CN103846642A

CN103846642A - Rotary pressing device

Info

Publication number: CN103846642A
Application number: CN201210503115.3A
Authority: CN
Inventors: 沈皓然
Original assignee: Suzhou Goldway Technologies Co Ltd
Current assignee: Suzhou Goldway Technologies Co Ltd
Priority date: 2012-11-30
Filing date: 2012-11-30
Publication date: 2014-06-11

Abstract

The invention provides a rotary pressing device, comprising a pressing platform for placing assembly parts, a bearing arranged on one side of the pressing platform and a compression rod which is mounted on the bearing and can rotate along with the bearing. Thereby, after being placed on the pressing platform, the assembly parts can be pressed and fixed on the pressing platform by horizontally rotating the compression rod along one direction, and the assembly parts can be taken out from the pressing platform by horizontally rotating the compression rod along the opposite direction.

Description

Rotary compacting device

Technical field

The present invention relates to a kind of fastener, relate in particular to a kind of rotary compacting device without controlling fastening dynamics.

Background technology

At present, cable is placed into compacting platform on carry out some operation before, often need cable to be fixed.On described compacting platform, be provided with to accommodate cable and the adjustable accepting groove of size, and existing fastener normally limits the size of accepting groove and then realizes the fastening of cable by controlling the dynamics of fastening cable.But in the time of concrete operations, be difficult to control the dynamics of fastening cable: if dynamics is less, probably cause cable to skid off; If dynamics is larger, probably causes cable distortion or damage.Thereby existing fastener is difficult to guarantee intact fastened of cable.

In view of this, be necessary existing fastener to be improved, to address the above problem.

Summary of the invention

The object of the present invention is to provide a kind of novel rotary compacting device, this rotary compacting device simple to operate and without control fastening dynamics.

For achieving the above object, the invention provides a kind of rotary compacting device, it comprise placing assembly parts compacting platform, be arranged at the bearing of described compacting platform one side and be arranged on described bearing and can be with the depression bar of described bearing rotary, to put on described compacting platform at assembly parts after, horizontally rotate described depression bar described assembly parts are compressed and to be fixed on described compacting platform along a direction; When described compacting platform takes out assembly parts, along horizontally rotating described depression bar in the other direction.

As a further improvement on the present invention, described compacting platform is provided with to accommodate the accepting groove of described assembly parts.

As a further improvement on the present invention, described depression bar horizontally rotates when perpendicular to described compacting platform along a direction, and the end of described depression bar exceeds described accepting groove.

As a further improvement on the present invention, described rotary compacting device also comprises erection column, and described bearing is contained in described erection column.

As a further improvement on the present invention, in described erection column, also contain to promote the cylinder of described bearing rotary.

The invention has the beneficial effects as follows: rotary compacting device of the present invention is suppressed platform by being provided with, being arranged at the bearing of described compacting platform one side and being arranged on also can be with the depression bar of described bearing rotary on described bearing, thereby after assembly parts being put on described compacting platform, horizontally rotating described depression bar along a direction can compress described assembly parts be fixed on described compacting platform; When described compacting platform takes out assembly parts, along horizontally rotating described depression bar in the other direction, easy and simple to handle and just assembly parts can be fastened on described compacting platform without the fastening dynamics of control.

Accompanying drawing explanation

Fig. 1 is the stereogram of assembly parts welder of the present invention.

Fig. 2 is the stereogram of rotary compacting device in the welder of assembly parts shown in Fig. 1.

Fig. 3 is the part stereogram of heater in the welder of assembly parts shown in Fig. 1.

Fig. 4 is the stereogram of liftout attachment in the welder of assembly parts shown in Fig. 1.

Fig. 5 is the stereogram of protective cover in the welder of assembly parts shown in Fig. 1.

The specific embodiment

In order to make the object, technical solutions and advantages of the present invention clearer, describe the present invention below in conjunction with the drawings and specific embodiments.

As shown in Figures 1 to 4, assembly parts welder 100 of the present invention is in order to be welded to two pins of assembly parts (not shown) on wheel speed sensors (not shown).Described assembly parts welder 100 comprise placing assembly parts and wheel speed sensors compacting platform 10, be arranged at described compacting platform 10 1 sides described assembly parts be fastened on to rotary compacting device 20 on described compacting platform 10, be arranged at described compacting platform 10 rear sides described pin is heated to the heater 30 of welding and the liftout attachment 40 after described assembly parts are welded on described wheel speed sensors, described wheel speed sensors being ejected.

As shown in Fig. 2 and Fig. 4, the first half section of described compacting platform 10 is provided with to accommodate the first accepting groove 11 of described assembly parts, useful to place the groove 12 of described wheel speed sensors to lower recess from the second half section of described compacting platform 10 upper surface.On described compacting platform 10, corresponding described groove 12 lower surface places offer the hole 13 that runs through up and down described compacting platform 10.

The depression bar 22 that described rotary compacting device 20 comprises described compacting platform 10, is arranged at the bearing 21 of described compacting platform 10 1 sides and is arranged on described bearing 21 and can rotates with described bearing 21.On described depression bar 22, be provided with a through hole 221 and pass for described bearing 21, thereby when described bearing 21 rotates, can drive described depression bar 22 to rotate.When the original state of described depression bar 22 in not using and described the first accepting groove 11 be arranged in parallel, thereby after described assembly parts being placed on described compacting platform 10, only need horizontally rotate in the counterclockwise direction described depression bar 22 can compress described assembly parts be fixed on described compacting platform 10; And need to, by described assembly parts when described compacting platform 10 takes off, only need horizontally rotate along clockwise direction described depression bar 22 to original state.

Described depression bar 22 horizontally rotates when perpendicular to described compacting platform 10 in the counterclockwise direction, the end of described depression bar 22 exceeds described the first accepting groove 11, thereby described depression bar 22 can compress the assembly parts in described the first accepting groove 11, in case described assembly parts skid off from described the first accepting groove 11.

Described rotary compacting device 20 also comprises erection column 23, the first cylinder (not shown) that contains described bearing 21 in described erection column 23 and rotate in order to promote described bearing 21.The upper surface of described erection column 23 is lower than the upper surface of described compacting platform 10, to make leaving less gap between the lower surface of described depression bar 22 and the upper surface of described compacting platform 10, thereby facilitate described assembly parts to be contained in described the first accepting groove 11 and described assembly parts can not be extruded and be out of shape.

As Fig. 3 and in conjunction with as shown in Fig. 1, described heater 30 comprises rivet hot 31, be contained in described rivet hot 31 with to described rivet hot 31 heating rod that heat (not shown) and in order to drive described rivet hot 31 four-cylinder 33 that move up and down.In described rivet hot 31, be provided with to accommodate the second accepting groove 311 of described heating rod, and described rivet hot 31 is run through in described the second accepting groove 311 left and right.In present embodiment, the quantity of described heating rod is two, thereby the quantity of described the second accepting groove 311 is also two.

The outer useful weldment 32 so that described assembly parts are welded of projection of one side direction of described rivet hot 31.The end 321 of described weldment 32 is outstanding extension outwards, after described rivet hot 31 being heated to uniform temperature at described heating rod, the pin of described assembly parts heated to welding.Other parts of fine of the more described weldment 32 of end 321 of described weldment 32, to make described weldment 32 be T-shaped in the cross section of vertical direction, thereby in the time that the end 321 of described weldment 32 heats welding to the pin of described assembly parts, the end 321 of described weldment 32 not only can concentrate temperature to heat welding to the pin of described assembly parts, also can avoid Yin Gaowen simultaneously and causes distance other nearer damage of components of described assembly parts pin.

As shown in Figure 4, described liftout attachment 40 comprise described compacting platform 10, be supported on the support column 41 of described compacting platform 10 belows, the second cylinder 43 that is arranged on the fore-set 42 of described support column 41 1 sides and moves up and down in order to promote described fore-set 42.Described support column 41 is L-type setting, and described fore-set 42 is also arranged at the below of described compacting platform 10.Between described support column 41 and described fore-set 42, be connected with connector 44, described connector 44 is also L-type setting.One side of described connector 44 passes for described fore-set 42, and another side is fixedly mounted on described support column 41, to be fixedly connected with described support column 41 and described fore-set 42.

Described the second cylinder 43 is arranged at the left and right sides of described fore-set 42 lower semisections.The setting corresponding to described hole 13 of described fore-set 42, moves upward and makes the top of described fore-set 42 pass described hole 13 so that the described wheel speed sensors being positioned in described groove 12 is ejected thereby described the second cylinder 43 can promote described fore-set 42.In present embodiment, the all rounded settings of the top of described fore-set 42 and described hole 13, and in other embodiments, the top of described fore-set 42 and described hole 13 also can be other shape settings, as long as the top of described fore-set 42 can be passed from described hole 13.

As Fig. 5 and in conjunction with as shown in Fig. 1, assembly parts welder 100 of the present invention is also provided with to guarantee the protective cover 50 of each equipment safety operation.Described protective cover 50 comprises upper cover 51, be arranged at described upper cover 51 belows and dimension scale is less than the lower cover 52 of described upper cover 51 dimension scales and through three cylinder 53 of described upper cover 51 to be connected with described lower cover 52.In present embodiment, the setting that is all square of described upper cover 51 and described lower cover 52.

The top of described lower cover 52 is provided with fixed block 521, and one end of described the 3rd cylinder 53 is connected with described fixed block 521, thereby described the 3rd cylinder 53 can pull described fixed block 521 and drive described lower cover 52 to move upward.

The length of described upper cover 51 and width are all greater than length and the width of described lower cover 52, and the top of described lower cover 52 is housed in described upper cover 51.The top of described upper cover 51 offers the square hole (not label) passing for described the 3rd cylinder 53, thereby described the 3rd cylinder 53 can be connected with described fixed block 521 through described square hole, and then in the time that described the 3rd cylinder 53 pulls described lower cover 52 to move upward, described lower cover 52 can be contained in described upper cover 51, not only save space, processing safety is also higher simultaneously.

As shown in Figures 1 to 4, in the time using assembly parts welder 100 of the present invention, first described assembly parts are placed on described compacting platform 10, then described the first cylinder promotes described bearing 21 and rotates and drive described depression bar 22 to horizontally rotate in the counterclockwise direction to vertical with described compacting platform 10, thereby described assembly parts can be fastened in described the first accepting groove 11; Following described heating rod heats described rivet hot 31, be heated to after uniform temperature until described weldment 32, described four-cylinder 33 drives described rivet hot 31 to move down that the pin of described assembly parts is heated to welding, after treating that described assembly parts are welded on described wheel speed sensors, described four-cylinder 33 drives described rivet hot 31 to move up to carry out next step; Last described the second cylinder 43 promotes described fore-set 42 and moves upward to make the top of described fore-set 42 through described hole 13, thereby the described wheel speed sensors being positioned in described groove 12 is ejected.

Assembly parts welder 100 of the present invention is in the time of operating state; described protective cover 50 is always in closed state; after as ready completes, described the 3rd cylinder 53 just pulls described lower cover 52 to move upward, with the described wheel speed sensors that facilitates artificial taking-up to weld.Not only can guarantee like this security of operation, can also prevent from accidentally injuring operator simultaneously in operation.

In sum, assembly parts welder 100 of the present invention is by being provided with to place the compacting platform 10 of described assembly parts and described wheel speed sensors, be arranged at described compacting platform 10 1 sides described assembly parts are fastened on to the rotary compacting device 20 on described compacting platform 10, be arranged at described compacting platform 10 rear sides the pin of described assembly parts is heated to the heater 30 of welding and the liftout attachment 40 after described assembly parts are welded on described wheel speed sensors, described wheel speed sensors being ejected, thereby described assembly parts welder 100 can guarantee described assembly parts and can accurately and stably be welded on described wheel speed sensors, simple to operate and security is better.

Above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement technical scheme of the present invention, and not depart from the spirit and scope of technical solution of the present invention.

Claims

1. a rotary compacting device, it is characterized in that: described rotary compacting device comprise placing assembly parts compacting platform, be arranged at the bearing of described compacting platform one side and be arranged on described bearing and can be with the depression bar of described bearing rotary, to put on described compacting platform at assembly parts after, horizontally rotate described depression bar described assembly parts are compressed and to be fixed on described compacting platform along a direction; When described compacting platform takes out assembly parts, along horizontally rotating described depression bar in the other direction.

2. rotary compacting device according to claim 1, is characterized in that: described compacting platform is provided with to accommodate the accepting groove of described assembly parts.

3. rotary compacting device according to claim 2, is characterized in that: described depression bar horizontally rotates when perpendicular to described compacting platform along a direction, and the end of described depression bar exceeds described accepting groove.

4. rotary compacting device according to claim 1, is characterized in that: described rotary compacting device also comprises erection column, and described bearing is contained in described erection column.

5. rotary compacting device according to claim 4, is characterized in that: the cylinder that also contains to promote described bearing rotary in described erection column.