CN215918357U

CN215918357U - Cleaning and drying device for artificial stone specification plate

Info

Publication number: CN215918357U
Application number: CN202120405409.7U
Authority: CN
Inventors: 林火烟; 杨跃武; 林清洁
Original assignee: Jinjiang Huabao Stone Industry Co ltd
Current assignee: Jinjiang Huabao Stone Industry Co ltd
Priority date: 2021-02-24
Filing date: 2021-02-24
Publication date: 2022-03-01
Anticipated expiration: 2031-02-24

Abstract

The utility model relates to a cleaning and drying device for an artificial stone specification plate, which comprises a main frame, a cleaning tank and a blow-drying mechanism, wherein the cleaning tank and the blow-drying mechanism are assembled on the main frame; the cleaning tank is provided with a net chain conveying belt; the net chain conveyer belt is in a closed loop structure formed by sequentially connecting an input section, a cleaning section, an output section and a return section end to end, the blow-drying mechanism comprises a casing, a fan and a wind-homogenizing chamber, the fan is fixedly assembled at the top of the casing, and the fan blows external air into the wind-homogenizing chamber. Through the configuration of the blow-drying mechanism, the two sides of the cleaned specification plate can be quickly dried by hot air in a closed space, so that the drying efficiency and the drying quality of the specification plate are effectively improved; through the structure of the network conveyer belt and the configuration of the vibrator distribution structure, two surfaces of the specification plate can be cleaned simultaneously; the cleaning speed is high, the efficiency is high and is 6-10 times of the manual cleaning speed, the cleaning is very clean, and the cleaning effect is good.

Description

Cleaning and drying device for artificial stone specification plate

Technical Field

The utility model relates to the field of stone plate cleaning, in particular to a cleaning and drying device for an artificial stone specification plate.

Background

In the process of cutting the inorganic artificial stone into the specification plate by using the bridge cutting machine, the saw cutting stone mud generated in the process of cutting by using the bridge is adhered to the surface of the artificial stone plate, and the adhered stone mud is difficult to clean because the marble has strong powder absorption adhesion. The existing cleaning mode is mostly cleaned by manually flushing water, the cleaning mode is long in time consumption, low in efficiency, extremely wastes water resources and high in cleaning cost, manual cleaning is still incomplete in cleaning of a large number of plates due to factors such as labor intensity and intensity, the cleaning effect is unstable, the implementation of a subsequent protection process is further influenced, and meanwhile, manual cleaning is not good at the cleaning cost of an artificial stone standard plate due to high labor cost, and stone competition of unfavorable products is avoided. In addition, after the cleaning of the specification board is completed, the specification board is dried by adopting a natural drying mode, the efficiency of the drying mode is low, and in the natural drying long process, the wet state of the surface of the specification board is easily polluted by dust again, so that the pollution is generated, and the final cleaning effect of the specification board is influenced.

Disclosure of Invention

The utility model provides a cleaning and drying device for an artificial stone specification plate, which aims to solve the problems of high cleaning cost, low cleaning efficiency, low natural drying efficiency, easy absorption of secondary pollution of dust and the like of the conventional artificial stone specification plate.

The utility model adopts the following technical scheme:

the cleaning and drying device for the artificial stone specification plate comprises a main frame, a cleaning tank and a blow-drying mechanism, wherein the cleaning tank is assembled on the main frame. The main frame is made of a stainless steel square tube with the diameter of 50 multiplied by 50 (mm), and the cleaning tank is made of a T2.5 stainless steel plate; the overall specification of the cleaning device is L4000 XW 800 XH 650, and the cleaning device can be used for cleaning a specification plate of L600 XW 600 XH 50. The cleaning tank is provided with a net chain conveyer belt, and the conveying speed of the net chain conveyer belt is 3 m/min; the net chain conveyer belt consists of a main net layer with meshes and chain belts fixedly assembled on two side edges of the main net layer. The net chain conveying belt is in a closed-loop structure formed by sequentially connecting an input section, a cleaning section, an output section and a return section end to end, a gauge plate enters cleaning liquid of the cleaning tank from the outside through the input section, the cleaning section is immersed in the cleaning liquid, and the output section is used for outputting the gauge plate to the outside from the inside of the cleaning liquid.

The blow-drying mechanism comprises a machine shell, a fan and an air-homogenizing chamber, wherein the fan is fixedly assembled at the top of the machine shell, the fan blows external air into the air-homogenizing chamber, a plurality of uniformly distributed blowing holes are fixedly assembled at the bottom of the air-homogenizing chamber, a blow-drying and moisture-discharging chamber is formed in the machine shell, air in the air-homogenizing chamber is blown to the blow-drying and moisture-discharging chamber through the blowing holes, and the blow-drying and moisture-discharging chamber is provided with an air outlet; a plurality of blow-drying conveyer belts which are distributed up and down are arranged in the blow-drying dehumidifying chamber, and the feed end of the next layer of blow-drying conveyer belt is arranged right below the discharge end of the previous layer of blow-drying conveyer belt in two adjacent blow-drying conveyer belts; the specification plate cleaned by the cleaning tank is conveyed to the feeding end of the blow-drying conveying belt through the net chain conveying belt, and the discharge end of the blow-drying conveying belt at the bottommost layer conveys the specification plate to the outside of the machine shell through the air outlet.

In a further improvement, the discharge end of each layer of the blow-drying conveyer belt is provided with a transfer plate which rotates by a fixed shaft, and a torsion spring which urges the transfer plate to rotate upwards and reset is arranged on a rotating shaft at the side edge of the transfer plate far away from the blow-drying conveyer belt; the specification plate of the discharge end output of the blow-drying conveyer belt enters the transfer plate, the transfer plate swings downwards under the action of gravity of the specification plate, and the specification plate is transferred to the feeding end of the next layer of blow-drying conveyer belt.

In a further improvement mode, the air-homogenizing chamber is fixedly provided with a heater and a temperature sensor, the heater is arranged at an air outlet of the fan, the temperature sensor is used for detecting the real-time temperature of the air-homogenizing chamber, and the heater adjusts the heating amount in real time according to the detection data of the temperature sensor.

In a further improvement, the cleaning tank is provided with a vibrator. The vibrator is fixedly arranged above and/or below the cleaning section and is used for generating ultrasonic vibration waves; the ultrasonic waves generated directly and repeatedly impact dirt, so that the adsorption of the dirt and the surface of the cleaning piece is damaged, and the dirt layer can be damaged by fatigue to be separated.

In a further improvement, the cleaning tank is provided with at least three rows of vibrators which are linearly and uniformly distributed, at least two rows of the vibrators are arranged above the cleaning section, and at least one row of the vibrators is arranged below the cleaning section. The cleaning tank is provided with 48 vibrators, and each row is provided with 16 vibrators.

In a further improvement, a spraying device is arranged above the output section, and the spraying device is provided with at least two rows of spraying heads which vertically spray downwards.

In a further improved mode, an air cutting mechanism is arranged above the output section and comprises at least one air cutting pipe, the air cutting pipe is provided with a plurality of air outlet holes blowing towards the specification plate, and the air cutting mechanism is used for blowing off or drying moisture on the surface of the output specification plate quickly.

In a further improvement, the front end of the cleaning tank is provided with a clean cleaning liquid injection pipe, and the rear end of the cleaning tank is provided with a cleaning liquid discharge pipe, taking the conveying direction of the conveying belt in the cleaning tank as the front.

In a further improvement, at least one stirring frame rotating around a fixed axis is fixedly arranged in the cleaning tank, the stirring frame is composed of a driving shaft and a plurality of stirring plates fixedly arranged on the peripheral surface of the driving shaft, the driving shaft is arranged on the tank wall of the cleaning tank in a left-right extending mode, the stirring plates are used for stirring the surface layer of the cleaning solution and flow forwards from back to front, and the bottom layer of the cleaning solution of the cleaning tank flows backwards from front to back to form a rotational flow continuously flowing circularly. The formation of this whirl can further strengthen the cleaning solution to the function of washing away of specification board surface dust, further strengthens cleaning tank to the cleaning performance and the cleaning efficiency of slabstone material.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the automatic cleaning device for the specification plate is simple in structure, and through the configuration of the blow-drying mechanism, the two sides of the cleaned specification plate can be quickly dried by hot air in a closed space, so that the drying efficiency and the drying quality of the specification plate are effectively improved; in addition, through the structure of the network conveyer belt and the arrangement of the vibrator distribution structure, the two surfaces of the specification plate can be cleaned simultaneously; the cleaning speed is high, the efficiency is high and is 6-10 times of the manual cleaning speed, the cleaning is very clean, and the cleaning effect is good; in addition, the water in the cleaning tank can be recycled, the waste of water resources is effectively reduced, and the cleaning cost is reduced.

Drawings

Fig. 1 is a schematic sectional view of an automatic cleaning apparatus according to the present invention.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Referring to fig. 1, the cleaning and drying device for the artificial stone specification plate comprises a main frame 1, a cleaning tank 2 and a blow-drying mechanism 4, wherein the cleaning tank 2 and the blow-drying mechanism are assembled on the main frame 1; the main frame 1 is made of a stainless steel square tube with the diameter of 50 multiplied by 50 (mm), and the cleaning tank 2 is made of a T2.5 stainless steel plate; the overall specification of the cleaning device is L4000 XW 800 XH 650, and the cleaning device can be used for cleaning the standard plate with the maximum L600 XW 600 XH 50. The washing tank 2 is provided with a net chain conveyor belt 21 and a vibrator 22, and the conveying speed of the net chain conveyor belt 21 is 3 m/min. The net chain conveyor belt 21 is composed of a main net layer with meshes and chain belts fixedly assembled on two side edges of the main net layer; the net chain conveyer belt 21 is formed into a closed loop structure by sequentially connecting an input section 211, a cleaning section 212, an output section 213 and a return section 214 end to end, the gauge plate enters the cleaning liquid of the cleaning tank 2 from the outside through the input section 211, the cleaning section 212 is immersed in the cleaning liquid, and the output section 213 is used for outputting the gauge plate from the inside of the cleaning liquid to the outside; the vibrator 22 is fixedly arranged above and/or below the cleaning section 212, and the vibrator 22 is used for generating ultrasonic vibration waves; the ultrasonic waves generated directly and repeatedly impact dirt, so that the adsorption of the dirt and the surface of the cleaning piece is damaged, and the dirt layer can be damaged by fatigue to be separated.

With continued reference to fig. 1, the drying mechanism 4 includes a casing 41, a blower 42 and an air homogenizing chamber 43, the blower is fixedly mounted on the top of the casing 41, the blower 42 blows the outside air into the air homogenizing chamber 43, the bottom of the air homogenizing chamber 43 is fixedly mounted with a plurality of blowing holes 430 which are uniformly distributed, a humidity discharging chamber 44 is formed in the casing 41, the air in the air homogenizing chamber 43 is blown to the humidity discharging chamber 44 through the blowing holes 430, and the humidity discharging chamber 44 is provided with an air outlet; a plurality of blow-drying conveyer belts 45 which are distributed up and down are arranged in the humidity discharging chamber 44, and in two adjacent blow-drying conveyer belts 45, the feeding end of the next blow-drying conveyer belt 45 is arranged right below the discharging end of the previous blow-drying conveyer belt 45; the specification plate cleaned by the cleaning tank 2 is conveyed to the feeding end of the blow-drying conveyer belt 45 through the net chain conveyer belt 22, and the discharge end of the blow-drying conveyer belt 45 at the bottommost layer conveys the specification plate to the outside of the machine shell through the air outlet. A middle rotating plate 46 which rotates with a fixed shaft is arranged at the discharge end of each layer of the blow-drying conveying belt 45, and a torsion spring which urges the middle rotating plate 46 to rotate upwards and reset is arranged on a rotating shaft at the side edge of the middle rotating plate 46 far away from the blow-drying conveying belt 45; the gauge plate output from the discharge end of the blow-drying conveyor belt 45 enters the transfer plate 46, and the transfer plate 46 swings downward under the action of gravity of the gauge plate and transfers the gauge plate to the feed end of the next layer of blow-drying conveyor belt 45. The air-homogenizing chamber 43 is fixedly provided with a heater and a temperature sensor, the heater is arranged at an air outlet of the fan 42, the temperature sensor is used for detecting the real-time temperature of the air-homogenizing chamber 43, and the heater adjusts the heating value in real time according to the detection data of the temperature sensor. Through this configuration of weathering mechanism 4, can carry out hot-blast fast drying in the enclosure space with the two-sided of the specification board of accomplishing of wasing, effectively improved the drying efficiency and the drying quality of specification board.

With reference to fig. 1, the cleaning tank 2 is configured with at least three rows of the vibrators 22 distributed linearly and uniformly, at least two rows of the vibrators 22 are arranged above the cleaning section 212, and at least one row of the vibrators 22 is arranged below the cleaning section 212. The cleaning tank 2 is provided with 48 of the vibrators 22, and 16 vibrators 22 are provided per line.

In a further improvement, a spraying device 3 is arranged above the output section 213, the spraying device 3 is provided with at least two rows of spraying heads 31, and the spraying heads 31 spray vertically downwards.

With reference to fig. 1, the conveying direction of the conveyor belt in the cleaning tank 2 is taken as the front, the front end of the cleaning tank 2 is provided with a clean cleaning solution injection pipe 23, the rear end of the cleaning tank 2 is provided with a cleaning solution discharge pipe 24, and the injection pipe 23 and the discharge pipe 24 are distributed in the front and rear direction to drive the newly injected cleaning solution to drive the turbid cleaning solution, which is beneficial to discharging the waste water in time.

With reference to fig. 1, at least one stirring frame 25 rotating around a fixed axis is fixedly installed in the cleaning tank 2, the stirring frame 25 is composed of a driving shaft and a plurality of stirring plates 251 fixedly installed on the outer circumferential surface of the driving shaft, the driving shaft is installed on the tank wall of the cleaning tank 2 in a manner of extending in the left-right direction, the stirring plates 251 are used for stirring the surface layer of the cleaning solution to flow from back to front, and the bottom layer of the cleaning solution in the cleaning tank 2 flows from front to back to form a rotational flow which continuously and circularly flows. The formation of this whirl can further strengthen the cleaning solution to the function of washing away of specification board surface dust, further strengthens cleaning tank 2 to the cleaning performance and the cleaning efficiency of slabstone material.

With continued reference to fig. 1, the automatic cleaning device for the specification plate of the present invention has a simple structure, and can simultaneously clean both surfaces of the specification plate by the configuration of the network conveyer belt and the distribution structure of the vibrators 22; the cleaning speed is high, the efficiency is high and is 6-10 times of the manual cleaning speed, the cleaning is very clean, and the cleaning effect is good; in addition, the water in the cleaning tank 2 can be recycled, the waste of water resources is effectively reduced, and the cleaning cost is reduced.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims

1. The cleaning and drying device for the artificial stone specification plate comprises a main frame, a cleaning tank and a blow-drying mechanism, wherein the cleaning tank and the blow-drying mechanism are assembled on the main frame; the method is characterized in that:

the cleaning tank is provided with a net chain conveying belt; the net chain conveyer belt is in a closed loop structure formed by sequentially connecting an input section, a cleaning section, an output section and a return section end to end, a specification plate enters cleaning liquid of the cleaning tank from the outside through the input section, the cleaning section is immersed in the cleaning liquid, and the output section is used for outputting the specification plate from the inside of the cleaning liquid to the outside;

2. The apparatus for cleaning and drying an artificial stone gauge board according to claim 1, wherein: the discharge end of each layer of the blow-drying conveyer belt is provided with a transfer plate which rotates by a fixed shaft, and a torsion spring which urges the transfer plate to rotate upwards and reset is arranged on a rotating shaft at the side edge of the transfer plate far away from the blow-drying conveyer belt; the specification plate of the discharge end output of the blow-drying conveyer belt enters the transfer plate, the transfer plate swings downwards under the action of gravity of the specification plate, and the specification plate is transferred to the feeding end of the next layer of blow-drying conveyer belt.

3. The apparatus for cleaning and drying an artificial stone gauge board according to claim 1, wherein: the air-homogenizing chamber is fixedly provided with a heater and a temperature sensor, the heater is arranged at an air outlet of the fan, the temperature sensor is used for detecting the real-time temperature of the air-homogenizing chamber, and the heater adjusts the heating amount in real time according to the detection data of the temperature sensor.

4. A cleaning and drying apparatus for an artificial stone gauge board according to any one of claims 1 to 3, wherein: the cleaning tank is provided with a vibrator, and the vibrator is fixedly arranged above and/or below the cleaning section and used for generating ultrasonic vibration waves.

5. The apparatus for cleaning and drying an artificial stone gauge board according to claim 4, wherein: the washing tank is provided with at least three rows of vibrators which are linearly and uniformly distributed, at least two rows of vibrators are arranged above the washing section, and at least one row of vibrators is arranged below the washing section.

6. The apparatus for cleaning and drying an artificial stone gauge board according to claim 5, wherein: the cleaning tank is provided with 48 vibrators, and each row is provided with 16 vibrators.

7. The apparatus for cleaning and drying an artificial stone gauge board according to claim 4, wherein: and a spraying device is arranged above the output section, and is provided with at least two rows of spraying heads which vertically spray downwards.

8. The apparatus for cleaning and drying an artificial stone gauge board according to claim 4, wherein: the net chain conveyer belt is composed of a main net layer with meshes and chain belts fixedly assembled on two side edges of the main net layer.

9. The apparatus for cleaning and drying an artificial stone gauge board according to claim 4, wherein: the front end of the cleaning tank is provided with a clean cleaning liquid injection pipe, and the rear end of the cleaning tank is provided with a cleaning liquid discharge pipe.

10. The apparatus for cleaning and drying an artificial stone gauge board according to claim 9, wherein: the cleaning tank is characterized in that at least one stirring frame which can rotate in a fixed axis is fixedly arranged in the cleaning tank, the stirring frame is composed of a driving shaft and a plurality of stirring plates fixedly arranged on the peripheral surface of the driving shaft, the driving shaft is arranged on the tank wall of the cleaning tank in a left-right extending mode, and the surface layer of the stirring plates for stirring cleaning solution flows from back to front; the outer end of the stirring plate is fixedly provided with bristles for brushing the upper surface of the gauge plate.