CN213977846U - Automatic hook device for hot dip galvanizing - Google Patents

Abstract

The utility model discloses a hot dipping zinc is with automatic couple device, include: the lifting device comprises a support frame, a lifting mechanism and a lifting mechanism, wherein a horizontal moving structure and a lifting fixing structure are arranged on the support frame, and an automatic hook structure is arranged on the horizontal moving structure; the automatic hook structure includes: the device comprises a plurality of concave hook blocks with the same structure, a hydraulic tank, a liquid pump, a shunt valve, a plurality of T-shaped telescopic rods with the same structure and a plurality of T-shaped locking rods with the same structure; the utility model relates to a hot dipping zinc technical field, go up and down to rotate the couple structure through lift fixed knot structure and go up and down to a take the altitude, make things convenient for automatic couple structure operation, the part extrusion that will transport through lift fixed knot structure and automatic couple structure is colluded, transports the position that needs processing through the horizontal migration structure with the structural part of rotation couple, has avoided artifical transport to enter into and has worked under the dangerous environment such as pickling airtight.

Description

Automatic hook device for hot dip galvanizing

Technical Field

The utility model relates to a hot dipping zinc technical field specifically is a hot dipping zinc is with automatic couple device.

Background

Hot galvanizing is the process of combining a substrate and a coating by reacting molten metal with an iron substrate to produce an alloy layer. In order to remove iron oxide on the surface of a steel part, the steel part is washed with acid, and then cleaned in an ammonium chloride or zinc chloride aqueous solution or an ammonium chloride and zinc chloride mixed aqueous solution tank, and then sent into a hot-dip galvanizing tank, and the hot-dip galvanizing tank is harmful to a human body under the condition of long-term use.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a hot dipping is automatic couple device for zinc, has solved current partial background technical problem.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an automatic hooking device for hot dip galvanizing, comprising: the lifting device comprises a support frame, a lifting mechanism and a lifting mechanism, wherein a horizontal moving structure and a lifting fixing structure are arranged on the support frame, and an automatic hook structure is arranged on the horizontal moving structure;

the automatic hook structure includes: the device comprises a plurality of concave hook blocks with the same structure, a hydraulic tank, a liquid pump, a shunt valve, a plurality of T-shaped telescopic rods with the same structure and a plurality of T-shaped locking rods with the same structure;

a plurality of concave type couple piece is installed respectively on lift fixed knot constructs, a plurality of couple groove and locking groove have been seted up respectively on the concave type couple piece, a plurality of T type telescopic link activity cartridge respectively in a plurality of in the couple inslot, a plurality of T type locking lever is installed respectively in a plurality of locking groove is last, a plurality of the locking mouth has been seted up respectively on the T type telescopic link, the hydraulic tank is installed on lift fixed knot constructs, the drawing liquid pump is installed on the hydraulic tank, shunt valve installs on the drawing liquid pump.

Preferably, the horizontal moving structure comprises: the device comprises a pair of horizontal moving lead screw modules with the same structure, a moving plate, a pair of horizontal moving blocks with the same structure and a plurality of auxiliary balls with the same structure;

the pair of horizontal moving screw modules are horizontally and parallelly installed on the supporting frame, the moving plate is installed at the moving ends of the pair of horizontal moving screw modules, the pair of horizontal moving blocks are horizontally and parallelly installed on the supporting frame and located on the inner sides of the pair of horizontal moving screw modules, a plurality of auxiliary ball grooves with the same structure are uniformly formed in the pair of horizontal moving blocks, and the plurality of auxiliary balls are movably installed in the plurality of auxiliary ball grooves respectively.

Preferably, the lifting fixing structure comprises: the device comprises a lifting plate, two pairs of lifting winches with the same structure, two pairs of weight reduction pulley blocks with the same structure, two pairs of fixed blocks with the same structure, eight pairs of expansion blocks with the same structure, a fixed hydraulic tank and a liquid filling pump;

the lifting device comprises two pairs of fixed blocks, eight pairs of expansion convex grooves with the same structure are formed in the fixed blocks respectively, the expansion blocks are movably inserted into the eight pairs of expansion convex grooves respectively, a fixed hydraulic box is installed on a movable plate, a liquid filling pump is installed on the fixed hydraulic box and installed on the two pairs of fixed blocks, the weight reducing pulley blocks are installed on the movable plate, the lifting winches are installed on the movable plate and are inserted into the two pairs of lifting plates connected with the weight reducing pulley blocks 17 respectively, the concave hook blocks are evenly installed on the lifting plates, and the hydraulic boxes are installed on the lifting plates.

Preferably, the moving plate is provided with a CCD positioning camera.

Preferably, the support frame is provided with a correlation type photoelectric switch.

Preferably, the concave hook block is provided with an infrared locator.

Advantageous effects

The utility model provides an automatic hook device for hot-dip galvanizing. The method has the following beneficial effects: this hot dipping is automatic couple device for zinc-plating will rotate the couple structure through the lift fixed knot structure and go up and down to a take the altitude, makes things convenient for the operation of automatic couple structure, and the part extrusion that will transport through lift fixed knot structure and automatic couple structure is colluded, transports the position that needs processing through the horizontal migration structure with the structural part of rotation couple, has avoided artifical transport to enter into work under the dangerous environment such as pickling airtight room.

Drawings

Fig. 1 is a schematic side view and sectional view of an automatic hook device for hot-dip galvanizing.

Fig. 2 is a schematic sectional view of the automatic hook device for hot dip galvanizing according to the present invention.

Fig. 3 is a schematic view of an automatic hook structure of an automatic hook device for hot dip galvanizing.

In the figure: 1-a support frame; 2-concave hook block; 3-a hydraulic tank; 4-a liquid pump; 5-a shunt valve; 6-T type telescopic rod; 7-T-shaped locking rods; 8-hook groove; 9-locking groove; 10-horizontally moving a lead screw module; 11-moving the plate; 12-a horizontal moving block; 13-an auxiliary ball; 14-auxiliary ball grooves; 15-a lifter plate; 16-lifting the hoist; 17-a weight-reducing pulley block; 18-fixing block; 19-an extension block; 20-fixing a hydraulic liquid tank; 21-liquid filling pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.

Example (b): as shown in the attached drawings 1-3, a horizontal moving structure and a lifting fixing structure are arranged on the support frame 1, and an automatic hook structure is arranged on the horizontal moving structure; the automatic hook structure includes: the device comprises a plurality of concave hook blocks 2 with the same structure, a hydraulic tank 3, a liquid pump 4, a shunt valve 5, a plurality of T-shaped telescopic rods 6 with the same structure and a plurality of T-shaped locking rods 7 with the same structure; the lifting fixing structure is characterized in that a plurality of concave hook blocks 2 are respectively arranged on the lifting fixing structure, hook grooves 8 and locking grooves 9 are respectively formed in the concave hook blocks 2, a plurality of T-shaped telescopic rods 6 are respectively movably inserted into the hook grooves 8, a plurality of T-shaped locking rods 7 are respectively arranged on the locking grooves 9, locking ports are respectively formed in the T-shaped telescopic rods 6, the hydraulic box 3 is arranged on the lifting fixing structure, the liquid pump 4 is arranged on the hydraulic box 3, and the shunt valve 5 is arranged on the liquid pump 4; the horizontal moving structure comprises: the device comprises a pair of horizontal moving screw modules 10 with the same structure, a moving plate 11, a pair of horizontal moving blocks 12 with the same structure and a plurality of auxiliary balls 13 with the same structure; the pair of horizontal moving lead screw modules 10 are horizontally and parallelly installed on the support frame 1, the moving plate 11 is installed at the moving ends of the pair of horizontal moving lead screw modules 10, the pair of horizontal moving blocks 12 are horizontally and parallelly installed on the support frame 1, the pair of horizontal moving blocks 12 are located at the inner sides of the pair of horizontal moving lead screw modules 10, a plurality of auxiliary ball grooves 14 with the same structure are uniformly formed in the pair of horizontal moving blocks 12, and a plurality of auxiliary balls 13 are respectively and movably installed in the plurality of auxiliary ball grooves 14; the lifting fixing structure comprises: the device comprises a lifting plate 15, two pairs of lifting winches 16 with the same structure, two pairs of weight reduction pulley blocks 17 with the same structure, two pairs of fixed blocks 18 with the same structure, eight pairs of expansion blocks 19 with the same structure, a fixed hydraulic tank 20 and a liquid filling pump 21; the two pairs of fixed blocks 18 are mounted at the bottom end of the movable plate 11, the two pairs of fixed blocks 18 are respectively provided with two pairs of extended convex grooves with the same structure, the eight pairs of extended blocks 19 are respectively and movably inserted into the eight pairs of extended convex grooves, the fixed hydraulic tank 20 is mounted on the movable plate 11, the liquid filling pump 21 is mounted on the fixed hydraulic tank 20, the liquid filling pump 21 is mounted on the two pairs of fixed blocks 18, the two pairs of weight reducing pulley blocks 17 are mounted on the movable plate 11, the two pairs of lifting winches 16 are respectively inserted into the lifting plates 15 connected with the two pairs of weight reducing pulley blocks 17, the plurality of concave hook blocks 2 are uniformly mounted on the lifting plates 15, and the hydraulic tank 3 is mounted on the lifting plates 15; a CCD positioning camera is arranged on the moving plate 11; the support frame 1 is provided with a correlation type photoelectric switch; the concave hook block 2 is provided with an infrared locator.

From the above, it follows: liquid in a hydraulic tank 3 is pumped to a shunt valve 5 through a liquid pump 4, hydraulic pressure is drained to a plurality of hook grooves 8 through the shunt valve 5, so that T-shaped telescopic rods 6 in a plurality of hook grooves 8 are pushed, the T-shaped telescopic rods 6 are pushed into the hook grooves 8, the hydraulic pressure is drained into locking grooves 9 under the control of the shunt valve 5, T-shaped locking rods 7 in the locking grooves 9 are pushed into locking holes in the T-shaped telescopic rods 6, so that the T-shaped telescopic rods 6 are fixed, the T-shaped telescopic rods 6 are stretched into equipment to be lifted through the telescopic T-shaped telescopic rods 6, a lifting plate 15 on the lifting plate is pulled to lift through two pairs of lifting winch 16, the stretching gravity of two pairs of lifting winch 16 is reduced through two pairs of weight reducing pulley blocks 17, and two pairs of fixing blocks 18 on a moving plate 11 are inserted into the lifting plate 15 through stretching of the lifting plate 15, liquid in a fixed hydraulic liquid tank 20 is pumped to the two pairs of fixed blocks 18 through a liquid filling pump 21, eight pairs of expansion blocks 19 in the two pairs of fixed blocks 18 are pushed out through hydraulic pressure, so that the eight pairs of expansion blocks 19 fix the lifting plate 15 on the two pairs of fixed blocks 18, the moving plate 11 on the driving end is driven through the operation of the pair of horizontally moving lead screw modules 10, the two pairs of fixed blocks 18 on the moving plate 11 and the lifting plate 15 on the two pairs of fixed blocks 18 are driven to horizontally move through the movement of the moving plate 11, the positions of parts needing to be carried are positioned through a CCD positioning camera, and the operation of the pair of horizontally moving lead screw modules 10 is controlled.

Preferably, the horizontal moving structure further comprises: the device comprises a pair of horizontal moving screw modules 10 with the same structure, a moving plate 11, a pair of horizontal moving blocks 12 with the same structure and a plurality of auxiliary balls 13 with the same structure;

the pair of horizontal movement screw modules 10 are horizontally and parallelly installed on the support frame 1, the moving plate 11 is installed at the moving ends of the pair of horizontal movement screw modules 10, the pair of horizontal moving blocks 12 are horizontally and parallelly installed on the support frame 1, the pair of horizontal moving blocks 12 are located at the inner sides of the pair of horizontal movement screw modules 10, a plurality of auxiliary ball grooves 14 with the same structure are uniformly formed in the pair of horizontal moving blocks 12, and the plurality of auxiliary balls 13 are respectively and movably installed in the plurality of auxiliary ball grooves 14.

Preferably, the lifting fixing structure further comprises: the device comprises a lifting plate 15, two pairs of lifting winches 16 with the same structure, two pairs of weight reduction pulley blocks 17 with the same structure, two pairs of fixed blocks 18 with the same structure, eight pairs of expansion blocks 19 with the same structure, a fixed hydraulic tank 20 and a liquid filling pump 21;

the two pairs of fixed blocks 18 are arranged at the bottom end of the movable plate 11, the two pairs of fixed blocks 18 are respectively provided with two pairs of extended convex grooves with the same structure, the eight pairs of extended blocks 19 are respectively and movably inserted into the eight pairs of extended convex grooves, the fixed hydraulic liquid tank 20 is arranged on the movable plate 11, the liquid filling pump 21 is arranged on the fixed hydraulic liquid tank 20, the liquid filling pump 21 is arranged on the two pairs of fixed blocks 18, the two pairs of weight reducing pulley blocks 17 are arranged on the movable plate 11, the two pairs of lifting winches 16 are respectively inserted into the two pairs of lifting plates 15 connected with the weight reducing pulley blocks 17, the plurality of concave hook blocks 2 are uniformly arranged on the lifting plates 15, and the hydraulic liquid tank 3 is arranged on the lifting plates 15.

Preferably, the moving plate 11 is provided with a CCD positioning camera.

Preferably, the support frame 1 is provided with a correlation photoelectric switch.

Preferably, the concave hook block 2 is provided with an infrared locator.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

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.

Claims (6)

1. An automatic hooking device for hot dip galvanizing, comprising: the support frame (1) is characterized in that a horizontal moving structure and a lifting fixing structure are mounted on the support frame (1), and an automatic hook structure is mounted on the horizontal moving structure;

the automatic hook structure includes: the device comprises a plurality of concave hook blocks (2) with the same structure, a hydraulic tank (3), a liquid pump (4), a shunt valve (5), a plurality of T-shaped telescopic rods (6) with the same structure and a plurality of T-shaped locking rods (7) with the same structure;

a plurality of concave type couple piece (2) are installed respectively on lift fixed knot constructs, a plurality of couple groove (8) and locking groove (9), a plurality of have been seted up on concave type couple piece (2) respectively T type telescopic link (6) activity cartridge respectively in a plurality of in couple groove (8), a plurality of T type locking lever (7) are installed respectively in a plurality of on locking groove (9), a plurality of the locking mouth has been seted up respectively on T type telescopic link (6), hydraulic tank (3) are installed on lift fixed knot constructs, drawing liquid pump (4) are installed on hydraulic tank (3), shunt valve (5) are installed on drawing liquid pump (4).

2. The automatic hooking apparatus for hot dip galvanizing of claim 1, wherein the horizontal moving structure comprises: the device comprises a pair of horizontal moving lead screw modules (10) with the same structure, a moving plate (11), a pair of horizontal moving blocks (12) with the same structure and a plurality of auxiliary balls (13) with the same structure;

the pair of horizontal movement lead screw modules (10) are horizontally and parallelly installed on the support frame (1), the moving plate (11) is installed at the moving end of the pair of horizontal movement lead screw modules (10), the pair of horizontal movement blocks (12) are horizontally and parallelly installed on the support frame (1), the pair of horizontal movement blocks (12) are located on the inner side of the pair of horizontal movement lead screw modules (10), the pair of horizontal movement blocks (12) are uniformly provided with a plurality of auxiliary ball grooves (14) with the same structure, and the plurality of auxiliary balls (13) are movably installed in the plurality of auxiliary ball grooves (14) respectively.

3. The automatic hooking apparatus for hot dip galvanizing of claim 1, wherein the elevating fixing structure comprises: the device comprises a lifting plate (15), two pairs of lifting winches (16) with the same structure, two pairs of weight-reducing pulley blocks (17) with the same structure, two pairs of fixed blocks (18) with the same structure, eight pairs of expansion blocks (19) with the same structure, a fixed hydraulic tank (20) and a liquid filling pump (21);

the two pairs of fixed blocks (18) are arranged at the bottom end of the movable plate (11), the two pairs of fixed blocks (18) are respectively provided with two pairs of extended convex grooves with the same structure, the eight pairs of extended blocks (19) are respectively movably inserted into the eight pairs of extended convex grooves, the fixed hydraulic liquid tank (20) is arranged on the movable plate (11), the liquid filling pump (21) is arranged on the fixed hydraulic liquid tank (20), the liquid filling pump (21) is arranged on the two pairs of fixed blocks (18), the two pairs of weight reducing pulley blocks (17) are arranged on the movable plate (11), the two pairs of lifting winches (16) are respectively inserted on the lifting plates (15) connected with the two pairs of weight reducing pulley blocks (17), and the plurality of concave hook blocks (2) are uniformly arranged on the lifting plates (15), the hydraulic tank (3) is arranged on the lifting plate (15).

4. An automatic hooking device for hot dip galvanizing according to claim 2, characterized in that a CCD positioning camera is arranged on the moving plate (11).

5. An automatic hooking device for hot dip galvanizing according to claim 1, characterized in that the support frame (1) is provided with a correlation photoelectric switch.

6. An automatic hooking device for hot dip galvanizing according to claim 1, characterized in that the concave hooking block (2) is provided with an infrared locator.

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