An automatic salt precipitation device for glycidyl ester type epoxy resin
By designing protective and support components, the problem of conventional salt precipitation devices being susceptible to external factors was solved, thereby improving the stability and safety of the device and ensuring the smooth operation of the salt precipitation process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI HUACHUANG STAR NEW MATERIAL TECHNOLOGY CO LTD
- Filing Date
- 2025-07-29
- Publication Date
- 2026-06-26
AI Technical Summary
Conventional automatic salt separation devices are susceptible to external factors, which can lead to structural damage, affect normal operation, and lack effective protective structures.
A device comprising a protective assembly and a salt precipitation assembly is designed. The protective assembly consists of a protective cover, a protective frame, a docking seat, a stabilizing pile, a buffer column, and a fixed seat. The salt precipitation assembly consists of an evaporator body, an upper vessel body, a feed valve, and a lower vessel body, connected by a flange structure. The support frame assembly consists of a docking ring frame, a support column, and a positioning seat. The stabilizing support assembly consists of a buffer rod, a damping hinge, and a support, providing structural support and protection.
It enhances the structural stability and safety of the device, reduces the impact of external forces, ensures the stability and convenience of device operation, prevents structural interference, and improves the flexibility and connection strength of the device.
Smart Images

Figure CN224404371U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of epoxy resin processing technology, specifically to an automatic salt precipitation device for glycidyl ester type epoxy resin. Background Technology
[0002] Glycidyl ester type epoxy resins are a type of epoxy resin prepared by the dehydrochlorination condensation reaction of di- or polycarboxylic acids with epichlorohydrin; the automatic salt separation device for epoxy resin is a piece of equipment in the treatment of high-salt wastewater from epoxy resin production. It separates the salts by heating the wastewater to evaporate them.
[0003] Conventional automatic salt separation devices are set up with an open structure. During the operation of this device, the structure is easily affected by external factors, which can damage the device and affect its normal operation. There is a lack of effective protective structure. Utility Model Content
[0004] The purpose of this invention is to provide an automatic salt precipitation device for glycidyl ester type epoxy resin to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: an automatic salt-precipitating device for glycidyl ester type epoxy resin, comprising a protective component and a salt-precipitating component. The salt-precipitating component is mounted inside the protective component, and a support frame assembly is provided at the lower end of the salt-precipitating component. A stabilizing bracket assembly is connected to the outer surface of the protective component. The protective component includes a protective cover, a protective frame, a docking seat, an opening, a stabilizing pile, a buffer column, and a fixing seat. A protective frame is provided at the top of the protective cover, and a docking seat is provided at the upper outer end of the protective cover. Openings are provided at both the upper and lower ends of the side of the protective cover, and a stabilizing pile is provided at the lower outer end of the protective cover. A buffer column is vertically installed at the end of the stabilizing pile away from the protective cover, and a fixing seat is provided at the bottom of the buffer column.
[0006] Furthermore, the protective cover and the protective frame are welded together, and the protective frame is arranged in a ring-shaped radial support structure. The stabilizing pile and the protective cover are welded together, and the four opposite corners of the fixing seat are provided with holes for bolt installation.
[0007] Furthermore, the docking seats are arranged in a circular array with the protective cover as the center and there are three sets of them. The openings are also arranged in a circular array with the protective cover as the center. In addition, the stabilizing piles, buffer columns and fixing seats are all arranged in a circular array with the protective cover as the center and there are six sets of them.
[0008] Furthermore, the salt precipitation assembly includes an evaporator body, an upper vessel body, a feed valve, a lower vessel body, and a discharge valve. The upper vessel body is installed on the top of the evaporator body, and the feed valve is installed in the middle of the top of the upper vessel body. The lower vessel body is installed at the bottom of the evaporator body, and the discharge valve is installed in the middle of the bottom of the lower vessel body.
[0009] Furthermore, the main body, upper body, and lower body of the evaporator are connected to each other by a flange structure, and the discharge valve and the feed valve are both equipped with the same one-way valve structure.
[0010] Furthermore, the support frame assembly includes a docking ring frame, a support column, and a positioning seat. The support column is vertically installed at the bottom of the docking ring frame, and the positioning seat is installed at the bottom of the support column. The support column and the positioning seat are arranged in a circular array with the docking ring frame as the center. The positioning seat has holes for bolt installation at its four opposite corners.
[0011] Furthermore, the stabilizing support assembly includes a buffer rod, a damping hinge, and a support. Both ends of the buffer rod are equipped with damping hinges, and the end of the damping hinge furthest from the buffer rod is equipped with a support.
[0012] Furthermore, the damping hinge and the support are fixedly connected, and the support has holes at its four opposite corners for bolt installation.
[0013] This invention provides an automatic salt precipitation device for glycidyl ester type epoxy resin, which has the following beneficial effects:
[0014] 1. This utility model incorporates a protective component, in which the entire protective cover is installed outside the salt precipitation component and the support frame component. The protective cover is supported on the ground or the mounting structure by stabilizing piles with buffer columns on its lower side. Simultaneously, the fixing base at the bottom of the buffer columns, in conjunction with bolts, allows the entire device to be fixed to the ground or the mounting structure. Furthermore, the combined use of the protective cover and the protective frame provides effective structural protection to the salt precipitation component and the support frame component, minimizing external forces on the structure and ensuring operational stability and structural safety. Additionally, the openings at the upper and lower ends of the protective cover facilitate communication between external equipment and the inside of the salt precipitation component via piping, preventing unnecessary structural interference and ensuring ease of use and flexibility.
[0015] 2. This utility model, by providing a support frame assembly at the lower end of the salt precipitation component, includes a docking ring frame and a support column structure that provides good structural support and stability for the entire docking ring frame and support column. The positioning seat at the bottom of the support column, in conjunction with bolts, ensures the structural stability of the support frame assembly as much as possible. The docking ring frame and the lower vessel body are connected by a flange structure, ensuring the firmness and stability of the connection between the structures. Furthermore, the stabilizing support assembly structure utilizes a support at one end of the buffer rod to connect and fix it to the docking seat at the upper end of the protective cover, while simultaneously fixing and docking the support at the other end of the buffer rod to the ground or the mounting surface. This provides good structural support for the protective component, thereby ensuring the stability and protective effect of the structure. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the main body of an automatic salt precipitation device for glycidyl ester type epoxy resin according to the present invention.
[0017] Figure 2 This is a schematic diagram of the protective component structure of an automatic salt precipitation device for glycidyl ester type epoxy resin according to the present invention.
[0018] Figure 3 This is a three-dimensional structural diagram of the salt-precipitating component and support frame component of an automatic salt-precipitating device for glycidyl ester type epoxy resin according to the present invention.
[0019] Figure 4 This is a three-dimensional structural diagram of the stable support assembly of an automatic salt precipitation device for glycidyl ester type epoxy resin according to the present invention.
[0020] In the diagram: 1. Protective components; 101. Protective cover; 102. Protective frame; 103. Docking seat; 104. Through port; 105. Stabilizing pile; 106. Buffer column; 107. Fixing seat; 2. Salt precipitation components; 201. Evaporation kettle body; 202. Upper kettle body; 203. Feed valve; 204. Lower kettle body; 205. Discharge valve; 3. Support frame components; 301. Docking ring frame; 302. Support column; 303. Positioning seat; 4. Stabilizing support components; 401. Buffer rod; 402. Damping hinge; 403. Support. Detailed Implementation
[0021] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are for illustrative purposes only and should not be construed as limiting the scope of this utility model.
[0022] like Figures 1 to 4As shown, an automatic salt-precipitating device for glycidyl ester type epoxy resin includes a protective component 1 and a salt-precipitating component 2. The salt-precipitating component 2 is mounted inside the protective component 1, and a support frame component 3 is provided at the lower end of the salt-precipitating component 2. A stabilizing bracket component 4 is connected to the outer surface of the protective component 1. The protective component 1 includes a protective cover 101, a protective frame 102, a docking seat 103, an opening 104, a stabilizing pile 105, a buffer column 106, and a fixing seat 107. The protective frame 102 is provided at the top of the protective cover 101, and the docking seat 103 is provided at the upper outer end of the protective cover 101. The upper and lower ends of the side of the protective cover 101 are provided with openings 104, and the stabilizing pile 105 is provided at the lower outer end of the protective cover 101. At the same time, the buffer column 106 is vertically installed at the end of the stabilizing pile 105 away from the protective cover 101, and the fixing seat 107 is provided at the bottom of the buffer column 106. 07. The protective cover 101 and the protective frame 102 are welded together, and the protective frame 102 is arranged in a ring-shaped radial support structure. The stabilizing pile 105 and the protective cover 101 are welded together. The four opposite corners of the fixing seat 107 are provided with holes for bolt installation. The docking seat 103 is arranged in a ring array with the protective cover 101 as the center and there are three sets. The through 104 is arranged in a ring array with the protective cover 101 as the center. The stabilizing pile 105, the buffer column 106 and the fixing seat 107 are all arranged in a ring array with the protective cover 101 as the center and there are six sets. The protective cover 101 is supported on the ground or the installation structure surface by the stabilizing pile 105 with the buffer column 106 on the lower side. At the same time, the fixing seat 107 at the bottom of the buffer column 106, in conjunction with the use of bolts, can fix the entire device to the ground or the installation structure surface.
[0023] like Figures 1 to 4As shown, the salt precipitation assembly 2 includes an evaporator body 201, an upper vessel body 202, a feed valve 203, a lower vessel body 204, and a discharge valve 205. The upper vessel body 202 is installed on the top of the evaporator body 201, and the feed valve 203 is installed in the middle of the top of the upper vessel body 202. The lower vessel body 204 is installed on the bottom of the evaporator body 201, and the discharge valve 205 is installed in the middle of the bottom of the lower vessel body 204. The evaporator body 201, the upper vessel body 202, and the lower vessel body 204 are connected to each other by a flange structure. The discharge valve 205 and the feed valve 203 are both equipped with the same one-way valve structure. The support frame assembly 3 includes a docking ring frame 301, a support column 302, and a positioning seat 303. The support column 302 is vertically installed on the bottom of the docking ring frame 301, and the positioning seat 303 is installed on the bottom of the support column 302. The support column 302 and the positioning seat are connected by a flange structure. All 303 are arranged in a circular array with the docking ring frame 301 as the center. The positioning seat 303 has holes for bolt installation at the four opposite corners. The stable support assembly 4 includes a buffer rod 401, a damping hinge 402 and a support 403. The buffer rod 401 is equipped with a damping hinge 402 at both ends, and the support 403 is installed at the end of the damping hinge 402 away from the buffer rod 401. The damping hinge 402 and the support 403 are fixedly connected. The support 403 has holes for bolt installation at the four opposite corners. The structural design of the docking ring frame 301 and the support column 302 can provide good structural support and stability for the entire docking ring frame 301 and support column 302. By using the positioning seat 303 at the bottom of the support column 302 in conjunction with the use of bolts, the structural fixation of the support frame assembly 3 can be guaranteed as much as possible.
[0024] In summary, as Figures 1 to 4 As shown, the automatic salt-separating device for glycidyl ester type epoxy resin is used by first connecting the entire salt-separating component 2 with the flange docking structure of the lower vessel body 204 and the docking ring frame 301 to achieve structural fixation. At the same time, the support frame component 3, which is connected and fixed to the salt-separating component 2, is fixed to the ground or the mounting structure surface by means of the four diagonal holes of the bottom positioning seat 303 of the support column 302 and the use of bolts.
[0025] Then, the entire protective assembly 1 is erected outside the salt precipitation assembly 2 and the support frame assembly 3. The buffer column 106 at one end of the stabilizing pile 105 is connected and fixed to the ground or the mounting structure using the bottom fixing seat 107 and bolts. Then, the three sets of stabilizing bracket assemblies 4 are connected and fixed to the support 403 connected to the damping hinge 402 at one end of the buffer rod 401 and the docking seat 103 on the upper side of the protective cover 101. The buffer rod 401 is connected and fixed to the ground or the mounting structure using the support 403 at the other end and bolts. In this way, the protective assembly 1 is provided with sufficient structural support by the stabilizing bracket assembly 4. The entire protective cover 101 and the protective frame 102 can provide sufficient protection for the salt precipitation assembly 2 and the support frame assembly 3. The opening 104 facilitates the connection of external equipment to the salt precipitation assembly 2 through pipelines.
[0026] The embodiments of this utility model are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the utility model to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described in order to better illustrate the principles and practical applications of this utility model, and to enable those skilled in the art to understand this utility model and design various embodiments with various modifications suitable for a particular purpose.
Claims
1. An automatic salt precipitation device for glycidyl ester type epoxy resins, comprising a protection assembly (1) and a salt precipitation assembly (2), characterized in that: The protective component (1) has a salt precipitation component (2) inside, and a support frame component (3) is provided at the lower end of the salt precipitation component (2). A stable support component (4) is connected to the outer surface of the protective component (1). The protective component (1) includes a protective cover (101), a protective frame (102), a docking seat (103), a through-hole (104), a stabilizing pile (105), a buffer column (106), and a fixing seat (107). The top of the protective cover (101) The protective cover (101) is provided with a protective frame (102), and a docking seat (103) is provided on the upper outer side of the protective cover (101). The upper and lower sides of the protective cover (101) are provided with openings (104), and a stabilizing pile (105) is provided on the lower outer side of the protective cover (101). At the same time, a buffer column (106) is vertically installed on the end of the stabilizing pile (105) away from the protective cover (101). A fixing seat (107) is provided at the bottom of the buffer column (106).
2. The automatic salt precipitation device of a glycidyl ester type epoxy resin according to claim 1, characterized by, The protective cover (101) and the protective frame (102) are welded together, and the protective frame (102) is arranged in a ring-shaped radial support structure. The stabilizing pile (105) and the protective cover (101) are welded together. The fixing seat (107) has holes for bolt installation at its four opposite corners.
3. The automatic salt precipitation device of a glycidyl ester type epoxy resin according to claim 1, characterized by, The docking seat (103) is arranged in a ring array with the protective cover (101) as the center and there are three sets. The opening (104) is arranged in a ring array with the protective cover (101) as the center. The stabilizing pile (105), buffer column (106) and fixing seat (107) are all arranged in a ring array with the protective cover (101) as the center and there are six sets of each.
4. The automatic salt precipitation device for glycidyl ester type epoxy resin according to claim 1, characterized in that, The salt precipitation assembly (2) includes an evaporator body (201), an upper vessel body (202), a feed valve (203), a lower vessel body (204), and a discharge valve (205). The upper vessel body (202) is installed on the top of the evaporator body (201), and the feed valve (203) is installed in the middle of the top of the upper vessel body (202). The lower vessel body (204) is installed on the bottom of the evaporator body (201), and the discharge valve (205) is installed in the middle of the bottom of the lower vessel body (204).
5. The automatic salt precipitation device for glycidyl ester type epoxy resin according to claim 4, characterized in that, The evaporator body (201), upper body (202), and lower body (204) are connected to each other by a flange structure, and the discharge valve (205) and the feed valve (203) are both set with the same one-way valve structure.
6. The automatic salt precipitation device for glycidyl ester type epoxy resin according to claim 1, characterized in that, The support frame assembly (3) includes a docking ring frame (301), a support column (302), and a positioning seat (303). The support column (302) is vertically installed at the bottom of the docking ring frame (301), and the positioning seat (303) is installed at the bottom of the support column (302). The support column (302) and the positioning seat (303) are arranged in a circular array with the docking ring frame (301) as the center. The positioning seat (303) has holes for bolt installation at its four opposite corners.
7. The automatic salt precipitation device for glycidyl ester type epoxy resin according to claim 1, characterized in that, The stabilizing support assembly (4) includes a buffer rod (401), a damping hinge (402), and a support (403). Both ends of the buffer rod (401) are equipped with damping hinges (402), and the end of the damping hinge (402) away from the buffer rod (401) is equipped with a support (403).
8. The automatic salt precipitation device for glycidyl ester type epoxy resin according to claim 7, characterized in that, The damping hinge (402) and the support (403) are fixedly connected, and the support (403) has holes at four opposite corners for bolt installation.