阅读说明：本技术 一种热浸镀锌消防钢管生产输送装置 (Hot-dip galvanizing fire-fighting steel pipe production conveying device ) 是由 罗建春 李作彬 于 2021-09-01 设计创作，主要内容包括：本发明涉及热浸镀锌消防钢管技术领域,具体为一种热浸镀锌消防钢管生产输送装置,包括输送车底盘,输送车底盘上设置有若干均匀分布的夹持机构,且夹持机构包括两个对称分布的拦截组件,拦截组件包括挡板一、压力装置、支撑装置、挡板二和控制装置,挡板一的一侧连接有压力装置,挡板一的上端连接有支撑装置,本发明构造设计实现了双重工作模式,正常工作时挡板二会倾斜的分布在挡板一的一侧,降低对管材搬运工作的影响,一旦输送装置前进过程中,过度晃动,就会触发挡板二的拦截机制,即挡板二转动进而立在挡板一上,避免管材从输送装置上脱落,安全性更高。(The invention relates to the technical field of hot-dip galvanized fire-fighting steel pipes, in particular to a hot-dip galvanized fire-fighting steel pipe production conveying device which comprises a conveying vehicle chassis, wherein a plurality of uniformly distributed clamping mechanisms are arranged on the conveying vehicle chassis, the clamping mechanism comprises two intercepting components which are symmetrically distributed, each intercepting component comprises a first baffle plate, a pressure device, a supporting device, a second baffle plate and a control device, one side of the first baffle plate is connected with the pressure device, and the upper end of the first baffle plate is connected with the supporting device. The second baffle rotates and then stands on the first baffle, so that the pipes are prevented from falling off from the conveying device, and the safety is higher.)

1. The utility model provides a hot dip galvanizing fire control steel pipe production conveyor, includes delivery wagon chassis (1), its characterized in that: the conveying vehicle is characterized in that a plurality of clamping mechanisms which are uniformly distributed are arranged on a chassis (1) of the conveying vehicle, each clamping mechanism comprises two intercepting components (2) which are symmetrically distributed, each intercepting component (2) comprises a first baffle (3), a pressure device (4), a supporting device (5), a second baffle (6) and a control device (7), one side of the first baffle (3) is connected with the pressure device (4), the upper end of the first baffle (3) is connected with the supporting device (5), one side of the supporting device (5) is connected with the second baffle (6), the pressure device (4) is connected with the control device (7), part of the control device (7) protrudes into the supporting device (5), one side of the first baffle (3) is fixedly connected with a top plate (8), a clamping column (9) and a first spring (10) are arranged in the second baffle (6), one end of the clamping column (9) is contacted with the first spring (10), the other end of the clamping column (9) protrudes out of the second baffle (6), and one side of the clamping column (9) is connected with a braking device (11) and a clamping plate (12).

2. The hot-dip galvanized fire-fighting steel pipe production conveying device as claimed in claim 1, wherein: the clamping column (9) and the spring I (10) are movably sleeved in a cylindrical groove formed in the baffle II (6), a limiting column groove (32) is formed in the top of the baffle I (3), the clamping column (9) is cylindrical, an annular groove is formed in the outer side wall of the cylinder, one end of the clamping plate (12) extends into the annular groove of the clamping column (9), the clamping plate (12) and the braking device (11) are arranged in a plate cavity formed in the baffle II (6), and a plurality of tooth grooves which are uniformly distributed are formed in one side wall of the spring piece I (16).

3. The hot-dip galvanized fire-fighting steel pipe production conveying device as claimed in claim 1, wherein: the braking device (11) comprises a power plate (13), a positioning shaft (14), a pressure plate (15), a first spring piece (16) and an external column (17), wherein the power plate (13) is in a shape of a semicircular plate one side integrally connected cylinder, the positioning shaft (14) is movably sleeved in the cylinder of the power plate (13), the end part of the positioning shaft (14) is fixed on a second baffle plate (6), a plurality of uniformly distributed protruding teeth are fixedly connected to the outer side wall of the semicircular plate of the power plate (13), a clamping plate (12) and the power plate (13) are meshed and driven to be connected, one end of the power plate (13) is contacted with the pressure plate (15), the other end of the power plate (13) is contacted with the external column (17), the external column (17) partially extends to the outside of the second baffle plate (6), and one end of the pressure plate (15) is contacted with the first spring piece (16) in a wave plate shape.

4. The hot-dip galvanized fire-fighting steel pipe production conveying device as claimed in claim 1, wherein: pressure device (4) are including intercepting dish (18), spreader (19), locating piece (20) and second spring (21), locating piece (20) are fixed on transport vehicle chassis (1), and it has spreader (19) to run through on locating piece (20), and the one end fixedly connected with of spreader (19) intercepts dish (18), and the other end of spreader (19) is fixed on baffle one (3), and it has second spring (21) to fill up between baffle one (3) and locating piece (20), and second spring (21) cover is on spreader (19).

5. The hot-dip galvanized fire-fighting steel pipe production conveying device as claimed in claim 1, wherein: the control device (7) comprises a cushion frame (22), a lifting column (23), a second intercepting block (24), a second spring leaf (25) and an inclined column (26), wherein the lifting column (23) penetrates through the inclined column (26), the inclined column (26) is fixed on a positioning block (20), the cushion frame (22) is fixedly connected to one side of the inclined column (26), the lifting column (23) is arranged in a prism hole formed in the inclined column (26), a sliding groove is formed in the inner wall of one side of the prism hole, the second intercepting block (24) and the second wavy spring leaf (25) are arranged in the sliding groove, the second intercepting block (24) is fixed on the lifting column (23), and a triangular groove (33) is formed in one side wall of the lifting column (23).

6. The hot-dip galvanized fire-fighting steel pipe production conveying device as claimed in claim 1, wherein: the supporting device (5) comprises a control body (27), side lug plates (28), a control shaft (29), three spring pieces (30) and three intercepting blocks (31), wherein the control body (27) is in the shape of a cylinder and is integrally connected with a prism on one side, one end of the control body (27) is fixed on the second baffle plate (6), the control shaft (29) is sleeved in the control body (27), the two ends of the control shaft (29) are fixedly connected with the side lug plates (28), the side lug plates (28) are fixed on the first baffle plate (3), one side of the control shaft (29) is fixedly connected with the third intercepting blocks (31), one end of the third intercepting blocks (31) is in contact with a wave-plate-shaped limiting column groove (32), the third intercepting blocks (31) and the limiting column groove (32) are arranged in an arc-shaped column groove formed in the control body (27), and a square groove is formed in one side wall of the control body (27).

Technical Field

The invention relates to the technical field of hot-dip galvanized fire-fighting steel pipes, in particular to a production and conveying device for hot-dip galvanized fire-fighting steel pipes.

Background

In the production and processing process of hot-dip galvanized fire-fighting steel pipes in the prior art, a factory conveying device is required, the function of a common conveying device is single, the safety is required to be improved, the conveying device is improved, the automatic control capability of the conveying device is improved, and the hot-dip galvanized fire-fighting steel pipe production system has important significance.

If the conveying device has multiple working modes, the convenience of carrying the pipes on the conveying device is improved, and the conveying device has an emergency safety protection function, the problems can be solved, and the hot-dip galvanizing fire-fighting steel pipe production conveying device is provided.

Disclosure of Invention

The invention aims to provide a hot-dip galvanized fire-fighting steel pipe production conveying device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a hot dip galvanizing fire control steel pipe production conveyor, includes the delivery wagon chassis, be provided with a plurality of evenly distributed's fixture on the delivery wagon chassis, and fixture includes the interception subassembly of two symmetric distributions, the interception subassembly includes baffle one, pressure device, strutting arrangement, baffle two and controlling means, one side of baffle one is connected with pressure device, the upper end of baffle one is connected with strutting arrangement, and one side of strutting arrangement is connected with baffle two, the last controlling means that is connected with of pressure device, the controlling means part protrusion is to strutting arrangement in, one side fixedly connected with roof of baffle one, be provided with screens post and spring one in the baffle two, the one end contact of screens post has spring one, and the other end protrusion of screens post is outside to baffle two, one side of screens post is connected with arresting gear and cardboard.

Preferably, the clamping column and the first spring piece are movably sleeved in a cylindrical groove formed in the second baffle plate, a limiting column groove is formed in the top of the first baffle plate, the clamping column is cylindrical, an annular groove is formed in the outer side wall of the cylindrical column, one end of the clamping plate extends into the annular groove of the clamping column, the clamping plate and the braking device are arranged in a plate cavity formed in the second baffle plate, and a plurality of tooth grooves which are uniformly distributed are formed in one side wall of the first spring piece.

Preferably, arresting gear includes power plate, location axle, pressure plate, spring leaf one and external post, the power plate shape is semicircle board one side body coupling drum, the location axle has been cup jointed in the drum activity of power plate, the end fixing of location axle is on baffle two, a plurality of evenly distributed's of fixedly connected with protruding tooth on the semicircle board lateral wall of power plate, cardboard and power plate meshing transmission are connected, the one end contact pressure plate of power plate, the other end contact of power plate has external post, external post part extends to baffle two outsides, the one end contact of pressure plate has wave plate shape spring leaf one.

Preferably, the pressure device comprises a blocking disc, a cross column, a positioning block and a second spring, the positioning block is fixed on the chassis of the conveyor vehicle, the cross column penetrates through the positioning block, one end of the cross column is fixedly connected with the blocking disc, the other end of the cross column is fixed on a first baffle plate, the second spring is padded between the first baffle plate and the positioning block, and the second spring is sleeved on the cross column.

Preferably, the control device comprises a cushion frame, a lifting column, a blocking block II, a spring piece II and an inclined column, wherein the lifting column penetrates through the inclined column, the inclined column is fixed on the positioning block, the cushion frame is fixedly connected to one side of the inclined column, the lifting column is arranged in a prism hole formed in the inclined column, a sliding groove is formed in the inner wall of one side of the prism hole, the blocking block II and the wave plate-shaped spring piece II are arranged in the sliding groove, the blocking block II is fixed on the lifting column, and a triangular groove is formed in one side wall of the lifting column.

Preferably, the supporting device comprises a control body, a lateral ear plate, a control shaft, a spring piece III and a blocking block III, the control body is in the shape of a cylinder, one side of the control body is integrally connected with a prism, one end of the control body is fixed on the baffle II, the control shaft is sleeved in the control body, the two ends of the control shaft are fixedly connected with the lateral ear plates, the lateral ear plates are fixed on the baffle I, one side of the control shaft is fixedly connected with the blocking block III, one end of the blocking block III is in contact with a limiting column groove in the shape of a wave plate, the blocking block III and the limiting column groove are arranged in an arc column groove formed in the control body, and a square groove is formed in one side wall of the control body.

Compared with the prior art, the invention has the beneficial effects that:

1. the structure design of the pipe conveying device realizes a dual working mode, the baffle II can be obliquely distributed on one side of the baffle I during normal work, the influence on the pipe conveying work is reduced, once the conveying device moves forwards, excessive shaking can trigger the interception mechanism of the baffle II, namely the baffle II rotates to stand on the baffle I, the pipe is prevented from falling off from the conveying device, and the safety is higher;

2. according to the invention, through the design of the interception component, a stable and efficient control transmission function is realized, once the conveying device moves and excessively shakes, a pipe protection mechanism is automatically triggered, and the design of parts is exquisite.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a diagram of a distribution of interception element locations;

FIG. 3 is a schematic diagram of a structure of an intercepting component;

FIG. 4 is a schematic view of the structure of the positioning posts;

FIG. 5 is a schematic view of the structure at A in FIG. 4;

FIG. 6 is a schematic view of a baffle structure;

FIG. 7 is a schematic view of the pressure device;

FIG. 8 is a schematic structural diagram of a control device;

fig. 9 is a schematic structural view of the supporting device.

In the figure: the device comprises a conveying vehicle chassis 1, an intercepting component 2, a baffle I3, a pressure device 4, a supporting device 5, a baffle II 6, a control device 7, a top plate 8, a clamping column 9, a spring I10, a braking device 11, a clamping plate 12, a power plate 13, a positioning shaft 14, a pressure plate 15, a spring piece I16, an external column 17, an intercepting disc 18, a cross column 19, a positioning block 20, a spring II 21, a cushion frame 22, a lifting column 23, an intercepting block II 24, a spring piece II 25, an inclined column 26, a control body 27, a side lug plate 28, a control shaft 29, a spring piece III 30, an intercepting block III 31, a limiting column groove 32 and a triangular groove 33.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art without creative efforts based on the technical solutions of the present invention belong to the protection scope of the present invention.

Referring to fig. 1 to 9, the present invention provides a technical solution: a hot-dip galvanizing fire-fighting steel pipe production conveying device, which comprises a conveying vehicle chassis 1, wherein a plurality of clamping mechanisms which are uniformly distributed are arranged on the conveying vehicle chassis 1, the clamping mechanism comprises two intercepting components 2 which are symmetrically distributed, each intercepting component 2 comprises a first baffle plate 3, a pressure device 4, a supporting device 5, a second baffle plate 6 and a control device 7, one side of the first baffle plate 3 is connected with the pressure device 4, the upper end of the first baffle plate 3 is connected with the supporting device 5, one side of the supporting device 5 is connected with the second baffle plate 6, the pressure device 4 is connected with the control device 7, part of the control device 7 protrudes into the supporting device 5, one side fixedly connected with roof 8 of baffle 3, be provided with screens post 9 and spring 10 in the baffle two 6, the one end contact of screens post 9 has spring 10, and the other end of screens post 9 protrudes to baffle two 6 outsides, and one side of screens post 9 is connected with arresting gear 11 and cardboard 12.

The clamping column 9 and the first spring 10 are movably sleeved in a cylindrical groove formed in the second baffle 6, the top of the first baffle 3 is provided with a limiting column groove 32, the clamping column 9 is cylindrical, a circular groove is formed in the outer side wall of the cylindrical column, one end of the clamping plate 12 extends into the circular groove of the clamping column 9, the clamping plate 12 and the braking device 11 are arranged in a plate cavity formed in the second baffle 6, and a plurality of uniformly distributed tooth grooves are formed in one side wall of the first spring piece 16.

The braking device 11 comprises a power plate 13, a positioning shaft 14, a pressure plate 15, a first spring piece 16 and an external column 17, wherein the power plate 13 is in a shape of a semicircular plate one side integrally connected cylinder, the positioning shaft 14 is movably sleeved in the cylinder of the power plate 13, the end part of the positioning shaft 14 is fixed on a second baffle plate 6, a plurality of uniformly distributed protruding teeth are fixedly connected to the outer side wall of the semicircular plate of the power plate 13, a clamping plate 12 is in meshing transmission connection with the power plate 13, one end of the power plate 13 is contacted with the pressure plate 15, the other end of the power plate 13 is contacted with the external column 17, the external column 17 partially extends to the outside of the second baffle plate 6, and one end of the pressure plate 15 is contacted with the first spring piece 16 in a shape of a wave plate.

The pressure device 4 comprises a blocking disc 18, a cross column 19, a positioning block 20 and a second spring 21, the positioning block 20 is fixed on the conveying vehicle chassis 1, the cross column 19 penetrates through the positioning block 20, one end of the cross column 19 is fixedly connected with the blocking disc 18, the other end of the cross column 19 is fixed on a first baffle plate 3, the second spring 21 is padded between the first baffle plate 3 and the positioning block 20, and the second spring 21 is sleeved on the cross column 19.

The control device 7 comprises a cushion frame 22, a lifting column 23, a second intercepting block 24, a second spring piece 25 and an oblique column 26, wherein the lifting column 23 penetrates through the oblique column 26, the oblique column 26 is fixed on the positioning block 20, the cushion frame 22 is fixedly connected to one side of the oblique column 26, the lifting column 23 is arranged in a prism hole formed in the oblique column 26, a sliding groove is formed in the inner wall of one side of the prism hole, the second intercepting block 24 and the second wavy spring piece 25 are arranged in the sliding groove, the second intercepting block 24 is fixed on the lifting column 23, and a triangular groove 33 is formed in one side wall of the lifting column 23.

The supporting device 5 comprises a control body 27, a side ear plate 28, a control shaft 29, a spring piece III 30 and a blocking block III 31, wherein the control body 27 is in the shape of a cylinder, one side of the control body 27 is integrally connected with a prism, one end of the control body 27 is fixed on a baffle II 6, the control shaft 29 is sleeved in the control body 27, two ends of the control shaft 29 are fixedly connected with the side ear plate 28, the side ear plate 28 is fixed on the baffle I3, one side of the control shaft 29 is fixedly connected with the blocking block III 31, one end of the blocking block III 31 is in contact with a wavy limiting column groove 32, the blocking block III 31 and the limiting column groove 32 are arranged in an arc column groove formed in the control body 27, one side wall of the control body 27 is formed with a square groove, as can be understood with reference to fig. 3 and 8, the top of the lifting column 23 is engaged in the square groove of the control body 27, once the lifting column 23 falls and is separated from the control body 27, the control body 27 rotates reversely to drive the second baffle 6, and the second baffle 6 rotates to finally stand on the first baffle 3.

The working principle is as follows: the pipe is placed above the conveying vehicle chassis 1, the intercepting components 2 on two sides are matched with and used for clamping the pipe, the first spring 21 elastically supports the first baffle 3, the first baffle 3 is supported to ensure stable contact among a plurality of pipes, the second spring 21 plays a role in buffering the shaking pressure on the pipe, if the shaking pressure is too large, the pipe can roll off from the conveying vehicle chassis 1, the existence significance of the second baffle 6 is shown, when the shaking pressure is not large, the second baffle 6 is stable and immovable on one side of the first baffle 3, so that the height of the integral intercepting component 2 is reduced, the conveying work of the pipe on the conveying vehicle chassis 1 is not influenced, when the pressure is too large, the second baffle 6 rotates to stand on the first baffle 3 to play a role in reinforcing the intercepting effect, specifically, the first baffle 3 is impacted by the pipe to move excessively, the first baffle 3 drives the top plate 8, the top plate 8 moves and is inserted into the triangular groove 33, the lifting column 23 is forced to fall, the lifting column 23 is pulled out from the control body 27, the control body 27 rotates to drive the baffle II 6 under the elastic pushing of the spring piece III 30, the baffle II 6 rotates to vertically fall on the baffle I3, the baffle II 6 is abutted with the baffle I3, the external column 17 is pushed back to the baffle II 6, the external column 17 jacks the power plate 13, the power plate 13 overcomes the elastic pushing influence of the spring piece I16 to rotate, the power plate 13 drives the clamping plate 12, the clamping plate 12 is pulled out from the clamping column 9, the clamping column 9 loses clamping control, the clamping column 9 is inserted into the limiting column groove 32 under the elastic pushing of the spring piece I10, and the effect of reinforcing and connecting the baffle I3 and the baffle II 6 is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.