CN201482762U

CN201482762U - Automatic cleaning machine for outer tube of all-glass vacuum solar heat collecting tube

Info

Publication number: CN201482762U
Application number: CN2009201055398U
Authority: CN
Inventors: 李旭光; 李学军; 王青山; 李永杰
Original assignee: BEIJING HUAYE SOLAR ENERGY Co Ltd; QINGHUA YANGGUANG ENERGY DEVELOPMENT Co Ltd BEIJING
Current assignee: BEIJING HUAYE SOLAR ENERGY Co Ltd; QINGHUA YANGGUANG ENERGY DEVELOPMENT Co Ltd BEIJING
Priority date: 2009-02-23
Filing date: 2009-02-23
Publication date: 2010-05-26
Anticipated expiration: 2019-02-23

Abstract

An automatic cleaning machine for an outer tube of an all-glass vacuum solar heat collecting tube is characterized by comprising an automatic tube feeding system and an automatic cleaning and drying system, wherein the automatic cleaning and drying system is formed by a cleaning and drying machine and a transmission device which is in an athletic track shape, the cleaning and drying machine is installed on a straight line part of the transmission device, and the automatic tube feeding system is installed on one side of the cleaning and drying machine. The automatic cleaning machine for an outer tube of an all-glass vacuum solar heat collecting tube has the advantages of realizing full automatization of feeding, cleaning and drying, being provided with a bin with huge capacity, being capable of automatically feeding, cleaning and drying tubes through hot air one by one, recycling ionized water and the like. Accordingly, workers' labor intensity is lowered, glass tubes can be scrubbed by a brush one by one and cleaned by ionized water so as to increase rate of certified products, water recycling saves water resources, and hot air is blown from the inside along a tube wall for drying, thereby increasing efficiency and saving a large amount of electric energy.

Description

Complete glass vacuum sun thermal-collecting tube outer tube automatic rinser

Technical field

The utility model relates to a kind of complete glass vacuum sun thermal-collecting tube outer tube automatic rinser, can clean automatically and dry.

Background technology

In the thermal-collecting tube production process, outer tube need clean the inwall of glass tube.The cleaning of outer tube in the past mainly is artificial cleaning, send the electric dry oven heating, drying then.Idiographic flow is as follows: manually the semi-finished product glass tube that processes is installed on the outer tube cleaning Vehicle by propping up, a general car is adorned 30 glass tubes.After finishing, entrucking pursues Zhi Qingxi glass tube inwall, then with the ionized water flushing or directly with high-pressure ion water flushing glass tube inwall with hairbrush.Flushing finishes clean water droplet in the pipe, puts into the baking oven heating and pipe is dried in 2 hours.Mainly there is following shortcoming in artificial cleaning:

1. glass tube manually installs on the cleaning Vehicle, causes the exhaust smallmouth to fracture easily, and product is done over again;

2. clean operative employee's labour intensity height with hairbrush;

3. with the flushing of high-pressure ion water, indivedual pipe tube wall stains can not wash, and cause product rejection or fall time, cause the waste of great lot of water resources simultaneously;

4. put into oven for drying,, cause stoving time long, waste a large amount of electric energy because inner air tube does not flow and caliber is less.

Summary of the invention

The purpose of this utility model just provides a kind of complete glass vacuum sun thermal-collecting tube outer tube automatic rinser, and the glass tube that exists with the solution prior art manually installs on the cleaning Vehicle, causes the exhaust smallmouth to fracture easily, and product is done over again; Clean operative employee's labour intensity height with hairbrush; With high-pressure ion water flushing, indivedual pipe tube wall stains can not wash, and cause product rejection or fall time, cause the waste of great lot of water resources simultaneously; When using oven for drying,, cause stoving time long, waste a large amount of electric energy because inner air tube does not flow and caliber is less, and the problem that can not satisfy batch process.

The technical solution of the utility model is: comprise A of auto tube feeding system and the automatic B of cleaning, drying system, this automatic cleaning, drying B of system is made of cleaning drying machine V and transmission device VI, transmission device VI is runway shape, cleaning drying machine V is installed in the straight line portion of transmission device VI, in this cleaning drying machine V one side the auto tube feeding A of system is installed.

The utility model has the advantages that: realized the full-automation of material loading cleaning, drying, had big capacity feed bin, realized automatic charging, by Zhi Qingxi, ionized water recycles, and hot blast is by functions such as oven dry.Reduced working strength of workers; Scrub by hairbrush by drawing for glass tube, ionized water cleans, and improved the percentage of A-class goods of product; Water recycles, and has saved water resource; Oven dry has improved efficient from interior along the tube wall blowing hot-air, has saved a large amount of electric energy.

Description of drawings

Fig. 1 is that the utility model totally constitutes schematic diagram (floor plan);

Fig. 2 is the upward view of inclined-plane hopper I, lifting device II and positioner III among Fig. 1;

Fig. 3 is the enlarged drawing of tube feeding device IV among Fig. 1;

Fig. 4 is the upward view (not containing 90 ° of rotating mechanisms) of Fig. 3;

Fig. 5 is the D-D cutaway view (structural representation of clamp mechanism 17) of Fig. 3;

Fig. 6 is the left view (being rotated counterclockwise 90 °, also is the first step duty of tube feeding device IV) of Fig. 3;

Fig. 7 is the second step working state schematic representation (the C-C cutaway view of Fig. 1) of the utility model tube feeding device IV;

Fig. 8 is the structural representation (the E-E cutaway view of Fig. 7) of the utility model cleaning, drying B of system;

Fig. 9 is the structural representation of the special mould clamp 19 of the utility model transfer system C;

Figure 10 is the feeler lever structural representation that the utility model has bristle and sprinkler head;

Figure 11 is the feeler lever structural representation that the utility model has sprinkler head;

Figure 12 is the feeler lever structural representation that the utility model has the hot blast shower nozzle.

The specific embodiment

Referring to Fig. 1～Fig. 5, the utility model comprises A of auto tube feeding system and the automatic B of cleaning, drying system, this automatic cleaning, drying B of system is made of cleaning drying machine V and transmission device VI, transmission device VI is runway shape, cleaning drying machine V is installed in the straight line portion of transmission device VI, in this cleaning drying machine V one side the auto tube feeding A of system is installed.

The described auto tube feeding A of system (referring to Fig. 1 and Fig. 2) is made up of inclined-plane hopper I, lifting device II, positioner III and tube feeding device IV, between the low side of inclined-plane hopper I and positioner III input, lifting device II is set, between this positioner III and described cleaning drying machine V, tube feeding device IV is housed.

Described inclined-plane hopper I (referring to Fig. 1 and Fig. 2) comprises inclined-plane 1, side positioning baffle 2, back guiding mechanism 3 and preceding guiding mechanism 4, inclined-plane 1 is connected the bottom of side positioning baffle 2, and the following front and back on inclined-plane 1 are supported on the pedestal by preceding guiding mechanism 4 and back guiding mechanism 3 respectively.

Described lifting device II (referring to Fig. 1 and Fig. 2) comprises lumps of wood piece 5, L shaped bakelite piece 6, chain 7 and three groups of sprocket wheels 8, three groups of sprocket wheels 8 are triangularly arranged, chain 7 is looped around on these three groups of sprocket wheels 8, staggered lumps of wood piece 5 and the L shaped bakelite piece 6 installed in the outside of this chain 7;

Described positioner III (referring to Fig. 1 and Fig. 2) comprises locating piece 9, chain 10, two groups of sprocket wheels 11, motor 16 and decelerators 15, two groups of sprocket wheel 11 difference rotational support are on a base, chain 10 is looped around on these two groups of sprocket wheels 11, and a plurality of locating pieces 9 that collude shape are installed at interval in the outside of this chain 10; One of described two groups of sprocket wheels 11 are connected with motor 16 by decelerator 15;

Be connected (referring to Fig. 1) by chain type synchronous drive mechanism 12 between described lifting device II and the positioner III, make the shared power source of lifting device II and positioner III and keep synchronously strict.

During work outer tube T is placed on the inclined-plane hopper I, utilizes the gravity cunning of outer tube T self to be rolled on the lifting device II.Lifting device II promotes and is transported to positioner III with one one of outer tube, and positioner III accurately locatees outer tube T, by tube feeding device IV outer tube T is fixed on the B of cleaning, drying system then.

Described tube feeding device IV (referring to Fig. 3～Fig. 7) form, wherein by 13,90 ° of rotating mechanisms 14 of 180 ° of rotating mechanisms and clamp mechanism 17:

Described 180 ° of rotating mechanisms 13 (referring to Fig. 4) comprise housing 48, gear 26, tooth bar 25 and cylinder 131, the top of the piston rod of cylinder 131 is connected with an end of tooth bar 25, be meshing with each other at the flank of tooth of tooth bar 25 and a plurality of gears 26 that are installed in the housing 48, the axle center of each this gear 26 respectively with coaxial connection of an end of a balance staff 46; One end of housing 48 is connected with rotating shaft 143, and this rotating shaft 143 is rotatably connected on the support.The piston rod of cylinder 131 drives tooth bar 25 rectilinear motions, and tooth bar 25 drives 6 gears 26 and does 180 ° and rotatablely move, thereby makes outer tube T Rotate 180 ° on the clamp mechanism 17.

Described 90 ° of rotating mechanisms 14 (referring to Fig. 3, Fig. 6 and Fig. 7) comprise cylinder 141 and connecting rod 142, and the piston rod top of cylinder 141 and an end of connecting rod 142 are hinged, and the rotating shaft 143 of the other end of connecting rod 142 and described housing 48 is hinged.Utilize telescopic drive housing 48 half-twists of cylinder 141 piston rods, do 90 ° of swings, finish the action of pipe thereby drive clamp mechanism 17.

Described clamp mechanism 17 (referring to Fig. 3 and Fig. 5) is formed by clamping cylinder 29, fixed block 28 and matrix bakelite 27, clamping cylinder 29 is fixed on the described balance staff 46, two these clamping cylinders 29 are installed on each this balance staff 46 at least, respectively connect a fixed block 28 at the two ends of this clamping cylinder 29, one matrix bakelite 27 respectively is installed in two fixed blocks, 28 relative sides.

Fig. 6, Fig. 7 are two duties of tube feeding device IV, tube feeding device IV gets outer tube T from positioner III, by two clamp mechanism 17 outer tube T is clamped, then outer tube T is holded up by 90 ° of rotating mechanisms 14, outer tube T is fixed on the special mould clamp 19 of the B of cleaning, drying system by 180 ° of rotating mechanisms 17 in the process of holding up, clamp mechanism 17 is unclamped glass outer tube T then, returns according to the process of contrary, again get outer tube from positioner III, realize going up continuously pipe with this.

The described cleaning, drying B of system (referring to Fig. 1, Fig. 7 and Fig. 8) is made of cleaning drying machine V and transmission device VI:

Described transmission device VI (referring to Fig. 1) comprises transmission chain 18, chain sprocket 21, travelling gear 22, deceleration device 23, electric system 24 and special mould clamp 19 (bayonet socket broad) and 19 ' (bayonet socket is narrower), transmission chain 18 is installed and be surrounded with to two chain sprocket 21 levels, be equipped with in the outside of this transmission chain 18 special mould clamp 19 and 19 ', chain sprocket 21 is in transmission connection with electric system 24 by travelling gear 22 and deceleration device 23.

The cleaning drying machine V and the tube feeding device IV coordinated movement of various economic factors during work, each a plurality of stations of transmission.Control system control electric system 24 passes to travelling gear 22 with power by deceleration device 23, and travelling gear 22 and chain sprocket 21 are fixed together, and drives driving chain 18 and the motion of another chain sprocket by chain sprocket 21.

Special mould clamp 19 and 19 ' be made up of matrix bakelite 41 and elasticity U shaped steel plate 42, special mould clamp 19 and 19 ' installed by staggered is to satisfy the demand (referring to Fig. 9) of cleaning different casts.

Described cleaning drying machine V (referring to Fig. 1, Fig. 7 and Fig. 8) comprises carriage 37, slide rail 36, counterweight 34, chain 39, worm-and-wheel gear 32, Synchronous Transmission axle 33, deceleration device 31 and motor 30, because system's span is bigger, so it is synchronous to adopt 33 pairs of carriages of a Synchronous Transmission axle 37 to carry out transmission.Motor 30 is in transmission connection by deceleration device 31 end with Synchronous Transmission axle 33, and the two ends of Synchronous Transmission axle 33 are connected with the worm screw of a worm and gear mechanism 32 is coaxial respectively, the worm-wheel shaft of each this worm and gear mechanism 32 respectively with 49 coaxial connections an of sprocket wheel; 37 U-shapeds of carriage, its two ends are slidingly connected at respectively on two one slide rails 36 of parallel longitudinal setting, and the two ends of this carriage 37 are walked around described sprocket wheel 49 backs by a chain 39 respectively and are connected with a counterweight 34; Both sides on described carriage 37 are equipped with one respectively and are cleared and wash a feeler lever and a row oven dry feeler lever 51, be respectively equipped with the fountain head 43 and the hot air head 45 of umbrella in the upper end of this cleaning feeler lever and oven dry feeler lever 51, this cleans feeler lever and is connected with hot air source with the water source respectively with oven dry feeler lever 51; Below this cleaning feeler lever, tank is housed.Slide rail 36 and worm-and-wheel gear 32 are installed on the n shape support 40.All have aperture at described umbrella shower nozzle 43 and hot blast shower nozzle 45 sides, so that water and hot blast ejection.

Referring to Fig. 8, Figure 10～Figure 12, described cleaning feeler lever is distributed in three stations, and the cleaning feeler lever 35 that is located at first station has bristle 44, is connected with the normal pressure running water; The cleaning feeler lever 50 (without bristles) of second station connects the high pressure running water; The cleaning feeler lever of the 3rd station (with the cleaning feeler lever of second station) connects deionized water; Below corresponding to described three stations, three described tanks 401～403 (respectively corresponding the three～the first station) are set respectively, above this tank 401～403, be provided with the little tank 381～383 of three correspondences, between described large and small tank, be connected with water circulation system.

Under the drive of motor 30, be transferred to Synchronous Transmission axle 33 during cleaning drying machine V work, drive chain 39 through two worm-and-wheel gears 32 again and finish moving up and down of carriage 37 along slide rail 36 through deceleration device 31.For avoiding the transmission system overload, increased the weight of counterweight 34 with balance carriage 37 and feeler lever 35.In the cleaning side (referring to Fig. 7 and Fig. 8) of carriage 37, be equipped with and clean feeler lever 35 and 50 (as shown in Figure 10 and Figure 11), in a side of drying hot blast feeler lever 51 (as shown in figure 12) is housed, and two procedures is separated three stations of every side.Clean with the feeler lever 35 of band bristle and feeler lever 50 without bristles successively in cleaning one side earlier, forward hot blast feeler lever 51 oven dry of oven dry one side then to.

The workflow following (referring to Fig. 8) of the automatic B of cleaning, drying system: outer tube T is fixing and location on cleaning, drying system-specific jig 19, and the hoisting mechanism of cleaning drying machine V drives carriage 37 and moves up and down, to simulate artificial action with the hairbrush cleaning.Move along with moving up and down of carriage 37, to reach the effect of cleaning, drying outer tube wall.Hairbrush 44 and umbrella sprinkler head 43 are housed on the six roots of sensation feeler lever 35 of first station, and along with moving up and down of carriage 37, hairbrush 44 and umbrella sprinkler head 43 are scrubbed the inwall of outer tube T while spraying water.The feeler lever 50 high pressure running water of 43, the second stations of umbrella sprinkler head only is housed on the feeler lever 50 of second and the 3rd station, and the feeler lever 50 of the 3rd station is used deionized water.Along with the motion of carriage 37, with high pressure running water and deionized water outer tube T inwall is washed respectively, inside pipe wall can be rinsed well substantially.In the cleaning process, the 3rd station deionized water rinsing flows into little tank 381 (being positioned at the 3rd station) with the deionized water of crossing, and changes tank 401 then over to.Second station flows into little tank 382 (being positioned at second station) from tank 401 water intaking flushings with the water of crossing, and changes tank 402 then over to.The 3rd station flows into little tank 383 (being positioned at first station) from tank 402 water intaking flushings with the water of crossing, and changes tank 403 precipitations then over to.Whole system water repeatedly and recycle has been saved great lot of water resources.Four, the 5th is (identical with the 3rd station structure with shown in Figure 8 first, second with the carriage 37 of the 6th station, be positioned at the right side of Fig. 7) on hot blast shower nozzle 45 (as shown in figure 12) is housed, the same with the front station, along with the motion of carriage 37, tube wall is dried with hot blast.Because oven dry is interior along whole tube wall blowing hot-air from managing, drying rate is obviously accelerated, and has improved efficient, has saved the energy.

Claims

1. complete glass vacuum sun thermal-collecting tube outer tube automatic rinser, it is characterized in that: comprise auto tube feeding system and automatic cleaning, drying system, this automatic cleaning, drying system is made of cleaning drying machine and transmission device, transmission device is runway shape, cleaning drying machine is installed in the straight line portion of transmission device, in this cleaning drying machine one side the auto tube feeding system is installed.

2. complete glass vacuum sun thermal-collecting tube outer tube automatic rinser according to claim 1, it is characterized in that: described auto tube feeding system is made up of inclined-plane hopper, lifting device, positioner and tube feeding device, between the low side of inclined-plane hopper and positioner input, lifting device is set, between this positioner and described cleaning drying machine one side, installs pipe unit;

Described inclined-plane hopper comprises inclined-plane, side positioning baffle, back guiding mechanism and preceding guiding mechanism, and the inclined-plane is connected the bottom of side positioning baffle, and the following front and back on inclined-plane are supported on the pedestal by preceding guiding mechanism and back guiding mechanism respectively;

Described lifting device comprises lumps of wood piece, L shaped bakelite piece, chain and three groups of sprocket wheels, and three groups of sprocket wheels are triangularly arranged, and chain ring is on these three groups of sprocket wheels, at the outside of this chain staggered installation lumps of wood piece and L shaped bakelite piece;

Described positioner comprises locating piece, chain, two groups of sprocket wheels, motor and decelerators, and rotational support is on a base respectively for two groups of sprocket wheels, and chain ring is installed a plurality of locating pieces that collude shape at interval in the outside of this chain on these two groups of sprocket wheels; One of described two groups of sprocket wheels are connected with motor by decelerator;

Be connected by the chain type synchronous drive mechanism between described lifting device and the positioner.

3. complete glass vacuum sun thermal-collecting tube outer tube automatic rinser according to claim 2 is characterized in that: described tube feeding device is made up of 180 ° of rotating mechanisms, 90 ° of rotating mechanisms and clamp mechanism, wherein:

Described 180 ° of rotating mechanisms comprise housing, gear, tooth bar and cylinder, the top of the piston rod of cylinder is connected with an end of tooth bar, be meshing with each other at the flank of tooth of tooth bar and a plurality of gears that are installed in the housing, the axle center of each this gear respectively with coaxial connection of an end of a balance staff; One end of housing is connected with rotating shaft, and this rotating shaft is rotatably connected on the support;

Described 90 ° of rotating mechanisms comprise cylinder and connecting rod, and the piston rod top of cylinder and an end of connecting rod are hinged, and the other end of connecting rod and the rotating shaft of described housing are hinged;

Described clamp mechanism is formed by clamping cylinder, fixed block and matrix bakelite, clamping cylinder is fixed on the described balance staff, two these clamping cylinders are installed on each this balance staff at least, two ends at this clamping cylinder respectively connect a fixed block, two relative sides of fixed block one matrix bakelite are installed respectively.

4. complete glass vacuum sun thermal-collecting tube outer tube automatic rinser according to claim 1 is characterized in that: described cleaning, drying system is made of cleaning drying machine and transmission device:

Described transmission device comprises transmission chain, chain sprocket, travelling gear, deceleration device, electric system and special mould clamp, transmission chain is installed and be surrounded with to two chain sprocket levels, special mould clamp is equipped with in the outside at this transmission chain, and chain sprocket is in transmission connection by travelling gear and deceleration device and electric system;

Described cleaning drying machine comprises carriage, slide rail, counterweight, chain, worm-and-wheel gear, Synchronous Transmission axle, deceleration device and motor, motor is in transmission connection by an end of deceleration device and Synchronous Transmission axle, the two ends of Synchronous Transmission axle are connected with the worm screw of a worm and gear mechanism is coaxial respectively, and the worm-wheel shaft of each this worm and gear mechanism is connected with a sprocket coaxiality respectively; Carriage position U-shaped, its two ends are slidingly connected at respectively on two one slide rails of parallel longitudinal setting, and the two ends of this carriage are connected with a counterweight after walking around described sprocket wheel by a chain respectively; Both sides on described carriage are equipped with one respectively and are cleared and wash a feeler lever and a row oven dry feeler lever, are respectively equipped with fountain head and hot air head in the upper end of this cleanings feeler lever and oven dry feeler lever, and this cleans feeler lever and dries feeler lever and be connected with hot air source with the water source respectively; Below this cleaning feeler lever, tank is housed; Slide rail and worm-and-wheel gear are installed on the support.

5. complete glass vacuum sun thermal-collecting tube outer tube automatic rinser according to claim 4 is characterized in that: described fountain head is a umbrella; Described cleaning feeler lever is divided into three stations, and the cleaning feeler lever that is located at first station has bristle, is connected with the normal pressure running water; The cleaning feeler lever of second station connects the high pressure running water; The cleaning feeler lever of the 3rd station connects deionized water; Below corresponding to described three stations, three described tanks are set respectively, above this tank, are provided with the little tank of three correspondences, between described large and small tank, be connected with water circulation system.

6. complete glass vacuum sun thermal-collecting tube outer tube automatic rinser according to claim 4 is characterized in that: described special mould clamp is divided into wide bayonet socket jig and narrow bayonet socket jig, and two kinds of jigs are alternately installed.