An automatic sorting device for valve cores of temperature control valves

CN224486824UActive Publication Date: 2026-07-14广州市振宸自动化设备有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
广州市振宸自动化设备有限公司
Filing Date
2025-08-05
Publication Date
2026-07-14

Smart Images

  • Figure CN224486824U_ABST
    Figure CN224486824U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of temperature control valve valve core automatic sorting device, including machine body, it is characterized by: still include shunting component, shunting component is fixedly installed at machine body, shunting component includes discharge module and two groups of shunting module, two groups of shunting module are respectively arranged in the two sides of discharge module;The temperature control valve valve core automatic sorting device of the utility model is connected with corresponding detection identification device by the feed channel of shunting component, so that the temperature package valve core of detection completion falls into to feed channel, the shunting module in the two sides of feed channel is started under the feedback signal of detection device, the temperature package valve core of length too long or too short is respectively shunted to two shunting channels, and qualified product falls into to discharge channel, that is, temperature package valve core can be classified into three kinds of qualified, too long and too short, effectively improve the classification efficiency of temperature package valve core, and further improve the production efficiency of temperature control valve.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of temperature control valve technology, specifically to an automatic valve core sorting device for temperature control valves. Background Technology

[0002] Thermostatic valve cores are widely used in automatic thermostatic faucets, with a wide market application and large production volume. However, in the automated production process, thermostatic valve cores can be in three states: the length is just right, the length is too long and the length is too short. Therefore, after the testing device has completed the testing of the thermostatic valve cores, the thermostatic valve cores need to be screened for subsequent production.

[0003] Currently, the screening of thermostatic valve cores is mostly done manually, which is inefficient and cannot meet the needs of mass automated production of thermostatic valves. Utility Model Content

[0004] To solve the above-mentioned technical problems, an automatic sorting device for temperature control valve cores is provided, which solves the problem of low efficiency in manually sorting and classifying temperature control valve cores.

[0005] To achieve the above objectives, the following solution is provided: an automatic sorting device for temperature control valve cores, including a machine body and a flow-dividing component, the flow-dividing component being fixedly installed on the machine body, the flow-dividing component including a discharge module and two sets of flow-dividing modules, the two sets of flow-dividing modules being respectively arranged on both sides of the discharge module;

[0006] The discharge module includes a feeding channel and a discharge channel. The feeding channel is fixedly installed at the machine body, and the discharge channel is fixedly installed at the machine body. The bottom of the discharge channel is connected to the bottom of the feeding channel. The two sets of flow modules are respectively set on both sides of the lower part of the feeding channel.

[0007] The diversion module includes a diversion seat, a diversion channel, and a drive cylinder. The diversion channel is fixedly installed on the machine body. The diversion seat is hinged to the machine body via a rotating shaft. The diversion seat is located at the opening on the side of the feed channel. The bottom of the diversion seat is hinged to the piston rod of the drive cylinder, and the other end of the piston rod is hinged to the machine body.

[0008] Furthermore, the guide seat has a right-angled triangular structure. The hypotenuse of the guide seat connects the feed channel and the diversion channel. One right-angled side of the guide seat is flush with the side of the feed channel. The bottom right-angled side of the guide seat is hinged to the drive cylinder. The right-angled part of the guide seat is hinged to the machine body through a rotating shaft.

[0009] Furthermore, the right-angled end of the flow guide seat is connected to the discharge channel.

[0010] Furthermore, both the discharge channel and the diversion channel are inclined downwards at the machine body.

[0011] The working principle and advantages of this utility model are as follows: This automatic sorting device for temperature control valve cores is connected to the corresponding detection and identification device through the feeding channel of the diversion component. The detected temperature control valve cores fall into the feeding channel, and the diversion modules located on both sides of the feeding channel are activated under the feedback signal of the detection device. The temperature control valve cores that are too long or too short are diverted to the two diversion channels respectively, while qualified products fall into the discharge channel. This can classify the temperature control valve cores into three categories: qualified, too long, and too short, effectively improving the sorting efficiency of temperature control valve cores and thus improving the production efficiency of temperature control valves. Attached Figure Description

[0012] Figure 1 This is a perspective view of the present utility model;

[0013] Figure 2 This is a structural diagram of the present invention.

[0014] The reference numerals in the accompanying drawings include:

[0015] 1. Machine body, 2. Feeding channel, 21. Opening, 3. Discharge channel, 4. Diversion module, 41. Guide seat, 42. Diversion channel, 43. Drive cylinder. Detailed Implementation

[0016] The following detailed explanation illustrates the specific implementation methods:

[0017] like Figure 1 and Figure 2 As shown:

[0018] An automatic sorting device for temperature control valve cores includes a body 1 and a flow-dividing component. The flow-dividing component is fixedly installed on the body 1 and connected to a corresponding detection device for sorting the temperature control valve cores after detection. The flow-dividing component includes a discharge module and two sets of flow-dividing modules 4. The discharge module is used to discharge and classify qualified products. The two sets of flow-dividing modules 4 are respectively arranged on both sides of the discharge module. The two flow-dividing modules 4 are used to classify and output temperature control valve cores that are too long and too short, respectively. Users can also set the discharge types of the discharge module and the two sets of flow-dividing modules 4 as needed.

[0019] The discharge module includes a feeding channel 2 and a discharge channel 3. The feeding channel 2 is fixedly installed at the machine body 1 and is connected to the corresponding detection module. After the detection module detects the length of the temperature bulb valve core, it inputs the corresponding temperature bulb valve core into the feeding channel 2. The discharge channel 3 is fixedly installed at the machine body 1 and is connected to the bottom of the feeding channel 2. The discharge channel 3 is directly connected to the feeding channel 2 and can be used to discharge the most numerous type of product, which is generally qualified product. Two diversion modules 4 are respectively set on both sides of the lower part of the feeding channel 2. The two diversion modules 4 can cut off the feeding channel 2 so that the corresponding temperature bulb valve core enters the corresponding diversion channel 42.

[0020] The diversion module 4 includes a flow guide seat 41, a diversion channel 42, and a drive cylinder 43. The diversion channel 42 is fixedly installed at the machine body 1. The flow guide seat 41 is hinged to the machine body 1 via a rotating shaft. The flow guide seat 41 is located at the opening 21 on the side of the feed channel 2. The side wall of the flow guide seat 41 is flush with the side wall of the feed head. When the flow guide seats 41 of the two diversion modules 4 are in a stationary state, the temperature bulb valve core can enter the discharge channel 3 through the feed channel 2. The bottom of the flow guide seat 41 is hinged to the piston rod of the drive cylinder 43. The other end of the piston rod is hinged to the machine body 1. Under the pushing action of the drive cylinder 43, the flow guide seat 41 can be swung into the feed channel 2 at the opening 21, opening the opening 21, cutting off the flow in the feed channel 2, and guiding the corresponding temperature bulb valve core to the corresponding diversion channel 42.

[0021] The guide seat 41 has a right-angled triangular structure. The hypotenuse of the guide seat 41 connects the feed channel 2 and the diversion channel 42. One right-angled side of the guide seat 41 is flush with the side of the feed channel 2. The right-angled end of the guide seat 41 is connected to the discharge channel 3. The right-angled sides of the two guide seats 41 form the side wall of the feed channel 2, so that when the two guide seats 41 are in a stationary state, the temperature bulb valve core can directly enter the discharge channel 3 from the feed channel 2. The bottom right-angled side of the guide seat 41 is hinged to the drive cylinder 43. The right-angled part of the guide seat 41 is hinged to the machine body 1 through a rotating shaft, which facilitates the drive cylinder 43 to push the guide seat 41 to swing.

[0022] Both the discharge channel 3 and the diversion channel 42 are inclined from top to bottom at the machine body 1, so that the temperature bulb valve cores after being classified can slide and flow in the corresponding channels under the inclination of the corresponding channels and their own gravity, without the need for additional assistance.

[0023] The specific implementation process is as follows:

[0024] When using this automatic valve core sorting device for temperature control valves, the corresponding detection device inputs the detected temperature bulb valve cores into the feed channel 2. The two diversion modules 4 are activated based on the detection results of the detection device. If the detection device detects that the length of the temperature bulb valve core is qualified, the two diversion modules 4 remain stationary, and the qualified temperature bulb valve cores fall directly from the feed channel 2 into the discharge channel 3. The two diversion modules 4 can screen temperature bulb valve cores that are too long or too short respectively. If the detection device detects that the temperature bulb valve core is too long or too short, it transmits the corresponding signal to the corresponding controller to control the corresponding diversion. When module 4 is started, the piston rod of the drive cylinder 43 extends and pushes the guide seat 41, causing the guide seat 41 to swing from the opening 21 on the side of the feed channel 2 into the feed channel 2, opening the opening 21 and connecting the guide seat 41 with the corresponding diversion channel 42. After the corresponding temperature bulb valve core falls into the feed channel 2, it enters the corresponding diversion channel 42 under the interception and guidance action of the guide seat 41. Then, the corresponding drive cylinder 43 drives the guide seat 41 to reset, thus completing the screening and diversion of the temperature bulb valve core.

[0025] This automatic valve core sorting device for temperature control valves connects to the corresponding detection and identification device through the feed channel 2 of the diversion component. The detected temperature control valve cores fall into the feed channel 2. The diversion modules 4 located on both sides of the feed channel 2 are activated under the feedback signal of the detection device, and divert the temperature control valve cores that are too long or too short into the two diversion channels 42 respectively. The qualified products fall into the discharge channel 3. This can classify the temperature control valve cores into three categories: qualified, too long, and too short, which can effectively improve the classification efficiency of temperature control valve cores and thus improve the production efficiency of temperature control valves.

[0026] The above description is merely an embodiment of this utility model. Commonly known structures and characteristics are not described in detail here. Those skilled in the art are aware of all common technical knowledge in the field prior to the application date or priority date, are aware of all existing technologies in that field, and have the ability to apply conventional experimental methods prior to that date. Those skilled in the art can, based on the guidance provided in this application, improve and implement this solution in combination with their own capabilities. Some typical known structures or methods should not be obstacles for those skilled in the art to implement this application. It should be noted that those skilled in the art can make several modifications and improvements without departing from the structure of this utility model. These should also be considered within the scope of protection of this utility model, and will not affect the effectiveness of the implementation of this utility model or the applicability of the patent. The scope of protection claimed in this application should be determined by the content of its claims, and the specific embodiments described in the specification can be used to interpret the content of the claims.

Claims

1. An automatic valve core sorting device for temperature control valves, comprising a body, characterized in that: It also includes a flow diversion component, which is fixedly installed on the machine body. The flow diversion component includes a discharge module and two sets of flow diversion modules, which are respectively arranged on both sides of the discharge module. The discharge module includes a feeding channel and a discharge channel. The feeding channel is fixedly installed at the machine body, and the discharge channel is fixedly installed at the machine body. The bottom of the discharge channel is connected to the bottom of the feeding channel. The two sets of flow modules are respectively set on both sides of the lower part of the feeding channel. The diversion module includes a diversion seat, a diversion channel, and a drive cylinder. The diversion channel is fixedly installed on the machine body. The diversion seat is hinged to the machine body via a rotating shaft. The diversion seat is located at the opening on the side of the feed channel. The bottom of the diversion seat is hinged to the piston rod of the drive cylinder, and the other end of the piston rod is hinged to the machine body.

2. The automatic valve core sorting device for temperature control valves according to claim 1, characterized in that: The guide seat has a right-angled triangular structure. The hypotenuse of the guide seat connects the feed channel and the diversion channel. One right-angled side of the guide seat is flush with the side of the feed channel. The bottom right-angled side of the guide seat is hinged to the drive cylinder. The right-angled part of the guide seat is hinged to the machine body through a rotating shaft.

3. The automatic valve core sorting device for temperature control valves according to claim 2, characterized in that: The right-angle end of the flow guide seat is connected to the discharge channel.

4. The automatic valve core sorting device for temperature control valves according to claim 1, characterized in that: Both the discharge channel and the diversion channel are inclined downwards at the machine body.