TWI813368B - Steel profile welding and supporting mechanism - Google Patents

Abstract

The invention relates to a steel profile welding and supporting mechanism. Primarily, a working area of a machine is arranged with a plurality of supporting mechanisms, so that a steel profile can be supported upward by the supporting mechanism in an inclined state. Furthermore, the working area and a placement area of the machine are provided with several rails of a loading and moving mechanism laterally, so that the steel profile can be moved upward and laterally to a predetermined position by the loading and moving mechanism. In this way, not only can the profiled steel be supported upward at an inclined angle, which is convenient for various construction operations, but also the profiled steel can be moved laterally to a predetermined position on the machine after it is lifted upwards. Accordingly, it is more convenient in the entire construction operation process and has more practical efficacy characteristics in use.

Description

Sectional steel welding support mechanism

The present invention relates to a section steel welding support mechanism, and in particular, it refers to a mechanism that can not only support the section steel upward at an inclined angle to facilitate various construction operations, but also can lift the section steel upward on the machine platform and then proceed laterally. Moving it to a predetermined position makes it more convenient during the entire construction operation, and adds more practical features to its overall implementation and use.

According to the current application of building strength issues, most of them use section steel as the main frame, and the section steel includes C-section steel, U-section steel, Z-section steel or I-section steel, etc., which are assembled in the building by fastening long strips of section steel. It is placed on the main pillars to form the main skeleton of the building.

Steel structure buildings are commonly found everywhere, ranging from the construction of rooftops of homes to large factories and sports venues that can accommodate thousands or tens of thousands of people. The steel structures are divided into light steel and heavy steel. , in terms of light steel, most of them are C-shaped, ㄇ-shaped, and Z-shaped, and this type of steel can be bent and formed in one piece, and after forming There are also leveling mechanisms developed to address problems such as the straightness of section steel, such as patent announcement No. M460719; and the heavy-duty H-section steel is made by welding a flat steel plate between the left and right steel plates. After it is formed, the Problems such as the joint of the steel or its length, weather temperature, etc. may cause deformation of the H-shaped steel and the possibility of damaging the strength of the building structure. Therefore, the inventor's previous R&D application was approved and announced No. M496529, a profile steel shaping machine structure, which mainly has a positioning mechanism at the front and rear of the machine that can export and import profile steel. The positioning mechanism is equipped with two opposite limiting wheels. , the two limiting wheels can adjust their relative positions accordingly to press against the vertical wall plate of the profiled steel, and an operating space for the profiled steel leveling is formed between the two positioning mechanisms. This operating space is provided with resistors on both sides of the machine. A pressure wheel mechanism for flattening profiled steel. The pressure wheel mechanism is equipped with a power-driven pressure wheel. The pressure wheel corresponds to the horizontal wall plate of the profiled steel, and there is a corresponding pressure wheel at the center below the two pressure wheels. A runner that supports the horizontal wall plate of the profile steel. The pressure wheel can adjust the horizontal forward and backward displacement and the vertical upward and downward height according to the size of the profile steel. There are roller groups on both sides of the pressing wheel mechanism to assist in guiding the profile steel. Through the above structure, the corresponding H-shaped steel can be leveled.

The reason is that, in view of this, the inventor has relied on many years of rich design, development and actual production experience in this related industry, and has further researched and improved the existing technical means to provide a steel welding support mechanism in order to achieve better practical value. By.

The main purpose of the present invention is to provide a section steel welding support mechanism, which can not only support the section steel upward at an inclined angle to facilitate various construction operations, but also can lift the section steel upward and transversely on the machine platform. Move to a predetermined position so that It is more convenient in the entire construction operation process and has more practical functions in its overall implementation and use.

The main purpose and effect of the section steel welding support mechanism of the present invention are achieved by the following specific technical means: it mainly includes an organic platform, several support mechanisms and a load-bearing moving mechanism; among which: the machine platform is equipped with at least one working The working area and the placing area are arranged with several rollers; the supporting mechanism is arranged on the working area of the machine, and the supporting mechanism is equipped with a supporting force. source, one end of the top support power source is pivotally coupled to the machine platform, and the other end is pivotally coupled to the bottom end of a top support plate, so that one end of the top support plate is pivotally coupled to the machine platform, so that the top support is When the power source pushes the top support plate, the top support plate is in an inclined state. Correspondingly, the top support plate is pivotally combined with the machine platform, and a support plate is provided at the machine platform below the support plate. There is a pushing force source at the top of the resisting plate, so that when the supporting plate is pushed into an inclined state by the supporting power source, the pushing force source at the top of the resisting plate pushes the resisting plate upward and has a vertical position with the supporting plate. The included angle; the load-bearing moving mechanism is provided with several tracks across the working area and the placement area of the machine. There is a slot in the middle of the upper end of the track, and a transmission power source is provided at one end of each track. The driven wheel is driven to rotate, and a driven wheel is provided at the other end of each track. Corresponding to the driven wheel, a driven wheel top driving force source is provided, so that the driven wheel top driving force source can push the driven wheel outward. , there is a load-bearing seat corresponding to the slot in the track. The load-bearing seat is retracted into the slot in normal conditions, and there are openings at both ends of the load-bearing seat. There are movable grooves, and corresponding pulleys are pivoted on both sides of the two ends of the bearing base. Two corresponding pulling groups are provided at both ends of the bearing base. The outer ends of the two pulling groups are provided with pulling pieces. The inner ends of the two pulling groups are connected by a reset connection unit. The reset connection unit pulls the two pulling groups to reset. The movable grooves of the two pulling groups corresponding to the bearing base are connected with guide wheels. The guide wheels are The lower end edge is just in contact with the upper and lower end surfaces of the inner edge of the track, so that the pulling group can slide in the track using the guide wheel. In addition, the upper edges of the two pulling groups correspond to both sides of the two ends of the bearing seat. The pivoted pulley is concavely formed with a receiving concave arc groove, and the two pulling members of the two pulling groups are connected with a connecting pulling member. The connecting pulling member is arranged around the driving wheel provided at both ends of the track and between the driven wheels.

In a preferred embodiment of the section steel welding support mechanism of the present invention, the support power source is either a hydraulic cylinder or a pneumatic cylinder.

In a preferred embodiment of the section steel welding support mechanism of the present invention, the pushing force source against the top of the plate is either a hydraulic cylinder or a pneumatic cylinder.

In a preferred embodiment of the steel welding support mechanism of the present invention, the driving force source of the driven wheel top can be either a hydraulic cylinder or a pneumatic cylinder.

1:Machine

11:Work area

12:Placement area

13:Roller

2: Top support mechanism

21: Top support power source

22: Top support plate

23: Resistance plate

24: Propulsion source against the top of the board

3: Bearing mobile mechanism

31: Orbit

311: Grooving

32: Transmission power source

321: Driving wheel

33: driven wheel

331: Driven wheel top driving force source

34: Bearing seat

341:Activity slot

342:Pulley

35: Pull group

351: Pulling parts

352: Guide wheel

353: Accommodating concave arc groove

36:Reset connection unit

37: Connect the pulling parts

4: Section steel

Figure 1: Schematic diagram of the overall three-dimensional structure of the present invention

Figure 2: Schematic structural diagram of the supporting mechanism of the present invention.

Figure 3: Schematic diagram of the action of the supporting mechanism of the present invention.

Figure 4: Schematic structural diagram of the carrying moving mechanism of the present invention

Figure 5: Schematic diagram of the partial three-dimensional structure of the carrying moving mechanism of the present invention (1)

Figure 6: Schematic diagram of the partial three-dimensional structure of the carrying moving mechanism of the present invention (2)

Figure 7: Schematic diagram of the use status of the supporting mechanism of the present invention.

Figure 8: Schematic diagram of the supporting state of the supporting mechanism of the present invention

Figure 9: Schematic diagram of the use state of the carrying moving mechanism of the present invention.

Figure 10: Schematic diagram of the use state of the carrying moving mechanism of the present invention.

Figure 11: Schematic diagram of the lateral movement state of the carrying moving mechanism of the present invention

In order to have a more complete and clear disclosure of the technical content, the purpose of the invention and the effects achieved by the present invention, they are described in detail below, and please refer to the disclosed drawings and figure numbers: First, please refer to The first figure is a schematic diagram of the overall three-dimensional structure of the present invention, the second figure is a schematic structural diagram of the supporting mechanism of the present invention, the third figure is a schematic diagram of the action of the supporting mechanism of the present invention, and the fourth figure is a schematic structural diagram of the carrying and moving mechanism of the present invention. The invention mainly includes an organic platform (1), a supporting mechanism (2) and a load-bearing moving mechanism (3); among which:

The machine (1) is provided with at least one working area (11) and a placing area (12), and several rollers (13) are arranged in the working area (11) and the placing area (12).

The supporting mechanism (2) is arranged in an arrangement on the working area (11) of the machine (1). The supporting mechanism (2) is provided with a supporting power source (21). The supporting power source (21)Can be oil Either a pressure cylinder or a pneumatic cylinder, one end of the push support power source (21) is pivotally connected to the machine platform (1), and the other end is pivotally connected to the bottom end of a push support plate (22), so that the push support One end of the plate (22) is pivotally connected to the machine platform (1), so that when the supporting power source (21) pushes the supporting plate (22), the supporting plate (22) is in an inclined state, corresponding to the supporting plate (22). The supporting plate (22) is pivotally connected to the machine platform (1) with a supporting plate (23), and a supporting plate top is provided at the machine platform (1) below the supporting plate (23). Propulsion source (24). The propulsion source (24) against the top of the abutment plate can be either a hydraulic cylinder or a pneumatic cylinder, so that the propulsion source (24) against the top of the abutment plate pushes the abutment plate (23) Push upward.

The carrying moving mechanism (3) is provided with several rails (31) across the working area (11) and the placing area (12) of the machine (1). The middle position of the upper end of the rails (31) Slots (311) are provided, and a driving wheel (321) driven by the transmission power source (32) is provided at one end of each track (31), and a slave wheel (321) is provided at the other end of each track (31). The driving wheel (33) is provided with a driven wheel top driving force source (331) corresponding to the driven wheel (33) [please refer to the fifth figure again to show the partial three-dimensional structural diagram (1) of the load-bearing moving mechanism of the present invention]. The driven wheel top driving force source (331) can be either a hydraulic cylinder or a pneumatic cylinder, so that the driven wheel top driving force source (331) can push the driven wheel (33) outward and within the track (31) There is a bearing seat (34) corresponding to the slot (311). The bearing seat (34) is retracted into the slot (311) in normal condition. Please refer to the sixth figure for the bearing moving mechanism of the present invention. As shown in the partial three-dimensional structural diagram (2), the two ends of the bearing base (34) are provided with movable grooves (341), and corresponding pulleys (342) are pivoted on both sides of the two ends of the bearing base (34). , two corresponding pulling groups (35) are respectively provided at both ends of the bearing seat (34), and pulling pieces (351) are provided at the outer ends of the two pulling groups (35). Inside the two pulling groups (35) terminal is connected to the reset connection unit (36) The reset connecting unit (36) can be used to pull the two pulling groups (35) to reset. The two pulling groups (35) are connected to the movable grooves (341) of the bearing base (34) and are provided with guide wheels. (352), the upper and lower end edges of the guide wheel (352) are just in contact with the upper and lower end surfaces of the inner edge of the track (31), so that the pulling group (35) can use the guide wheel (352) to move on the track (31) In addition, the pulleys (342) pivoted on both sides of the two ends of the bearing seat (34) are recessed to form concave arc grooves (353) on the upper edges of the two pulling groups (35). The two pulling pieces (351) of the two pulling groups (35) are connected with a connecting pulling piece (37). The connecting pulling piece (37) is wound around the driving wheel (351) provided at both ends of the track (31). 321) and the driven wheel (33).

In this way, in terms of operation and use of the present invention, please refer to Figure 7 for a schematic diagram of the use state of the support mechanism of the present invention and Figure 8 for a schematic diagram of the support state of the support mechanism of the present invention. It is made of steel (4) Placed on the working area (11) of the machine (1), the rollers (13) can be used to drive the profiled steel (4) to move longitudinally. When the profiled steel (4) is placed across the top When the supporting mechanism (2) is on, the supporting power sources (21) of each supporting mechanism (2) are synchronously operated, so that each supporting power source (21) will push the supporting plate (22) Push up, so that each supporting plate (22) is supported by the supporting power source (21) in an inclined state. At this time, the section steel (4) will be supported by each supporting plate (22) at the same time. The tilted support is also in an tilted state, and while each of the support power sources (21) supports each of the top support plates (22) upward, each of the push force sources (24) of the top of the abutment plates will also Simultaneously push the resisting plates (23) upward so that there is a vertical angle between the resisting plates (23) and the supporting plates (22), so that the section steel (4) is supported by the supporting plates. When the top support of the plate (22) is in an inclined state, the profiled steel (4) can be clamped and positioned by the resisting plates (23) to prevent the profiled steel (4) from sliding downward, allowing the staff to Carry out various constructions on the inclined steel section (4) Homework.

After the construction work is completed on one side of the inclined side of the section steel (4), the section steel (4) needs to be transported to another work area (11) for tilt construction on the other side, or the section steel (4) needs to be transported to the other side. When the placing area (12) of the machine (1) is to be transported, or when the section steel (4) placed on the placing area (12) is to be transported to each work area (11) for construction operations, the order The transmission power source (32) is started to drive the driving wheel (321) to rotate together, and the pulling group (35) is pulled to move through the connecting pulling member (37). During the movement of the pulling group (35), The bearing seat (34) moves together. When the bearing seat (34) moves to the bottom of the corresponding section steel (4) (please refer to Figure 9 for a schematic diagram of the use state of the bearing moving mechanism of the present invention), Let the driven wheel top driving force source (331) push the driven wheel (33) outward [please refer to Figure 10 again for a schematic diagram of the use state of the load-bearing moving mechanism of the present invention]. At this time, due to the driven wheel (33) When pushing outward, the distance between the driving wheel (321) and the driving wheel (321) increases, so that the connecting pulling member (37) will pull the two pulling groups (35) at both ends outward. 35) During the movement, the pulley (342) of the bearing seat (34) will move upward along the concave arc groove (353) of the pulling group (35), causing the bearing seat (34) to rise upward. By protruding out of the slot (311) of the track (31), the section steel (4) carried on the bearing seat (34) can be raised upward, and at this time, the transmission power source can be used again. (32) drives the driving wheel (321) to rotate together, and pulls the pulling group (35) to move through the connecting pulling member (37), so as to move the profiled steel (4) laterally on the machine platform (1) To the predetermined working area (11) or the placement area (12) [shown in Figure 11 is a schematic diagram of the transverse movement state of the load-bearing moving mechanism of the present invention].

From the above, it can be seen from the description of the use of the present invention that compared with the existing technical means, the present invention can not only support the section steel upward at an inclined angle to facilitate various construction operations, but also can The ability to lift the section steel up on the machine and then move it laterally to a predetermined position makes it more convenient during the entire construction operation and adds practical features to its overall implementation.

However, the foregoing embodiments or drawings do not limit the product structure or usage of the present invention. Any appropriate changes or modifications made by those with ordinary knowledge in the technical field shall be regarded as not departing from the patent scope of the present invention.

In summary, the embodiments of the present invention can indeed achieve the expected use effects, and the specific structure disclosed has not only been seen in similar products, but has also not been disclosed before the application, and it fully complies with the provisions of the patent law. If you submit an application for an invention patent in accordance with the law, please review it and grant a patent, it will be very convenient.

1:Machine

11:Work area

12:Placement area

13:Roller

2: Top support mechanism

21: Top support power source

22: Top support plate

23: Resistance plate

24: Propulsion source against the top of the board

3: Bearing mobile mechanism

31: Orbit

311: Grooving

32: Transmission power source

321: Driving wheel

33: driven wheel

34: Bearing seat

Claims (4)

A profile steel welding support mechanism, which mainly includes a machine table, several support mechanisms and a load-bearing moving mechanism; wherein: the machine table is provided with at least one working area and a placing area, between the working area and the placing area Several rollers are arranged in rows on the top of the machine; the supporting mechanism is arranged in an array on the working area of the machine; the supporting mechanism is provided with a supporting power source, so that one end of the supporting power source is pivotally connected to the machine The other end of the platform is pivotally connected to the bottom end of a top support plate, so that one end of the top support plate is pivotally combined with the machine platform, so that when the top support power source pushes the top support plate, the top support plate is tilted In this state, a resisting plate is pivotally connected to the supporting plate and the machine platform, and a pushing force source is provided at the machine platform below the supporting plate to push the supporting plate to the supporting plate. When pushed by the pusher power source into an inclined state, the pusher force source pushes the pusher plate upward to have a vertical angle with the pusher plate; the load-bearing moving mechanism is attached to the machine platform. There are several tracks across the working area and the storage area. There is a slot in the middle of the upper end of the track. A driving wheel driven by a transmission power source is provided at one end of each track, and at the other end of each track Then there is a driven wheel, and a driven wheel top driving force source is provided corresponding to the driven wheel, so that the driven wheel top driving force source can push the driven wheel outward, and a bearing seat is provided in the track corresponding to the slot, and the driven wheel top driving force source can push the driven wheel outward. The bearing seat is retracted into the slot in the normal state. There are movable grooves running through the two ends of the bearing seat, and the bearing seat is retracted into the slot. Corresponding pulleys are provided on both sides of the two ends of the carrier base. Two corresponding pull groups are provided at both ends of the carrier base. The outer ends of the two pull groups are provided with pull pieces, and the inner ends of the two pull groups are provided with corresponding pulleys. Then they are connected by a reset connection unit, which pulls the two pulling groups to reset. The two pulling groups are connected to the movable grooves of the bearing base and are provided with guide wheels. The upper and lower edges of the guide wheels are exactly in line with the track. The upper and lower end surfaces of the inner edge are in contact, so that the pulling group can slide in the track using the guide wheel. In addition, the upper edges of the two pulling groups are corresponding to the pulleys pivoted on both sides of the two ends of the bearing seat. There is an accommodation concave arc groove, and the two pulling members of the two pulling groups are connected with a connecting pulling member. The connecting pulling member is wound between the driving wheel and the driven wheel provided at both ends of the track. The steel welding support mechanism as described in claim 1, wherein the support power source is either a hydraulic cylinder or a pneumatic cylinder. The profile steel welding support mechanism as described in claim 1, wherein the pushing force source against the top of the plate is either a hydraulic cylinder or a pneumatic cylinder. As claimed in claim 1, the steel welding support mechanism is characterized in that the driving force source of the driven wheel top can be either a hydraulic cylinder or a pneumatic cylinder.