Assembly equipment for fire plate

The automated assembly equipment enables the automatic feeding, assembly, and connection of the fire grille body and the smoke stabilizer sleeve, solving the problem of poor assembly consistency of the fire grille and improving production efficiency and stability.

CN224445143UActive Publication Date: 2026-07-03ZHENGZHOU HAIER NEW ENERGY TECH CO LTD +2

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

Technical Problem

In the existing technology, the assembly consistency of the fire duct body and the smoke stabilizer sleeve is poor, resulting in poor stability and consistency of the fire duct.

Method used

The automated assembly equipment, including the first feeding component, the second feeding component, the installation component, and the assembly component, is used to realize the automatic feeding, assembly, and connection of the fire bar body and the smoke stabilizer, ensuring accurate posture.

Benefits of technology

It improves the production efficiency of flame plate assemblies, enhances the stability and reliability of automatic assembly, and improves the consistency of flame plate assemblies.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application belongs to the technical field of burner assembly equipment, specifically relating to an assembly device for burner plates. The burner plate assembly device includes: a first feeding component, a second feeding component, an installation component, and an assembly component. The first feeding component stores the burner plate body and transports it to a first installation station. The second feeding component stores the smoke stabilizing sleeve of the burner plate and transports it to a second installation station. The installation component assembles the burner plate body at the first installation station and the smoke stabilizing sleeve at the second installation station, so that the smoke stabilizing sleeve is fitted onto the burner plate body. The assembly component connects the assembled burner plate body and the smoke stabilizing sleeve. The burner plate assembly device provided in this application can achieve automatic feeding, automatic assembly, and automatic connection of the burner plate body and the smoke stabilizing sleeve. The automatic assembly exhibits good stability, reliability, and consistency.
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Description

Technical Field

[0001] This application belongs to the field of burner assembly technology, specifically relating to an assembly device for burner plates. Background Technology

[0002] Burners are typically used in burners or stoves to optimize the combustion process and improve combustion efficiency. A burner consists of multiple burner plates arranged in sequence.

[0003] In the prior art, a fire baffle plate includes a fire baffle plate body and a smoke stabilizing sleeve, with the fire baffle plate body and the smoke stabilizing sleeve welded together. During the assembly of the fire baffle plate, the smoke stabilizing sleeve is usually first manually placed onto the fire baffle plate body, and then the fire baffle plate body and the smoke stabilizing sleeve are welded together to complete the assembly of the fire baffle plate.

[0004] However, due to production needs, multiple operators are usually required to assemble the fire duct body and the smoke stabilizer sleeve, resulting in poor consistency in the assembly of the fire duct body and the smoke stabilizer sleeve, which in turn leads to poor consistency in the fire duct. Utility Model Content

[0005] This application provides an assembly device for fire baffle plates to solve the problem of poor consistency in the assembly of the fire baffle plate body and the smoke stabilizer sleeve, which leads to poor stability and consistency of the fire baffle plate.

[0006] The assembly equipment for the fire grille provided in this application includes:

[0007] The first feeding component is used to store the flame plate body of the flame plate and transport the flame plate body to the first installation station.

[0008] The second feeding component is used to store the smoke stabilizing sleeve of the fire rack and transport the smoke stabilizing sleeve to the second installation station, which is located on one side of the first installation station.

[0009] The installation component is used to assemble the fire baffle body on the first installation station and the smoke stabilizer on the second installation station, so that the smoke stabilizer is fitted onto the fire baffle body.

[0010] An assembly component is disposed on one side of the mounting component and is used to connect the assembled fire duct body and the smoke stabilizer sleeve.

[0011] In some possible implementations, the installation assembly includes a first mounting member for driving the fire baffle body on the first installation station toward the second installation station so that the smoke stabilizing sleeve is fitted onto the fire baffle body; and / or, the installation assembly includes a second mounting member for driving the smoke stabilizing sleeve on the second installation station toward the first installation station so that the smoke stabilizing sleeve is fitted onto the fire baffle body.

[0012] In some possible implementations, the mounting assembly further includes a mounting base, on which both the first mounting member and the second mounting member are disposed, and on which the first mounting station and the second mounting station are located. The mounting base also has an assembly station located between the first mounting station and the second mounting station.

[0013] The first mounting component is used to push the fire duct body on the first mounting station to the assembly station, and the second mounting component is used to push the smoke stabilizer on the second mounting station to the assembly station, so that the smoke stabilizer is fitted onto the fire duct body.

[0014] In some possible implementations, the first feeding assembly includes a first feeding component and a first feeding guide rail. The first feeding component is used to store the fire grid plate body and to sequentially feed the fire grid plate body onto the first feeding guide rail. The first feeding guide rail is connected to one side of the first installation station.

[0015] And / or, the second feeding assembly includes a second feeding component and a second feeding guide rail. The second feeding component is used to store the smoke stabilizer and to sequentially feed the smoke stabilizer onto the second feeding guide rail. The second feeding guide rail is connected to one side of the second installation station.

[0016] In some possible implementations, it also includes:

[0017] A fixing component is used to fix the assembled fire duct body and the smoke stabilizer sleeve, and an assembly component is used to connect the fire duct body and the smoke stabilizer sleeve on the fixing component;

[0018] A first conveying assembly is used to convey the fire plate body and smoke stabilizer sleeve assembled by the mounting assembly to the fixing assembly.

[0019] In some possible implementations, the assembly includes at least two welded parts, each located on opposite sides of the fixing assembly, the welded parts being used to weld the fire plate body to the smoke stabilizer sleeve.

[0020] In some possible implementations, a second conveying assembly is also included, the fixing assembly is disposed on the second conveying assembly, a feeding station is provided on one side of the first conveying assembly, the first conveying assembly is used to convey the assembled fire plate body and the smoke stabilizer to the fixing assembly at the feeding station, an assembly station is provided on one side of the assembly assembly, and the second conveying assembly is used to convey the fixing assembly at the feeding station to the assembly station.

[0021] In some possible implementations, a support frame is also included, the second 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 stations. The turntable rotates relative to the support frame to drive the fixing assembly to rotate sequentially to each of the assembly stations.

[0022] In some possible implementations, the fixing assembly includes a hinged support and a fixing member, the support being connected to the second conveying assembly, the support being used to place the assembled fire duct body and smoke stabilizer sleeve, and the fixing member rotating relative to the support to fix or release the assembled fire duct body and smoke stabilizer sleeve.

[0023] In some possible implementations, a material unloading and conveying assembly is also included, which includes an unloading component and an unloading conveyor belt. An unloading station is provided on one side of the unloading component. The second conveying assembly is used to sequentially convey the fixed component to the assembly station and the unloading station. The unloading component is used to convey the fire plate on the unloading station to the unloading conveyor belt, and the unloading conveyor belt is used to send the fire plate out.

[0024] The fire baffle assembly equipment provided in this application, by setting up a first feeding component and a second feeding component, can automatically feed the fire baffle body and the smoke stabilizer sleeve. By setting up an installation component, the smoke stabilizer sleeve, conveyed by the second feeding component, is fitted onto the fire baffle body conveyed by the first feeding component, thereby assembling the fire baffle body and the smoke stabilizer sleeve into a fire baffle. By setting up an assembly component, the assembled fire baffle body and the smoke stabilizer sleeve are connected to complete the assembly of the fire baffle. Therefore, the fire baffle assembly equipment provided in this application embodiment can realize automatic feeding, automatic assembly, and automatic connection of the fire baffle body and the smoke stabilizer sleeve, resulting in high production efficiency of fire baffles. Compared with manual assembly of the fire baffle body and the smoke stabilizer sleeve, automatic assembly has better stability, reliability, and consistency. Attached Figure Description

[0025] 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.

[0026] Figure 1 This is a schematic diagram of the structure of the assembly equipment for the fire bar provided in the embodiments of this application;

[0027] Figure 2 for Figure 1 A schematic diagram of the assembly equipment for the middle-section fire-starting plate;

[0028] Figure 3 for Figure 2 A schematic diagram of the structure of the components installed in the middle;

[0029] Figure 4 for Figure 2 Schematic diagram of the structure of the fixed component;

[0030] Figure 5 for Figure 4 Schematic diagram of the middle support component;

[0031] Figure 6 for Figure 2 A structural diagram of the assembly components;

[0032] Figure 7 for Figure 2 A schematic diagram of the structure of the fixed component and the feeding conveyor component.

[0033] 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.

[0034] Explanation of reference numerals in the attached figures:

[0035] 10-Fire rack; 11-Fire rack body; 12-Smoke stabilizer;

[0036] 100 - First feeding assembly; 110 - First feeding component; 120 - First feeding guide rail; 130 - First support base;

[0037] 200 - Second feeding assembly; 210 - Second feeding component; 220 - Second feeding guide rail; 230 - Second support base;

[0038] 300 - Mounting component; 310 - First mounting component; 320 - Second mounting component; 330 - Mounting base; 331 - First mounting station; 332 - Second mounting station; 333 - Assembly station;

[0039] 400 - Assembly components; 410 - Welded parts;

[0040] 500-Fixing component; 510-Support component; 511-Support component body; 512-Rotating shaft; 513-Connecting column; 514-Allowing opening; 515-Limiting block; 516-First connecting hole; 520-Fixing component; 530-Connecting component;

[0041] 600 - First conveyor assembly;

[0042] 700 - Second conveyor assembly; 710 - Loading station; 720 - Assembly station; 730 - Unloading station;

[0043] 800-Support Frame;

[0044] 900 - Feeding and conveying assembly; 910 - Feeding component; 911 - Gripping part; 912 - Drive unit; 920 - Feeding conveyor belt; 930 - Conveying component. Detailed Implementation

[0045] 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.

[0046] In existing technology, a burner grate consists of a burner grate body and a smoke stabilizer sleeve. During assembly, the smoke stabilizer sleeve is first manually fitted onto the burner grate body to assemble the grate. The grate is then placed on welding equipment for welding to complete the assembly. However, due to the required production volume, multiple operators are typically needed to assemble the burner grate body and smoke stabilizer sleeve to improve assembly efficiency. However, the assembly of the burner grate by each operator varies, resulting in poor consistency in the assembly of the burner grate body and smoke stabilizer sleeve. Furthermore, the multiple parallel and spaced burner grate sections in the burner contribute to poor stability and consistency of the burner.

[0047] Based on this, embodiments of this application provide an assembly device for fire baffle plates. By setting a first feeding component and a second feeding component, the automatic feeding of the fire baffle plate body and the smoke stabilizer sleeve can be completed. By setting an installation component, the smoke stabilizer sleeve conveyed by the second feeding component is fitted onto the fire baffle plate body conveyed by the first feeding component, so that the fire baffle plate body and the smoke stabilizer sleeve are assembled into a fire baffle plate. By setting an assembly component, the assembled fire baffle plate body and the smoke stabilizer sleeve are connected to complete the assembly of the fire baffle plate. Thus, the fire baffle plate assembly device provided by embodiments of this application can realize automatic feeding, automatic assembly, and automatic connection of the fire baffle plate body and the smoke stabilizer sleeve. The production efficiency of the fire baffle plate is high. Compared with manual assembly of the fire baffle plate body and the smoke stabilizer sleeve, the automatic assembly has better stability, reliability, and consistency.

[0048] 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.

[0049] The fire duct assembly equipment provided in this application includes: a first feeding component 100, a second feeding component 200, an installation component 300, and an assembly component 400. The first feeding component 100 is used to store the fire duct body 11 and transport the fire duct body 11 to the first installation station 331. The second feeding component 200 is used to store the smoke stabilizer 12 and transport the smoke stabilizer 12 to the second installation station 332, which is located on one side of the first installation station 331.

[0050] The mounting assembly 300 is used to assemble the fire duct body 11 on the first mounting station 331 and the smoke stabilizer 12 on the second mounting station 332, so that the smoke stabilizer 12 is fitted onto the fire duct body 11; the assembly assembly 400 is disposed on one side of the mounting assembly 300, and the assembly assembly 400 is used to connect the assembled fire duct body 11 and the smoke stabilizer 12.

[0051] The fire duct 10 includes a fire duct body 11 and a smoke stabilizing sleeve 12. The smoke stabilizing sleeve 12 is fitted onto the fire duct body 11, and the fire duct body 11 and the smoke stabilizing sleeve 12 are fixedly connected.

[0052] Specifically, during the assembly of the fire baffle 10, the first feeding assembly 100 first transports the fire baffle body 11 to the first installation station 331, while the second feeding assembly 200 transports the smoke stabilizer sleeve 12 to the second installation station 332. Then, the installation assembly 300 assembles the fire baffle body 11 at the first installation station 331 and the smoke stabilizer sleeve 12 at the second installation station 332 into the fire baffle 10. Finally, the assembly assembly 400 securely connects the assembled fire baffle body 11 and the smoke stabilizer sleeve 12, thus completing the assembly of the fire baffle 10.

[0053] The fire baffle assembly equipment provided in this application embodiment can automatically feed the fire baffle body 11 and the smoke stabilizing sleeve 12 by setting a first feeding component 100 and a second feeding component 200. By setting an installation component 300, the fire baffle body 11 conveyed by the first feeding component 100 and the smoke stabilizing sleeve 12 conveyed by the second feeding component 200 are assembled into a fire baffle 10. By setting an assembly component 400, the assembled fire baffle body 11 and the smoke stabilizing sleeve 12 are connected to complete the assembly of the fire baffle 10. Therefore, the fire baffle assembly equipment provided in this application embodiment can realize automatic feeding, automatic assembly and automatic connection of the fire baffle body 11 and the smoke stabilizing sleeve 12. The production efficiency of the fire baffle 10 is relatively high. Compared with manual assembly of the fire baffle body 11 and the smoke stabilizing sleeve 12, the automatic assembly has better stability and reliability, and better consistency.

[0054] Reference Figure 2 and Figure 3 In a specific implementation, the installation component 300 includes a first mounting member 310, which is used to drive the fire duct body 11 on the first installation station 331 to move toward the second installation station 332 so that the smoke stabilizer sleeve 12 is fitted onto the fire duct body 11. And / or, the installation component 300 includes a second mounting member 320, which is used to drive the smoke stabilizer sleeve 12 on the second installation station 332 to move toward the first installation station 331 so as to assemble the fire duct body 11 and the smoke stabilizer sleeve 12 so that the smoke stabilizer sleeve 12 is fitted onto the fire duct body 11.

[0055] The first mounting component 310 drives the flame grid plate body 11 on the first mounting station 331 to move toward the second mounting station 332, while the second mounting component 320 drives the smoke stabilizer sleeve 12 on the second mounting station 332 to move toward the first mounting station 331, until the smoke stabilizer sleeve 12 is fitted onto the flame grid plate body 11, so that the flame grid plate body 11 and the smoke stabilizer sleeve 12 are assembled.

[0056] For example, the first mounting member 310 and the second mounting member 320 may be cylinders.

[0057] Reference Figure 3In a specific implementation, the mounting assembly 300 further includes a mounting base 330. The first mounting member 310 and the second mounting member 320 are both disposed on the mounting base 330. The first mounting station 331 and the second mounting station 332 are located on the mounting base 330. The mounting base 330 also has an assembly station 333, located between the first mounting station 331 and the second mounting station 332. The first mounting member 310 is used to push the fire baffle body 11 on the first mounting station 331 to the assembly station 333. The second mounting member 320 is used to push the smoke stabilizer sleeve 12 on the second mounting station 332 to the assembly station 333, so that the smoke stabilizer sleeve 12 is fitted onto the fire baffle body 11.

[0058] The first mounting component 310 is located on the side of the first mounting station 331 opposite to the assembly station 333. The first mounting component 310 moves toward the assembly station 333 to push the flame arrestor body 11 on the first mounting station 331 to the assembly station 333. The second mounting component 320 is located on the side of the second mounting station 332 opposite to the assembly station 333. The second mounting component 320 moves toward the assembly station to push the smoke stabilizer sleeve 12 on the second mounting station 332 to the assembly station 333. This allows the flame arrestor body 11 and the smoke stabilizer sleeve 12 to be assembled at the assembly station 333.

[0059] In some examples, the mounting assembly 300 further includes a first detection element and a second detection element, both of which are mounted on the mounting base 330. The first detection element detects whether there is a flame exhaust plate body 11 on the first mounting station 331, and the second detection element detects whether there is a smoke stabilizing sleeve 12 on the second mounting station 332. The first detection element is electrically connected to the first mounting component 310, and the second detection element is electrically connected to the second mounting component 320. When the first detection element detects that there is a flame exhaust plate body 11 on the first mounting station 331, the first mounting component 310 moves toward the assembly station 333, and the second mounting component 320 moves toward the assembly station 333 when the second detection element detects that there is a smoke stabilizing sleeve 12 on the second mounting station 332.

[0060] In some embodiments, the mounting assembly 300 further includes a first sorting component and a second sorting component, which are disposed on the mounting base 330. The first sorting component is used to sort the flame grid plate bodies 11 conveyed by the first feeding assembly 100 to ensure that the first feeding assembly 100 conveys only a single flame grid plate body 11 to the first mounting station 331 at a time. The second sorting component is used to sort the smoke stabilizer sleeves 12 conveyed by the second feeding assembly 200 to ensure that the second feeding assembly 200 conveys only a single smoke stabilizer sleeve 12 to the second mounting station 332 at a time.

[0061] In some examples, the mounting component 300 also includes a limiting member disposed on the mounting base 330 and above the assembly station 333 to limit the flame plate 10 and prevent the flame plate 10 from popping out of the assembly station 333.

[0062] Reference Figure 1 , Figure 2 and Figure 3 In some embodiments, the first feeding assembly 100 includes a first feeding component 110 and a first feeding guide rail 120. The first feeding component 110 is used to store the flame grille body 11 and sequentially feed the flame grille body 11 onto the first feeding guide rail 120. The first feeding guide rail 120 is connected to one side of the first installation station 331. And / or, the second feeding assembly 200 includes a second feeding component 210 and a second feeding guide rail 220. The second feeding component 210 is used to store the smoke stabilizer 12 and sequentially feed the smoke stabilizer 12 onto the second feeding guide rail 220. The second feeding guide rail 220 is connected to one side of the second installation station 332.

[0063] The first feeding guide rail 120 is connected to the first feeding component 110, and the second feeding guide rail 220 is connected to the second feeding component 210.

[0064] The first feeding component 110 automatically and orderly feeds the flame grid body 11, arranging each flame grid body 11 in a preset direction and posture on the first feeding guide rail 120, thereby ensuring the accurate posture of the flame grid body 11 at the first installation station 331. The second feeding component 210 automatically and orderly feeds the smoke stabilizer sleeve 12, arranging each smoke stabilizer sleeve 12 in a preset direction and posture on the second feeding guide rail 220, thereby ensuring the accurate posture of the smoke stabilizer sleeve 12 at the second installation station 332. This facilitates the assembly of the flame grid body 11 and the smoke stabilizer sleeve 12 by the installation component 300.

[0065] For example, the first feeding assembly 100 includes a first vibratory plate, which includes a first vibratory plate body and a first feeding guide rail 120. The first vibratory plate body forms a first feeding component 110. The second feeding assembly 200 includes a second vibratory plate, which includes a second vibratory plate body and a second feeding guide rail 220. The second vibratory plate body forms a second feeding component 210.

[0066] Specifically, the first feeding guide rail 120 is connected to one side of the first installation station 331 to facilitate the movement of the fire rack body 11 from the first feeding guide rail 120 to the first installation station 331. The second feeding guide rail 220 is connected to one side of the second installation station 332 to facilitate the movement of the smoke stabilizer 12 from the second feeding guide rail 220 to the second installation station 332.

[0067] In some examples, the first feeding assembly 100 further includes a first support base 130 for supporting the first feeding guide rail 120. The second feeding assembly 200 further includes a second support base 230 for supporting the second feeding guide rail 220.

[0068] Reference Figure 1 and Figure 2 In a specific implementation, the fire duct assembly equipment provided in this application embodiment further includes: a fixing component 500 and a first conveying component 600. The fixing component 500 is used to fix the assembled fire duct body 11 and smoke stabilizing sleeve 12. The assembly component 400 is used to connect the fire duct body 11 and smoke stabilizing sleeve 12 on the fixing component 500. The first conveying component 600 is used to convey the fire duct body 11 and smoke stabilizing sleeve 12 assembled by the mounting component 300 to the fixing component 500.

[0069] The assembled fire duct body 11 and smoke stabilizer sleeve 12 are fixed by the fixing component 500 to ensure that the positions of the fire duct body 11 and smoke stabilizer sleeve 12 are accurate, thereby facilitating the connection of the assembly component 400 to the fire duct body 11 and smoke stabilizer sleeve 12.

[0070] Specifically, after the mounting assembly 300 assembles the fire duct body 11 and the smoke stabilizer sleeve 12, the first conveying assembly 600 conveys the assembled fire duct body 11 and smoke stabilizer sleeve 12 to the fixing assembly 500, whereby the fixing assembly 500 fixes the assembled fire duct body 11 and smoke stabilizer sleeve 12, facilitating the connection of the assembly assembly 400 to the assembled fire duct body 11 and smoke stabilizer sleeve 12. After the first conveying assembly 600 removes the assembled fire duct body 11 and smoke stabilizer sleeve 12 from the mounting assembly 300, the mounting assembly 300 can reassemble the fire duct body 11 and smoke stabilizer sleeve 12. This improves the assembly efficiency of the fire duct 10.

[0071] In some embodiments, the first conveying assembly 600 includes a robotic arm for grasping the assembled fire duct body 11 and smoke stabilizer 12, and moving the assembled fire duct body 11 and smoke stabilizer 12 onto the fixing assembly 500.

[0072] For example, the robotic arm is located between the mounting assembly 300 and the fixing assembly 500. The robotic arm is connected to the support frame 800 to secure the robotic arm to the support frame 800.

[0073] Reference Figure 2 and Figure 6 In a specific implementation, the assembly component 400 includes at least two welding parts 410, each welding part 410 being located on opposite sides of the fixing component 500. The welding parts 410 are used to weld the fire plate body 11 and the smoke stabilizer 12.

[0074] Among them, the fire burner body 11 is welded to the smoke stabilizer 12.

[0075] For example, the number of welded parts 410 is at least six, with each welded part 410 arranged in pairs. The two welded parts 410 arranged in pairs are located on opposite sides of the fixing assembly 500, so as to weld both sides of the fire baffle plate 10 and ensure the connection strength between the fire baffle plate body 11 and the smoke stabilizer 12. Furthermore, the number and position of the welded parts 410 can be adapted to actual needs.

[0076] Specifically, the number of assembly components 400 is at least four.

[0077] Reference Figure 2 In some embodiments, the fire duct assembly equipment provided in this application further includes a second conveying component 700, a fixing component 500 disposed on the second conveying component 700, a loading station 710 disposed on one side of the first conveying component 600, the first conveying component 600 being used to convey the assembled fire duct body 11 and smoke stabilizer 12 to the fixing component 500 on the loading station 710, an assembly station 720 being disposed on one side of the assembly component 400, and the second conveying component 700 being used to convey the fixing component 500 on the loading station 710 to the assembly station 720.

[0078] Among them, the assembly station 720 corresponds one-to-one with the assembly component 400. When the fixing component 500 is located on the assembly station 720, the assembly component 400 can fix the fire rack body 11 and the smoke stabilizer 12 on the fixing component 500.

[0079] Specifically, the first conveying component 600 has a loading station 710 on one side. The first conveying component 600 conveys the assembled fire briquette body 11 and smoke stabilizer 12 to the fixing component 500 on the loading station 710 so that the fixing component 500 fixes the assembled fire briquette body 11 and smoke stabilizer 12.

[0080] Reference Figure 1 and Figure 2 In some embodiments, the fire plate assembly equipment provided in this application also includes a support frame 800, a second conveying component 700 including a turntable, the turntable being rotatably mounted on the support frame 800, a fixing component 500 being mounted on the turntable, and at least two assembly stations 720. The turntable rotates relative to the support frame 800 to drive the fixing component 500 to rotate sequentially to each assembly station 720.

[0081] For example, there are at least two assembly components 400, and the assembly station 720 is set up one-to-one with the assembly component 400. There are six fixing components 500, which are arranged sequentially and at intervals around the circumference of the turntable.

[0082] Specifically, after the first conveying component 600 conveys the assembled fire duct body 11 and smoke stabilizer sleeve 12 to the fixing component 500, the turntable rotates relative to the support frame 800 to drive the fixing component 500 to rotate sequentially to each assembly station 720. Through each assembly component 400, the fire duct body 11 and smoke stabilizer sleeve 12 on the fixing component at the corresponding assembly station 720 are connected to complete the assembly of the fire duct 10.

[0083] In some examples, the second conveying assembly 700 also includes a cam divider connected to the turntable. The cam divider allows for precise control of the turntable's rotation time and angle, thereby ensuring the accuracy of the position in which the turntable drives the stationary assembly 500 to rotate, and thus ensuring the accuracy and consistency of the assembly assembly 400.

[0084] Reference Figure 2 , Figure 4 and Figure 5 In some embodiments, the fixing component 500 includes a support 510 and a fixing component 520. The fixing component 520 is hinged to the support 510. The support 510 is connected to the second conveying component 700. The support 510 is used to place the assembled fire duct body 11 and the smoke stabilizer sleeve 12. The fixing component 520 rotates relative to the support 510 to fix or release the assembled fire duct body 11 and the smoke stabilizer sleeve 12.

[0085] Specifically, the assembled fire duct body 11 and smoke stabilizer sleeve 12 are placed on the support member 510. The fixing member 520 rotates relative to the support member 510 so that it abuts against the assembled fire duct body 11 and smoke stabilizer sleeve 12. Thus, the support member 510 and the fixing member 520 together clamp the assembled fire duct body 11 and smoke stabilizer sleeve 12, thereby limiting the fire duct 10. The fixing member 520 is rotated relative to the support member 510 so that it disengages from the fire duct 10, thereby releasing the fixing member 520 from fixing the assembled fire duct body 11 and smoke stabilizer sleeve 12.

[0086] For example, the support member 510 includes a support member body 511, a rotating shaft 512 and two connecting posts 513. The connecting posts 513 are connected to the support member body 511, the rotating shaft 512 connects the two connecting posts 513, and the fixing member 520 is sleeved on the rotating shaft 512 so that the fixing member 520 is rotatably connected to the rotating shaft 512.

[0087] The support body 511 has a clearance opening 514. The assembled burner plate body 11 and smoke stabilizer sleeve 12 partially overlap with the support body 511, while the remaining assembled burner plate body 11 and smoke stabilizer sleeve 12 face the clearance opening 514, facilitating the connection of the assembly assembly 400 to the burner plate body 11 and smoke stabilizer sleeve 12. The support 510 also includes multiple limiting blocks 515, which are disposed around the clearance opening 514. The limiting blocks 515 abut against the periphery of the assembled burner plate body 11 and smoke stabilizer sleeve 12 to limit their position, ensuring accurate positioning and thus ensuring accurate assembly of the assembly assembly 400, resulting in better assembly accuracy and consistency.

[0088] In some examples, the fixing component 500 also includes a connector 530, a support 510 having a first connecting hole 516, a turntable having a second connecting hole, and the connector 530 being hinged to the fixing component 520 via the second connecting hole and the first connecting hole 516 in sequence.

[0089] Reference Figure 2 and Figure 7 In some embodiments, the assembly equipment for the fire grille pieces provided in this application further includes a feeding and conveying assembly 900. The feeding and conveying assembly 900 includes a feeding component 910 and a feeding conveyor belt 920. A feeding station 730 is provided on one side of the feeding component 910. The second conveying assembly 700 is used to sequentially convey the fixing component 500 to each assembly station 720 and feeding station 730. The feeding component 910 is used to convey the fire grille pieces 10 on the feeding station 730 to the feeding conveyor belt 920. The feeding conveyor belt 920 is used to send out the fire grille pieces 10.

[0090] When the second conveying component 700 conveys the fixing component 500 to the unloading station 730, the fire baffle body 11 and the smoke stabilizer sleeve 12 have already been assembled into the fire baffle 10. After the fire baffle 10 is assembled, the fire baffle 10 can be automatically unloaded by the unloading conveying component 900.

[0091] Specifically, the unloading component 910 includes a gripping part 911 and a driving part 912. The gripping part 911 is connected to the driving part 912. The gripping part 911 is used to grip the fire plate 10 on the unloading station 730. The driving part 912 is used to drive the gripping part 911 to move, so that the gripping part 911 moves from the unloading station 730 to the unloading conveyor belt 920, and then the fire plate 10 can be moved to the unloading conveyor belt 920 through the gripping part 911.

[0092] In some examples, the unloading conveying assembly 900 also includes a conveyor 930, which is positioned between the unloading station 730 and the unloading conveyor belt 920. The unloading unit 910 conveys the assembled fire baffle piece 10 onto the conveyor 930, which then conveys the fire baffle piece 10 onto the unloading conveyor belt 920. The unloading conveyor belt 920 then conveys the assembled fire baffle piece 10 out of the support frame 800. Furthermore, the fixing assembly 500 is higher than the unloading conveyor belt 920, and the conveyor 930 is inclined, with the side of the conveyor 930 closer to the fixing assembly 500 higher than the side closer to the unloading conveyor belt 920, so that the fire baffle piece 10 can move from the conveyor 930 onto the unloading conveyor belt 920 under the action of gravity.

[0093] In a specific implementation, the fire plate assembly equipment provided in this application embodiment further includes a control component. The control component is electrically connected to the first feeding component 100, the second feeding component 200, the installation component 300, the assembly component 400, the first conveying component 600, and the second conveying component 700 to control the first feeding component 100 and the second feeding component 200 to start or stop feeding, control the installation component 300 and the assembly component 400 to start or stop assembling, and control the first conveying component 600 and the second conveying component 700 to start or stop conveying.

[0094] 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.

[0095] 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.

[0096] 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.

[0097] 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. Unless otherwise stated, the term "multiple" means two or more.

[0098] 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 assembly device for fire grill plates, characterized in that, include: The first feeding component (100) is used to store the fire plate body (11) of the fire plate and to transport the fire plate body (11) to the first installation station (331). The second feeding assembly (200) is used to store the smoke stabilizer sleeve (12) of the fire plate and transport the smoke stabilizer sleeve (12) to the second installation station (332), which is located on one side of the first installation station (331); Installation component (300) is used to assemble the fire duct body (11) on the first installation station (331) and the smoke stabilizer sleeve (12) on the second installation station (332) so that the smoke stabilizer sleeve (12) is fitted onto the fire duct body (11); Assembly component (400) is disposed on one side of the mounting component (300) and is used to connect the assembled fire plate body (11) and the smoke stabilizer sleeve (12).

2. The fire grate assembly apparatus of claim 1, wherein, The installation assembly (300) includes a first mounting member (310) for driving the fire duct body (11) on the first installation station (331) to move toward the second installation station (332) so that the smoke stabilizer sleeve (12) is fitted onto the fire duct body (11); And / or, the mounting assembly (300) includes a second mounting member (320) for driving the smoke stabilizer (12) on the second mounting station (332) toward the first mounting station (331) so that the smoke stabilizer (12) is fitted onto the fire plate body (11).

3. The firelighter assembly apparatus of claim 2, wherein, The mounting assembly (300) further includes a mounting base (330), on which the first mounting component (310) and the second mounting component (320) are both disposed. The first mounting station (331) and the second mounting station (332) are located on the mounting base (330). The mounting base (330) also has an assembly station (333), which is located between the first mounting station (331) and the second mounting station (332). The first mounting component (310) is used to push the fire duct body (11) on the first mounting station (331) to the assembly station (333), and the second mounting component (320) is used to push the smoke stabilizer (12) on the second mounting station (332) to the assembly station (333) so that the smoke stabilizer (12) is fitted onto the fire duct body (11).

4. The fire grate assembly apparatus of claim 1, wherein, The first feeding assembly (100) includes a first feeding component (110) and a first feeding guide rail (120). The first feeding component (110) is used to store the fire plate body (11) and to sequentially feed the fire plate body (11) onto the first feeding guide rail (120). The first feeding guide rail (120) is connected to one side of the first installation station (331). And / or, the second feeding assembly (200) includes a second feeding component (210) and a second feeding guide rail (220). The second feeding component (210) is used to store the smoke stabilizer (12) and to sequentially feed the smoke stabilizer (12) onto the second feeding guide rail (220). The second feeding guide rail (220) is connected to one side of the second installation station (332).

5. The fire log assembly apparatus of any of claims 1-4, wherein, Also includes: A fixing component (500) is used to fix the assembled fire plate body (11) and the smoke stabilizer sleeve (12). An assembly component (400) is used to connect the fire plate body (11) and the smoke stabilizer sleeve (12) on the fixing component (500). A first conveying assembly (600) is used to convey the fire plate body (11) and smoke stabilizer (12) assembled by the mounting assembly (300) to the fixing assembly (500).

6. The firelighter assembly apparatus of claim 5, wherein, The assembly component (400) includes at least two welded parts (410), each of which is located on opposite sides of the fixing component (500). The welded parts (410) are used to weld the fire plate body (11) to the smoke stabilizer (12).

7. The fire grate assembly apparatus of claim 5, wherein, It also includes a second conveying assembly (700), the fixing assembly (500) is disposed on the second conveying assembly (700), a loading station (710) is provided on one side of the first conveying assembly (600), the first conveying assembly (600) is used to convey the assembled fire plate body (11) and the smoke stabilizer (12) to the fixing assembly (500) on the loading station (710), an assembly station (720) is provided on one side of the assembly assembly (400), and the second conveying assembly (700) is used to convey the fixing assembly (500) on the loading station (710) to the assembly station (720).

8. The fire grate assembly apparatus of claim 7, wherein, It also includes a support frame (800), the second conveying assembly (700) includes a turntable, the turntable is rotatably mounted on the support frame (800), the fixing assembly (500) is mounted on the turntable, and there are at least two assembly stations (720). The turntable rotates relative to the support frame (800) to drive the fixing assembly (500) to rotate sequentially to each of the assembly stations (720).

9. The apparatus of claim 7, wherein, The fixing component (500) includes a hinged support (510) and a fixing component (520). The support (510) is connected to the second conveying component (700). The support (510) is used to place the assembled fire plate body (11) and smoke stabilizer (12). The fixing component (520) rotates relative to the support (510) to fix or release the assembled fire plate body (11) and smoke stabilizer (12).

10. The fire grate assembly apparatus of claim 7, wherein, It also includes a material feeding and conveying assembly (900), which includes a material feeding component (910) and a material feeding conveyor belt (920). A material feeding station (730) is provided on one side of the material feeding component (910). The second conveying assembly (700) is used to convey the fixed component (500) to the assembly station (720) and the material feeding station (730) in sequence. The material feeding component (910) is used to convey the fire plate (10) on the material feeding station (730) to the material feeding conveyor belt (920). The material feeding conveyor belt (920) is used to send out the fire plate (10).