CN210546819U - Automatic cleaning equipment for cylindrical lamp tube body - Google Patents

Abstract

The utility model discloses an automatic cleaning device for a cylindrical lamp tube body, which relates to the field of lamp cleaning devices and comprises a cuboid frame, wherein at least two feeding rods are arranged at the top of the frame along one end of the length direction in an extending way, the feeding rods are obliquely arranged, the lower end of each feeding rod is close to the frame, a conveying belt communicated with the feeding rods is arranged in the frame along the length direction, a motor for driving the conveying belt to rotate is arranged on the frame, a limiting component for limiting a single tube body is arranged on the conveying belt along the length direction, a material receiving box is arranged at one end of the frame away from the feeding rods, a plurality of first air blowing pipes are sequentially arranged along the length direction of one length of the frame, air outlet holes of the first air blowing pipes horizontally face the top wall direction of the conveying belt, a sieve plate for preventing the lamp tube from falling off is arranged at, the utility model has the advantages of shorten clean time, improve clean efficiency.

Description

Automatic cleaning equipment for cylindrical lamp tube body

Technical Field

The utility model relates to a lamps and lanterns cleaning device field, more specifically say, it relates to a cylindric fluorescent tube body self-cleaning equipment.

Background

The lamp tube comprises a fluorescent lamp tube, an LED lamp tube and the like, is widely applied to daily life of people, and continuously progresses along with the development of science and technology.

In chinese utility model patent publication No. CN204285016U, a lamp tube is disclosed, comprising: the LED lamp comprises a cylindrical light-transmitting tube body, a luminous body arranged in the tube body and lamp caps sleeved at two ends of the tube body, wherein an electric connector is arranged at one end of each lamp cap, which is far away from the tube body, and two clamping grooves parallel to the axis of the tube body are formed in the side wall of each lamp cap; the lamp holder is characterized in that a plane is arranged on the side wall of the lamp holder, and the clamping grooves are respectively close to two opposite side edges of the two surfaces.

In the prior art, similar to the cylindrical tube body, the tube body is generally extruded by an extruder in the production and manufacture, and the tube body is cut into a required length by a saw after being extruded. When the pipe body is cut, a large amount of plastic powder is generated at the cutting position and falls into the pipe body. Therefore, in order to clean the pipe body, the pipe body is generally cleaned before shipment. But the inside of body is cleaned through the air gun for artifical one by one to current clean mode, very expends time, and inefficiency moreover.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cylindric fluorescent tube body self-cleaning equipment, it has the advantage that shortens the clean time, improves clean efficiency.

In order to achieve the above purpose, the utility model provides a following technical scheme:

an automatic cleaning device for a cylindrical lamp tube body comprises a rectangular frame, wherein the top of the frame is provided with at least two feeding rods along one end of the length direction in an extending manner, the feeding rod is obliquely arranged, the lower end of the feeding rod is close to the frame, a conveying belt communicated with the feeding rod is arranged in the frame along the length direction of the frame, the frame is provided with a motor for driving the conveyer belt to rotate, the conveyer belt is provided with a limiting component for limiting the tube body of a single lamp tube along the length direction of the conveyer belt, a material receiving box is arranged at one end of the frame far away from the feeding rod, a plurality of first air blowing pipes are sequentially arranged along the length direction of one length edge of the frame, the air outlet of the first air blowing pipe horizontally faces the top wall direction of the conveying belt, and a sieve plate used for preventing the tube body of the lamp tube from falling off is arranged on the other length side of the frame.

Through adopting above-mentioned technical scheme, once only place many fluorescent tube bodys on the feed rod, the fluorescent tube body can be along with the feed rod gets into in the conveyer belt, and each fluorescent tube body can be spacing by spacing subassembly afterwards. Along with the conveying of conveyer belt and the blowing of first gas blowing pipe, the plastic powder in the fluorescent tube body can be blown out, and at this in-process, owing to there is the spacing of sieve, consequently the fluorescent tube body can not drop from the sieve, and the plastic powder can be followed and wafted in the sieve mesh moreover. Finally, the tube body of the lamp tube can fall into the receiving box from the frame. The whole process does not need manual operation, shortens the cleaning time and improves the cleaning efficiency.

Furthermore, the limiting assembly comprises a plurality of limiting lugs protruding out of the outer surface of the conveyor belt, at least two rows of limiting lugs are arranged along the width direction of the frame, each row of limiting lugs is parallel to the length edge of the frame, and a gap for placing the tube body of the lamp tube is formed between every two adjacent limiting lugs.

Through adopting above-mentioned technical scheme, the fluorescent tube body is placed and can be spacing by adjacent spacing lug between the adjacent spacing lug of same row, and sets up spacing lug into two rows at least, so has two limit points so between fluorescent tube body and the spacing lug, and stability is high when the fluorescent tube body is carried on the conveyer belt or is blown by first gas-blowing pipe.

Furthermore, one side of the sieve plate, which is far away from the first air blowing pipe, is provided with an air exhaust device.

Through adopting above-mentioned technical scheme, air exhaust device can collect the plastic powder that is blown off in the fluorescent tube body, avoids the plastic powder to float in the air, reduces the dust degree.

Further, air exhaust device includes exhaust tube and the collection fill that is linked together with the exhaust tube, the one end that the exhaust tube was kept away from to the collection fill has the opening and the opening is towards the sieve direction.

Through adopting above-mentioned technical scheme, collect and fight and can collect the plastic powder and concentrate and send to in the air bleed pipe, it is very convenient.

Furthermore, the frame is located the conveyer belt top and is fixed with the gag lever post, the gag lever post sets up along the length limit of frame.

By adopting the technical scheme, the tube body of the lamp tube can be limited by the limiting rod when being blown by the air blowing pipe, and the tube body of the lamp tube cannot float, so that the cleaning stability is improved.

Furthermore, flexible sleeves are sleeved on the periphery of the limiting rod.

Through adopting above-mentioned technical scheme, the fluorescent tube body can not directly bump with the gag lever post, and can contact with the flexible sleeve, avoids fluorescent tube body surface to be scraped the flower, reduces the defective products quantity when clean.

Furthermore, a second air blowing pipe is arranged above the conveying belt on the frame, and an air outlet of the second air blowing pipe faces the conveying belt.

By adopting the technical scheme, when the length of the tube body of the lamp tube is longer, the first air blowing pipe can not blow down the plastic powder on the surface of the tube body of the lamp tube completely, and the second air blowing pipe blows the tube body of the lamp tube to clean, so that the cleanliness of the tube body of the lamp tube is improved.

Furthermore, the second air blowing pipe is located at one end, close to the material collecting box, of the conveying belt, the powder collecting hopper is arranged below the second air blowing pipe on the framework, and one end, far away from the second air blowing pipe, of the powder collecting hopper is communicated with the vacuum pipe.

Through adopting above-mentioned technical scheme, powder collecting hopper can collect the centralized processing with the plastic powder that second gas blow pipe blown down, reduces the air dust degree.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) by arranging the frame, and arranging the feeding rod, the conveying belt and the material receiving box on the frame, the lamp tube body can pass through the conveying belt from the feeding pipe and fall into the material receiving box; the lamp tube body is limited by the limiting assembly when positioned on the conveyor belt, then the first air blowing pipe blows air to clean the interior of the lamp tube body, the sieve plate can prevent the lamp tube body from falling off the conveyor belt, and dust can float out of sieve holes, so that manual operation is not needed in the whole process, the cleaning time is shortened, and the cleaning efficiency is improved;

(2) the second air blowing pipe is arranged above the conveying belt, so that the outer wall of the tube body of the lamp tube can be cleaned by the second air blowing pipe, and the cleanliness of the tube body of the lamp tube is improved;

(3) by arranging the limiting rod, the stability of the tube body of the lamp tube during cleaning can be improved; the flexible sleeve is sleeved on the limiting rod, so that the collision between the tube body of the lamp tube and the limiting rod can be reduced, and the number of defective products of the tube body of the lamp tube is reduced;

(4) through setting up air exhaust device and collection powder fill, the plastic powder that is blown down on the fluorescent tube body can be collected and centralized processing, reduces the dust degree near the board.

Drawings

Fig. 1 is an overall schematic diagram of the present embodiment.

Reference numerals: 1. a frame; 2. a feed rod; 3. a conveyor belt; 4. a limiting component; 401. a limiting bump; 5. a material receiving box; 6. a first air blowing pipe; 7. a sieve plate; 8. an air extraction device; 801. an air exhaust pipe; 802. a collecting hopper; 9. a limiting rod; 10. a second gas blow pipe; 11. a powder collecting hopper; 12. mounting a plate; 13. a support column; 14. and (5) fixing the rod.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 1, a cylindric fluorescent tube body self-cleaning equipment, includes the frame 1 of cuboid form, and frame 1 top is provided with two feed rods 2 along its length direction's one end extension, and two feed rods 2 are parallel to each other and all with frame 1 welded fastening, and feed rod 2 is the slope and sets up and feed rod 2 lower one end is close to frame 1.

A conveying belt 3 communicated with the feeding rod 2 is arranged in the frame 1, and the conveying direction of the conveying belt 3 is parallel to the length direction of the frame 1. The top wall of the conveying belt 3 and the top wall of the frame 1 are in the same plane, and the tube body can roll onto the conveying belt 3 when falling from the feeding rod 2. The breadth of conveyer belt 3 is less than the width of frame 1, and conveyer belt 3 distributes along the width direction of frame 1 has two, and two conveyer belts 3 are parallel to each other and have the clearance between two conveyer belts 3.

The conveyer belt 3 is provided with along its length direction and is used for carrying out spacing subassembly 4 spacing to single fluorescent tube body. The limiting component 4 comprises a plurality of limiting convex blocks 401 protruding out of the outer wall of the conveyor belt, and one end, far away from the top wall of the conveyor belt 3, of each limiting convex block 401 on the top wall of the conveyor belt 3 is higher than the plane where the top wall of the frame 1 is located, so that the lamp tube bodies can be limited by the adjacent limiting convex blocks 401 when being arranged on the conveyor belt 3.

Two rows of limiting lugs 401 are arranged along the width direction of the frame 1, the two rows of limiting lugs 401 are respectively positioned on the two conveyor belts 3, and the two rows of limiting lugs 401 are parallel to the length edge of the frame 1. Gaps for placing the tube bodies are formed between adjacent limiting lugs 401 in each row of limiting lugs 401, and the gaps only allow one tube body to be accommodated. Two rows of spacing lugs 401 use the length direction of frame 1 as symmetry axis symmetry and set up on conveyer belt 3, consequently, can not misplace between two rows of spacing lugs 401, and the fluorescent tube body can be placed between adjacent spacing lug 401 along the width direction of frame 1, and stability is high.

Install on frame 1 and be used for driving 3 pivoted motors of conveyer belt, the axis of rotation of motor and the axis of rotation fixed connection of conveyer belt 3, after opening the motor, conveyer belt 3 can be by motor drive.

A plurality of first air blowing pipes 6 are sequentially fixed on one length edge of the frame 1 along the length direction of the frame, and in the actual installation process, the first air blowing pipes 6 are communicated with a fan. The air outlet of the first air blowing pipe 6 faces horizontally to the top wall direction of the conveying belt 3, and meanwhile, the air outlet of the first air blowing pipe 6 faces in parallel to the width direction of the frame 1. When the tube body is located on the adjacent limiting protrusion 401, the first blowing pipe 6 cleans the inner wall and the outer wall of the tube body.

The other length side of the frame 1 is welded with a sieve plate 7 for preventing the tube body of the lamp tube from falling off. One side of the sieve plate 7 far away from the first air blowing pipe 6 is provided with an air extracting device 8, and the air extracting device 8 comprises an air extracting pipe 801 and a collecting hopper 802 communicated with the air extracting pipe 801. In the actual use process, one end of the exhaust pipe 801 far away from the collecting hopper 802 is communicated with a vacuum pump; one end of the collecting hopper 802 far away from the air suction pipe 801 is provided with an opening and the opening faces the direction of the sieve plate 7, and the plastic powder blown to the sieve plate 7 by the first air blowing pipe 6 is collected by the collecting hopper 802, so that the dust degree is reduced.

The frame 1 is located the conveyer belt 3 top level and is provided with mounting panel 12, and mounting panel 12 is cuboid form and its length limit is parallel with the width limit of frame 1, and the both ends of mounting panel 12 are fixed in the both sides of frame 1 through supporting column 13 welded, and mounting panel 12 is located the one end that the feed rod 2 was kept away from to frame 1. A second gas blowing pipe 10 vertically penetrates through the mounting plate 12, a gas outlet of the second gas blowing pipe 10 vertically faces the direction of the conveying belt 3, and the second gas blowing pipe 10 is communicated with a fan in the actual mounting process.

A powder collecting hopper 11 is fixed on the frame 1 under the second blowing pipe 10, the powder collecting hopper 11 is funnel-shaped, and one end of the powder collecting hopper 11 far away from the second blowing pipe 10 is communicated with a vacuum pipe (not shown in the figure). In the actual installation process, the vacuum pipe is communicated with a vacuum pump, and the plastic powder blown down by the second air blowing pipe 10 is collected by the powder collecting hopper 11 and is pumped away by the vacuum pipe.

Two fixed rods 14 are erected on the frame 1 above the conveyer belt 3, and two ends of the fixed rods 14 are welded and fixed with the frame 1 through supporting columns 13. The fixed rod 14 is parallel to the width edge of the frame 1, the limiting rod 9 is horizontally welded at the bottom of the fixed rod 14, and the limiting rod 9 is parallel to the length edge of the frame 1. The limiting rod 9 is sleeved with a flexible sleeve (not shown in the figure) on the periphery, the flexible sleeve is made of foam, and the flexible sleeve has elasticity, so that the tube body of the lamp tube is prevented from being scratched.

The frame 1 is kept away from the one end of feeding rod 2 and is fixed with material collecting box 5, and material collecting box 5 is located the conveyer belt 3 and carries terminal below, and the fluorescent tube body that falls down from conveyer belt 3 can fall into in the material collecting box 5.

The utility model discloses a working process and beneficial effect as follows: after the motor, the vacuum pump and the fan are started, a plurality of lamp tube bodies are placed on the feeding rod 2 at one time, the lamp tube bodies can fall on the adjacent limiting convex blocks 401 in sequence, then the plastic powder in the lamp tube bodies can be blown away from the lamp tube bodies by the wind blown from the first air blowing pipes 6 and the second air blowing pipes 10, most of the plastic powder can be collected by the air exhaust device 8 and the powder collecting hopper 11, and finally the lamp tube bodies fall into the material collecting box 5.

In the process, manual cleaning is not needed, the cleaning time is shortened, and the cleaning efficiency is improved.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The automatic cleaning equipment for the cylindrical lamp tube body is characterized by comprising a rectangular framework (1), wherein at least two feeding rods (2) are arranged at the top of the framework (1) in an extending mode along one end of the framework in the length direction, the feeding rods (2) are obliquely arranged, the lower end of each feeding rod (2) is close to the framework (1), a conveying belt (3) communicated with the feeding rods (2) is arranged in the framework (1) along the length direction of the framework, a motor used for driving the conveying belt (3) to rotate is arranged on the framework (1), a limiting assembly (4) used for limiting a single lamp tube body is arranged on the conveying belt (3) along the length direction of the conveying belt, a material receiving box (5) is arranged at one end, far away from the feeding rods (2), of one length of the framework (1) is sequentially provided with a plurality of first air blowing tubes (6) along the length direction of the framework (1), the air outlet of the first air blowing pipe (6) horizontally faces the top wall direction of the conveying belt (3), and a sieve plate (7) used for preventing the tube body of the lamp tube from falling off is arranged on the other length side of the frame (1).

2. The automatic cleaning equipment for the cylindrical lamp tube body according to claim 1, wherein the limiting assembly (4) comprises a plurality of limiting protrusions (401) protruding out of the outer surface of the conveyor belt, at least two rows of limiting protrusions (401) are arranged along the width direction of the frame (1), each row of limiting protrusions (401) is parallel to the length edge of the frame (1), and a gap for placing the lamp tube body is formed between every two adjacent limiting protrusions (401).

3. An automatic cleaning device for a cylindrical lamp tube body according to claim 1, characterized in that the side of the sieve plate (7) away from the first blowing pipe (6) is provided with an air extractor (8).

4. The automatic cleaning equipment for the tubular light tube body of the cylindrical light tube according to claim 3, wherein the air suction device (8) comprises an air suction tube (801) and a collecting hopper (802) communicated with the air suction tube (801), and one end of the collecting hopper (802) far away from the air suction tube (801) is provided with an opening and the opening faces the direction of the screen plate (7).

5. The automatic cleaning equipment for the tubular bodies of the cylindrical lamp tubes according to claim 1, wherein a limiting rod (9) is fixed on the frame (1) above the conveyor belt (3), and the limiting rod (9) is arranged along the length edge of the frame (1).

6. The automatic cleaning equipment for the tubular body of the cylindrical lamp tube according to claim 5, wherein a flexible sleeve is sleeved on the periphery of the limiting rod (9).

7. The automatic cleaning equipment for the tube body of the cylindrical lamp tube according to claim 1, wherein a second air blowing tube (10) is arranged above the conveying belt (3) on the frame (1), and an air outlet of the second air blowing tube (10) faces the conveying belt (3).

8. The automatic cleaning equipment for the tube body of the cylindrical lamp tube according to claim 7, wherein the second air blowing tube (10) is located at one end of the conveying belt (3) close to the material receiving box (5), the frame (1) is provided with a powder collecting hopper (11) below the second air blowing tube (10), and one end of the powder collecting hopper (11) far away from the second air blowing tube (10) is communicated with the vacuum tube.

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