CN213943983U - Automatic water detection equipment for valve core - Google Patents
Automatic water detection equipment for valve core Download PDFInfo
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- CN213943983U CN213943983U CN202022814344.XU CN202022814344U CN213943983U CN 213943983 U CN213943983 U CN 213943983U CN 202022814344 U CN202022814344 U CN 202022814344U CN 213943983 U CN213943983 U CN 213943983U
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Abstract
The utility model discloses an automatic water detection device of a valve core, which comprises a base, a control device arranged in the base, an outer cover arranged on the base, a control panel arranged on the outer cover, a valve core arrangement mechanism arranged on the base and provided with a stock bin, a valve core direction screening mechanism arranged beside the valve core arrangement mechanism, a material taking manipulator arranged between the valve core arrangement mechanism and the valve core direction screening mechanism, a detection tool device arranged at the side surface of the valve core direction screening mechanism and capable of receiving the valve core on the valve core direction screening mechanism, a valve core detection mechanism arranged on the base, a water inlet pipe component connected with a pressurized water source at the left side of the valve core detection mechanism, a water outlet pipe component connected with a flow collector and arranged at the right side of the valve core detection mechanism, wherein the valve core arrangement mechanism arranges the valve cores in a single layer and guides the valve cores to the foremost end to wait for grabbing, the material taking manipulator grabs the valve cores on the valve core arrangement mechanism to the valve core direction screening mechanism, also comprises a product distributing mechanism and a product receiving box.
Description
Technical Field
The utility model relates to a check out test set's technical field, in particular to automatic water of case examines equipment.
Background
In the production and processing procedure of the valve element, the flow of the valve element to be detected in the last step is up to standard, the existing detection method generally adopts manual sampling detection, so that the labor intensity of workers is high, the labor intensity is high, the time is high, the physical health of the workers is not facilitated, the detection procedure is complicated and time-consuming, the detection efficiency is low, the detection precision is low, the product cannot be detected completely, the consistency of the product is difficult to ensure, and the quality of the product is difficult to ensure.
Therefore, how to realize a structural design scientific and reasonable, the operation is simple and easy convenient, and degree of automation is high, need not artifical selective examination, can examine the product entirely, and detection efficiency is high, detects the precision height, can ensure the quality of product, and the automatic water of labour saving and time saving's case examines equipment is the technological problem that awaits a urgent need in the industry to solve.
Disclosure of Invention
The utility model aims at providing an automatic water of case examines equipment aims at realizing a structural design scientific and reasonable, and the operation is simple and easy convenient, and degree of automation is high, has automatic receipts material function, need not artifical selective examination, can examine the product entirely, and detection efficiency is high, detects the precision height, can ensure the quality of product, labour saving and time saving, the automatic water of small and exquisite case examines equipment.
The utility model provides an automatic water detection device of a valve core, which detects whether the flow of the valve core reaches the standard through fixed water pressure, and comprises a base, a control device arranged in the base, an installation cover arranged on the base, a control panel arranged on the cover and connected with the control device, a valve core arrangement mechanism with a storage bin arranged on the base, a valve core direction screening mechanism arranged beside the valve core arrangement mechanism, a material taking manipulator arranged between the valve core arrangement mechanism and the valve core direction screening mechanism, a detection tool device arranged at the side of the valve core direction screening mechanism and capable of receiving the valve core on the valve core direction screening mechanism, a valve core detection mechanism arranged on the base, a water inlet pipe component connected with a pressurized water source at the left side of the valve core detection mechanism, and a water outlet pipe component arranged at the right side of the valve core detection mechanism and connected with a flow collector, wherein the valve core arrangement mechanism carries out single-layer arrangement and guides the valve core to the foremost end to wait for grabbing, the material taking manipulator grabs the valve cores on the valve core arranging mechanism to the valve core direction screening mechanism; the detection tool device comprises a Y-axis guide rail assembly arranged on the side faces of the valve element direction screening mechanism and the valve element detection mechanism, a moving platform arranged on the Y-axis guide rail assembly, an X-axis guide rail assembly arranged on the moving platform, a detection tool capable of installing a valve element and arranged on the X-axis guide rail assembly, and a rotary cylinder assembly which is connected with the detection tool and can drive the detection tool to rotate, wherein the Y-axis guide rail assembly drives the moving platform to move back and forth so that the detection tool can move back and forth between the valve element direction screening mechanism and the valve element detection mechanism, and after the detection tool receives the valve element and reaches the valve element detection mechanism, the X-axis guide rail assembly drives the detection tool to move left and right and can enable the detection tool to; the automatic water detection equipment further comprises a product distribution mechanism arranged in the base and correspondingly communicated with the detection tool, and a product receiving box arranged in the base and communicated with the product distribution mechanism.
Preferably, case detection mechanism is including locating the guide rail subassembly on the base, locating the water injection mechanism on the guide rail subassembly, connecting in the left push cylinder of water injection mechanism, and the last water injection that is equipped with of water injection mechanism connects, thereby push cylinder promotes water injection mechanism and moves right and make the water injection connect with detect the frock and be connected, and the water injection connects the left side and is connected with water inlet pipe assembly.
Preferably, the valve core arrangement mechanism comprises a bin, a belt arranged at an outlet of the bin and capable of driving the valve cores to discharge, a material rolling roller arranged between the outlet of the bin and the belt and capable of discharging the valve cores in a single layer, and an arrangement roller assembly arranged on the belt and capable of arranging the valve cores in a single layer.
Preferably, a removing mechanism capable of removing the valve core with the direction error is arranged in the valve core screening mechanism, and a material pushing cylinder capable of pushing the valve core into the detection tool is arranged on the valve core screening mechanism.
The utility model discloses a structural design scientific and reasonable, the operation is simple and easy convenient, and degree of automation is high, has automatic material function of receiving, need not artifical selective examination, can examine the product entirely, and detection efficiency is high, detects the precision height, can ensure the quality of product, labour saving and time saving, the automatic water of the small and exquisite case examines equipment.
Drawings
Fig. 1 is a schematic structural diagram of a valve element in an embodiment of an automatic water detection device of the valve element of the present invention;
fig. 2 is a schematic perspective view of an embodiment of the automatic water detection device of the valve cartridge of the present invention;
fig. 3 is a schematic perspective view of an embodiment of the automatic water detection device of the valve cartridge of the present invention, wherein the outer cover and the control panel are not shown;
fig. 4 is a schematic side view of an embodiment of the automatic water detection device of the valve cartridge of the present invention, wherein the outer cover and the control panel are not shown;
fig. 5 is an enlarged schematic view of a valve core arrangement mechanism in an embodiment of the automatic water detection device for the valve core according to the present invention;
fig. 6 is an enlarged schematic view of a material taking manipulator in an embodiment of the automatic water detection device for a valve element according to the present invention;
fig. 7 is an enlarged schematic view of a valve core direction screening mechanism in an embodiment of the automatic water detection device of the valve core of the present invention;
fig. 8 is one of the enlarged schematic structural views of a detection tool device in an embodiment of the automatic water detection device of the valve element of the present invention;
fig. 9 is a second schematic view of the detection tool device according to an embodiment of the automatic water detection device for a valve cartridge of the present invention;
fig. 10 is an enlarged schematic view of a valve element detection mechanism in an embodiment of the automatic water detection device of the valve element of the present invention;
fig. 11 is an enlarged schematic view of the structure of the product distributing mechanism and the product receiving box in an embodiment of the automatic water detecting device of the valve core of the present invention.
The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.
Detailed Description
It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Referring to fig. 1 to 11, an embodiment of the automatic water detecting apparatus for a valve cartridge according to the present invention is provided, which detects whether the flow of the valve cartridge 101 reaches the standard by fixing water pressure, and includes a base 102, a control device disposed in the base 102, an outer cover 103 covering the base 102, a control panel 104 disposed on the outer cover and connected to the control device, a valve cartridge arranging mechanism 105 disposed on the base 102 and having a bin 124, a valve cartridge direction screening mechanism 106 disposed beside the valve cartridge arranging mechanism 105, a material taking manipulator 107 disposed between the valve cartridge arranging mechanism 105 and the valve cartridge direction screening mechanism 106, a detecting tool device 108 disposed at a side of the valve cartridge direction screening mechanism 106 and capable of receiving the valve cartridge 101 on the valve cartridge direction screening mechanism 106, a valve cartridge detecting mechanism 109 disposed on the base 102, a water inlet pipe assembly 110 connected to a left side of the valve cartridge detecting mechanism 109 and communicating with a pressurized water source, a water outlet assembly 110, The water outlet pipe assembly 111 which is arranged on the right side of the valve core detection mechanism 109 and is connected with the flow collector is arranged, the valve core arrangement mechanism 105 arranges the valve cores 101 in a single layer and guides the valve cores 101 to the foremost end to wait for grabbing, and the material taking manipulator 107 grabs the valve cores 101 on the valve core arrangement mechanism 105 onto the valve core direction screening mechanism 106.
The detection tool device 108 comprises a Y-axis guide rail assembly 112 arranged on the side surfaces of the valve core direction screening mechanism 106 and the valve core detection mechanism 109, a moving platform 113 arranged on the Y-axis guide rail assembly 112, an X-axis guide rail assembly 114 arranged on the moving platform 113, a detection tool 115 capable of installing the valve core 101 on the X-axis guide rail assembly 114, and a rotary cylinder assembly 116 connected with the detection tool 115 and capable of driving the detection tool 115 to rotate, wherein the Y-axis guide rail assembly 112 drives the moving platform 113 to move back and forth so that the detection tool 115 can move back and forth between the valve core direction screening mechanism 106 and the valve core detection mechanism 109, after the detection tool 115 receives the valve core 101 and reaches the valve core detection mechanism 109, the X-axis guide rail assembly 114 drives the detection tool 115 to move left and right and enables the detection tool 115 to be connected between the valve core detection mechanism 109 and the water outlet pipe assembly 111.
The automatic water detection equipment further comprises a product distributing mechanism 117 arranged in the base 102 and correspondingly communicated with the detection tool 115, and a product receiving box arranged in the base 102 and communicated with the product distributing mechanism 117, wherein the product receiving box is divided into a qualified product receiving box 118 and a defective product receiving box 119.
The valve core detection mechanism 109 comprises a guide rail assembly 120 arranged on the base 102, a water injection mechanism 121 arranged on the guide rail assembly 120, and a pushing cylinder 122 connected to the left side of the water injection mechanism 121, wherein a water injection joint 123 is arranged on the water injection mechanism 121, the pushing cylinder 122 pushes the water injection mechanism 121 to move rightwards so that the water injection joint 123 is connected with the detection tool 115, and the left side of the water injection joint 123 is connected with the water inlet pipe assembly 110 through a water pipe (not shown in the drawing).
The valve core arrangement mechanism 105 comprises a storage bin 124, a belt 129 which is arranged at the outlet of the storage bin 124 and can drive the valve cores 101 to discharge, a material rolling roller 125 which is arranged between the outlet of the storage bin 124 and the belt 129 and can enable the valve cores 101 to discharge in a single layer, and an arrangement roller assembly 126 which is arranged on the belt 129 and can arrange the valve cores 101 in the single layer.
The valve core screening mechanism is internally provided with a rejection mechanism 128 capable of rejecting the valve core 101 with the wrong direction, and the valve core screening mechanism is provided with a material pushing cylinder 127 capable of pushing the valve core 101 into the detection tool 115.
During detection, a worker loads the valve core 101 into the stock bin 124, the control device controls each component to work, the valve core arrangement mechanism 105 arranges the valve cores 101 in a single layer and guides the valve cores 101 to the foremost end to wait for grabbing, the material taking manipulator 107 grabs the valve cores 101 on the valve core arrangement mechanism 105 onto the valve core direction screening mechanism 106, the valve core direction screening mechanism 106 detects the directions of the valve cores 101 and eliminates the valve cores 101 with wrong directions, meanwhile, the Y-axis guide rail assembly 112 drives the moving platform 113 to move to the valve core direction screening mechanism 106, the detection tool 115 corresponds to the valve core screening mechanism, then the material pushing cylinder 127 of the valve core screening mechanism pushes the valve cores 101 into the detection tool 115, after the detection tool 115 receives the valve cores 101, the Y-axis guide rail assembly 112 drives the moving platform 113 to move to the valve core detection mechanism 109, then the X-axis guide rail assembly 114 drives the detection tool 115 to move left and right and enables the detection tool 115 to be connected to the valve core pipe assembly detection mechanism 109 and the effluent pipe assembly detection tool 115 111, the pushing cylinder 122 of the valve core detecting mechanism 109 pushes the water injection mechanism 121 to move rightward so as to connect the water injection joint 123 with the detecting tool 115, the left side of the valve core detecting mechanism 109 is connected with the water inlet pipe assembly 110, the water inlet pipe assembly 110 is communicated with a pressurized water source, the right side of the detecting tool 115 is connected with the water outlet pipe assembly 111, the water outlet pipe assembly 111 is connected with the flow collector, then the water flow with fixed water pressure passes through the water inlet pipe assembly 110, the water injection joint 123, the valve core 101 in the detecting tool 115, the water outlet pipe assembly 111 and the flow collector in sequence, the flow collector collects the water output data to judge whether the flow of the valve core 101 reaches the standard, if the flow reaches the standard, the valve core 101 is judged to be qualified, otherwise, in this embodiment, 8 valve cores 101 can be detected at one time, after the detection is finished, the rotary cylinder assembly 116 drives the detection tool 115 to rotate, so that the detection tool 115 is inclined, the valve core 101 in the detection tool 115 falls to the product distributing mechanism 117 below, the qualified product is distributed into the qualified product receiving box 118 by the product distributing mechanism 117, the defective product is distributed into the defective product receiving box 119, and the material receiving is completed. Degree of automation is high, has automatic receipts material function, and the operation is simple and easy convenient, need not artifical selective examination, can examine the product entirely, and detection efficiency is high, effectively reduces workman's intensity of labour, and labour saving and time saving detects the precision height, can ensure the quality of product. Moreover, the automatic water detection equipment has the advantages of scientific and reasonable structural design, small size, low investment cost, small occupied space and small required plant area.
The utility model discloses a structural design scientific and reasonable, the operation is simple and easy convenient, and degree of automation is high, has automatic material function of receiving, need not artifical selective examination, can examine the product entirely, and detection efficiency is high, detects the precision height, can ensure the quality of product, labour saving and time saving, the automatic water of the little and exquisite case 101 examines equipment.
The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structural changes made by the contents of the specification and the drawings, or the direct or indirect application in other related technical fields, are included in the same way in the protection scope of the present invention.
Claims (4)
1. The automatic water detection equipment of the valve core detects whether the flow of the valve core reaches the standard or not by fixing water pressure, and is characterized by comprising a base, a control device arranged in the base, an outer cover covered on the base, a control panel arranged on the outer cover and connected with the control device, a valve core arrangement mechanism with a bin arranged on the base, a valve core direction screening mechanism arranged beside the valve core arrangement mechanism, a material taking manipulator arranged between the valve core arrangement mechanism and the valve core direction screening mechanism, a detection tool device arranged at the side surface of the valve core direction screening mechanism and capable of receiving the valve core on the valve core direction screening mechanism, a valve core detection mechanism arranged on the base, a water inlet pipe assembly connected with a pressurized water source at the left side of the valve core detection mechanism and a water outlet pipe assembly connected with a flow collector and arranged at the right side of the valve core detection mechanism, wherein the valve core arrangement mechanism arranges the valve core in a single layer and guides the valve core to the foremost end to wait for grabbing, the material taking manipulator grabs the valve cores on the valve core arranging mechanism to the valve core direction screening mechanism;
the detection tool device comprises a Y-axis guide rail assembly arranged on the side faces of the valve element direction screening mechanism and the valve element detection mechanism, a moving platform arranged on the Y-axis guide rail assembly, an X-axis guide rail assembly arranged on the moving platform, a detection tool capable of installing a valve element and arranged on the X-axis guide rail assembly, and a rotary cylinder assembly which is connected with the detection tool and can drive the detection tool to rotate, wherein the Y-axis guide rail assembly drives the moving platform to move back and forth so that the detection tool can move back and forth between the valve element direction screening mechanism and the valve element detection mechanism, and after the detection tool receives the valve element and reaches the valve element detection mechanism, the X-axis guide rail assembly drives the detection tool to move left and right and can enable the detection tool to;
the automatic water detection equipment further comprises a product distribution mechanism arranged in the base and correspondingly communicated with the detection tool, and a product receiving box arranged in the base and communicated with the product distribution mechanism.
2. The automatic water detection device for the valve element according to claim 1, wherein the valve element detection mechanism comprises a guide rail assembly arranged on the base, a water injection mechanism arranged on the guide rail assembly, and a pushing cylinder connected to the left side of the water injection mechanism, the water injection mechanism is provided with a water injection joint, the pushing cylinder pushes the water injection mechanism to move rightwards so that the water injection joint is connected with the detection tool, and the left side of the water injection joint is connected with the water inlet pipe assembly.
3. The automatic water detection equipment for the valve cores according to claim 1 or 2, wherein the valve core arrangement mechanism comprises a storage bin, a belt which is arranged at an outlet of the storage bin and can drive the valve cores to discharge, a material rolling roller which is arranged between the outlet of the storage bin and the belt and can enable the valve cores to discharge in a single layer, and an arrangement roller assembly which is arranged on the belt and can arrange the valve cores in the single layer.
4. The automatic water detection equipment for the valve element according to claim 3, wherein a removing mechanism capable of removing the valve element with the wrong direction is arranged in the valve element screening mechanism, and a material pushing cylinder capable of pushing the valve element into the detection tool is arranged on the valve element screening mechanism.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022814344.XU CN213943983U (en) | 2020-11-30 | 2020-11-30 | Automatic water detection equipment for valve core |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022814344.XU CN213943983U (en) | 2020-11-30 | 2020-11-30 | Automatic water detection equipment for valve core |
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Publication Number | Publication Date |
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CN213943983U true CN213943983U (en) | 2021-08-13 |
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CN202022814344.XU Active CN213943983U (en) | 2020-11-30 | 2020-11-30 | Automatic water detection equipment for valve core |
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2020
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