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CN-121977939-A - Bottle resistance to compression testing mechanism for daily chemicals

CN121977939ACN 121977939 ACN121977939 ACN 121977939ACN-121977939-A

Abstract

The invention relates to the technical field of bottle compression resistance testing, in particular to a bottle compression resistance testing mechanism for daily chemicals, which comprises a mounting platform, wherein a temperature control mechanism is connected with a rear side bolt of the top of the mounting platform, a detection mechanism is connected with a front side bolt of the top of the mounting platform, the temperature control mechanism comprises a left control component, a refrigerating component, a feeding component, a right control component and a heating component, and the left control component is arranged on the left side of the top of the mounting platform. The invention provides a daily chemical bottle compression testing mechanism which is provided with a compression testing structure which is suitable for the appearance of a bottle, so that the daily chemical bottle compression testing mechanism can be used for carrying out compression testing on the bottle under the condition of being suitable for bottles with different appearances, the flexibility of carrying out compression testing on the bottle with different appearances can be improved, and the daily chemical bottle compression testing mechanism is provided with a structure for carrying out different environment simulation on the bottle, so that the compression testing mechanism can be used for carrying out compression testing on the bottle under the condition of simulating different environments, and the flexibility of carrying out compression testing on the environment where the bottle is positioned can be improved.

Inventors

  • LIN WENCAI

Assignees

  • 厦门美姿源工贸有限公司

Dates

Publication Date
20260505
Application Date
20260128

Claims (10)

  1. 1. The bottle compression-resistant testing mechanism for daily chemicals comprises a mounting platform (1), and is characterized in that a temperature control mechanism (2) is connected to the rear side of the top of the mounting platform (1) through bolts, a detection mechanism (3) is connected to the front side of the top of the mounting platform (1) through bolts, the temperature control mechanism (2) comprises a left control component (21), a refrigerating component (22), a feeding component (23), a right control component (24) and a heating component (25), the left control component (21) is arranged on the left side of the top of the mounting platform (1), the refrigerating component (22) is arranged on the right side of the left control component (21), the feeding component (23) is arranged on the rear side of the top of the mounting platform (1), the right control component (24) is arranged on the right side of the top of the mounting platform (1), the heating component (25) is arranged on the left side of the right control component (24), the detection mechanism (3) comprises a positioning component (31), a connecting component (32), a testing component (33) and a leading-out component (34), the positioning component (31) is arranged on the top of the mounting component (31) and is arranged on the top of the mounting component (32), the leading-out component (34) is arranged on the front side of the top of the mounting platform (1).
  2. 2. The daily chemical bottle compression testing mechanism according to claim 1, wherein the left control assembly (21) comprises a left supporting frame (211), a left locating plate (212), a left rotating rod (213), a left gear (214) and a left servo motor (215), the left supporting frame (211) is connected to the left side of the top of the mounting platform (1) through bolts, the two left locating plates (212) are welded to the front side of the right side of the top of the left supporting frame (211) and the rear side of the right side of the top respectively, the two left rotating rods (213) are connected to the top and the bottom between the opposite sides of the left locating plates (212) through rotation, the four left gears (214) are fixedly connected to the top and the bottom of the front side of the left rotating rod (213) and the top and the bottom of the rear side respectively, the left servo motor (215) is connected to the bottom of the rear side of the left locating plate (212) through bolts, and the output end of the front side of the left servo motor (215) is connected to the bottom of the rear side of the left rotating rod (213) through bolts.
  3. 3. The daily chemical bottle compression testing mechanism according to claim 2, wherein the refrigerating assembly (22) comprises a lower refrigerating semicircular frame (221), an upper refrigerating semicircular frame (222), a refrigerator (223) and fins (224), the lower refrigerating semicircular frame (221) is clamped at the bottom of the surface of the left rotating rod (213), the upper refrigerating semicircular frame (222) is clamped at the top of the surface of the left rotating rod (213), the two refrigerators (223) are respectively connected to the left side of the lower refrigerating semicircular frame (221) and the left side of the upper refrigerating semicircular frame (222) through bolts, the fins (224) are respectively connected to the inner side of the lower refrigerating semicircular frame (221) and the inner side of the upper refrigerating semicircular frame (222) through bolts, and the left side of the fins (224) is connected with the output end of the rear side of the refrigerator (223) through bolts.
  4. 4. The bottle compression testing mechanism for daily chemicals according to claim 3, wherein the feeding assembly (23) comprises a feeding base (231), feeding support legs (232), a feeding rail (233) and a feeding hydraulic cylinder (234), the feeding base (231) is connected to the rear side of the top of the mounting platform (1) through bolts, the feeding support legs (232) are connected to the top of the feeding base (231) through bolts, the feeding rail (233) is welded to the top of the feeding support legs (232), the feeding hydraulic cylinder (234) is connected to the bottom of the feeding rail (233) through bolts, and the front side of the feeding rail (233) is close to between the lower refrigerating semicircular frame (221) and the upper refrigerating semicircular frame (222).
  5. 5. The daily chemical bottle compression testing mechanism according to claim 1, wherein the right control assembly (24) comprises a right supporting frame (241), a right locating plate (242), a right rotating rod (243), a right gear (244) and a right servo motor (245), the right supporting frame (241) is connected to the right side of the top of the mounting platform (1) through bolts, the two right locating plates (242) are welded to the front side of the top of the left side of the right supporting frame (241) and the rear side of the top of the left side respectively, the two right rotating rods (243) are connected to the top and the bottom between the opposite sides of the right locating plates (242) through rotation respectively, the four right gears (244) are fixedly connected to the front side and the rear side of the top of the right rotating rod (243) and the front side and the rear side of the bottom respectively, the right servo motor (245) is connected to the bottom of the rear side of the right locating plate (242) through bolts, and the output end of the front side of the right servo motor (245) is connected to the bottom of the rear side of the right rotating rod (243) through bolts.
  6. 6. The daily chemical bottle compression testing mechanism according to claim 5, wherein the heating assembly (25) comprises a lower heating semicircular frame (251), an upper heating semicircular frame (252), heat conducting pipes (253) and heaters (254), the lower heating semicircular frame (251) is clamped at the bottom of the surface of the right rotating rod (243), the upper heating semicircular frame (252) is clamped at the top of the surface of the right rotating rod (243), the two heat conducting pipes (253) are respectively connected to the inner side of the lower heating semicircular frame (251) and the inner side of the upper heating semicircular frame (252) through bolts, the two heaters (254) are respectively connected to the right side of the lower heating semicircular frame (251) and the right side of the upper heating semicircular frame (252) through bolts, and the output end of the left side of the heaters (254) is connected to the right side of the heat conducting pipes (253) through bolts, and the space between the lower heating semicircular frame (251) and the upper heating semicircular frame (252) is close to the front side of the feeding track (233).
  7. 7. The daily chemical bottle compression testing mechanism according to claim 1, wherein the positioning assembly (31) comprises a positioning leg (311), a fixing plate (312), a first hydraulic cylinder (313), a first circular arc plate (314), a first assembling bolt (315), a first push rod (316) and a first pressure detector (317), the positioning leg (311) is connected to the top of the mounting platform (1) in a bolt manner, the fixing plate (312) is connected to the inner side of the positioning leg (311) in a bolt manner, the first hydraulic cylinder (313) is connected to the top of the fixing plate (312) in a bolt manner, the first circular arc plate (314) is connected to the top of the first hydraulic cylinder (313) in a bolt manner, the first assembling bolt (315) is connected to both sides of the first circular arc plate (314) in a bolt manner, the first push rod (316) penetrates through the top of the first circular arc plate (314), the bottom of the surface of the first push rod (316) is connected to the top of the inner side of the first circular arc plate (314) in a sliding manner, and the bottom of the first push rod (316) is connected to the top of the first hydraulic cylinder (313) in a bolt manner at the top of the first pressure detector (317).
  8. 8. The daily chemical bottle compression testing mechanism according to claim 7, wherein the connecting assembly (32) comprises a second circular arc plate (321), a second assembling bolt (322), a second hydraulic cylinder (323), a second push rod (324) and a second pressure detector (325), the second circular arc plate (321) is clamped at the tops of two sides of the first circular arc plate (314), the second assembling bolt (322) is connected at the top and the bottom of the front side of the second circular arc plate (321) through bolts, one side of the second assembling bolt (322) close to the first circular arc plate (314) is connected with the first circular arc plate (314) through bolts, the second hydraulic cylinder (323) is connected on the outer surface of the second circular arc plate (321) through bolts, one side of the second push rod (324) close to the second hydraulic cylinder (323) is connected with the second circular arc plate (321) through sliding, one side of the second push rod (324) close to the second hydraulic cylinder (323) is connected with the second hydraulic cylinder (325) through bolts, and the second push rod (324) is connected with the second hydraulic cylinder (323) through bolts (325) at the detection end of the second hydraulic cylinder (323) far from the first side.
  9. 9. The daily chemical bottle compression testing mechanism according to claim 8, wherein the testing component (33) comprises a third arc plate (331), a third assembling bolt (332), a third hydraulic cylinder (333), a third push rod (334) and a third pressure detector (335), the third arc plate (331) is clamped at the top of the second arc plate (321), the third assembling bolt (332) is connected at the top and the bottom of the front side of the third arc plate (331) in a bolt manner, one side of the third assembling bolt (332) close to the second arc plate (321) is connected with the second arc plate (321) in a bolt manner, the third hydraulic cylinder (333) is connected on the outer surface of the third arc plate (331) in a bolt manner, the third push rod (334) penetrates through the inner side of the third arc plate (331), one side of the third push rod (334) close to the third hydraulic cylinder (333) is connected with the third arc plate (331) in a sliding manner, one side of the third push rod (334) close to the third hydraulic cylinder (333) is connected with the third pressure detector (335) in a bolt manner, and the output end of the third push rod (334) is far from the third hydraulic cylinder (335).
  10. 10. The daily chemical bottle compression testing mechanism as recited in claim 9, wherein the lead-out assembly (34) comprises a lead-out base (341), lead-out support legs (342) and lead-out tracks (343), the lead-out base (341) is connected to the front side of the top of the mounting platform (1) through bolts, the lead-out support legs (342) are connected to the top of the lead-out base (341) through bolts, the lead-out tracks (343) are welded to the top of the lead-out support legs (342), and the rear sides of the lead-out tracks (343) are respectively close to the first pressure detector (317), the second pressure detector (325) and the third pressure detector (335).

Description

Bottle resistance to compression testing mechanism for daily chemicals Technical Field The invention relates to the technical field of bottle compression resistance testing, in particular to a bottle compression resistance testing mechanism for daily chemicals. Background As is well known, the bottle compression testing device for daily chemicals is special equipment for detecting the tolerance capability, structural stability and deformation resistance or cracking resistance of daily chemical product packaging bottles (made of plastic or glass materials) such as shampoo, liquid laundry detergent and skin care products when bearing external pressure in the production, transportation, storage and use processes, and can acquire the data such as bottle compression limit, deformation and the like by simulating actual scenes such as static pressure, dynamic impact pressure and the like and matching with a pressure and displacement sensing system, thereby providing technical support for daily chemical bottle design optimization, production quality control and supply chain safety. Through retrieval, chinese patent discloses a plastic bottle multi-region compressive strength detection device, the application publication number of which is CN119959019B, comprising a detection table and a detection pressure head arranged above the detection table, wherein a driving component is arranged between the detection table and the detection pressure head; the auxiliary table is arranged at the top of the detection table, a plastic bottle is placed at the top of the auxiliary table, clamping assemblies are arranged at the top of the detection table and positioned at two sides of the plastic bottle, each clamping assembly comprises two groups of rotating shafts arranged at two sides of the plastic bottle, each group of rotating shafts is provided with two, and one side of each rotating shaft is provided with a plurality of pressing blocks. When the daily chemical bottle body is produced and processed, the surface of the bottle body can be subjected to compression test in the production and processing process, the appearance of the bottle body can be changed according to the market demands, meanwhile, the bottle body can also face different pressure environments according to different environments of users, and the problem in the prior art is that the bottle body cannot be subjected to the compression test under the condition of adapting to the bottle body with different appearance due to the lack of the compression test structure adapting to the bottle body with different appearance, so that the flexibility of adapting to the bottle body with different appearance for the compression test is reduced, and the bottle body cannot be subjected to the compression test under the condition of simulating different environments due to the lack of the structure simulating the bottle body with different environments, so that the flexibility of carrying out the compression test on the environment of the bottle body is reduced. Disclosure of Invention Technical problem to be solved Aiming at the defects of the prior art, the invention provides a daily chemical bottle compression testing mechanism which is provided with a compression testing structure which is suitable for the appearance of the bottle, so that the compression testing mechanism can be used for carrying out compression testing on the bottle under the condition of being suitable for bottles with different appearances, the flexibility of carrying out the compression testing on the bottle with different appearances can be improved, and the compression testing mechanism is provided with a structure for carrying out different environment simulation on the bottle, so that the compression testing on the bottle under the condition of simulating different environments can be carried out, and the flexibility of carrying out the compression testing on the environment where the bottle is positioned can be improved. Technical proposal The technical aim of the invention is achieved through the following technical scheme that the bottle compression-resistant testing mechanism for daily chemicals comprises a mounting platform, wherein a temperature control mechanism is connected to the rear side of the top of the mounting platform through bolts, a detection mechanism is connected to the front side of the top of the mounting platform through bolts, the temperature control mechanism comprises a left control component, a refrigerating component, a feeding component, a right control component and a heating component, the left control component is arranged on the left side of the top of the mounting platform, the refrigerating component is arranged on the right side of the left control component, the feeding component is arranged on the rear side of the top of the mounting platform, the right control component is arranged on the right side of the top of the mounting platform, the heating component