A laser welding gun placement fixture
By designing a fixture for placing laser welding guns, the problems of inconvenient placement and easy damage to the gun head after use were solved, achieving stable and flexible placement and protection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TAIZHOU JIASITONG INTELLIGENT TECH CO LTD
- Filing Date
- 2025-08-01
- Publication Date
- 2026-06-30
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Figure CN224424630U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of laser welding gun technology, specifically a laser welding gun placement fixture. Background Technology
[0002] Handheld laser welding equipment consists of a handheld laser welding gun and a welding power source. It is a method that combines manual welding with laser welding, offering the flexibility of manual welding and good weld accessibility. The application of handheld laser welding provides more options for welding materials and is widely used for welding various materials such as steel and aluminum alloys.
[0003] When using a handheld laser welding gun, workers usually place the gun directly on the ground after use, which can easily damage the gun head and makes it inconvenient to retrieve later. Therefore, this application proposes a laser welding gun placement fixture to solve the above problems. Utility Model Content
[0004] This utility model aims to solve one of the technical problems existing in the prior art or related technologies.
[0005] Therefore, the technical solution adopted by this utility model is as follows: a laser welding gun placement fixture, including: a main body mechanism and a placement mechanism. The main body mechanism includes a base, a column fixed to the top of the base, a sleeve movably sleeved on the column, an ear fixed to one side of the sleeve, a first locking member installed on the ear and extending into the column, a fixed shaft fixed to the other side of the sleeve, a second locking member installed on the fixed shaft, and a rotating frame rotatably installed on the fixed shaft at its end.
[0006] The placement mechanism includes a placement frame fixed to the end of the rotating frame by bolts, multiple support rods fixed to the end of the placement frame, a protective cylinder fixed to the end of the support rods, and a magnet installed on the inner wall of the placement frame.
[0007] In a preferred embodiment, the present invention can be further configured such that: a through hole is symmetrically opened on one side of the ear seat, the through hole communicates with the inner cavity of the sleeve, a groove is opened in the middle of the outer side of the ear seat, and slots are arranged in an array on the outer side of the column.
[0008] In a preferred embodiment, the present invention may be further configured such that the first locking member includes a first insert rod with one end fitted into the slot and the other end extending out of the ear seat through the through hole, a cross plate fixed to the end of the first insert rod, and a tension spring connecting the bottom wall of the groove and the cross plate.
[0009] In a preferred embodiment, the present invention can be further configured such that: the fixed shaft includes a shaft body fixed to one side of the sleeve, an annular plate symmetrically fixed to the shaft body, and a fixed ring plate fixedly sleeved on the shaft body, wherein the annular plate has a plurality of first circular holes arranged in a ring array.
[0010] In a preferred embodiment, the present invention can be further configured such that the second locking member includes a movable seat movably sleeved on the shaft, a plurality of second insert rods fixed in a circular array on one side of the movable ring, and a spring connecting the end of the movable ring to the fixed ring plate.
[0011] In a preferred embodiment, the present invention can be further configured such that: the rotating frame includes an annular seat rotatably sleeved on a fixed shaft and located between relative annular plates, and an L-shaped support plate with its end fixed to the annular seat; the annular seat has a second circular hole arranged in a ring array around its periphery, and the second insertion rod passes through the first and second circular holes.
[0012] By adopting the above technical solution, the beneficial effects achieved by this utility model are as follows:
[0013] 1. In this utility model, a placement mechanism is provided, which consists of a placement frame, a support rod, a protective cylinder, and a magnet. With the above-mentioned arrangement, after the worker finishes using the laser welding gun, he can directly insert the welding gun into the placement frame to complete the placement of the laser welding gun. It is simple and practical. At the same time, the gun head of the laser welding gun is located inside the protective cylinder, which can effectively protect the gun head and prevent wear and tear on the gun head. It is highly practical.
[0014] 2. In this utility model, a column is fixed at the top of the base, and a sleeve is slidably fitted onto the column. An ear is fixed to one end of the sleeve, and a first locking member is installed on the ear. The sleeve is positioned on the column by the first locking member. A fixed shaft is fixed on the other side of the sleeve, and a rotating frame is installed on the fixed shaft. The rotating frame is limited by a second locking member. The placement mechanism is fixed to the end of the rotating frame by bolts. With the above configuration, the worker can release the lock on the rotating frame by pulling the second locking member, which facilitates the rotation of the rotating frame to adjust the angle of the placement mechanism. By pulling the first locking member to release the lock on the sleeve, the sleeve can be moved to adjust the height of the entire placement mechanism. The angle and height of the placement mechanism can be freely adjusted, which is convenient for workers to use according to their own habits, further increasing the practicality. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the structure of this utility model;
[0016] Figure 2 This is a bottom view of the structure of this utility model;
[0017] Figure 3 This is an exploded structural diagram of the present invention;
[0018] Figure 4 This is a partial exploded view of the structure of this utility model.
[0019] Figure label:
[0020] 100. Main body; 110. Base; 120. Column; 121. Slot; 130. Sleeve; 140. Ear seat; 141. Through hole; 142. Groove; 150. First locking element; 151. Cross plate; 152. First insertion rod; 153. Tension spring; 160. Fixed shaft; 161. Shaft body; 162. Annular plate; 1621. First round hole; 163. Fixed ring plate; 170. Second locking element; 171. Movable ring; 172. Second insertion rod; 173. Spring; 180. Rotating frame; 181. Annular seat; 1811. Second round hole; 182. L-shaped support plate;
[0021] 200. Placement mechanism; 210. Placement frame; 220. Support rod; 230. Protective cylinder; 240. Magnet. Detailed Implementation
[0022] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to specific embodiments and accompanying drawings. It should be noted that, unless otherwise specified, the embodiments and features of the present utility model can be combined with each other.
[0023] Some embodiments of this utility model are described below with reference to the accompanying drawings. Example
[0024] Combination Figure 1-4 As shown, this embodiment provides a laser welding gun placement fixture, including: a main body mechanism 100 and a placement mechanism 200.
[0025] The main structure 100 includes a base 110, a column 120 fixed to the top of the base 110, a sleeve 130 movably sleeved on the column 120, an ear seat 140 fixed to one side of the sleeve 130, a first locking member 150 installed on the ear seat 140 and extending into the column 120, a fixed shaft 160 fixed to the other side of the sleeve 130, a second locking member 170 installed on the fixed shaft 160, and a rotating frame 180 rotatably installed on the fixed shaft 160 at its end.
[0026] The base 110 is used to fix the column 120 and maintain the stability of the column 120. The column 120 is used to install the sleeve 130 and limit the movement of the sleeve 130. The ear seat 140 is fixed on one side of the sleeve 130. A through hole 141 is symmetrically opened on one side of the ear seat 140. The through hole 141 communicates with the inner cavity of the sleeve 130. A groove 142 is opened in the middle of the outer side of the ear seat 140. At the same time, slots 121 are arranged in an array on the outer side of the column 120 for the first locking member 150 to lock the sleeve 130 and the column 120.
[0027] The first locking element 150 includes a first insert rod 152, one end of which is fitted into the slot 121 and the other end of which passes through the through hole 141 and extends out of the ear seat 140; a cross plate 151 fixed to the end of the first insert rod 152; and a tension spring 153 connecting the bottom wall of the groove 142 and the cross plate 151. The first insert rod 152 passes through the through hole 141 and is fitted into the slot 121, locking the sleeve 130 and the column 120 together to ensure the stability of the sleeve 130. The cross plate 151 allows the worker to pull the first insert rod 152 to move, thereby releasing the lock between the sleeve 130 and the column 120. The tension spring 153 keeps the pull plate close to the ear seat 140, that is, ensures that the first insert rod 152 is always fitted into the slot 121 without external force.
[0028] The fixed shaft 160 is used to mount the rotating frame 180, and includes a shaft 161 fixed to one side of the sleeve 130, an annular plate 162 symmetrically fixed to the shaft 161, and a fixed annular plate 163 fixedly sleeved on the shaft 161. The annular plate 162 has a plurality of first circular holes 1621 arranged in a ring array. Meanwhile, the rotating frame 180 includes an annular seat 181 rotatably sleeved on the fixed shaft 160 and located between the relative annular plates 162, and an L-shaped support plate 182 with its end fixed to the annular seat 181. The annular seat 181 has second circular holes 1811 arranged in a ring array around its periphery. The second locking member 170 includes a member movably sleeved on the shaft 161. The ring 171 has a movable seat, multiple second insert rods 172 fixed in a ring array on one side of the movable ring 171, and a spring 173 connecting the end of the movable ring 171 to the fixed ring plate 163. The second insert rods 172 pass through the first round hole 1621 and the second round hole 1811 to lock the ring seat 181 and keep the ring seat 181 stable. The movable ring 171 allows workers to pull the second insert rods 172 to move, thereby releasing the lock on the ring seat 181. The spring 173 ensures that the second insert rods 172 are always fitted into the first round hole 1621 and the second round hole 1811 when there is no external force. The L-shaped support plate 182 is used to install and place the structure.
[0029] With the above settings, workers can adjust the height and angle of the placement mechanism 200 according to their own usage habits, further increasing the ease of use.
[0030] The placement mechanism 200 is used to place the laser welding gun and includes a placement frame 210 fixed to the end of the rotating frame 180 by bolts, a plurality of support rods 220 fixed to the end of the placement frame 210, a protective cylinder 230 fixed to the end of the support rods 220, and a magnet 240 installed on the inner wall of the placement frame 210.
[0031] The placement frame 210 is used to place the laser welding gun and ensure its stability. The support rod 220 is used to fix the protective cylinder 230. The protective cylinder 230 is used to cover the outside of the laser welding gun head to protect the laser welding gun head and prevent wear. The magnet 240 can attract the laser welding gun and prevent it from sliding out of the placement frame 210.
[0032] The working principle and usage process of this utility model are as follows: In use, pull the cross plate 151 outwards, causing the first insert rod 152 to move outwards and disengage from the slot 121 on the column 120, releasing the lock between the sleeve 130 and the column 120. Move the sleeve 130, causing the entire placement mechanism 200 to move, adjusting the height of the placement mechanism 200. After adjustment, release the cross plate 151. Under the action of the tension spring 153, the cross plate 151 resets, causing the first insert rod 152 to insert into the slot 121 on the column 120, locking the sleeve 130 and the column 120. Then, pull the movable ring 171 to one side. The movable ring 171 moves, causing the second insert rod 172 to disengage from the second round hole 1811 on the annular seat 181, releasing... In addition to locking the annular seat 181, rotating the annular seat 181 will cause the placement mechanism 200 to rotate via the L-shaped support plate 182, adjusting the orientation angle of the placement mechanism 200. After adjustment, the movable ring 171 is released, and under the action of the spring 173, the movable ring 171 returns to its original position, driving the second insertion rod 172 to pass through the first round hole 1621 on the annular plate 162 and the second round hole 1811 on the annular seat 181, locking the annular seat 181. At this time, after the worker finishes using the laser welding gun, he inserts the laser welding gun into the placement frame 210 to complete the placement of the laser welding gun. The protective cylinder 230 can protect the head of the laser welding gun, and the magnetic attraction can attract the laser welding gun to ensure its stability.
[0033] Although embodiments of the present invention have been shown and described, those skilled in the art will understand that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the claims and their equivalents.
Claims
1. A laser welding gun placement fixture comprising: The main body (100) and the placement mechanism (200) are characterized in that the main body (100) includes a base (110), a column (120) fixed to the top of the base (110), a sleeve (130) movably sleeved on the column (120), an ear seat (140) fixed to one side of the sleeve (130), a first locking member (150) installed on the ear seat (140) and extending into the column (120), a fixed shaft (160) fixed to the other side of the sleeve (130), a second locking member (170) installed on the fixed shaft (160), and a rotating frame (180) rotatably installed on the fixed shaft (160) at its end. The placement mechanism (200) includes a placement frame (210) fixed to the end of the rotating frame (180) by bolts, a plurality of support rods (220) fixed to the end of the placement frame (210), a protective cylinder (230) fixed to the end of the support rods (220), and a magnet (240) installed on the inner wall of the placement frame (210).
2. The laser welding gun placement tool of claim 1, wherein, The ear seat (140) has symmetrical through holes (141) on one side, which are connected to the inner cavity of the sleeve (130). A groove (142) is opened in the middle of the outer side of the ear seat (140), and slots (121) are arranged in an array on the outer side of the column (120).
3. The laser welding gun placement tool of claim 2, wherein, The first locking member (150) includes a first insert (152) with one end fitted into the slot (121) and the other end extending out of the ear seat (140) through the through hole (141), a cross plate (151) fixed to the end of the first insert (152), and a tension spring (153) connecting the bottom wall of the groove (142) and the cross plate (151).
4. The laser welding gun placement tool of claim 1, wherein, The fixed shaft (160) includes a shaft (161) fixed on one side of the sleeve (130), an annular plate (162) symmetrically fixed on the shaft (161), and a fixed ring plate (163) fixedly sleeved on the shaft (161). The annular plate (162) has a plurality of first circular holes (1621) arranged in a ring array.
5. The laser welding gun placement tool of claim 4, wherein, The second locking member (170) includes a movable seat that is movably sleeved on the shaft (161), a plurality of second insert rods (172) fixed in a ring array on one side of the movable ring (171), and a spring (173) connecting the end of the movable ring (171) and the fixed ring plate (163).
6. The laser welding gun placement tool of claim 5, wherein, The rotating frame (180) includes an annular seat (181) rotatably sleeved on a fixed shaft (160) and located between relative annular plates (162) and an L-shaped support plate (182) with its end fixed to the annular seat (181). The annular seat (181) has a second circular hole (1811) in a circular array around its periphery. The second insert rod (172) passes through the first circular hole (1621) and the second circular hole (1811).