CN111605830B - Polyurethane foam joint mixture production is with exempting from to shut down vanning vibrator - Google Patents

Abstract

A polyurethane foam gap filler production is with exempting from to shut down vanning vibrator includes: the vibration platform is characterized by comprising a vibration platform, wherein one end of the vibration platform is fixedly provided with a fixing frame, the fixing frame is fixedly provided with a supporting plate, and the supporting plate is provided with a positioning hole; utilize flexible push rod to insert the inserted bar to the locating hole with perforate in, make and remove the seat and can shake with vibrations platform co-frequency, the vibrations in-process, the pay-off push rod pushes the packing box to vibrations platform on, when the pay-off push rod pushes a packing box to vibrations platform, promote the packing box by vibrations platform one end and remove on vibrations platform, when the packing box is fully loaded on vibrations platform, push the packing box once more, the vibrations platform other end just has the packing box and is extruded vibrations platform, realize the unloading, whole in-process, vibrations platform material loading unloading all need not shutdown operation, the production efficiency is greatly improved.

Description

Polyurethane foam joint mixture production is with exempting from to shut down vanning vibrator

Technical Field

The invention relates to the field of polyurethane foam gap filler production equipment, in particular to a halt-free boxing vibration device for polyurethane foam gap filler production.

Background

The polyurethane foam gap filler is a novel building installation material, is specially used for gap treatment of building components, can replace traditional gap filling materials such as cement mortar, rock wool, wool tops and silica gel, realizes tighter gap of the building components, and has the advantages of heat preservation, heat insulation, sealing, non-flammability and the like; in pouring into the raw materials into the bottle in the polyurethane creeping formwork gap filler production process, pack a plurality of bottles so that the transportation, need shake the vibrations to the bottle that fills the raw materials in the box before the vanning leaves the factory, make its inside raw materials intensive mixing.

Present polyurethane foam gap filler case vibrator, the packing box that adopts the full dress bottle is placed on vibrations platform, utilizes the platform vibrations to rock the raw materials in the mixed bottle body, and when nevertheless placing the packing box on vibrator and need unloading to the packing box on the vibrator again, need shut down the operation to vibrator, wait to put into or restart vibrator after unloading the packing box, this kind of mode vibrations efficiency is lower, shut down the start operation and seriously influenced production efficiency.

Disclosure of Invention

The invention aims to solve the problem that the feeding and the discharging of a vibration device need to be stopped, and aims to provide a non-stop boxing vibration device for producing a polyurethane foam gap filler.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

a polyurethane foam gap filler production is with exempting from to shut down vanning vibrator includes:

the vibration platform is characterized by comprising a vibration platform, wherein one end of the vibration platform is fixedly provided with a fixing frame, the fixing frame is fixedly provided with a supporting plate, and the supporting plate is provided with a positioning hole;

the feeding platform is installed at one end of the vibration platform, the upper end face of the feeding platform is provided with a plurality of supporting beam rods which are parallel to each other, a supporting slide way is installed at the lower part of the feeding platform, a moving seat is installed on the supporting slide way in a sliding mode, a feeding frame is fixed on the moving seat, a feeding push rod is fixedly installed on the feeding frame, a feeding roller frame is arranged on the side part of the feeding platform, the feeding roller frame is arranged on one side of the feeding frame in a parallel mode, a rotating shaft is installed on the upper part of the moving seat, one end of the rotating shaft is connected with a stepping motor driving end, a turning support is installed on the rotating shaft, and the turning support can extend out of a gap of the supporting beam rods to the upper part of the feeding platform;

the movable seat is characterized in that a coordination plate and a telescopic push rod are fixed on the side portion of the movable seat, the telescopic push rod is located on the upper portion of the coordination plate, an insertion rod is fixed at the output end of the telescopic push rod, a through hole is formed in the coordination plate, the insertion rod is inserted into the through hole, the coordination plate is located on the upper portion of the supporting plate, and when the supporting plate moves horizontally, the positioning hole can be overlapped with the through hole.

Further, the upset support is including fixed cover and turnover rod, fixed cover fixed mounting is on pivot upper portion, the turnover rod is equipped with four contained angles such as and fixes on fixed sheatheeing along the radius direction, the turnover rod lower part is equipped with the spout, spout internally mounted has the slider, be fixed with the limiting plate on the slider, install electric putter between slider and turnover rod end.

Further, the vibration platform comprises a base and a material frame, a guide rail is mounted on the base, the material frame is slidably mounted on the guide rail, the guide rail is parallel to the supporting slide way, an air cylinder is mounted on the base, and an output end of the air cylinder is fixed on the side portion of the material frame.

Further, the boxing vibration device further comprises a control console, an infrared sensor is arranged at the joint of the feeding roller frame and the feeding table, the infrared sensor is connected with the input end of the control console, and the output end of the control console is respectively connected with the stepping motor and the feeding push rod.

Furthermore, a bearing is installed at one end, close to the feeding roller frame, of the supporting beam rod, and a buffering sleeve is sleeved outside the bearing in a surrounding mode.

Furthermore, a hollow sliding cavity is arranged inside the inserted rod, a limiting seat is arranged at the upper end of the hollow sliding cavity, an ejector block is arranged inside the hollow sliding cavity in a sliding mode, a buffer spring is arranged at the bottoms of the ejector block and the hollow sliding cavity, and the output end of the telescopic push rod penetrates through the limiting seat and is fixedly connected with the ejector block.

The invention has the beneficial effects that:

the invention has simple structure, the turnover frame is arranged behind the turnover packing box, the inserted bar is inserted into the positioning hole and the through hole by utilizing the telescopic push rod, the movable seat can vibrate with the vibration platform at the same frequency, in the vibration process, the feeding push rod pushes the packing box onto the vibration platform, when the feeding push rod pushes one packing box into the vibration platform, one end of the vibration platform pushes the packing box to move on the vibration platform, when the packing box is fully loaded on the vibration platform, the packing box is pushed into the vibration platform again, the other end of the vibration platform can extrude the packing box out of the vibration platform, so as to realize blanking, in the whole process, the feeding and blanking of the vibration platform are not required to be stopped, and the production efficiency is greatly improved.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a block diagram of the movable base of the present invention;

FIG. 3 is a structural view of the roll-over stand of the present invention;

FIG. 4 is a structural view of the vibration platform of the present invention;

FIG. 5 is a cross-sectional view of the bayonet of the present invention;

in the figure: 1. vibrating the platform; 2. a feeding table; 12. a fixed mount; 13. a support plate; 14. positioning holes; 21. a support beam bar; 22. a support slide; 23. a movable seat; 24. a feeding frame; 25. a feeding push rod; 26. a feed roll stand; 27. a rotating shaft; 28. a stepping motor; 29. turning over the bracket; 31. a collaboration plate; 32. a telescopic push rod; 33. inserting a rod; 34. perforating; 41. fixing a sleeve; 42. turning over the rod; 43. a chute; 44. a slider; 45. a limiting plate; 46. an electric push rod; 51. a base; 52. a material rack; 53. a guide rail; 54. a cylinder; 61. a console; 62. an infrared sensor; 71. a buffer sleeve; 81. a limiting seat; 82. a top block; 83. a buffer spring.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Example 1

As shown in fig. 1 and 2; a polyurethane foam gap filler production is with exempting from to shut down vanning vibrator includes:

the vibration platform comprises a vibration platform 1, wherein a fixed frame 12 is fixedly arranged at one end of the vibration platform 1, a supporting plate 13 is fixedly arranged on the fixed frame 12, and a positioning hole 14 is formed in the supporting plate 13;

the feeding platform 2 is installed at one end of the vibration platform 1, the upper end face of the feeding platform 2 is provided with a plurality of supporting beam rods 21 which are parallel to each other, a supporting slide way 22 is installed at the lower part of the feeding platform 2, a moving seat 23 is installed on the supporting slide way 22 in a sliding mode, a feeding frame 24 is fixed on the moving seat 23, a feeding push rod 25 is fixedly installed on the feeding frame 24, a feeding roller frame 26 is arranged on the side part of the feeding platform 2, the feeding roller frame 26 is arranged on one side of the feeding frame 24 in a parallel mode, a rotating shaft 27 is installed at the upper part of the moving seat 23, one end of the rotating shaft 27 is connected with the driving end of a stepping motor 28, an overturning support 29 is installed on the rotating shaft 27, and the overturning support 29 can extend out of the gap of the supporting beam rods 21 to the upper part of the feeding platform 2;

A coordination plate 31 and a telescopic push rod 32 are fixed on the side of the moving seat 23, the telescopic push rod 32 is located on the upper portion of the coordination plate 31, an insertion rod 33 is fixed on the output end of the telescopic push rod 32, a through hole 34 is formed in the coordination plate 31, the insertion rod 33 is inserted into the through hole 34, the coordination plate 31 is located on the upper portion of the supporting plate 13, and when the supporting plate 13 moves horizontally, the positioning hole 14 can be overlapped with the through hole 34.

The utility model provides a production of polyurethane foam gap filler is with exempting from to shut down vanning vibrator, the theory of operation:

the packing box fully filled with polyurethane foam gap filler bottles enters the feeding platform 2 from one side of the feeding roller frame 26, the stepping motor 28 at the lower part of the feeding platform 2 rotates by 90 degrees to drive the turning support 29 to rotate, in the rotating process, the turning support 29 turns the packing box pressed on the turning support 29 to the inlet of the vibration platform 1, the telescopic push rod 32 at the side part of the movable seat 23 extends out to push the inserted rod 33 to move, in the vibration process of the vibration platform 1, the moment that the positioning hole 14 on the support plate 13 is overlapped with the through hole 34 on the cooperative plate 31 exists, at the moment, the inserted rod 33 is inserted into the positioning hole 14 through the through hole 34, so that the support plate 13 and the cooperative plate 31 are integrated, as the movable seat 23 is arranged on the support slideway 22, the vibration platform 1 simultaneously drives the movable seat 23 to move on the support slideway 22, at the moment, the feeding push rod 25, the turning support 29 and the vibration platform 1 keep relatively static, pay-off push rod 25 stretches out and pushes the packing box on the support 29 that overturns to vibrations platform 1 port department, when full load packing box on vibrations platform 1, because the packing box is crowded into to vibrations platform 1 one end for the packing box of the platform other end is extruded, realizes vibrations platform 1's material loading unloading with this, and the in-process need not to shut down the operation to vibrations platform 1, improves production efficiency.

Example 2

On the basis of example 1, as shown in fig. 3; upset support 29 is including fixed cover 41 and turnover rod 42, fixed cover 41 fixed mounting is on pivot 27 upper portion, turnover rod 42 is equipped with four contained angles such as fix on fixed cover 41 along the direction of radius, turnover rod 42 lower part is equipped with spout 43, spout 43 internally mounted has slider 44, be fixed with limiting plate 45 on the slider 44, install electric putter 46 between slider 44 and turnover rod 42 end.

When the vibration platform 1 and the turnover support 29 move at the same frequency, the packing box on the turnover support 29 falls onto the support beam rod 21 on the feeding platform 2, at the moment, the turnover support 29 does not drive the packing box to move due to vibration, and if the feeding push rod 25 extends out to push the packing box to move, the packing box can impact on the support of the vibration platform 1, so that the packing box is damaged; when the packing box is transported to upset support 29 on, upset support 29 rotates, 42 up end contact packing box of turning over, when upset support 29 overturns 90 degrees, the packing box is moved to the opposite side by upset support 29 one side, the spout 43 that is located the turning over pole 42 of packing box lower part this moment is towards the packing box, the inside electric putter 46 of spout 43 promotes slider 44 and removes in spout 43, the packing box receives the centre gripping of 2 upper portions of material loading platform turning over pole 42 and limiting plate 45, when upset support 29 shakes, can drive the vibrations of packing box simultaneously, the pay-off push rod 25 of being convenient for carries out the material loading.

Example 3

On the basis of example 1, as shown in fig. 4; the vibration platform 1 comprises a base 51 and a material rack 52, a guide rail 53 is mounted on the base 51, the material rack 52 is slidably mounted on the guide rail 53, the guide rail 53 is parallel to the supporting slide way 22, an air cylinder 54 is mounted on the base, and the output end of the air cylinder 54 is fixed on the side portion of the material rack 52. The cylinder 54 is used for pushing the material rack 52 to reciprocate on the guide rail 53, so that the moving seat 23 and the material rack 52 can move at the same frequency when the supporting plate 13 and the cooperation plate 31 are combined.

The boxing vibration device further comprises a control console 61, an infrared sensor 62 is arranged at the joint of the feeding roller frame 26 and the feeding table 2, the infrared sensor 62 is connected with the input end of the control console 61, and the output end of the control console 61 is respectively connected with the stepping motor 28 and the feeding push rod 25.

When the packing box is fed by the feeding roller frame 26, the packing box moves to the feeding table, the infrared sensor 62 on one side of the feeding table senses whether the packing box on one side of the feeding table 2 close to the feeding roller frame 26 exists, if yes, a signal is transmitted to the control table, the control table 61 controls the stepping motor 28 to start, the turning support 29 is turned, after turning is completed, the telescopic push rod 32 is controlled to push out the inserted rod 33, the vibration platform 1 and the moving seat 23 move at the same frequency, finally, the feeding push rod 25 is pushed out, and the control table 61 can be a PLC control system.

And a bearing is arranged at one end of the supporting beam rod 21 close to the feeding roller frame 26, and a buffer sleeve 71 is sleeved outside the bearing in a surrounding manner. Packing box on the feeding roller frame 26 is when getting into to supporting beam pole 21 upper portion, because supporting beam pole 21 can not rotate, the packing box can only rely on the packing box thrust on the feeding roller frame 26 to remove the packing box on the material loading platform 2, because the frictional force between packing box and supporting beam pole 21 is great, can influence the normal feeding of feeding roller frame 26, set up cushion sleeve 71 through corresponding feeding roller frame 26 one side at supporting beam pole 21, when the packing box removes to supporting beam pole 21 on, cushion sleeve 71 can rotate, effectively reduce the friction of packing box to supporting beam pole 21, reduce the influence of the packing box on the material loading platform 2 to the packing box on feeding roller frame 26.

Example 4

On the basis of example 1, as shown in fig. 5; the utility model discloses a telescopic push rod 32, including inserted bar 33, ejector pad 82, buffer spring 83, telescopic push rod 32 output passes spacing seat 81 fixed connection ejector pad 82, the inside hollow sliding chamber that is equipped with of inserted bar 33, hollow sliding chamber upper end is equipped with spacing seat 81, the inside top block 82 that slides of hollow sliding chamber, top block 82 and hollow sliding chamber bottom are equipped with buffer spring 83, telescopic push rod 32 output passes spacing seat 81 fixed connection ejector pad 82. When the telescopic push rod 32 pushes out the insert rod 33, due to the thrust action of the telescopic push rod 32, when the positioning hole 14 is not overlapped with the through hole 34, the end of the insert rod 33 has pressure on the support plate 13, and when the insert rod 33 is not inserted into the positioning hole 14 due to the pressure action, the support plate 13 and the cooperation plate 31 move at the same frequency, however, at this time, the port of the feeding push rod 25 and the port of the vibration platform 1 are not aligned, and at this time, if the packing box is pushed into the vibration platform 1, the packing box can collide with the vibration platform 1, and the packing box is damaged;

By arranging the buffer spring 83 in the insertion rod 33, when the telescopic push rod 32 extends out, the insertion rod 33 can normally move in the through hole 34 when the insertion rod 33 is not in contact with the support plate 13, and when the end of the insertion rod 33 is in contact with the support plate 13, the telescopic push rod 32 continues to extend out, the thrust of the telescopic push rod 32 is buffered by the buffer spring 83, friction between the insertion rod 33 and the support plate 13 is reduced, when the through hole 34 is overlapped with the positioning hole 14, the buffer spring 83 pushes the insertion rod 33 into the positioning hole 14, at the moment, the insertion rod 33 and the support plate 13 can move at the same frequency, when the telescopic push rod 32 retracts, the top block 82 in the insertion rod 33 is pulled to move, when the top block 82 is limited by the limiting seat 81, the insertion rod 33 is pulled to move, the insertion rod 33 is pulled out from the positioning hole 14, and separation of the insertion rod 33 and the positioning hole 14 is realized.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a production of polyurethane foam gap filler is with exempting from to shut down vanning vibrator which characterized in that includes:

the vibration platform is characterized by comprising a vibration platform, wherein one end of the vibration platform is fixedly provided with a fixing frame, the fixing frame is fixedly provided with a supporting plate, and the supporting plate is provided with a positioning hole;

the feeding platform is installed at one end of the vibration platform, the upper end face of the feeding platform is provided with a plurality of supporting beam rods which are parallel to each other, a supporting slide way is installed at the lower part of the feeding platform, a moving seat is installed on the supporting slide way in a sliding mode, a feeding frame is fixed on the moving seat, a feeding push rod is fixedly installed on the feeding frame, a feeding roller frame is arranged on the side part of the feeding platform, the feeding roller frame is arranged on one side of the feeding frame in a parallel mode, a rotating shaft is installed on the upper part of the moving seat, one end of the rotating shaft is connected with a stepping motor driving end, a turning support is installed on the rotating shaft, and the turning support can extend out of a gap of the supporting beam rods to the upper part of the feeding platform;

a coordination plate and a telescopic push rod are fixed on the side part of the moving seat, the telescopic push rod is positioned on the upper part of the coordination plate, an insertion rod is fixed at the output end of the telescopic push rod, a through hole is formed in the coordination plate, the insertion rod is inserted into the through hole, the coordination plate is positioned on the upper part of a supporting plate, and when the supporting plate moves horizontally, the positioning hole can be overlapped with the through hole;

The overturning bracket comprises a fixed sleeve and an overturning rod, the fixed sleeve is fixedly arranged at the upper part of the rotating shaft, the overturning rod is provided with four equal included angles and is fixedly arranged on the fixed sleeve along the radius direction, the lower part of the overturning rod is provided with a sliding groove, a sliding block is arranged in the sliding groove, a limiting plate is fixed on the sliding block, and an electric push rod is arranged between the sliding block and the end head of the overturning rod;

the vibration platform comprises a base and a material frame, a guide rail is mounted on the base, the material frame is slidably mounted on the guide rail, the guide rail is parallel to the supporting slide way, an air cylinder is mounted on the base, and the output end of the air cylinder is fixed on the side portion of the material frame.

2. The non-stop boxing vibration device for producing the polyurethane foam gap filler as claimed in claim 1, wherein the boxing vibration device further comprises a control console, an infrared sensor is arranged at the joint of the feeding roller frame and the feeding table, the infrared sensor is connected with the input end of the control console, and the output end of the control console is respectively connected with the stepping motor and the feeding push rod.

3. The shut-down-free boxing vibration device for polyurethane foam gap filler production as claimed in claim 1, wherein the end of the support beam rod close to the feeding roller frame is provided with a bearing, and a buffer sleeve is sleeved outside the bearing.

4. The shut-down-free boxing and vibrating device for polyurethane foam gap filler production as claimed in claim 1, wherein a hollow sliding cavity is arranged inside the inserted rod, a limiting seat is arranged at the upper end of the hollow sliding cavity, a top block is arranged inside the hollow sliding cavity in a sliding manner, a buffer spring is arranged at the bottom of the top block and the hollow sliding cavity, and the output end of the telescopic push rod penetrates through the limiting seat and is fixedly connected with the top block.

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