Assembly apparatus for burners
By coordinating the fixing and conveying components, the burner housing is automatically assembled, solving the problem of low assembly efficiency and improving installation efficiency and accuracy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHENGZHOU HAIER NEW ENERGY TECH CO LTD
- Filing Date
- 2025-06-04
- Publication Date
- 2026-07-03
AI Technical Summary
The existing technology for burner housing assembly is inefficient, requiring manual adjustment of the position of the screws, which results in long installation time and poor accuracy and reliability.
The burner housing is fixed by a fixing component, which is then transported to each installation station by a conveying component. Fasteners are automatically installed by an assembly component, thus achieving automatic assembly of the fasteners and the burner housing.
It improves the installation efficiency of the burner housing, ensures the accuracy and reliability of fasteners, and reduces the need for manual adjustments.
Smart Images

Figure CN224445755U_ABST
Abstract
Description
Technical Field
[0001] This application belongs to the field of burner assembly technology, specifically relating to a burner assembly device. Background Technology
[0002] The burner housing includes a frame, a secondary air plate, and an inner liner. The secondary air plate and the inner liner are mounted on the frame using multiple screws.
[0003] In the prior art, when assembling the burner housing, the secondary air plate and the inner liner are usually assembled manually on the frame in sequence. Then the burner housing is placed on the support surface with the side of the burner housing that needs to be screwed facing the operator. The operator then installs the screws on the burner housing in sequence so that the screws connect the frame and the secondary air plate, as well as the frame and the inner liner.
[0004] However, screws need to be installed on three sides of the burner housing. After the screws on one side are installed, the position of the burner housing needs to be adjusted, resulting in low installation efficiency. Utility Model Content
[0005] This application provides a burner assembly device to solve the aforementioned problem of low installation efficiency.
[0006] The burner assembly equipment provided in this application includes:
[0007] Fixing assembly, the fixing assembly being used to fix the burner housing;
[0008] An assembly assembly is provided with an installation station on one side. Each assembly assembly is used to transport fasteners to the fixing assembly at the corresponding installation station and to install each fastener on at least two sides of the burner housing.
[0009] A conveying assembly is located on one side of the assembly assembly, and a fixing assembly is disposed on the conveying assembly. The conveying assembly is used to convey the fixing assembly to the installation station.
[0010] In some embodiments, a support frame is also included, the conveying assembly includes a turntable rotatably mounted on the support frame, the fixing assembly is mounted on the turntable, and there are at least two assembly assemblies. The turntable rotates relative to the support frame to drive the fixing assemblies to rotate sequentially to each of the installation positions.
[0011] In some embodiments, the assembly includes an assembly part and a first drive member, the assembly part being connected to the first drive member, the first drive member driving the assembly part to move relative to the support frame, the assembly part being used to mount the fastener onto the burner housing.
[0012] In some embodiments, the fixing assembly includes a base plate, at least one first limiting member and at least one second limiting member. The base plate is connected to the conveying assembly. The first limiting member and the second limiting member are both disposed on the base plate. The base plate is used to place the burner housing. The first limiting member and the second limiting member are respectively disposed on opposite sides of the burner housing to limit the position of the burner housing.
[0013] In some embodiments, the fixing component further includes a second driving member connected to the base plate, the second driving member driving at least one of the first limiting member and the second limiting member to move, so as to adjust the distance between the first limiting member and the second limiting member.
[0014] In some embodiments, the fixing component further includes a guide rail disposed on the base plate, the first limiting member being connected to the base plate, the second limiting member being slidably connected to the guide rail, and the second driving member driving the second limiting member to slide along the guide rail to adjust the distance between the first limiting member and the second limiting member.
[0015] In some embodiments, the fixing component further includes at least one support member connected to the second limiting member, and at least a portion of the support member is disposed within the burner housing to support the burner housing.
[0016] In some embodiments, the fixing component further includes a third limiting member connected to the base plate, the third limiting member being located between the first limiting member and the second limiting member, and the third limiting member being used to limit the housing of the burner.
[0017] In some embodiments, a feeding assembly is also included, which stores the fasteners and provides the fasteners to the assembly assembly.
[0018] In some embodiments, a feeding assembly is also included, with a feeding station on one side of the feeding assembly. The conveying assembly sequentially conveys the fixing assembly to each of the installation stations and the feeding station. The feeding assembly is used to remove the burner housing, which is fixed by the fixing assembly at the feeding station, from the fixing assembly.
[0019] The burner assembly equipment provided in this application uses a fixing component to fix the burner housing, a conveying component to sequentially transport the fixing component to each installation station, and an assembly component to install fasteners on at least two sides of the burner housing, thereby completing the assembly of the burner housing. Therefore, the burner assembly equipment provided in this application can automatically assemble the fasteners and the burner housing, while the burner housing remains fixed to the fixing component, eliminating the need to adjust its position on the fixing component. This makes fastener installation on the burner housing more convenient, efficient, and ensures good accuracy and reliability. Attached Figure Description
[0020] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.
[0021] Figure 1 This is a schematic diagram of the structure of a burner casing in the prior art;
[0022] Figure 2 This is a schematic diagram of the structure of the burner assembly equipment provided in the embodiments of this application;
[0023] Figure 3 for Figure 1 A structural diagram showing the removal of the feeding assembly;
[0024] Figure 4 for Figure 1 Schematic diagram of the structure of the stationary components and the burner housing;
[0025] Figure 5 for Figure 4 Schematic diagram of the structure of the fixed component;
[0026] Figure 6 for Figure 5 Another structural diagram from a different perspective;
[0027] Figure 7 for Figure 1 A structural diagram of the assembly components;
[0028] Figure 8 for Figure 1 A schematic diagram of the structure of the feeding and unloading assembly.
[0029] The accompanying drawings illustrate specific embodiments of this application, which will be described in more detail below. These drawings and descriptions are not intended to limit the scope of the concept in any way, but rather to illustrate the concept of this application to those skilled in the art through reference to particular embodiments.
[0030] Explanation of reference numerals in the attached figures:
[0031] 10-Burner shell; 20-Frame; 21-First connecting hole; 22-First side plate; 23-Second side plate; 24-Third side plate; 30-Secondary air plate; 31-Second connecting hole; 40-Inner liner plate; 41-Third connecting hole;
[0032] 100-Fixing component; 110-Base plate; 111-Base plate body; 112-Support plate; 113-First limiting block; 120-First limiting member; 121-First limiting plate; 122-Second limiting plate; 130-Second limiting member; 131-Limiting part; 132-Sliding part; 133-Connecting part; 140-Second driving member; 150-Guide rail; 160-Support member; 161-Limiting step; 170-Third limiting member; 180-Connecting member; 190-Second limiting block;
[0033] 200 - Assembly components; 210 - Assembly parts; 220 - First drive component;
[0034] 300 - Conveyor assembly;
[0035] 400-Support Frame;
[0036] 500-Feeding assembly;
[0037] 600 - Feeding assembly; 610 - Feeding part; 620 - Third drive component;
[0038] 700-Controller. Detailed Implementation
[0039] To make the objectives, technical solutions, and advantages of this application clearer, the technical solutions of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.
[0040] Reference Figure 1In the prior art, the burner housing 10 includes a frame 20, a secondary air plate 30, and an inner liner 40. The frame 20 includes a first side plate 22, a second side plate 23, and a third side plate 24 arranged sequentially. The first side plate 22 and the third side plate 24 are located on the same side of the second side plate 23. The frame 20 has a plurality of first connecting holes 21, which are located on the first side plate 22, the second side plate 23, and the third side plate 24, respectively. The secondary air plate 30 has four second connecting holes 31, each of which corresponds to and communicates with the first connecting holes 21 on the first side plate 22 and the first connecting holes 21 on the third side plate 24. The secondary air plate 30 is fixed to the frame 20 by screws connected through the first connecting holes 21 and the second connecting holes 31. The inner lining plate 40 has at least three third connection holes 41, each of which is connected to the first connection hole 21 on the first side plate 22, the first connection hole 21 on the second side plate 23, and the first connection hole 21 on the third side plate 24. The inner lining plate 40 is fixed to the frame 20 by screws that connect the first connection hole 21 to the third connection hole 41.
[0041] When assembling the burner housing 10, the secondary air plate 30 and the inner lining plate 40 are first assembled manually onto the frame 20. Then, the burner housing 10 is placed on a stable support surface. Next, the screws are installed sequentially on the first side plate 22, the second side plate 23, and the third side plate 24 to complete the assembly of the burner housing 10. However, the first side plate 22, the second side plate 23, and the third side plate 24 have different mounting surfaces. To facilitate manual screw installation on the first side plate 22, the second side plate 23, or the third side plate 24, the burner housing 10 needs to be flipped before manual screw installation to adjust its position so that the mounting surface faces the operator. This results in a longer screw installation time and lower installation efficiency. Furthermore, the accuracy and reliability of manual screw installation are poor.
[0042] Based on this, embodiments of this application provide an assembly device for a burner housing. The burner housing is fixed by a fixing component, and the fixing component is sequentially conveyed to each installation station by a conveying component. Fasteners are then installed on at least two sides of the burner housing by an assembly component, thereby completing the assembly of the burner housing. Thus, the burner assembly device provided in this application can automatically assemble fasteners and the burner housing. Simultaneously, the burner housing remains fixed to the fixing component, eliminating the need for further adjustment of the burner housing's position on the fixing component. This makes fastener installation on the burner housing more convenient, efficient, and ensures good accuracy and reliability.
[0043] The technical solutions of this application and how they solve the aforementioned technical problems are described in detail below with specific embodiments. These specific embodiments may exist independently or in combination with each other. Identical or similar concepts or processes may not be repeated in some embodiments. The embodiments of this application will now be described with reference to the accompanying drawings.
[0044] Reference Figure 2 and Figure 3 The burner assembly equipment provided in this application includes: a fixing component 100, an assembly component 200, and a conveying component 300. The fixing component 100 is used to fix the burner housing 10; an installation station is provided on one side of the assembly component 200, and each assembly component 200 is used to convey fasteners to the fixing component 100 at the corresponding installation station, and to install each fastener on at least two sides of the burner housing 10; the conveying component 300 is located on one side of the assembly component 200, and the fixing component 100 is disposed on the conveying component 300, which is used to convey the fixing component 100 to the installation station.
[0045] In this configuration, at least two fasteners are sequentially connected to the second connecting hole 31 via the first connecting hole 21, and at least three fasteners are sequentially connected to the third connecting hole 41 via the first connecting hole 21. Thus, the secondary air plate 30 and the inner lining plate 40 can be connected to the frame 20 using these fasteners.
[0046] For example, there are seven fasteners, four second connecting holes 31 on the secondary air plate 30, and three third connecting holes 41 on the inner lining plate 40. There are three first connecting holes 21 on the first side plate 22 and the third side plate 24, and one first connecting hole 21 on the second side plate 23.
[0047] In practice, the secondary air plate 30 and the inner lining plate 40 are first assembled onto the frame 20, ensuring that the second connecting hole 31 and the third connecting hole 41 are connected to the first connecting hole 21 one-to-one. Then, the assembled burner housing 10 is placed on the fixing component 100, and the fixing component 100 is used to secure the burner housing 10, ensuring its accurate positioning. The fixing component 100 is then transported to the installation station via the conveying component 300. Next, the assembly component 200 sequentially installs multiple fasteners onto the burner housing 10, connecting some components via the first connecting hole 21 to the second connecting hole 31, and connecting the remaining fasteners via the first connecting hole 21 to the third connecting hole 41, thus completing the assembly of the burner housing 10.
[0048] It is understandable that there can be four installation stations and four assembly components 200. The assembly components 200 are respectively set on one side of the installation station. Three of the assembly components 200 connect the fasteners through the first connection hole 21 and the second connection hole 31, respectively, and the other assembly component 200 connects the fasteners through the first connection hole 21 and the third connection hole 41.
[0049] The burner assembly equipment provided in this application embodiment uses a fixing component 100 to fix the burner housing 10, a conveying component 300 to sequentially convey the fixing component 100 to each installation station, and an assembly component 200 to install fasteners on at least two sides of the burner housing 10, thereby completing the assembly of the burner housing 10. Therefore, the burner assembly equipment provided in this application embodiment can automatically assemble fasteners and the burner housing 10, while the burner housing 10 remains fixed to the fixing component 100, eliminating the need to adjust its position on the fixing component 100. This makes fastener installation on the burner housing 10 more convenient, efficient, and ensures good accuracy and reliability.
[0050] Reference Figure 2 and Figure 3 In a specific implementation, the burner assembly equipment provided in this application embodiment also includes a support frame 400, a conveying component 300 including a turntable, the turntable being rotatably mounted on the support frame 400, a fixing component 100 being mounted on the turntable, and at least two assembly components 200. The turntable rotates relative to the support frame 400 to drive the fixing components 100 to rotate sequentially to each installation station.
[0051] Specifically, the conveying component 300 also includes a motor connected to the turntable. The motor is mounted on the support frame 400 and drives the turntable to rotate relative to the support frame 400 to sequentially convey the fixing component 100 to each installation station.
[0052] For example, the turntable also has an unloading station and an loading station. When the fixing component 100 is located at the loading station, the assembled burner housing 10 can be fixed to the fixing component 100. When the fixing component 100 is located at the unloading station, the assembled burner housing 10 can be removed from the fixing component 100. For example, a robotic arm or manual labor can be used to fix the assembled burner housing 10 to the fixing component 100 at the loading station.
[0053] The turntable rotates relative to the support frame 400 to sequentially transport the fixed component 100 to the loading station, the installation station, and the unloading station. The loading station and the unloading station are adjacent. After the burner housing 10 is removed from the fixed component 100, the conveying component 300 can transport the fixed component 100 back to the loading station.
[0054] Reference Figure 3 and Figure 7 In a specific implementation, the assembly component 200 includes an assembly part 210 and a first driving member 220. The assembly part 210 is connected to the first driving member 220, and the first driving member 220 drives the assembly part 210 to move relative to the support frame 400. The assembly part 210 is used to install fasteners on the burner housing 10.
[0055] When fasteners need to be installed, the first driving member 220 drives the assembly 210 to move towards the installation station, so that the assembly 210 is opposite to the fixed component 100 on the installation station. After the assembly 210 installs the fasteners on the burner housing 10, the first driving member 220 drives the assembly 210 to move away from the installation station, so that the assembly 210 is away from the fixed component 100 on the installation station, thereby preventing the assembly 210 from interfering with the fixed component 100 on the turntable when the turntable rotates relative to the support frame 400.
[0056] For example, the first drive member 220 is connected to the support frame 400. The fastener is a screw, and the assembly 210 is a screwdriver.
[0057] Reference Figure 4 , Figure 5 and Figure 6 In some embodiments, the fixing assembly 100 includes a base plate 110, at least one first limiting member 120 and at least one second limiting member 130. The base plate 110 is connected to the conveying assembly 300. The first limiting member 120 and the second limiting member 130 are both disposed on the base plate 110. The base plate 110 is used to place the burner housing 10. The first limiting member 120 and the second limiting member 130 are respectively disposed on opposite sides of the burner housing 10 to limit the burner housing 10.
[0058] The base plate 110 is connected to the conveying assembly 300 to connect the fixing assembly 100 to the conveying assembly 300. The burner housing 10 is located on the base plate 110, and the burner housing 10 is limited by the first limiting member 120 and the second limiting member 130 to fix the burner housing 10 to the fixing assembly 100.
[0059] For example, the base plate 110 includes a base plate body 111 and a support plate 112. The support plate 112 is connected to the base plate body 111, and the housing 10 of the burner is placed on the support plate 112. A first limiting member 120 is connected to the support plate 112. A second limiting member is disposed on the base plate body 111.
[0060] Furthermore, a first limiting block 113 is provided on the support plate 112. The first limiting block 113 is located between the first limiting member 120 and the second limiting member 130. When the burner housing 10 is placed on the support plate 112, the first limiting block 113 abuts against the secondary air plate 30, thereby limiting the burner housing 10.
[0061] Reference Figure 4 , Figure 5 and Figure 6 In some embodiments, the fixing component 100 further includes a second driving member 140, which is connected to the base plate 110 and to one of the first limiting member 120 and the second limiting member 130, so as to drive one of the first limiting member 120 and the second limiting member 130 to move relative to the other, thereby adjusting the distance between the first limiting member 120 and the second limiting member 130.
[0062] In some examples, the second drive element 140 can be a cylinder.
[0063] For example, the first limiting member 120 is fixed to the base plate, and the second driving member 140 is connected to the second limiting member 130. The second driving member 140 drives the second limiting member 130 to move relative to the first limiting member 120 to adjust the distance between the first limiting member 120 and the second limiting member 130.
[0064] The first limiting member 120 includes a first limiting plate 121 and a second limiting plate 122, which respectively abut against two adjacent side plates of the burner housing 10. There can be two first limiting members 120, each positioned between two adjacent side plates of the burner housing 10 to limit the burner housing 10. This allows most of the side plates of the burner housing 10 to be exposed, preventing the first limiting members 120 from obstructing the mounting holes on the burner housing 10 and affecting the assembly fasteners of the assembly assembly 200.
[0065] Specifically, when fixing the burner housing 10 to the fixing assembly 100, the second driving member 140 can first drive the second limiting member 130 to move towards the side away from the first limiting member 120, thereby increasing the distance between the first limiting member 120 and the second limiting member 130. This distance is greater than the length of the burner housing 10, facilitating the placement of the burner housing 10 between the first limiting member 120 and the second limiting member 130. Then, the burner housing 10 is placed between the first limiting member 120 and the second limiting member 130, and the burner housing 10 abuts against the first limiting member 120. Finally, the second driving member 140 drives the second limiting member 130 to move toward the first limiting member 120, so that the distance between the first limiting member 120 and the second limiting member 130 is reduced until the second limiting member 130 abuts against the burner housing 10, thereby fixing the burner housing 10 together through the first limiting member 120 and the second limiting member 130.
[0066] Reference Figure 4 , Figure 5 and Figure 6 In a specific implementation, the fixing component 100 also includes a guide rail 150, which is disposed on the base plate 110. The first limiting member 120 is connected to the base plate 110, and the second limiting member 130 is slidably connected to the guide rail 150. The second driving member 140 drives the second limiting member 130 to slide along the guide rail 150 to adjust the distance between the first limiting member 120 and the second limiting member 130.
[0067] The guide rail 150 can provide guidance for the second limiting member 130, so that the second limiting member 130 can move on the base plate 110 relatively stably and reliably.
[0068] For example, the guide rail 150 is a protrusion provided on the base plate 110, and the second limiting member 130 has a groove that matches the protrusion so that at least part of the guide rail 150 can be engaged with the second limiting member 130, and the second limiting member 130 can slide along the guide rail 150.
[0069] In other examples, the guide rail 150 may also be a groove provided on the base plate, and the second limiting member has a slider located in the groove and sliding along the groove so that the second limiting member 130 slides along the guide rail 150.
[0070] Specifically, the second limiting member 130 includes a limiting part 131, a sliding part 132, and a connecting part 133. The connecting part 133 connects the limiting part 131 and the sliding part 132. The limiting part 131 is used to abut against the burner housing 10. The sliding part 132 is slidably connected to the guide rail 150. The connecting part 133 is connected to the second driving member 140.
[0071] Furthermore, the guide rail 150 is mounted on the base plate body 111 and is located on one side of the support plate 112. The sliding part 132 slides along the guide rail 150 toward the support plate 112 until it abuts against the support plate 112. At this time, the limiting part 131 abuts against the burner housing 10 without compressing it. The support plate 112 can limit the sliding part 132, thereby preventing the limiting part 131 from compressing the burner housing 10 and causing damage to it.
[0072] In some examples, the fixing component 100 further includes a second limiting block 190, which is disposed on the base plate 110 and located at the end of the guide rail 150 away from the first limiting member 120. When the second limiting member 130 slides along the guide rail 150, the second limiting block 190 can restrict the position of the second limiting member 130, preventing it from sliding off the guide rail 150. For example, there are two guide rails 150, which are arranged parallel and spaced apart, with the second limiting block 190 located between the two guide rails 150.
[0073] Reference Figure 4 , Figure 5 and Figure 6 In some embodiments, the fixing assembly 100 further includes at least one support member 160 connected to the second limiting member 130, and at least a portion of the support member 160 is disposed within the burner housing 10 to support the burner housing 10.
[0074] The burner housing 10 is supported by the support member 160 to prevent the assembly assembly 200 from exerting excessive impact on the burner housing 10 when fasteners are installed on the burner housing 10, which could damage the burner housing 10.
[0075] It is understandable that the size and shape of the support 160 can be adapted to the size, shape and actual needs of the burner housing 10.
[0076] For example, fasteners need to be installed on the three side plates of the burner housing 10, and there are three support members 160. Each support member 160 abuts against each side plate of the burner housing 10 in a corresponding manner, so as to support each side plate of the burner housing 10 through each support member 160.
[0077] Specifically, the support member 160 has a limiting step 161, which is located outside the burner housing 10 and is opposite to the base plate 110. The limiting step 161 limits the burner housing 10 to ensure the accuracy of the burner housing 10 in the vertical direction.
[0078] In some examples, the support member 160 is connected to the second limiting member 130. Specifically, the fixing assembly 100 also includes a connector 180 that connects the connection portion 133 of each support member 160 to the second limiting member 130.
[0079] Reference Figure 4 , Figure 5 and Figure 6 In a specific implementation, the fixing component 100 also includes a third limiting member 170, which is connected to the base plate 110. The third limiting member 170 is located between the first limiting member 120 and the second limiting member 130, and is used to limit the housing 10 of the burner.
[0080] The third limiting member 170 abuts against the base plate 110 to fix the third limiting member 170 on the base plate 110. By setting the third limiting member 170, the burner housing 10 is limited in a direction perpendicular to the setting direction of the first limiting member 120 and the second limiting member 130, so as to ensure the positional accuracy of the burner housing 10.
[0081] For example, the number of third limiting members 170 is at least two, and each third limiting member 170 is respectively disposed on opposite sides of the burner housing 10.
[0082] Reference Figure 2 In a specific implementation, the burner assembly equipment provided in this application embodiment further includes a feeding component 500, which is used to store fasteners and provide fasteners for the assembly component 200.
[0083] For example, the feeding assembly 500 can be a pneumatic feeder that feeds screws to the screw gun to provide screws for the screw gun.
[0084] Reference Figure 2 , Figure 3 and Figure 8 In a specific implementation, the burner assembly equipment provided in this application embodiment also includes a feeding component 600. A feeding station is provided on one side of the feeding component 600. The conveying component 300 sequentially conveys the fixing component 100 to each installation station and the feeding station. The feeding component 600 is used to remove the burner housing 10 fixed by the fixing component 100 at the feeding station from the fixing component 100.
[0085] For example, the unloading assembly 600 includes a detection element, an unloading element 610, and a third driving element 620. The third driving element 620 is connected to the unloading element 610 and to the support frame 400. The unloading element 610 is used to grab the burner housing 10 on the unloading station, and the third driving element 620 drives the unloading element 610 to move relative to the unloading station. The detection element is disposed on the unloading element 610 or the third driving element 620, and is used to detect whether there is a burner housing 10 on the unloading station. The detection element is electrically connected to the third driving element 620.
[0086] Specifically, after the fixing assembly 100 passes through each installation station in sequence, the burner housing 10 on the fixing assembly 100 has been assembled. Then, the conveying assembly 300 conveys the fixing assembly 100 to the unloading station. At this time, the unloading station is detected by the detection component. If the detection component detects that there is a burner housing 10 on the fixing assembly 100, the detection component sends a signal to the third driving component 620. The third driving component 620 drives the unloading component 610 to move toward the unloading station and grabs the burner housing 10. Then, the third driving component 620 drives the unloading component 610 to move toward the side away from the unloading station so that the unloading component 610 removes the burner housing 10 from the fixing assembly 100.
[0087] In some embodiments, the burner assembly equipment provided in this application further includes a feeding conveyor belt. After the third driving member 620 drives the feeding member 610 to remove the burner housing 10 from the fixing component 100, it drives the feeding member 610 to move onto the feeding conveyor belt and places the burner housing 10 onto the feeding conveyor belt for delivery.
[0088] Reference Figure 3 In some embodiments, the burner assembly equipment provided in this application further includes a controller 700. The controller 700 can be electrically connected to the second drive component 140 of the fixing component 100, the motor of the conveying component 300, the assembly component 200, the feeding component 500, and the unloading component 600. Therefore, the controller 700 can control the start and stop of the second drive component 140 of the fixing component 100, the motor of the conveying component 300, the assembly component 200, the feeding component 500, and the unloading component 600. This makes controlling the burner assembly equipment simpler and more convenient.
[0089] For example, the controller 700 has multiple control buttons, which are used to control the fixing component 100, the conveying component 300, the assembly component 200, the loading component 500, and the unloading component 600.
[0090] In the embodiments of this application, the terms "upper," "lower," "inner," "middle," "outer," "front," and "rear," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. These terms are primarily for better description of this application and its embodiments, and are not intended to limit the indicated device, element, or component to having a specific orientation, or to be constructed and operated in a specific orientation. Furthermore, some of the above terms may be used to indicate other meanings besides orientation or positional relationship; for example, the term "upper" may also be used in some cases to indicate a certain dependency or connection relationship. Those skilled in the art can understand the specific meaning of these terms in the embodiments of this application according to the specific circumstances.
[0091] Furthermore, the terms "set up," "connect," and "fix" should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral structure; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium, or it can be an internal connection between two devices, components, or parts. Those skilled in the art can understand the specific meaning of the above terms in the embodiments of this disclosure according to the specific circumstances.
[0092] The terms “first,” “second,” “third,” “fourth,” etc. (if present) in the specification, claims, and accompanying drawings of this application are used to distinguish similar objects and are not necessarily used to describe a particular order or sequence. It should be understood that such data can be interchanged where appropriate so that the embodiments of this application described herein can be implemented, for example, in a sequence other than those illustrated or described herein.
[0093] In this application, the terms "exemplary" or "for example" are used to indicate examples, illustrations, or descriptions. Any embodiment or design described as "exemplary" or "for example" in this application should not be construed as being more preferred or advantageous than other embodiments or designs. Specifically, the use of terms such as "exemplary" or "for example" is intended to present the relevant concepts in a specific manner.
[0094] Unless otherwise stated, the term "multiple" means two or more.
[0095] The technical solutions of this application have been described above with reference to the preferred embodiments shown in the accompanying drawings. However, it is readily understood by those skilled in the art that the scope of protection of this application is obviously not limited to these specific embodiments. The above embodiments are only used to illustrate the technical solutions of this application and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. These modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.
Claims
1. An assembling apparatus of a combustor, characterized by comprising: include: Fixing assembly (100) for fixing the housing (10) of the burner; Assembly component (200), one side of which is provided with an installation station, the assembly component (200) is used to transport fasteners to the fixing component (100) of the corresponding installation station, and install each fastener on at least two sides of the burner housing (10). A conveying assembly (300) is located on one side of the assembly assembly (200), and a fixing assembly (100) is disposed on the conveying assembly (300). The conveying assembly (300) is used to convey the fixing assembly (100) to the installation station.
2. The assembly apparatus of a combustor according to claim 1, wherein It also includes a support frame (400), the conveying assembly (300) includes a turntable, the turntable is rotatably mounted on the support frame (400), the fixing assembly (100) is mounted on the turntable, and there are at least two assembly assemblies (200). The turntable rotates relative to the support frame (400) to drive the fixing assembly (100) to rotate sequentially to each of the installation positions.
3. The assembly apparatus of claim 2, wherein The assembly assembly (200) includes an assembly part (210) and a first drive member (220), the assembly part (210) being connected to the first drive member (220), the first drive member (220) driving the assembly part (210) to move relative to the support frame (400), and the assembly part (210) being used to install the fasteners on the housing (10) of the burner.
4. The assembly apparatus of claim 1, wherein The fixing assembly (100) includes a base plate (110), at least one first limiting member (120) and at least one second limiting member (130). The base plate (110) is connected to the conveying assembly (300). The first limiting member (120) and the second limiting member (130) are both disposed on the base plate (110). The base plate (110) is used to place the burner housing (10). The first limiting member (120) and the second limiting member (130) are respectively disposed on opposite sides of the burner housing (10) to limit the burner housing (10).
5. The assembly apparatus of claim 4, wherein The fixing component (100) further includes a second driving member (140) connected to the base plate (110). The second driving member (140) drives at least one of the first limiting member (120) and the second limiting member (130) to move to adjust the distance between the first limiting member (120) and the second limiting member (130).
6. The assembly apparatus of a combustor according to claim 5, wherein The fixing component (100) further includes a guide rail (150) disposed on the base plate (110), the first limiting member (120) is connected to the base plate (110), the second limiting member (130) is slidably connected to the guide rail (150), and the second driving member (140) drives the second limiting member (130) to slide along the guide rail (150) to adjust the distance between the first limiting member (120) and the second limiting member (130).
7. The assembly apparatus of claim 5, wherein The fixing assembly (100) further includes at least one support member (160) connected to the second limiting member (130), and at least a portion of the support member (160) is disposed within the housing (10) of the burner to support the housing (10) of the burner.
8. The assembly apparatus of claim 4, wherein, The fixing component (100) further includes a third limiting member (170), which is connected to the base plate (110). The third limiting member (170) is located between the first limiting member (120) and the second limiting member (130), and is used to limit the housing (10) of the burner.
9. The assembly apparatus of a combustor according to any one of claims 1 to 8, wherein It also includes a loading assembly (500) for storing the fasteners and providing the fasteners to the assembly assembly (200).
10. The assembly apparatus of a combustor according to any one of claims 1-8, wherein, It also includes a feeding assembly (600), which has a feeding station on one side. The conveying assembly (300) sequentially conveys the fixing assembly (100) to each of the installation stations and the feeding station. The feeding assembly (600) is used to remove the burner housing (10) fixed by the fixing assembly (100) at the feeding station from the fixing assembly (100).