Adjusting device and glass production apparatus
By designing the adjustment components and longitudinal and transverse adjustment parts of the adjustment device, the problem of water jacket adjustment being limited by the operating space was solved, and the stable fixation and efficient cooling of the water jacket were achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI CSG NEW ENERGY MATERIALS TECH CO LTD
- Filing Date
- 2025-07-25
- Publication Date
- 2026-06-26
AI Technical Summary
In existing technologies, the height and angle adjustment of the water bag are limited by the operating space, resulting in inconvenience in adjustment and difficulty in achieving flexible adjustment.
Design an adjustment device including two spaced adjustment components. By combining longitudinal and lateral adjustment components, the water tank can be stably fixed and its position adjusted, reducing the impact on operating space.
It improves the ease of adjustment and cooling efficiency of the water bath, enhances the stability of the water bath in the glass melting furnace, and simplifies the adjustment process.
Smart Images

Figure CN224411618U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of glass forming, and in particular to an adjustment device and glass production equipment. Background Technology
[0002] Water tanks are used to cool glass melting furnaces. In related technologies, longer water tanks require hoisting operations using mechanisms such as hand-operated hoists, water tank trolleys, and steel cables to adjust their height and angle. However, hoisting operations are significantly limited by the available space on site, making it inconvenient to adjust the water tanks at any time. Utility Model Content
[0003] The present invention aims to solve at least one of the technical problems existing in the prior art. To this end, the present invention proposes an adjustment device that can reduce the impact of operating space on water tank adjustment and improve the convenience of water tank adjustment.
[0004] This utility model also proposes a glass production equipment having the above-mentioned adjustment device.
[0005] According to a first aspect of the present invention, the adjusting device is used to adjust the position of the water bag. The adjusting device includes two adjusting components spaced apart along a first direction. Each adjusting component includes a base and two longitudinal adjusting members.
[0006] The base defines an installation cavity; each of the longitudinal adjustment members includes a movable part and an abutment part connected to each other. The movable part is movably connected to the base. The abutment parts of the two longitudinal adjustment members are disposed in the installation cavity and are spaced apart along a second direction. The two movable parts can move relative to the base, so that the two abutment parts move towards each other along the second direction to clamp the water bag, or move away from each other along the second direction to release the water bag. The first direction intersects the second direction.
[0007] The adjusting device according to the embodiments of this utility model has at least the following beneficial effects: by arranging two adjusting components at intervals, the adjusting device can fix both ends of the water jacket to ensure that the water jacket is stably installed in the glass melting furnace. Then, the ends of the water jacket are clamped by two longitudinal adjusting members, and the longitudinal adjusting members can move in the vertical direction relative to the base, thereby changing the height and tilt angle of the water jacket, thereby reducing the impact of the operating space on the adjustment of the water jacket and improving the convenience of water jacket adjustment.
[0008] According to some embodiments of the present invention, the mounting cavity is connected to both sides of the base along the second direction and has connecting holes. The movable part passes through the connecting holes and is rotatably connected to the base. At least a portion of the movable part is provided in the mounting cavity to connect to the side of the abutment portion facing the connecting holes.
[0009] According to some embodiments of the present invention, the outer wall of the movable part is provided with an external thread structure, the inner wall of the connecting hole is provided with an internal thread structure, the external thread structure and the internal thread structure mesh with each other, and the movable part is rotatably connected to the base through the external thread structure and the internal thread structure.
[0010] According to some embodiments of the present invention, the longitudinal adjusting members of the two adjusting components are adjusted independently of each other, and the longitudinal adjusting member of one adjusting component can move relative to the longitudinal adjusting member of the other adjusting component in a second direction, and the longitudinal adjusting members of the two adjusting components have a first distance in the second direction.
[0011] According to some embodiments of the present invention, the movable part extends along the second direction to form two mounting positions on the side facing the abutting part, and each of the two mounting positions has a mounting hole. The abutting part is disposed between the two mounting positions along the third direction, and a portion of the abutting part passes through the mounting hole. The third direction intersects the first direction and the second direction.
[0012] According to some embodiments of the present invention, the abutting part is rotatably connected to the mounting position, and the abutting part can rotate relative to the movable part about an axis parallel to a third direction.
[0013] According to some embodiments of the present invention, the adjustment assembly further includes two lateral adjustment members, which are disposed in the mounting cavity and are movably connected to both sides of the base along a third direction, respectively. The two lateral adjustment members can move towards each other or move away from each other along a third direction.
[0014] According to some embodiments of the present invention, the lateral adjustment members of the two adjustment components are adjusted independently of each other, and the lateral adjustment member of one adjustment component can move relative to the lateral adjustment member of the other adjustment component in a third direction, and the lateral adjustment members of the two adjustment components have a second distance in the third direction.
[0015] According to some embodiments of the present utility model, the base is provided with a plurality of adjustment holes on both sides along the third direction, the plurality of adjustment holes are connected to the mounting cavity and are spaced apart along the second direction, the lateral adjustment member passes through the adjustment hole, and the adjustment holes through which two lateral adjustment members pass are corresponding to each other along the third direction;
[0016] Alternatively, the base may have sliding grooves on both sides along a third direction, the sliding grooves being arranged along a second direction and communicating with the mounting cavity, and the two lateral adjustment members being respectively connected to the sliding grooves, the lateral adjustment members being movable relative to the base in the sliding grooves along the second direction.
[0017] A glass production apparatus according to a second aspect of the present invention includes a glass melting furnace and an adjustment device described in any of the above embodiments.
[0018] The glass production equipment according to the embodiments of this utility model has at least the following beneficial effects: The two adjusting components of the adjusting device can fix the water bath on both sides of the glass melting furnace, so that the water bath is fixed in the melting chamber. Furthermore, by clamping the water bath with two longitudinal adjusting members and moving it relative to the glass melting furnace, the position of the water bath in the melting chamber can be changed, thereby improving the convenience of water bath adjustment and promoting cooling efficiency.
[0019] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description
[0020] The present invention will be further described below with reference to the accompanying drawings and embodiments, wherein:
[0021] Figure 1 This is a schematic diagram of the adjusting device in an embodiment of the present invention;
[0022] Figure 2 This is a schematic diagram of the structure of the adjustment component in an embodiment of the present utility model;
[0023] Figure 3 This is a schematic diagram of the base structure in an embodiment of the present utility model;
[0024] Figure 4 This is a schematic diagram of another embodiment of the base in this utility model.
[0025] Figure 5 This is a schematic diagram of the longitudinal adjustment component in an embodiment of the present invention;
[0026] Figure 6 This is a schematic diagram of the glass production equipment in an embodiment of the present invention.
[0027] Figure label:
[0028] 10 glass production equipment;
[0029] Adjustment device 100; adjustment assembly 110; base 111; mounting cavity 112; connecting hole 113; sliding groove 114; adjustment hole 115; longitudinal adjustment component 116; movable part 117; mounting position 118; mounting hole 119; abutment part 120; lateral adjustment component 121;
[0030] Glass melting furnace 200; melting chamber 210; water bath 300. Detailed Implementation
[0031] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this utility model, and should not be construed as limiting this utility model.
[0032] In the description of this utility model, it should be understood that the directional descriptions, such as up, down, front, back, left, right, etc., indicate the directional or positional relationship based on the directional or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0033] In the description of this utility model, "several" means one or more, "multiple" means two or more, "greater than," "less than," and "exceeding" are understood to exclude the stated number, while "above," "below," and "within" are understood to include the stated number. The use of "first" and "second" in the description is merely for distinguishing technical features and should not be construed as indicating or implying relative importance, or implicitly indicating the number of indicated technical features, or implicitly indicating the order of the indicated technical features.
[0034] In the description of this utility model, unless otherwise explicitly defined, terms such as "setting," "installation," and "connection" should be interpreted broadly, and those skilled in the art can reasonably determine the specific meaning of the above terms in this utility model in conjunction with the specific content of the technical solution.
[0035] In the description of this utility model, the terms "one embodiment," "some embodiments," "illustrative embodiment," "example," "specific example," or "some examples," etc., refer to specific features, structures, materials, or characteristics described in connection with that embodiment or example, which are included in at least one embodiment or example of this utility model. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0036] The adjusting device according to a first aspect embodiment and the glass production equipment according to a second aspect embodiment of the present invention will now be described with reference to the accompanying drawings. It should be noted that, for ease of description and understanding, in the embodiments of the present invention and the accompanying drawings, the left-right direction is indicated as the first direction, the up-down direction as the second direction, and the front-back direction as the third direction, and the first, second, and third directions intersect each other. In practical applications of the adjusting device and the glass production equipment, the first, second, and third directions may also be other directions.
[0037] The first aspect of this utility model provides an adjusting device 100 for adjusting the position of a water tank 300, see reference. Figure 1 and Figure 2 As shown, the adjusting device 100 includes two adjusting components 110, which are spaced apart in the left-right direction. The two adjusting components 110 respectively fix the water bag 300 at both ends. Each adjusting component 110 includes a base 111 and two longitudinal adjusting members 116. The base 111 internally defines a mounting cavity 112 for accommodating the water bag 300 and the longitudinal adjusting members 116. Each of the two longitudinal adjusting members 116 includes a movable part 117 and an abutting part 120. The movable part 117 is connected to the abutting part 120 and movably connected to the base 111. The abutting part 120 is disposed in the mounting cavity 112, and the abutting parts 120 of the two longitudinal adjusting members 116 are spaced apart in the up-down direction, with the distance between them being the distance for accommodating and fixing the water bag 300. The movable part 117 can move relative to the base 111, and the movement can be rotation or sliding, thereby driving the abutment part 120 to move in the vertical direction relative to the base 111.
[0038] Specifically, in one example, see Figure 2 As shown, when the movable part 117 moves relative to the base 111, it moves closer to or further away from the mounting cavity 112. Specifically, when the movable part 117 moves closer to the mounting cavity 112 relative to the base 111, the movable parts 117 of the two longitudinal adjusting members 116 respectively drive the abutment parts 120 to move vertically. At this time, the two abutment parts 120 move in opposite directions, reducing the distance between them, and clamping and fixing the water tank 300 vertically. When the movable part 117 moves away from the mounting cavity 112 relative to the base 111, the two abutment parts 120 move in opposite directions, increasing the distance between them, and releasing the water tank 300 vertically, allowing the water tank 300 to be detached from the adjusting device 100.
[0039] The water bath 300 is placed in the glass melting furnace 200 to cool the molten glass. In related technologies, after the water bath 300 is fixed, adjustments to it are made using mechanisms such as a hand-operated hoist, a water bath trolley, and steel cables to adjust its angle and height. The angle refers to the tilt angle at both ends of the water bath 300. However, the operation of these mechanisms is limited by the installation space of the water bath 300, resulting in limitations in adjustment and making it inconvenient to adjust at any time.
[0040] The adjusting device 100 of this embodiment, through the spaced arrangement of the adjusting components 110, allows the adjusting device 100 to fix both ends of the water tank 300, ensuring stable installation of the water tank 300 within the glass melting furnace 200. Then, two longitudinal adjusting members 116 clamp the ends of the water tank 300, and these members can move vertically relative to the base 111, thereby changing the height of the water tank 300. Simultaneously, by adjusting the longitudinal adjusting members 116 of the two adjusting components 110 to different heights, the two ends of the water tank 300 are at different heights, thus allowing adjustment of the tilt angle of the water tank 300. This reduces the impact of operating space on the adjustment of the water tank 300 and improves the convenience of adjustment.
[0041] In some embodiments, see Figure 2 and Figure 3 As shown, the mounting cavity 112 has connecting holes 113 formed on both sides of the base 111 along its vertical direction, and the mounting cavity 112 is connected to the external environment through the connecting holes 113. The movable part 117 of the longitudinal adjustment member 116 passes through the connecting hole 113 to achieve a rotatable connection with the base 111. Furthermore, when the movable part 117 is provided in the connecting hole 113, a portion of the movable part 117 is accommodated in the mounting cavity 112 and connected to the side of the abutment part 120 facing the connecting hole 113, thereby realizing the coordinated movement of the movable part 117 and the abutment part 120.
[0042] Specifically, the movable part 117 includes a connecting rod and a rotating wheel. The rotating wheel is disposed outside the mounting cavity 112, and the connecting rod passes through the connecting hole 113. One end of the connecting rod is connected to the rotating wheel, and the other end is connected to the abutment part 120. By rotating the rotating wheel, the connecting rod is driven to move in the vertical direction, thereby realizing the vertical movement of the abutment part 120. The movable part 117 is rotatably connected to the base 111, and a portion of the movable part 117 is disposed outside the mounting cavity 112. This means that when the adjusting device 100 drives the longitudinal adjusting member 116 to move, there is no need to set up an additional drive mechanism. By rotating the portion of the movable part 117 located outside the mounting cavity 112 (the rotating wheel), the vertical movement of the movable part 117 (connecting rod) and the abutment part 120 can be realized, thereby improving the efficiency of the longitudinal adjusting member 116 and simplifying the overall structure of the adjusting device 100.
[0043] Furthermore, in one example, the outer wall of the movable part 117 is provided with an external thread structure, while the inner wall of the connecting hole 113 is provided with a corresponding internal thread structure. The movable part 117 is rotatably connected to the base 111 through the engagement between its external thread and the internal thread of the connecting hole 113. Specifically, the external thread structure is provided on the connecting rod. When the operator rotates the movable part 117, due to the interaction of the internal and external threads, the movable part 117 can convert rotational motion into linear motion, thereby moving up and down along the connecting hole 113 to adjust the position of the abutment part 120 to meet the different height and tilt angle requirements of the water tank 300. Moreover, when the movable part 117 remains stationary relative to the base 111, the external thread structure of the movable part 117 and the internal thread structure of the connecting hole 113 will mutually limit each other, so that the movable part 117 will not move relative to the base 111 when no external force is applied. Therefore, the combination of internal and external thread structures not only provides the longitudinal adjustment member 116 with precise height adjustment capability, but also ensures the stable fixation of the movable part 117 in any position.
[0044] Furthermore, in some embodiments, see [reference] Figure 2 and Figure 3 As shown, the longitudinal adjusting members 116 in the two adjusting components 110 are designed to be adjusted independently. That is, the longitudinal adjusting member 116 of each adjusting component 110 can operate independently, unaffected by the other adjusting component 110. Specifically, the longitudinal adjusting member 116 of one adjusting component 110 can move vertically relative to the longitudinal adjusting member 116 of the other adjusting component 110, meaning each adjusting component 110 can be adjusted independently in height. This allows one end of the water tank 300 to be raised or lowered as needed, thereby changing the overall tilt angle of the water tank 300 to adapt to different installation requirements of the glass melting furnace 200.
[0045] Furthermore, the longitudinal adjusting members 116 of the two adjusting components 110 have a first distance in the vertical direction. For ease of description, the two longitudinal adjusting members 116 on the adjusting component 110 are referred to as the upper longitudinal adjusting member and the lower longitudinal adjusting member, respectively, which together clamp the end of the water bag 300. The upper longitudinal adjusting member of the adjusting component 110 and the upper longitudinal adjusting member of the other adjusting component 110 have a gap in the vertical direction, which is the first distance. Similarly, the lower longitudinal adjusting member of the adjusting component 110 and the lower longitudinal adjusting member of the other adjusting component 110 also have a first distance. The gap in the vertical direction between the longitudinal adjusting members 116 of the two adjusting components 110 allows the water bag 300 to be placed at an angle after being fixed to the adjusting device 100. Since the water bath 300 is housed in the glass melting furnace 200, the middle section of the water bath 300 will fall relative to the two ends of the water bath 300 under the action of gravity. Therefore, placing the water bath 300 at an angle can balance the placement height of one end and the middle section of the water bath 300, thereby balancing the height of the water bath 300 housed in the glass melting furnace 200 and improving the cooling effect.
[0046] In some embodiments, see Figure 2 and Figure 5 As shown, the movable part 117 extends vertically towards the abutment part 120, forming two mounting positions 118, each with a mounting hole 119. The abutment part 120 is located between the two mounting positions 118, and a portion of the abutment part 120 passes through the mounting hole 119, thus positioning the abutment part 120 in the front-back direction. This placement of the abutment part 120 through the mounting hole 119 provides circumferential restraint, preventing displacement of the abutment part 120 relative to the movable part 117 when it moves vertically with the movable part 117. Furthermore, positioning the abutment part 120 in the front-back direction via the mounting positions 118 increases the contact area between the abutment part 120 and the water tank 300, thereby increasing the clamping force of the abutment part 120 on the water tank 300 and improving the stability of the water tank 300.
[0047] Further, in some embodiments, referring to Figure 5, the abutment portion 120 is rotatably connected to the mounting position 118. The abutment portion 120 can rotate relative to the movable portion 117 about an axis, which is arranged in the front-back direction. Specifically, the abutment portion 120 is a roller with a cylindrical structure. After the abutment portion 120 is connected to the mounting position 118, the rotation axis of the abutment portion 120 is parallel to the front-back direction. When it is necessary to disassemble the water bag 300, the two abutment portions 120 are moved apart to release the water bag 300, and the water bag 300 will be placed on the lower abutment portion 120 under the action of gravity. At this time, by pulling the water bag 300, the abutment portion 120 can be rotated. The rotation of the abutment portion 120 can reduce the friction between the abutment portion 120 and the water bag 300, thereby improving the disassembly efficiency of the water bag 300.
[0048] In some embodiments, see Figure 1 and Figure 2 As shown, the adjustment assembly 110 also includes two lateral adjustment members 121, which are disposed in the mounting cavity 112 and are movably connected to both sides of the base 111 in the front-back direction. When the two lateral adjustment members 121 move relative to the base 111, they can move towards each other or away from each other in the front-back direction, thereby clamping or releasing the water tank 300.
[0049] Specifically, the base 111 is provided with lateral adjustment members 121 on both sides along the front-back direction. The lateral adjustment members 121 are rotatably connected to the base 111 and can convert rotational motion into linear motion, so that they can move in the front-back direction after rotating relative to the base 111. The lateral adjustment members 121 can adjust the position of the water jacket 300 in the front-back direction. After the water jacket 300 is adjusted to a specified height, the lateral adjustment members 121 can align the water jacket 300 with the molten glass to be cooled, thereby improving the cooling effect of the water jacket 300. At the same time, the lateral adjustment members 121 can also limit and fix the front-back position of the water jacket 300. The lateral adjustment members 121 and the longitudinal adjustment members 116 cooperate to achieve circumferential positioning of the water jacket 300, improving the stability of the water jacket 300.
[0050] Furthermore, in one embodiment, the lateral adjustment members 121 of the two adjustment components 110 are adjusted independently of each other, that is, the lateral adjustment member 121 of each adjustment component 110 can be adjusted individually as needed. The lateral adjustment member 121 of one adjustment component 110 can move relative to the lateral adjustment member 121 of the other adjustment component 110 in the front-back direction, so that there is a second distance between the lateral adjustment members 121 of the two adjustment components 110.
[0051] Specifically, two lateral adjustment members 121 are arranged along the front-to-back direction. For ease of understanding and description, the two lateral adjustment members 121 of the adjustment assembly 110 are referred to as the front lateral adjustment member and the rear lateral adjustment member, respectively, which together clamp and fix the water tank 300. The front lateral adjustment members of the two adjustment assemblies 110 correspond to each other in the left-to-right direction, and the rear lateral adjustment members also correspond to each other. The lateral adjustment members 121 of the two adjustment assemblies 110 can be adjusted independently, so that the front lateral adjustment members of one adjustment assembly 110 and the front lateral adjustment members of the other adjustment assembly 110 have a distance in the front-to-back direction. This distance is called the second distance, meaning that the positions of the front lateral adjustment members of the two adjustment assemblies 110 are not aligned. Similarly, the rear lateral adjustment members of the two adjustment assemblies 110 are also not aligned with each other. This results in the water tank 300 being fixed to the adjusting device 100, with a gap between the two ends of the water tank 300 in the front-to-back direction, allowing the water tank 300 to be tilted in the glass melting furnace 200 in the front-to-back direction, thereby increasing the volume of the water tank 300 contained in the glass melting furnace 200 and improving the cooling effect.
[0052] Furthermore, since the lateral adjustment member 121 needs to fix and adjust the water tank 300 in the front-to-back direction, when the longitudinal adjustment member 116 moves relative to the base 111 to adjust the height position of the water tank 300, the lateral adjustment member 121 also needs to be adjusted to the corresponding height position to fix the water tank 300.
[0053] In one example, see Figure 3 As shown, the base 111 has multiple adjustment holes 115 on both sides along the front-rear direction. These adjustment holes 115 all connect to the mounting cavity 112 and are spaced apart along the vertical direction. A horizontal adjustment member 121 can pass through different adjustment holes 115. The adjustment holes 115 through which two horizontal adjustment members 121 pass are corresponding along the front-rear direction; that is, the adjustment holes 115 through which two horizontal adjustment members 121 pass are at the same height along the vertical direction and at the same position along the front-rear direction. This allows the two horizontal adjustment members 121 to jointly fix and adjust the front and rear sides of the water tank 300. Specifically, by selecting different adjustment holes 115, the user can adjust the horizontal adjustment member 121 according to the height requirements of the water tank 300. The design of multiple adjustment holes 115 provides the horizontal adjustment member 121 with multiple preset height options, thereby simplifying the adjustment process and enabling the horizontal adjustment member 121 to adapt to water tanks 300 of different heights, thus improving the adjustment efficiency of the water tank 300.
[0054] In another embodiment, see Figure 4As shown, the base 111 has sliding grooves 114 on both sides along the front-to-back direction. The sliding grooves 114 are arranged in the vertical direction and connect to the mounting cavity 112. Two lateral adjustment members 121 are respectively connected to the sliding grooves 114 on both sides, and the lateral adjustment members 121 can move vertically within the sliding grooves 114. Specifically, by setting the sliding grooves 114, the lateral adjustment members 121 can move vertically to adapt to water tanks 300 at different heights. At the same time, the sliding grooves 114 provide guidance for the movement of the lateral adjustment members 121, ensuring that the lateral adjustment members 121 do not deviate from the predetermined path during vertical movement, thus improving the ease of operation and accuracy of the lateral adjustment members 121.
[0055] A second aspect of this utility model provides a glass production equipment 10, see reference. Figures 1 to 6 As shown, the glass production equipment 10 includes a glass melting furnace 200 and an adjustment device 100 as described in any of the above embodiments. The glass melting furnace 200 defines a melting chamber 210 for processing glass. Two adjustment components 110 are respectively arranged on both sides of the melting chamber 210 in a left-right direction.
[0056] Specifically, when using the water bath 300 to cool the melting chamber 210, two adjusting components 110 are placed on the left and right sides of the glass melting furnace 200 to fix both ends of the water bath 300. The middle section of the water bath 300 is housed in the melting chamber 210. The middle section of the water bath 300 should not contact the molten glass in the melting chamber 210, but it needs to be as close as possible to the molten glass to improve cooling. Therefore, the two longitudinal adjusting parts 116 of the adjusting components 110 are used to move the water bath 300 in the vertical direction, thereby reducing the distance between the middle section of the water bath 300 and the molten glass.
[0057] The glass production equipment 10 of this embodiment can fix the water bath 300 on the left and right sides of the glass melting furnace 200 through the two adjusting components 110 of the adjusting device 100, so that the water bath 300 is housed and fixed in the melting chamber 210. Furthermore, by clamping the water bath 300 with two longitudinal adjusting members 116 and moving the water bath 300 relative to the glass melting furnace 200, the position of the water bath 300 in the melting chamber 210 can be changed, thereby improving the convenience of adjusting the water bath 300 and promoting cooling efficiency.
[0058] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present invention. Furthermore, the embodiments of the present invention and the features thereof can be combined with each other unless otherwise specified.
Claims
1. Adjusting device for adjusting the position of a water bag, characterized in that The adjusting device includes two adjusting components spaced apart along a first direction, the adjusting components including: The base defines the mounting cavity; Two longitudinal adjusting members, each of the longitudinal adjusting members including a movable part and an abutting part connected to each other, the movable part being movably connected to the base, the abutting parts of the two longitudinal adjusting members being disposed in the mounting cavity and spaced apart along a second direction, the two movable parts being movable relative to the base, causing the two abutting parts to move towards each other along the second direction to clamp the water bag, or to move away from each other along the second direction to release the water bag, the first direction intersecting the second direction.
2. The adjusting device according to claim 1, characterized in that, The mounting cavity is connected to both sides of the base along the second direction and has connecting holes. The movable part passes through the connecting holes and is rotatably connected to the base. At least part of the movable part is provided in the mounting cavity to connect to the side of the abutment part facing the connecting holes.
3. The adjusting device according to claim 2, characterized in that, The outer wall of the movable part is provided with an external thread structure, and the inner wall of the connecting hole is provided with an internal thread structure. The external thread structure and the internal thread structure mesh with each other, and the movable part is rotatably connected to the base through the external thread structure and the internal thread structure.
4. The adjusting device according to claim 2, characterized in that, The longitudinal adjusting members of the two adjusting components are adjusted independently of each other, and the longitudinal adjusting member of one adjusting component can move relative to the longitudinal adjusting member of the other adjusting component in a second direction, and the longitudinal adjusting members of the two adjusting components have a first distance in the second direction.
5. The adjusting device according to claim 1, characterized in that, The movable part extends along the second direction on the side facing the abutting part to form two mounting positions, each of the two mounting positions having a mounting hole. The abutting part is disposed between the two mounting positions along the third direction, and part of the abutting part passes through the mounting hole. The third direction intersects the first direction and the second direction.
6. The adjusting device according to claim 5, characterized in that, The abutting part is rotatably connected to the mounting position, and the abutting part can rotate relative to the movable part about an axis parallel to a third direction.
7. The adjusting device according to claim 1, characterized in that, The adjustment assembly further includes two lateral adjustment members, which are disposed in the mounting cavity and are movably connected to both sides of the base along a third direction. The two lateral adjustment members can move towards each other or move away from each other along a third direction.
8. The adjusting device according to claim 7, characterized in that, The lateral adjustment members of the two adjustment components are adjusted independently of each other, and the lateral adjustment member of one adjustment component can move relative to the lateral adjustment member of the other adjustment component in a third direction, and the lateral adjustment members of the two adjustment components have a second distance in the third direction.
9. The adjusting device according to claim 7, characterized in that, The base is provided with multiple adjustment holes on both sides along the third direction. The multiple adjustment holes are connected to the mounting cavity and are spaced apart along the second direction. The lateral adjustment members pass through the adjustment holes, and the adjustment holes through which two lateral adjustment members pass are corresponding to each other along the third direction. Alternatively, the base may have sliding grooves on both sides along a third direction, the sliding grooves being arranged along a second direction and communicating with the mounting cavity, and the two lateral adjustment members being respectively connected to the sliding grooves, the lateral adjustment members being movable relative to the base in the sliding grooves along the second direction.
10. Glass production equipment, characterized in that, include: A glass melting furnace, with a defined melting chamber inside; The adjusting device according to any one of claims 1 to 9, wherein the two adjusting components are respectively disposed on both sides of the melting chamber along a first direction.