CN112142314A - Integrated device is collected in cutting of solar energy collection glass pipe - Google Patents

Abstract

The invention discloses a solar heat collection glass tube cutting and collecting integrated device which comprises a vertical supporting plate, wherein an electric push rod is arranged on the front side of the vertical supporting plate, a push sleeve is fixedly connected to the right end of an output shaft on the electric push rod, a first transmission rod is connected to the inner wall of the push sleeve in a limiting sliding mode, a sliding block is fixedly connected to the rear side of the first transmission rod, an inclined sliding groove for the sliding block to slide is formed in the front side of the vertical supporting plate, and a lifting plate is arranged on the front side of the vertical supporting plate. The invention solves the problems that in the actual use process, the traditional punching and cutting knife is easy to cause accidental damage to the glass tube when impacting and cutting the glass tube, so that the glass tube has uneven cutting effect, the quality is difficult to be standardized and guaranteed, and the cut glass tube is easy to break when being collected, thereby bringing inconvenience to use.

Description

Integrated device is collected in cutting of solar energy collection glass pipe

Technical Field

The invention relates to the technical field of solar production equipment, in particular to a solar heat collection glass tube cutting and collecting integrated device.

Background

The solar vacuum tube water heater is an environment-friendly and economic hot water supply mode and is widely applied in the world, and the vacuum heat collecting tube is a core component of the solar water heater and has extremely high consumption. The solar vacuum heat collecting tube mainly comprises an inner layer heat collecting glass tube and an outer layer heat collecting glass tube, and the glass tubes are continuously and uniformly pulled out by a tube pulling mechanism after being formed in a forming chamber according to the requirements of the existing heat collecting glass tube production process, so that the process of shearing the continuously pulled glass tubes into single glass tubes with fixed length is an important process in the glass tube production process; at present, the process is mainly completed manually, and the following problems exist: the production efficiency of manual pipe breaking is low, time and labor are wasted, and the labor cost is high; the danger of scratching fingers and the like easily occurs in the manual operation process; the length of the glass tube is changed by manually adjusting the length metering device, so that the operation is complex;

therefore, an automatic solar heat collection glass tube breaking device is provided, for example, an automatic solar heat collection glass tube breaking device and method disclosed by Chinese patent CN11 lateral clamping plate (34)2805B are provided, the problems that in the prior art, the production efficiency is low, potential safety hazards exist, the length of a glass tube is not easy to change due to manual tube breaking are solved, the automatic solar heat collection glass tube breaking can be realized, the structure is simple, the occupied space is small, and the length of the glass tube is easy to adjust and cut; the blanking mechanism comprises two cams which are symmetrically arranged, and the two times of pipe breakage can be completed when the cams rotate for one circle;

however, in the actual use process, the traditional punching and cutting knife is very easy to cause accidental damage to the glass tube when impacting and cutting the glass tube, so that the glass tube is uneven in cutting effect, the quality is difficult to be guaranteed in a standard way, and the cut glass tube is easy to break when being collected, thereby bringing inconvenience to the use.

Disclosure of Invention

The invention aims to provide a solar heat collection glass tube cutting and collecting integrated device, which has the advantages of automatic quantitative cutting and nondestructive collection of a heat collection glass tube and solves the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a solar energy collection glass manages cutting and collects integrated device, includes vertical support plate, vertical support plate's front side is equipped with electric putter, the right-hand member fixedly connected with who goes up the output shaft of electric putter promotes the sleeve pipe, the spacing sliding connection of promotion sheathed tube inner wall has transfer line one, the rear side fixedly connected with slider of transfer line one.

The cutting device comprises a vertical support plate, a slide block, a lifting plate, a transmission rod I, a discharge hole, a first transmission rod I, a first clamping piece, a first receiving box body, a first glass tube to be cut, a feeding device, a first glass tube to be cut, a second glass tube to be cut, a third glass tube to be cut, a fourth glass tube to be cut, a fifth glass tube to be cut, a fourth glass tube, and the bottom of the feeding device is fixedly connected with a cutting device.

Preferably, the feeding device comprises two first fixed arms symmetrically arranged on the lower surface of the ring, a fixed pulley is rotatably connected to the front fixed shaft close to the bottom on the first fixed arm, a sleeve is fixedly connected to the arc-shaped profile of the fixed pulley, a telescopic clamping rod is slidably connected to the inner wall of the sleeve, the two telescopic clamping rods are located in the ring of the first fixed arm, a clamping block is fixedly connected to the top of each telescopic clamping rod, opposite surfaces of the two clamping blocks are slidably connected with the side surface of the glass tube to be cut, a built-in baffle ring is fixedly connected to the inner wall close to the bottom on the pressure spring, a pressure spring is fixedly connected to the opposite surfaces of the telescopic clamping rods and the built-in baffle ring, a side pressure plate is fixedly connected to the profile close to the bottom on the fixed pulley, a fixed support plate is fixedly connected to the lower surface of the first fixed arm, and a second, the front side of the fixed support plate is fixedly connected with a guide bulge, the upper surface of the lifting plate is fixedly connected with two symmetrical traction ropes, the top of each traction rope bypasses the second pressure spring and the fixed pulley and then extends into the sleeve, and the top of each traction rope in the sleeve penetrates through the built-in baffle ring and the pressure spring and is fixedly connected with the bottom of the telescopic clamping rod.

Preferably, the number of turns of the traction rope on the fixed pulley is two.

Preferably, a torsion spring is arranged on the rear side of the fixed pulley, and the rear end of the torsion spring is fixedly connected with the front side of the first fixed arm.

Preferably, the cutting device comprises a shell, both sides of the shell are fixedly connected with a second fixing arm, the top of the second fixing arm is fixedly connected with the bottom of the first fixing arm, the upper surface and the lower surface of the shell are respectively provided with a through hole, the inner wall of the shell, which is close to the top, is fixedly connected with a second ring, the inner wall of the second ring is fixedly connected with a laser cutting head, the upper surface of the second ring is provided with a through hole and is slidably connected with a second transmission rod through the through hole, the top of the second transmission rod is fixedly connected with a pressure-sensitive switch, the inner wall of the shell, which is close to the bottom, is slidably connected with a frame body, the upper surface and the lower surface of the frame body are respectively provided with a through hole, the upper surface of the frame body is fixedly connected with the bottom of the second transmission rod, the lateral through groove has all been seted up to the both sides of framework, the one end of keeping away from the lateral splint on the driving arm passes the lateral through groove and rotates through the round pin axle with the inner wall of casing and be connected, the lower fixed surface of framework is connected with the traction rod, the bottom of traction rod runs through the lower surface of casing and fixed connection has ring three, the surperficial cover of traction rod has the extension spring, the opposite face fixed connection of the both ends and casing and ring three of extension spring, the fixed surface cover of traction rope has the briquetting.

Preferably, the through hole on the upper surface of the frame body is a truncated cone-shaped through hole, and one end of the truncated cone-shaped through hole, which has a relatively larger caliber, faces upwards.

Preferably, the opposite surfaces of the two lateral clamping plates are fixedly connected with rubber pads.

Preferably, the number of the traction rods is two, and the two traction rods are symmetrically arranged by a vertical central line of the ring III.

Compared with the prior art, the invention has the following beneficial effects: the glass tube to be cut is placed in the fixing frame, and the glass tube to be cut is suspended and fixed through the friction force between the fixing frame and the surface of the glass tube to be cut;

when the electric push rod is used, the electric push rod is connected with a power supply, an output shaft on the electric push rod drives the push sleeve to move transversely left and right, when the push sleeve drives the push sleeve to move rightwards, the slide block can also move rightwards synchronously in the inclined sliding groove, and meanwhile, the first transmission rod can move downwards in the push sleeve under the guidance of the inner wall of the inclined sliding groove; similarly, when the first driving rod is driven by the first pushing sleeve to move left, the first driving rod can move up relative to the first pushing sleeve;

the lifting plate can move up and down along with the first transmission rod through the clamping of the two clamping pieces on the first transmission rod, and the first transmission rod can move horizontally relative to the lifting plate through the through groove in the lifting plate; the finished glass tubes which finally fall are received by the receiving box body, and the finished glass tubes which fall in the receiving box body can stably slide out under the guidance of the inclined plane on the receiving box body;

meanwhile, the transmission rod drives the receiving box body to swing left and right, so that the posture of a finished glass tube in the receiving box body can be further adjusted, and the finished glass tube can smoothly slide out along the inclined plane on the inner wall of the receiving box body;

the first ring plays a role in fixing and supporting;

through the arrangement of the feeding device, the glass tube to be cut can be quantitatively pulled down, so that quantitative cutting can be realized in the cutting process;

by the arrangement of the cutting device, the cutting and the buffering protection collection of the glass tube to be cut can be realized, so that the nondestructive collection of the glass tube to be cut can be realized after the glass tube to be cut is cut into a finished glass tube, and the quality of the product is ensured;

through the cooperation use between the above-mentioned structure, solved in the in-service use, because traditional die-cutting knife very easily causes the unexpected damage of glass pipe when strikeing the cutting to glass pipe, makes the effect of tailorring of glass pipe uneven, and the quality is difficult to standardize and guarantees, and causes the breakage of glass pipe easily when collecting to the glass pipe after cutting, brings inconvenient problem for the use.

Drawings

FIG. 1 is a front cross-sectional view of the present invention;

FIG. 2 is a front cross-sectional view of the feeding device of the present invention;

FIG. 3 is a cutting device of the present invention;

fig. 4 is a plan view of the rear side torsion spring of the fixed pulley in fig. 2 according to the present invention.

In the figure: 1. a vertical support plate; 2. an electric push rod; 3. pushing the sleeve; 4. a first transmission rod; 5. a slider; 6. a chute is obliquely arranged; 7. a lifting plate; 8. two clamping pieces; 9. receiving the box body; 10. a first ring; 11. a fixed mount; 12. cutting the glass tube; 121. a finished glass tube; 13. a feeding device; 14. a cutting device; 15. a first fixed arm; 16. a fixed pulley; 17. a sleeve; 18. a telescopic clamping rod; 19. a clamping block; 20. a baffle ring is arranged inside; 21. a pressure spring; 22. side pressing plates; 23. fixing a support plate; 24. a second pressure spring; 25. a guide projection; 26. a pulling rope; 27. a torsion spring; 28. a housing; 281. a second fixed arm; 29. a second ring; 30. a laser cutting head; 31. a second transmission rod; 32. a pressure sensitive switch; 33. a frame body; 34. a lateral splint; 35. a drive arm; 36. a lateral through groove; 37. a traction rod; 38. ring III; 39. a tension spring; 40. and (7) briquetting.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution: a solar heat collection glass tube cutting and collecting integrated device comprises a vertical support plate 1, wherein the vertical support plate 1 plays a role in integral fixing and supporting;

an electric push rod 2 is arranged on the front side of the vertical supporting plate 1, the electric push rod 2 is controlled by a PLC mechanism, and the control time is accurate to millisecond;

the right end of an output shaft on the electric push rod 2 is fixedly connected with a push sleeve 3, the inner wall of the push sleeve 3 is in limited sliding connection with a transmission rod I4, and the rear side of the transmission rod I4 is fixedly connected with a sliding block 5;

an inclined sliding groove 6 for sliding of the sliding block 5 is formed in the front side of the vertical supporting plate 1, when the electric push rod 2 is used, the electric push rod 2 is powered on, an output shaft on the electric push rod drives the push sleeve 3 to move transversely leftwards and rightwards, when the push sleeve 3 drives the push sleeve 3 to move rightwards, the sliding block 5 can also move rightwards synchronously in the inclined sliding groove 6, and meanwhile, under the guidance of the inner wall of the inclined sliding groove 6, the transmission rod I4 can move downwards in the push sleeve 3; similarly, when the pushing sleeve 3 drives the transmission rod I4 to move left, the transmission rod I4 can move up relative to the pushing sleeve 3;

the front side of the vertical supporting plate 1 is provided with a lifting plate 7, the upper surface of the lifting plate 7 is provided with a through groove for the left-right limiting sliding of the transmission rod I4, the surface of the transmission rod I4 is fixedly connected with two clamping pieces 8, opposite surfaces of the two clamping pieces 8 are in sliding connection with the upper surface and the lower surface of the lifting plate 7, the lifting plate 7 can be clamped by the two clamping pieces 8 on the transmission rod I4, the lifting plate 7 can move up and down along with the transmission rod I4 in the vertical direction, and the transmission rod I4 can horizontally move relative to the lifting plate 7 by the through groove on the lifting plate 7;

the front side of the vertical supporting plate 1 is limited to be connected with a receiving box body 9 in a sliding mode, the bottom of the inner wall of the receiving box body 9 is arranged in an inclined mode, a discharge hole is formed in the right side of the inner wall of the receiving box body 9, the surface, close to the top, of the transmission rod I4 penetrates through the lower surface of the receiving box body 9 and is connected with the receiving box body 9 in a sliding mode, the finished glass tube 121 which finally falls down is received through the receiving box body 9, and under the guide of the upper inclined surface of the receiving box body 9, the finished glass tube 121 which falls into the receiving box body 9 can stably slide out;

the first transmission rod 4 drives the bearing box body 9 to swing left and right, so that the posture of the finished glass tube 121 in the bearing box body 9 can be further adjusted, and the finished glass tube can smoothly slide out along the inclined plane on the inner wall of the bearing box body 9;

the front side of the vertical supporting plate 1 close to the top is fixedly connected with a ring I10, and the ring I10 plays a role in fixing and supporting;

the upper surface of the first ring 10 is fixedly connected with a fixed frame 11, the inner wall of the fixed frame 11 is connected with a glass tube 12 to be cut in a sliding manner, the glass tube 12 to be cut is placed in the fixed frame 11, and the glass tube 12 to be cut is suspended and fixed through the friction force between the fixed frame 11 and the surface of the glass tube 12 to be cut;

the feeding device 13 is fixedly connected to the lower surface of the first ring 10, and the glass tube 12 to be cut can be quantitatively pulled down through the arrangement of the feeding device 13, so that quantitative cutting can be realized in the cutting process;

the feeding device 13 comprises two fixed arms 15 symmetrically arranged on the lower surface of the first ring 10, a fixed pulley 16 is rotatably connected to a front fixed shaft close to the bottom on the fixed arm 15, a sleeve 17 is fixedly connected to the arc-shaped profile of the fixed pulley 16, a telescopic clamping rod 18 is slidably connected to the inner wall of the sleeve 17, the two telescopic clamping rods 18 are positioned in the ring of the first ring 10, clamping blocks 19 are fixedly connected to the top of the telescopic clamping rods 18, opposite surfaces of the two clamping blocks 19 are slidably connected with the side surface of the glass tube 12 to be cut, a built-in baffle ring 20 is fixedly connected to the inner wall of the pressure spring 21 close to the bottom, a pressure spring 21 is fixedly connected to the opposite surfaces of the telescopic clamping rods 18 and the built-in baffle ring 20, a side pressure plate 22 is fixedly connected to the profile close to the bottom on the fixed pulley 16, a fixed support plate 23 is fixedly connected to the lower surface of the fixed arm, the front side of the fixed support plate 23 is fixedly connected with a guide bulge 25, the upper surface of the lifting plate 7 is fixedly connected with two symmetrical pulling ropes 26, the top of each pulling rope 26 rounds a second compression spring 24 and a fixed pulley 16 and then extends into the sleeve 17, and the top of each pulling rope 26 in the sleeve 17 penetrates through the built-in baffle ring 20 and the compression spring 21 and then is fixedly connected with the bottom of the telescopic clamping rod 18;

when in use, the lifting plate 7 is lowered to draw the drawing rope 26, as shown in fig. 2, when the drawing rope 26 is pulled down, the fixed pulley 16 wound by the drawing rope 26 with the sleeve 17 and the telescopic clamping rod 18 thereon is deflected towards the direction close to the glass tube 12 to be cut, and by means of deflection, the two telescopic clamping rods 18 realize firm opposite clamping on the glass tube 12 to be cut through the clamping blocks 19 thereon; meanwhile, after the drawing rope 26 is pulled down, the telescopic clamping rod 18 moves downwards in the sleeve 17 after overcoming the elasticity of the pressure spring 21, so that the two clamping blocks 19 can generate a downward drawing effect on the glass tube 12 to be cut clamped by the two clamping blocks, the glass tube 12 to be cut moves downwards after overcoming the friction force between the two clamping blocks and the fixed frame 11, along with the downward movement, the bottom of the glass tube 12 to be cut passes through the laser cutting head 30 in the second ring 29, and after the laser cutting head 30 is connected with a power supply, the laser cutting of the glass tube 12 to be cut can be realized, so that the glass tube 12 to be cut is changed into a finished glass tube 121;

on the contrary, after the lifting plate 7 moves upwards, under the elastic action of the pressure spring 21 in the sleeve 17 and the elastic action of the pressure spring II 24, the fixed pulley 16 can drive the sleeve 17 and the telescopic clamping rod 18 to reset and deflect, and meanwhile, the telescopic clamping rod 18 can drive the clamping block 19 on the telescopic clamping rod 18 to extend out of the sleeve 17, so that the friction between the clamping block 19 and the glass tube 12 to be cut is reduced, the deflection and the upwards movement of the telescopic clamping rod 18 cannot be influenced by the position of the glass tube 12 to be cut, namely, the glass tube 12 to be cut cannot reset and move upwards, and the quantitative cutting of the glass tube 12 to be cut is further ensured;

the number of turns of the pulling rope 26 on the fixed pulley 16 is two, and the number of turns of the pulling rope 26 on the fixed pulley 16 is two, so that the fixed pulley 16 cannot be rotated difficultly due to too many turns, and sufficient friction can be provided to drive the fixed pulley 16 to rotate;

the rear side of the fixed pulley 16 is provided with a torsion spring 27, the rear end of the torsion spring 27 is fixedly connected with the front side of the first fixing arm 15, and the speed of the fixed pulley 16 during resetting rotation can be further increased through the arrangement of the torsion spring 27 during use;

the cutting device 14 is fixedly connected to the bottom of the feeding device 13, and the cutting and the buffering protection collection of the glass tube 12 to be cut can be realized through the arrangement of the cutting device 14, so that the nondestructive collection of the glass tube 12 to be cut can be realized after the glass tube is cut into the finished glass tube 121, and the quality of the product is ensured;

the cutting device 14 comprises a shell 28, two sides of the shell 28 are fixedly connected with a second fixing arm 281, the top of the second fixing arm 281 is fixedly connected with the bottom of the first fixing arm 15, through holes are formed in the upper surface and the lower surface of the shell 28, a second ring 29 is fixedly connected to the inner wall, close to the top, of the shell 28, a laser cutting head 30 is fixedly connected to the inner wall of the second ring 29, and the type of the laser cutting machine corresponding to the laser cutting head 30 is CO2-100 and 1610;

the upper surface of the second ring 29 is provided with a through hole and is connected with a second transmission rod 31 in a sliding way through the through hole, the top of the second transmission rod 31 is fixedly connected with a pressure-sensitive switch 32, the inner wall of the shell 28 close to the bottom is connected with a frame body 33 in a sliding way, the upper surface and the lower surface of the frame body 33 are both provided with through holes, the upper surface of the frame body 33 is fixedly connected with the bottom of the second transmission rod 31, the inner wall of the frame body 33 is connected with two symmetrical lateral clamping plates 34 in a sliding way, the opposite sides of the two lateral clamping plates 34 are both rotatably connected with a transmission arm 35 through a pin shaft, both sides of the frame body 33 are both provided with lateral through grooves 36, one end of the transmission arm 35 far away from the lateral clamping plates 34 passes through the lateral through grooves 36 and is rotatably connected with the inner wall of the shell 28 through a pin shaft, the lower surface of the frame body 33 is, the surface of the traction rope 37 is sleeved with a tension spring 39, two ends of the tension spring 39 are fixedly connected with the opposite surfaces of the shell 28 and the ring III 38, and the surface of the traction rope 26 is fixedly sleeved with a pressing block 40;

when in use, the position of the shell 28 is fixed through the second fixing arm 281; along with the downward movement of the traction rope 26, the pressing block 40 on the pressing block can also move downward step by step, when the lower surface of the pressing block 40 is contacted with the upper surface of the ring III 38, the pressing block 40 can be pressed down on the ring III 38, and along with the continuous downward movement of the traction rope 26, the ring III 38 can also move downward step by step;

the third ring 38 drives the pulling rod 37 to move downwards after overcoming the elasticity of the tension spring 39, the frame body 33 in the shell 28 also moves downwards through the transmission of the pulling rod 37, the two lateral clamping plates 34 move away from each other in the frame body 33 through the transmission of the two transmission arms 35 in the frame body 33, and the gap between the two lateral clamping plates 34 is increased;

meanwhile, the frame body 33 can drive the second transmission rod 31 to move downwards, when the pressure-sensitive switch 32 on the second transmission rod 31 is contacted with the upper surface of the second ring 29 and generates extrusion, the circuit among the pressure-sensitive switch 32, the laser cutting head 30 and the external power supply is communicated, when the laser cutting head 30 is powered on, the glass tube 12 to be cut is cut immediately, the laser cutting head 30 cuts the glass tube 12 to be cut more rapidly, and the cutting time of the glass tube 12 to be cut is fixed under the condition of uniform thickness; the part of the glass tube 12 to be cut, which is positioned below the laser cutting head 30, is cut to form the glass tube 12 to be cut, and then the glass tube 12 to be cut can make free falling body movement in the shell 28 under the influence of gravity;

after the cutting time is fixed, the pulling rope 26 drives the pressing block 40 to move upwards, under the action of the elastic force of the tension spring 39, the ring III 38 drives the pulling rod 37 and the frame body 33 to move upwards synchronously, at the moment, the gap between the two lateral clamping plates 34 is gradually reduced, and meanwhile, the finished glass tube 121 which moves in a free-falling mode also passes through the through hole in the upper surface of the frame body 33 to enter between the two lateral clamping plates 34 and then is clamped and locked; then, when the next section of glass tube 12 to be cut is cut, the two lateral clamping plates 34 still move away from each other again, and for the locking contact of the clamped finished glass tube 121, the finished glass tube 121 is then made to fall freely and falls into the receiving box 9 after passing through the frame 33, the shell 28 and the ring III 38; the free falling process of the finished glass tube 121 is interrupted by the two lateral clamping plates 34, so that the speed and the impact force of the finished glass tube 121 when the finished glass tube 121 falls on the receiving box body 9 can be reduced, the finished glass tube 121 is prevented from being damaged, and the product quality is guaranteed.

The through hole on the upper surface of the frame body 33 is a truncated cone-shaped through hole, and one end with a relatively larger caliber in the truncated cone-shaped through hole is upward, and the falling finished glass tube 121 can be guided in the direction by the arrangement of the truncated cone-shaped through hole, so that the falling finished glass tube can be kept falling vertically as much as possible;

rubber pads are fixedly connected to the opposite surfaces of the two lateral clamping plates 34, and the time requirements for adjusting the distance between the two lateral clamping plates 34 and the falling time of the finished glass tube 121 are looser by the arrangement of the rubber pads on the opposite surfaces of the two lateral clamping plates 34, so that the fault tolerance rate is improved, and the finished glass tube 121 can be easily fixed between the two lateral clamping plates 34;

the number of the traction rods 37 is two, the two traction rods 37 are symmetrically arranged by the vertical central line of the ring III 38, and the left and right stress of the ring III 38 can be more balanced through the symmetrical arrangement of the two traction rods 37, so that the lifting process is more stable;

the working principle is as follows: when the integrated device for cutting and collecting the solar heat collection glass tube is used, the glass tube 12 to be cut off is placed in the fixed frame 11, and the glass tube 12 to be cut off is suspended and fixed through the friction force between the fixed frame 11 and the surface of the glass tube 12 to be cut off; when the device is used, the electric push rod 2 is powered on, an output shaft on the electric push rod drives the push sleeve 3 to move transversely left and right, when the push sleeve 3 drives the push sleeve 3 to move rightwards, the slide block 5 can also move rightwards synchronously in the inclined sliding groove 6, and meanwhile, the transmission rod I4 can move downwards in the push sleeve 3 under the guidance of the inner wall of the inclined sliding groove 6; similarly, when the pushing sleeve 3 drives the transmission rod I4 to move left, the transmission rod I4 can move up relative to the pushing sleeve 3; the lifting plate 7 can move up and down along with the first transmission rod 4 in the vertical direction by clamping the lifting plate 7 through the two clamping pieces 8 on the first transmission rod 4, and the first transmission rod 4 can move horizontally relative to the lifting plate 7 by arranging the through groove on the lifting plate 7; the finished glass tubes 121 which finally fall are received by the receiving box body 9, and the finished glass tubes 121 falling in the receiving box body 9 can stably slide out under the guidance of the upper inclined surface of the receiving box body 9, so that in the actual use process, a conveying belt can be arranged at a discharge port on the right side of the receiving box body 9, and the collected finished glass tubes 121 are stably transported and transferred; meanwhile, the first transmission rod 4 drives the bearing box body 9 to swing left and right, so that the posture of the finished glass tube 121 in the bearing box body 9 can be further adjusted, and the finished glass tube can smoothly slide out along the inclined plane on the inner wall of the bearing box body 9; the first ring 10 plays a role in fixing and supporting; by means of the feeding device 13, the glass tube 12 to be cut can be quantitatively pulled down, and quantitative cutting can be achieved in the cutting process; by the arrangement of the cutting device 14, the cutting and the buffering protection collection of the glass tube 12 to be cut can be realized, so that the nondestructive collection of the glass tube 12 to be cut can be realized after the glass tube is cut into the finished glass tube 121, and the quality of the product is ensured; through the cooperation use between the above-mentioned structure, solved in the in-service use, because traditional die-cutting knife very easily causes the unexpected damage of glass pipe when strikeing the cutting to glass pipe, makes the effect of tailorring of glass pipe uneven, and the quality is difficult to standardize and guarantees, and causes the breakage of glass pipe easily when collecting to the glass pipe after cutting, brings inconvenient problem for the use.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a solar energy collection glass manages cutting and collects integrated device which characterized in that: the device comprises a vertical supporting plate (1), wherein an electric push rod (2) is arranged on the front side of the vertical supporting plate (1), a push sleeve (3) is fixedly connected to the right end of an output shaft on the electric push rod (2), a first transmission rod (4) is connected to the inner wall of the push sleeve (3) in a limiting sliding mode, and a sliding block (5) is fixedly connected to the rear side of the first transmission rod (4);

the front side of the vertical supporting plate (1) is provided with an inclined sliding groove (6) for sliding the sliding block (5), the front side of the vertical supporting plate (1) is provided with a lifting plate (7), the upper surface of the lifting plate (7) is provided with a through groove for the left and right limiting sliding of the transmission rod I (4), the surface of the transmission rod I (4) is fixedly connected with two clamping pieces (8), opposite surfaces of the two clamping pieces (8) are in sliding connection with the upper surface and the lower surface of the lifting plate (7), the front side of the vertical supporting plate (1) is in limiting sliding connection with a bearing box body (9), the bottom of the inner wall of the bearing box body (9) is obliquely arranged, the right side of the inner wall of the bearing box body is provided with a discharge hole, the surface, close to the top, of the transmission rod I (4) penetrates through the lower surface of the bearing box body (9) and is in sliding connection with the bearing box body, the upper surface of the ring I (10) is fixedly connected with a fixing frame (11), the inner wall of the fixing frame (11) is connected with a glass tube (12) to be cut in a sliding mode, the lower surface of the ring I (10) is fixedly connected with a feeding device (13), and the bottom of the feeding device (13) is fixedly connected with a cutting device (14).

2. The solar heat collection glass tube cutting and collecting integrated device according to claim 1, wherein: the feeding device (13) comprises two first fixing arms (15) which are symmetrically arranged on the lower surface of a first ring (10), a fixed pulley (16) is rotatably connected to the first fixing arms (15) close to the front side of the bottom in a fixed shaft mode, a sleeve (17) is fixedly connected to the arc-shaped profile of the fixed pulley (16), a telescopic clamping rod (18) is slidably connected to the inner wall of the sleeve (17), the two telescopic clamping rods (18) are located in the ring of the first ring (10), clamping blocks (19) are fixedly connected to the tops of the telescopic clamping rods (18), opposite surfaces of the two clamping blocks (19) are slidably connected with the side surface of a glass tube (12) to be cut, a built-in baffle ring (20) is fixedly connected to the inner wall of the pressure spring (21) close to the bottom, a pressure spring (21) is fixedly connected to the opposite surfaces of the telescopic clamping rods (18) and the built-in baffle ring (20), and a side pressure plate (22) is fixedly connected to the profile of the, the lower surface fixedly connected with fixed plate (23) of fixed arm (15), the opposite face fixedly connected with pressure spring two (24) of side pressure board (22) and fixed plate (23), the front side fixedly connected with direction arch (25) of fixed plate (23), the last fixed surface of lifter plate (7) is connected with the tractive line (26) of two symmetries, the top of tractive line (26) is walked around pressure spring two (24) and fixed pulley (16) and then is extended to in sleeve (17), the top of tractive line (26) passes behind built-in fender ring (20), pressure spring (21) and with the bottom fixed connection of flexible clamping bar (18) in sleeve (17).

3. The solar heat collection glass tube cutting and collecting integrated device according to claim 2, wherein: the number of turns of the traction rope (26) wound on the fixed pulley (16) is two.

4. The solar heat collection glass tube cutting and collecting integrated device according to claim 2, wherein: and a torsion spring (27) is arranged on the rear side of the fixed pulley (16), and the rear end of the torsion spring (27) is fixedly connected with the front side of the first fixed arm (15).

5. The solar heat collection glass tube cutting and collecting integrated device according to claim 1, wherein: the cutting device (14) comprises a shell (28), a second fixing arm (281) is fixedly connected to the two sides of the shell (28), the top of the second fixing arm (281) is fixedly connected with the bottom of the first fixing arm (15), through holes are formed in the upper surface and the lower surface of the shell (28), a second ring (29) is fixedly connected to the inner wall, close to the top, of the shell (28), a laser cutting head (30) is fixedly connected to the inner wall of the second ring (29), a through hole is formed in the upper surface of the second ring (29), a second transmission rod (31) is connected to the upper surface of the second ring (29) in a sliding mode through the through hole, a pressure-sensitive switch (32) is fixedly connected to the top of the second transmission rod (31), a frame body (33) is connected to the inner wall, close to the bottom, of the shell (28) in a sliding mode, through holes are formed in the upper surface, the inner wall of the frame body (33) is connected with two symmetrical lateral clamping plates (34) in a sliding way, the opposite sides of the two lateral clamping plates (34) are respectively connected with a transmission arm (35) in a rotating way through a pin shaft, lateral through grooves (36) are formed in the two sides of the frame body (33), one end, far away from the lateral clamping plate (34), of the transmission arm (35) penetrates through the lateral through grooves (36) and is rotatably connected with the inner wall of the shell (28) through a pin shaft, the lower surface of the frame body (33) is fixedly connected with a traction rod (37), the bottom of the traction rod (37) penetrates through the lower surface of the shell (28) and is fixedly connected with a ring III (38), the surface cover of tractive pole (37) has extension spring (39), the opposite face fixed connection of both ends and casing (28) and ring three (38) of extension spring (39), the fixed cover in surface of tractive rope (26) has briquetting (40).

6. The solar heat collection glass tube cutting and collecting integrated device according to claim 5, wherein: the through hole on the upper surface of the frame body (33) is a truncated cone-shaped through hole, and one end with a relatively larger caliber in the truncated cone-shaped through hole faces upwards.

7. The solar heat collection glass tube cutting and collecting integrated device according to claim 5, wherein: and rubber pads are fixedly connected to the opposite surfaces of the two lateral clamping plates (34).

8. The solar heat collection glass tube cutting and collecting integrated device according to claim 5, wherein: the number of the traction rods (37) is two, and the two traction rods (37) are symmetrically arranged by the vertical central line of the ring III (38).

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