CN114459930B - Resilience tester for coarse-hole high-resilience sponge - Google Patents

Abstract

The invention discloses a rebound rate tester for a coarse-hole high-rebound sponge, which relates to the technical field of sponge detection and comprises a tester, wherein a damping mechanism is arranged at the bottom of the tester, a dust removing mechanism is arranged at the top of the damping mechanism, a cooling mechanism is arranged on the right side of the tester, the dust removing mechanism comprises a dust removing shell, and an electromagnet is arranged in the dust removing shell. According to the invention, the filter plate, the sliding block and the electromagnet are matched, the sliding block is aligned with the sliding groove, the sliding block is pushed to displace, the sliding block is fixed at the moment after being displaced to a proper position and the electromagnet is electrified, so that the problem that the normal use of the tester is influenced by dust accumulation is solved by mostly arranging the dust removing mechanism on the existing tester, but the existing dust removing mechanism is difficult to replace the filter plate, so that the working efficiency of a worker is low when the worker is replaced, and the effect of improving the working efficiency of the worker is achieved.

Description

Resilience tester for coarse-hole high-resilience sponge

Technical Field

The invention relates to the technical field of sponge detection, in particular to a resilience tester for a coarse-hole high-resilience sponge.

Background

The high-resilience sponge is always favored by virtue of the mechanical properties of the high-resilience sponge, compared with a general foam product, the high-resilience sponge has higher elasticity, lower hysteresis loss and higher compression load ratio, is manufactured by foaming high-activity high-molecular-weight polyether polyol, is widely used for sofa cushions, backs, mattresses, office seats and the like, has better practicability and applicability compared with similar products, has better market development prospect, and is an important index, and the resilience of the sponge is generally applied to a resilience tester of the coarse-hole high-resilience sponge in the resilience detection process.

The following problems exist in the prior art:

1. most of the existing testers are provided with dust removing mechanisms so as to avoid dust accumulation from affecting the normal use of the testers, but the existing dust removing mechanisms are difficult to replace the filter plates, so that the working efficiency of workers is low during replacement;

2. the existing tester lacks a damping function, when the tester vibrates, the tester can be made to topple over and roll over, so that the service life of the tester is directly influenced, and meanwhile, the testing efficiency is influenced by the damage of the tester;

3. when the tester works for a long time, more heat is generated in the tester, the heat accumulation can enable the temperature in the tester to rise, so that the aging speed of parts in the tester is accelerated, and the service life of the tester is reduced.

Disclosure of Invention

The invention provides a rebound rate tester for a coarse-hole high-rebound sponge, which aims to have the effect of improving the working efficiency of workers and solves the problems that the normal use of the tester is influenced by dust accumulation in most of the existing testers, but the existing dust removing mechanisms are difficult to replace a filter plate, so that the working efficiency of the workers is lower when the workers replace the filter plate; another purpose is to solve the problem that the existing tester lacks a damping function, when the tester vibrates, the tester may topple over and turn over, so that the service life of the tester is directly influenced, and meanwhile, the damage of the tester can influence the testing efficiency, so that the testing efficiency of the tester is guaranteed; the other purpose is that in order to solve the long-time during operation of tester, the inside of the tester can generate more heat, the heat accumulation can cause the temperature inside the tester to rise, and then the aging speed of the parts inside the tester is accelerated, so that the service life of the tester is reduced, and the effect of improving the service life of the tester is achieved.

In order to solve the technical problems, the invention adopts the following technical scheme:

the resilience rate tester for the coarse-hole high-resilience sponge comprises a tester, wherein a damping mechanism is arranged at the bottom of the tester, a dust removing mechanism is arranged at the top of the damping mechanism, and a cooling mechanism is arranged on the right side of the tester.

The dust removing mechanism comprises a dust removing shell, an electromagnet is arranged in the dust removing shell, a sliding groove is formed in the dust removing shell, a ball is arranged on the inner wall of the sliding groove, a sliding block is lapped on the surface of the ball, and one side of the sliding block extends to the inner cavity of the dust removing shell to be fixedly connected with a filter plate.

The utility model provides a damping mechanism, including damping bottom plate, damping bottom plate's inside has been seted up the dashpot, damping bottom plate's inner wall fixedly connected with dead lever, the surface activity of dead lever has cup jointed the connecting plate, the top of connecting plate just is located the outside fixedly connected with damping spring of dead lever, damping spring's top and damping bottom plate's inner wall top fixedly connected with, the hollow space has been seted up to the inside of connecting plate, the inner wall side swing joint of hollow space has the fly leaf, the inside of hollow space just is located the below of fly leaf is filled with the shock attenuation soft bag, the top fixedly connected with dwang of fly leaf, the top of dwang extends to the outside of connecting plate, the bottom fixedly connected with support column of connecting plate, the bottom of support column extends to damping bottom plate's outside.

The cooling mechanism comprises a second water tank, the surface of the second water tank is provided with a cooling shell, the right side of the inner wall of the cooling shell is provided with a circulating fan, the surface of the circulating fan is provided with a circulating air pipe, the surface of the circulating air pipe is overlapped with a circulating water pipe, the surface of the circulating water pipe is provided with a third water pump, the two ends of the circulating water pipe are fixedly connected with the surface of the second water tank, the surface of the second water tank is provided with a refrigerating sheet outside the cooling shell, the inner wall of the circulating air pipe is fixedly connected with a dustproof net, and chemical fiber particles are filled in the circulating air pipe and are located on one side of the dustproof net.

The technical scheme of the invention is further improved as follows: the dust removal shell is characterized in that a groove is formed in the dust removal shell, a suction fan is arranged on the inner wall of the groove, and an air pipe is arranged on the surface of the suction fan.

By adopting the technical scheme, when the suction fan in the scheme is started, dust can be transferred through the air pipe.

The technical scheme of the invention is further improved as follows: one end of the air pipe extends to the outside of the dust removal shell, and the other end of the air pipe extends to the inner cavity of the dust removal shell.

By adopting the technical scheme, the air pipe in the scheme can pump outside air and dust to the inner cavity of the dust removal shell.

The technical scheme of the invention is further improved as follows: the back of dust removal shell is provided with a water tank, the top of water tank is provided with the water pipe.

By adopting the technical scheme, the water pipe in the scheme can enable water in the water tank to flow in the water tank.

The technical scheme of the invention is further improved as follows: the surface of the water pipe extends to the inner cavity of the dust removal shell and is provided with a water mist nozzle, and the surface of the water pipe and the back surface of the dust removal shell are provided with a first water pump.

By adopting the technical scheme, the water mist spray head in the scheme can spray water mist to carry out dust fall treatment on the inner cavity of the dust removal shell.

The technical scheme of the invention is further improved as follows: the bottom of the first water tank is provided with a water return pipe, and the other end of the water return pipe extends to the inside of the dust removal shell.

By adopting the technical scheme, the water return pipe in the scheme can return the water accumulated at the bottom of the dust removal shell into the water tank.

The technical scheme of the invention is further improved as follows: the surface of wet return just is located the back of dust removal shell and is provided with No. two water pumps, the left side of cooling shell and the right side fixed connection of tester.

By adopting the technical scheme, the temperature reduction shell in the scheme can reduce the influence of external factors on the internal structure of the shell.

The technical scheme of the invention is further improved as follows: the bottom of dust removal shell fixed connection is at the top of tester, tester fixed connection is at the top of shock attenuation bottom plate.

By adopting the technical scheme, the dust removal shell in the scheme can protect the internal structure from external influence.

By adopting the technical scheme, compared with the prior art, the invention has the following technical progress:

1. the invention provides a resilience tester for a coarse-hole high-resilience sponge, which adopts the cooperation of a filter plate, a sliding block and an electromagnet, after the sliding block is aligned with a chute, the sliding block is pushed to displace, after the sliding block is displaced to a proper position, the sliding block is fixed at the moment after the electromagnet is electrified, so that the problem that the normal use of the tester is influenced by dust accumulation in the existing tester is solved, but the existing dust removing mechanism is difficult to replace the filter plate, the working efficiency of a worker is low when the worker is replaced, and the effect of improving the working efficiency of the worker is achieved.

2. The invention provides a rebound rate tester for a coarse-hole high-rebound sponge, which adopts the cooperation of a damping spring, a damping soft bag, a movable plate, an extrusion rod and a connecting plate, wherein the damping spring is extruded through the displacement of the connecting plate in the damping process, and the movable plate is extruded through the extrusion rod in the displacement process of the connecting plate so as to further extrude the damping soft bag.

3. The invention provides a rebound rate tester for a coarse-hole high-rebound sponge, which adopts the cooperation of a circulating fan, a circulating air pipe and a circulating water pipe, after the circulating fan is started, the circulating air pipe accelerates the circulation speed of air in the tester, and meanwhile, the circulating air pipe can be cooled by water flowing in the circulating water pipe in the circulation process, so that the problem that when the tester works for a long time, more heat is generated in the tester, the heat accumulation can cause the temperature in the tester to rise, and the ageing speed of parts in the tester is accelerated, thereby reducing the service life of the tester and achieving the effect of prolonging the service life of the tester.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the dust removing mechanism of the present invention;

FIG. 3 is an enlarged schematic view of the dust removing mechanism A of the present invention;

FIG. 4 is a schematic view of a shock absorbing mechanism according to the present invention;

FIG. 5 is a schematic diagram of a cooling mechanism according to the present invention;

fig. 6 is a schematic view of a circulating air duct structure according to the present invention.

In the figure: 1. a tester; 2. a dust removing mechanism; 21. a dust removal housing; 22. a suction fan; 23. an air duct; 24. a water pipe; 25. a water mist spray head; 26. a first water pump; 27. a first water tank; 28. a second water pump; 29. a water return pipe; 291. a filter plate; 292. a ball; 293. a slide block; 294. an electromagnet; 3. a damping mechanism; 31. a damping bottom plate; 32. a damping spring; 33. a fixed rod; 34. a support column; 35. a damping soft bag; 36. a movable plate; 37. an extrusion rod; 38. a connecting plate; 4. a cooling mechanism; 41. a second water tank; 42. a cooling sheet; 43. a cooling shell; 44. a circulating fan; 45. a circulating air pipe; 46. a third water pump; 47. a circulating water pipe; 48. chemical fiber particles; 49. a dust-proof net.

Detailed Description

The invention is further illustrated by the following examples:

example 1

As shown in fig. 1-6, the invention provides a rebound rate tester for a coarse-hole high-rebound sponge, which comprises a tester 1, wherein a damping mechanism 3 is arranged at the bottom of the tester 1, a dust removing mechanism 2 is arranged at the top of the damping mechanism 3, a cooling mechanism 4 is arranged on the right side of the tester 1, the dust removing mechanism 2 comprises a dust removing shell 21, an electromagnet 294 is arranged in the dust removing shell 21, a chute is arranged in the dust removing shell 21, a ball 292 is arranged on the inner wall of the chute, a sliding block 293 is lapped on the surface of the ball 292, a filter plate 291 is fixedly connected with an inner cavity of the dust removing shell 21 and extends to one side of the sliding block 293, a groove is formed in the dust removing shell 21, a suction fan 22 is arranged on the inner wall of the groove, an air pipe 23 is arranged on the surface of the suction fan 22, one end of the air pipe 23 extends to the outside of the dust removing shell 21, the other end of tuber pipe 23 extends to the inner chamber of dust removal shell 21, the back of dust removal shell 21 is provided with water tank 27, the top of water tank 27 is provided with water pipe 24, the surface of water pipe 24 extends to the inner chamber of dust removal shell 21 and is provided with water smoke shower nozzle 25, the surface of water pipe 24 just is located the back of dust removal shell 21 and is provided with water pump 26, the bottom of water tank 27 is provided with wet return 29, water pump 28 is provided with on the back of dust removal shell 21 to the other end of wet return 29 extends to the inside of dust removal shell 21, the surface of wet return 29 just is located the back of dust removal shell 21, the left side of cooling shell 43 and the right side fixed connection of tester 1, the bottom fixed connection of dust removal shell 21 is at the top of tester 1, tester 1 fixed connection is at the top of shock attenuation bottom plate 31.

In this embodiment, because the dust removal shell 21 is provided with the valve, the pulling valve, after the slider 293 aligns the spout, promote filter 291 makes slider 293 carry out the displacement in the spout, the in-process accessible ball 292 carries out the auxiliary displacement, simultaneously ball 292 can reach the spacing effect of certain degree, after the displacement arrives suitable position, switch on electro-magnet 294, because the electro-magnet 294 produces great magnetism after switching on, fix slider 293 through magnetism, thereby accomplish the installation to filter 291, in the dust removal process, start suction fan 22, take external dust to the dust removal shell 21 inner chamber through tuber pipe 23, start water pump 26, carry the inside water of water tank 27 to water smoke shower nozzle 25 through water pipe 24, spray water smoke shower nozzle 25, accomplish dust fall operation of dust removal shell 21 inner chamber, the dust can fall into filter 291 surface, water passes filter 291 and accumulates to dust removal shell 21 inner chamber bottom, the regular start No. two water pump 28, water reflux to the water tank 27 through wet return 29 will accumulate to dust removal shell 21 inner chamber bottom, avoid the wasting of resources.

Example 2

As shown in fig. 1-6, on the basis of embodiment 1, the present invention provides a technical solution: preferably, the damping mechanism 3 includes the damping bottom plate 31, the inside of damping bottom plate 31 has been seted up the dashpot, the inner wall fixedly connected with dead lever 33 of dashpot, connecting plate 38 has been cup jointed on the surface activity of dead lever 33, the top of connecting plate 38 and the outside fixedly connected with damping spring 32 that is located dead lever 33, damping spring 32's top and the inner wall top fixedly connected with of dashpot, the recess has been seted up to the inside of connecting plate 38, the inner wall side swing joint of recess has fly leaf 36, the inside of recess just is located the below of fly leaf 36 and has filled damping soft bag 35, the top fixedly connected with squeeze lever 37 of fly leaf 36, the top of squeeze lever 37 extends to the outside of connecting plate 38, the bottom fixedly connected with support column 34 of connecting plate 38, the bottom of support column 34 extends to the outside of damping bottom plate 31.

In this embodiment, in the damping process, the damping bottom plate 31 will displace downwards, so that the connecting plate 38 will squeeze the damping spring 32, and as the damping bottom plate 31 displaces downwards continuously, the top of the inner wall of the damping groove can squeeze the movable plate 36 through the squeeze rod 37, and further squeeze the damping soft bag 35, and achieve the damping effect through the damping soft bag 35 and the damping spring 32.

Example 3

As shown in fig. 1-6, on the basis of embodiment 1, the present invention provides a technical solution: preferably, the cooling mechanism 4 includes No. two water tanks 41, no. two water tank 41's surface is provided with cooling shell 43, cooling shell 43's inner wall right side is provided with circulating fan 44, circulating fan 44's surface is provided with circulating air pipe 45, circulating air pipe 45's surface overlap joint has circulating water pipe 47, circulating water pipe 47's surface is provided with No. three water pumps 46, circulating water pipe 47's both ends all with No. two water tank 41's fixed surface connection, no. two water tank 41's surface just is located cooling shell 43's outside and is provided with refrigeration piece 42, circulating air pipe 45's inner wall fixedly connected with dust screen 49, circulating air pipe 45's inside just is located one side of dust screen 49 and packs and has chemical fiber granule 48.

In this embodiment, tester 1 includes the control organism, circulation tuber pipe 45 can extend to the control organism inside, when circulation fan 44 starts, the inside air circulation speed of accessible circulation tuber pipe 45 acceleration control organism, thereby initially reach the cooling effect, no. three water pump 46 starts the back, can make the inside water of No. two water tanks 41 circulate in circulation tube 47 inside, circulation in-process accessible circulation tube 47 gives off the cold gas, cool down through the heat conduction to the inside gas of circulation tuber pipe 45, wherein refrigeration piece 42 can cool down the inside liquid of No. two water tanks 41, can improve cooling efficiency in a certain extent, wherein circulation tuber pipe 45 inner wall sets up, lengthen the air circulation duration, can further improve the cooling effect to the inside air of circulation tuber pipe 45, the air can pass dust screen 49 at the circulation in-process simultaneously, chemical fiber granule 48, through dust screen 49, chemical fiber granule 48 can handle the dust.

The working principle of the resilience tester of the coarse-hole high-resilience sponge is specifically described below.

As shown in fig. 1-6, the rebound rate of the coarse-hole high-resilience sponge is detected by the tester 1, in the dust removal process, the suction fan 22 is started, external dust is pumped to the inner cavity of the dust removal shell 21 through the air pipe 23, the first water pump 26 is started, water in the first water tank 27 is conveyed to the water mist spray head 25 through the water pipe 24, water mist is sprayed by the water mist spray head 25, dust can fall on the surface of the filter plate 291, water passes through the filter plate 291 and accumulates to the bottom of the inner cavity of the dust removal shell 21, the second water pump 28 is started regularly, water accumulated to the bottom of the inner cavity of the dust removal shell 21 flows back to the first water tank 27 through the water return pipe 29, wherein the filter plate 291 is moved in the sliding groove after the sliding block 293 is aligned with the sliding groove, the sliding block 293 is pushed, the sliding block 293 is shifted in the sliding groove, after the sliding block 293 is shifted to a proper position, the sliding block 293 is fixed through magnetism generated by electrifying the electromagnet 294, thereby the installation of the filter plate 291 is completed, the damping bottom plate 31 can be shifted downwards, the damping spring 32 can be extruded by the connecting plate 38, the inner wall of the damping groove is extruded by the extruding rod 37, the movable plate 36, the soft bag 35 is extruded by the extruding, the soft bag 35 is further, the damping air box is cooled by the damping spring 45, the air is controlled by the extruding through the extruding rod 37, the inner wall of the damping spring, the air box 45 is cooled by the air, the air circulation speed is cooled by the air through the circulating air pump 45, and the inside the air 45, and the air is cooled down through the air circulation pipeline 45, and the inside the air circulation pipeline 45 is cooled down.

The foregoing invention has been generally described in great detail, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, it is intended to cover modifications or improvements within the spirit of the inventive concepts.

Claims (8)

1. The utility model provides a resilience rate tester of high resilience sponge in coarse-bore, includes tester (1), its characterized in that: the bottom of the tester (1) is provided with a damping mechanism (3), the top of the damping mechanism (3) is provided with a dust removing mechanism (2), and the right side of the tester (1) is provided with a cooling mechanism (4);

the dust removing mechanism (2) comprises a dust removing shell (21), an electromagnet (294) is arranged in the dust removing shell (21), a sliding groove is formed in the dust removing shell (21), a ball (292) is arranged on the inner wall of the sliding groove, a slider (293) is lapped on the surface of the ball (292), and a filter plate (291) is fixedly connected with an inner cavity of the dust removing shell (21) from one side of the slider (293);

the damping mechanism (3) comprises a damping bottom plate (31), a damping groove is formed in the damping bottom plate (31), a fixing rod (33) is fixedly connected to the inner wall of the damping groove, a connecting plate (38) is movably sleeved on the surface of the fixing rod (33), a damping spring (32) is fixedly connected to the top of the connecting plate (38) and located outside the fixing rod (33), the top of the damping spring (32) is fixedly connected with the top of the inner wall of the damping groove, an empty groove is formed in the connecting plate (38), a movable plate (36) is movably connected to the side surface of the inner wall of the empty groove, a damping soft bag (35) is filled below the movable plate (36) and is fixedly connected with an extrusion rod (37) at the top of the movable plate (36), the top of the extrusion rod (37) extends to the outside of the connecting plate (38), a support column (34) is fixedly connected to the bottom of the connecting plate (38), and the bottom of the support column (34) extends to the outside of the damping bottom plate (31);

the cooling mechanism (4) comprises a No. two water tank (41), the surface of the No. two water tank (41) is provided with a cooling shell (43), the right side of the inner wall of the cooling shell (43) is provided with a circulating fan (44), the surface of the circulating fan (44) is provided with a circulating air pipe (45), the surface of the circulating air pipe (45) is lapped with a circulating water pipe (47), the surface of the circulating water pipe (47) is provided with a No. three water pump (46), the two ends of the circulating water pipe (47) are fixedly connected with the surface of the No. two water tank (41), the surface of the No. two water tank (41) is provided with a refrigerating sheet (42) outside the cooling shell (43), the inner wall of the circulating air pipe (45) is fixedly connected with a dustproof screen (49), and chemical fiber particles (48) are filled in the inside the circulating air pipe (45) and are located on one side of the dustproof screen (49).

2. The resilience tester for a coarse-hole high resilience sponge according to claim 1, wherein: the dust removal shell (21) is internally provided with a groove, the inner wall of the groove is provided with a suction fan (22), and the surface of the suction fan (22) is provided with an air pipe (23).

3. The resilience tester for a coarse-hole high resilience sponge according to claim 2, wherein: one end of the air pipe (23) extends to the outside of the dust removal shell (21), and the other end of the air pipe (23) extends to the inner cavity of the dust removal shell (21).

4. A resilience tester for a coarse-hole high resilience sponge according to claim 3, wherein: the back of dust removal shell (21) is provided with a water tank (27), the top of water tank (27) is provided with water pipe (24).

5. The resilience tester for the coarse-hole high resilience sponge according to claim 4, wherein: the surface of the water pipe (24) extends to the inner cavity of the dust removal shell (21) to be provided with a water mist spray head (25), and a first water pump (26) is arranged on the surface of the water pipe (24) and positioned on the back of the dust removal shell (21).

6. The resilience tester for the coarse-hole high resilience sponge according to claim 5, wherein: the bottom of the first water tank (27) is provided with a water return pipe (29), and the other end of the water return pipe (29) extends to the inside of the dust removal shell (21).

7. The resilience tester for a coarse-hole high resilience sponge according to claim 6, wherein: the surface of the water return pipe (29) and the back surface of the dust removal shell (21) are provided with a second water pump (28), and the left side of the cooling shell (43) is fixedly connected with the right side of the tester (1).

8. The resilience tester for a coarse-hole high resilience sponge according to claim 7, wherein: the bottom of the dust removal shell (21) is fixedly connected to the top of the tester (1), and the tester (1) is fixedly connected to the top of the damping bottom plate (31).