 is arranged near one side wall surface of the conveying mechanism at the position where the conveying mechanism is arranged in the collecting bin, and the wall surface of the belt access hole 14 is detachable, so that the belt access hole is convenient to check and repair when the belt 12 fails to run.

In a possible embodiment, the bottom of the collecting bin is provided with a base 15, and the base 15 is used for supporting the collecting bin, so that the height of the collecting bin is greater than that of the turnover frame.

In the embodiment of the present utility model, as shown in fig. 3, the bottom of the collecting bin is provided with the base 15 to support the collecting bin, and the height of the base 15 is larger than the height of the turnover frame, so as to ensure that the linen conveyed from the conveying mechanism can smoothly fall into the turnover frame.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims

1. A linen processing system, characterized by comprising a collecting subsystem and an automatic discharging subsystem; the automatic discharging subsystem comprises a high-level sensor, a controller, a conveying mechanism and a collecting frame;

2. The linen processing system according to claim 1, further comprising a counting subsystem, wherein the counting subsystem comprises an RFID linen tag and an RFID linen tag reading device, the RFID linen tag is sewn on each piece of linen, and the RFID linen tag reading device is used for sending a query signal to the RFID linen tag after detecting that the RFID linen tag enters the collection bin, and reading linen information carried by the RFID linen tag.

3. A linen treatment system according to claim 1, wherein said suction opening is further connected to a gas exhaust duct for exhausting the gas drawn from the collection compartment into the atmosphere after treatment in the dust and odor removal chamber.

4. A linen treatment system according to claim 1, wherein the cabin door top is provided with a cabin door cylinder cooperatively connected with the cabin body top for controlling the cabin door switch;

5. A linen processing system according to claim 1, wherein a disinfection lamp is mounted on the inside of the top of the collection bin for disinfecting linen in the collection bin.

6. The linen processing system according to claim 1, wherein said conveying mechanism comprises a speed-regulating motor arranged on the outer surface of said collecting bin, and a belt bracket installed on the inner side of the bottom of said collecting bin;

7. The linen processing system according to claim 2, wherein a plurality of RFID linen label reading devices are arranged in the collection bin, and the RFID linen label reading devices are respectively located: the cabin door is arranged at the inner side of the top of the cabin door, the inner side of the cabin body is close to the feeding hole, and the bottom of the inner side of the collecting cabin is arranged.

8. The linen processing system according to claim 1, wherein a belt access opening is provided in the bottom of the collection bin near a side wall of the conveyor mechanism, and the belt access opening is of a detachable structure.

9. A linen treatment system according to claim 1, wherein the bottom of the collection bin is provided with a base for supporting the collection bin such that the height of the collection bin is greater than the height of the turnover frame.