CN220805227U - Anchor hook processingequipment - Google Patents

Abstract

The utility model relates to the technical field of anchoring hook processing, in particular to an anchoring hook processing device. The hydraulic oil pump is arranged above the bottom fixing plate, and the hydraulic oil pump and the hydraulic cylinder are correspondingly arranged. The utility model carries out limit setting on the front end and the rear end of the workpiece, and carries out lifting treatment on the front end limit device so as to ensure normal loading and unloading, ensures that the bending point of the workpiece, the central line of the V-shaped groove and the wedge-shaped edge of the pressing plate are positioned in the same vertical plane after limit, can not cause the processed workpiece to be different in length left and right, saves a large amount of materials, improves the yield and greatly improves the working efficiency.

Description

Anchor hook processingequipment

Technical Field

The utility model relates to the technical field of anchoring hook processing, in particular to an anchoring hook processing device.

Background

In the process of manufacturing the steel structure, a large number of anchoring hooks are required for fixing the fireproof, wear-resistant and high-temperature-resistant materials inside the steel structure. At present, the steel structure anchoring hooks are manufactured by bending in a manual mode, and the machining efficiency of the steel structure anchoring hooks can not meet the manufacturing requirements of the steel structure. An anchoring hook processing device with the current bulletin number of CN207138605U is described as follows: the manufacturing device of the anchoring hook comprises a rectangular frame, a V-shaped groove, a hydraulic jack, a pressing plate and a workpiece supporting rod, wherein the rectangular frame stands on the ground; the V-shaped groove is fixed at the lower part of the top beam of the rectangular frame; the hydraulic jack is fixed on a bottom beam of the rectangular frame; the two sides of the pressing plate are respectively connected with the upright posts on the two sides of the rectangular frame in a sliding manner through vertical sliding ways, the lower end of the pressing plate is fixedly connected with the ejector rod of the hydraulic jack, and the upper end of the pressing plate is provided with a wedge-shaped blade corresponding to the notch of the V-shaped groove; the two workpiece support rods are respectively fixed on two sides below the notch of the V-shaped groove, and workpieces to be bent are placed on the workpiece support rods. The pressing plate and the V-shaped groove driven by the hydraulic jack are utilized to bend the workpiece, so that the labor intensity of workers is reduced, a plurality of steel structure anchoring hooks can be manufactured at one time, and the machining efficiency of the anchoring hooks is greatly improved. The device simple structure, operation are reliable, can satisfy the manufacturing demand of steel construction.

In the prior art, as described in the above document, when the workpiece is placed on the workpiece support rod, the front end and the rear end of the workpiece are not provided with limiting devices, so that the bending point of the workpiece, the central line of the V-shaped groove and the wedge-shaped edge of the pressing plate cannot be ensured to be positioned in the same vertical plane, the workpiece after processing cannot be normally used due to different left and right lengths, a large amount of waste materials are caused, the yield is low, time and labor are wasted, and the working efficiency is greatly reduced.

Disclosure of utility model

The utility model aims to provide an anchoring hook processing device which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an anchor hook processingequipment, includes bottom fixed plate, pneumatic cylinder, oil pump, stripper plate, vertical support board, processing work piece, the spacing subassembly of rear end, the spacing subassembly of front end, elevating gear, roof, V type groove, bottom fixed plate top is provided with the pneumatic cylinder, the oil pump corresponds the setting with the pneumatic cylinder, bottom fixed plate top is provided with vertical support board, the stripper plate sets up in the pneumatic cylinder top, the spacing subassembly of rear end corresponds the setting with vertical support board, the spacing subassembly of front end corresponds the setting with vertical support board, elevating gear sets up in the roof top, V type groove sets up the below at the roof.

Preferably, the back end limiting assembly comprises a first limiting plate, a guide shaft, an end surface fixing plate, a first spring, a connecting block, a first transverse plate, a first screw rod and an adjusting handle, wherein the first limiting plate is correspondingly arranged with a processing workpiece, the guide shaft is correspondingly arranged with the first limiting plate, the end surface fixing plate is correspondingly arranged with the guide shaft, the first spring is correspondingly arranged with the guide shaft, the connecting block is correspondingly arranged with the vertical supporting plate, the first transverse plate is correspondingly arranged with the connecting block, the first screw rod is correspondingly arranged with the first transverse plate, and the adjusting handle is correspondingly arranged with the first screw rod.

Preferably, the front end limiting assembly comprises a second limiting plate, a lengthened guide shaft, a second spring, an end limiting plate, a connecting plate, a second transverse plate, a second screw rod and a rotary handle, wherein the second limiting plate is correspondingly arranged with the lengthened guide shaft, the lengthened guide shaft is correspondingly arranged with the end limiting plate, the second spring is correspondingly arranged with the lengthened guide shaft, and the connecting plate is correspondingly arranged with the lifting device.

Preferably, the second transverse plate is arranged corresponding to the connecting plate, the second screw rod is arranged corresponding to the second transverse plate, the lengthened guide shaft is arranged corresponding to the second transverse plate, and the rotary handle is arranged corresponding to the second screw rod.

Preferably, the lifting device comprises a third screw rod, a screw rod sliding table, a first driven bevel gear, a first driving bevel gear, a gear connecting shaft, a top supporting plate, a top transverse plate, a second driven bevel gear, a second driving bevel gear, a rotating shaft and a rotating shaft end handle, wherein the third screw rod is correspondingly arranged with the vertical supporting plate, the screw rod sliding table is correspondingly arranged with the third screw rod, and the screw rod sliding table is correspondingly arranged with the connecting plate.

Preferably, the first driven helical gear corresponds to the third screw rod, the first driving helical gear corresponds to the first driven helical gear, the gear connecting shaft corresponds to the first driving helical gear, the second driven helical gear corresponds to the connecting shaft, the second driving helical gear corresponds to the second driven helical gear, the top support plate corresponds to the top plate, the gear connecting shaft corresponds to the top support plate, the top transverse plate corresponds to the top support plate, the rotating shaft corresponds to the second driving helical gear, and the rotating shaft end handle corresponds to the rotating shaft.

Compared with the prior art, the utility model has the beneficial effects that: the utility model carries out limit setting on the front end and the rear end of the workpiece, and carries out lifting treatment on the front end limit device so as to ensure normal loading and unloading, ensures that the bending point of the workpiece, the central line of the V-shaped groove and the wedge-shaped edge of the pressing plate are positioned in the same vertical plane after limit, can not cause the processed workpiece to be different in length left and right, saves a large amount of materials, improves the yield and greatly improves the working efficiency.

Drawings

Fig. 1 is a three-dimensional schematic diagram of the structure of the present utility model.

Fig. 2 is a schematic front view of the structure of the present utility model.

FIG. 3 is a schematic cross-sectional view of the structure of the present utility model.

Fig. 4 is a schematic top view of the structure of the present utility model.

In the figure: 1. a bottom fixing plate; 2. a hydraulic cylinder; 3. an oil pump; 4. an extrusion plate; 5. a vertical support plate; 6. machining a workpiece; 7. a rear end limit assembly; 701. a first limiting plate; 702. a guide shaft; 703. an end surface fixing plate; 704. a first spring; 705. a connecting block; 706. a first transverse plate; 707. a first screw rod; 708. adjusting the handle; 8. a front end limiting assembly; 801. a second limiting plate; 802. lengthening the guide shaft; 803. a second spring; 804. an end limiting plate; 805. a connecting plate; 806. a second transverse plate; 807. a second screw rod; 808. rotating the handle; 9. a lifting device; 901. a third screw rod; 902. a screw rod sliding table; 903. a first driven helical gear; 904. a first driving helical gear; 905. a gear connecting shaft; 906. a top support plate; 907. a top transverse plate; 908. a second driven helical gear; 909. a second driving helical gear; 910. a rotation shaft; 911. rotating the shaft end handle; 10. a top plate; 11. v-shaped groove.

Detailed Description

Features and exemplary embodiments of various aspects of the utility model are described in detail below. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the utility model. It will be apparent, however, to one skilled in the art that the present utility model may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the utility model by showing examples of the utility model. The present utility model is in no way limited to any particular configuration and algorithm set forth below, but rather covers any modification, substitution, and improvement of elements, components, and algorithms without departing from the spirit of the utility model. In the drawings and the following description, well-known structures and techniques have not been shown in order to avoid unnecessarily obscuring the present utility model.

Referring to fig. 1 to 4, the present utility model provides a technical solution: the anchoring hook machining device comprises a bottom fixing plate 1, a hydraulic cylinder 2, an oil pump 3, an extrusion plate 4, a vertical supporting plate 5, a machining workpiece 6, a rear end limiting assembly 7, a front end limiting assembly 8, a lifting device 9, a top plate 10 and a V-shaped groove 11, wherein the hydraulic cylinder 2 is arranged above the bottom fixing plate 1 and fixedly installed through screws; the oil pump 3 is correspondingly arranged with the hydraulic cylinder 2 and is connected through a pipeline; a vertical supporting plate 5 is arranged above the bottom fixing plate 1, and is installed through a screw, and one surface of the vertical supporting plate 5 is provided with a groove; the extruding plate 4 is arranged above the hydraulic cylinder 2 and is fixedly installed through screws; the rear end limiting component 7 is arranged corresponding to the vertical supporting plate 5 and is installed through screws; the front end limiting component 8 is arranged corresponding to the vertical supporting plate 5; the lifting device 9 is arranged above the top plate 10 and is close to the surface of the groove of the vertical support plate 5 and fixed by a screw; the V-shaped groove 11 is provided below the top plate 10.

The rear end limiting assembly 7 comprises a first limiting plate 701, a guide shaft 702, an end surface fixing plate 703, a first spring 704, a connecting block 705, a first transverse plate 706, a first screw rod 707 and an adjusting handle 708, wherein the first limiting plate 701 is arranged corresponding to the processed workpiece 6 and limits one end of the workpiece 6; one end of each guide shaft 702 is arranged corresponding to the first limiting plate 701 and is installed through a screw; the two end surface fixing plates 703 are respectively arranged corresponding to the other ends of the two guide shafts 702 and are installed through screws; the two first springs 704 are respectively arranged corresponding to the two guide shafts 702, the guide shafts 702 penetrate through the inside of the first springs 704, one end of each first spring 704 is connected with a first transverse plate 706, and the other end of each first spring 704 is connected with an end face fixing plate 703; the two connecting blocks 705 are respectively arranged corresponding to the two vertical supporting plates 5 and are installed through screws; the first transverse plate 706 is arranged corresponding to the two connecting blocks 705 and is installed through screws; the first screw rod 707 is disposed corresponding to the first transverse plate 706 and is connected by threads; the adjustment handle 708 is provided corresponding to the first screw rod 707, and is mounted by a screw.

The front end limiting assembly 8 comprises a second limiting plate 801, an elongated guide shaft 802, a second spring 803, an end limiting plate 804, a connecting plate 805, a second transverse plate 806, a second screw rod 807 and a rotary handle 808, wherein the second limiting plate 801 is correspondingly arranged with the two elongated guide shafts 802 and is arranged through screws; the two lengthened guide shafts 802 and the two end limiting plates 804 are respectively and correspondingly arranged and are installed through screws; the two second springs 803 are respectively arranged corresponding to the two lengthening guide shafts 802, and the lengthening guide shafts 802 penetrate through the inside of the second springs 803; the connection plate 805 is arranged corresponding to the lifting device 9 and is installed through screws; the second transverse plate 806 is arranged corresponding to the two connecting plates 805 and is mounted by screws; the second screw rod 807 is disposed corresponding to the second transverse plate 806 and is connected by screw threads; two elongated guide shafts 802 respectively pass through corresponding through holes of the second transverse plate 806; the rotary knob 808 is provided corresponding to the second screw rod 807 and is mounted by a screw.

The lifting device 9 comprises a third screw rod 901, a screw rod sliding table 902, a first driven helical gear 903, a first driving helical gear 904, a gear connecting shaft 905, a top supporting plate 906, a top transverse plate 907, a second driven helical gear 908, a second driving helical gear 909, a rotating shaft 910 and a rotating shaft end handle 911, wherein the two third screw rods 901 are respectively arranged in grooves of a vertical supporting plate 5, and bearings are arranged on the upper part and the lower part of the third screw rod; the two screw rod sliding tables 902 are respectively arranged corresponding to the two third screw rods 901 and are connected through screw rod bearings; the two screw rod sliding tables 902 are respectively arranged corresponding to the two connecting plates 805 and are installed through screws; the two first driven bevel gears 903 are respectively arranged corresponding to the two third screw rods 901 and are installed in a matched manner through keys and key grooves; the two first driving bevel gears 904 are respectively arranged corresponding to the two first driven bevel gears 903 and are in meshed connection with each other; the two gear connecting shafts 905 are respectively arranged corresponding to the two first driving bevel gears 904 and are connected in a matched manner through keys and key grooves; the two second driven bevel gears 908 are respectively installed corresponding to the two connecting shafts 905 and are connected in a matched manner through keys and key grooves; the second driving bevel gear 909 is arranged corresponding to the two second driven bevel gears 908 and is connected with each other in a meshed manner; the top support plate 906 is provided corresponding to the top plate 10 and is mounted by screws; the gear connecting shaft 905 is provided corresponding to the top support plate 906 and connected through a bearing; the top transverse plate 907 is provided corresponding to the two top support plates 906, mounted by screws; the rotation shaft 910 is disposed corresponding to the second driving bevel gear 909 and is mounted by being engaged with the key groove; the rotating shaft 910 is arranged corresponding to the top transverse plate 907 and is connected with the top transverse plate through a bearing; the rotation shaft end handle 911 is mounted corresponding to the rotation shaft 910 by a screw.

When the hydraulic cylinder is used, a worker firstly adjusts the rear end limiting assembly according to the length of a machined workpiece 6, and drives the first screw rod 707 to rotate and move forwards through rotating the adjusting handle 708, so that the first limiting plate 701 is pushed to move forwards, one end of the machined workpiece 6 is limited, then the machined workpiece 6 is fully swung on the workpiece supporting rod, then the rotating shaft end handle 911 is rotated, the rotating shaft 910 is driven to rotate, the rotating shaft 910 drives the second driving bevel gear 909 to rotate, the second driving bevel gear 909 drives the two second driven bevel gears 908 to rotate, the two second driven bevel gears 908 drive the two gear connecting shafts 905 to rotate, the two first driving bevel gears 904 drive the two first driven bevel gears 903 to rotate, the two first driven bevel gears 903 drive the two third screw rods 901 to move upwards, after the two screw rods 902 drive the second transverse plate 806 to move upwards to the corresponding position, the rotating handle 808 is rotated, the rotating handle 808 drives the second screw rods 807 to rotate, the two driven bevel gears 908 to drive the two first transverse plates 801 to rotate, the two first driving bevel gears 904 to rotate, the two first driven bevel gears 903 to rotate, the two third screw rods 901 drive the two screw rods 901 to rotate, the two third screw rods 901 to move upwards, the two transverse plates 806 to move upwards, the corresponding to the rotating shaft 6, the rotating handle 9 to rotate, and then the hydraulic cylinder 2 is hydraulically and then work piece 6 is hydraulically and shrink, and the other end 2 is pushed to work the work piece 6, and work well, and then, work a hydraulic cylinder 2 is hydraulically and work well, and work, and a work piece is moved, and shrink, and then, and a work cylinder 2, is finished.

The different technical features presented in the different embodiments may be combined to advantage. Other variations to the disclosed embodiments can be understood and effected by those skilled in the art in view of the drawings, the description, and the claims. In the claims, the term "comprising" does not exclude other means or steps; any reference signs in the claims shall not be construed as limiting the scope. The functions of the various elements presented in the claims may be implemented by means of a single hardware or software module. The presence of certain features in different dependent claims does not imply that these features cannot be combined to advantage.

Claims (6)

1. The utility model provides an anchor hook processingequipment, includes bottom fixed plate (1), pneumatic cylinder (2), oil pump (3), stripper plate (4), vertical support board (5), processing work piece (6), rear end spacing subassembly (7), front end spacing subassembly (8), elevating gear (9), roof (10), V type groove (11), its characterized in that: the bottom fixed plate (1) top is provided with pneumatic cylinder (2), oil pump (3) correspond with pneumatic cylinder (2) and set up, bottom fixed plate (1) top is provided with vertical support plate (5), stripper plate (4) set up in pneumatic cylinder (2) top, back end limiting component (7) correspond with vertical support plate (5) and set up, front end limiting component (8) correspond with vertical support plate (5) and set up, elevating gear (9) set up in roof (10) top, V type groove (11) set up the below in roof (10).

2. An anchoring hook machining device according to claim 1, wherein: the rear end limiting assembly (7) comprises a first limiting plate (701), a guide shaft (702), an end surface fixing plate (703), a first spring (704), a connecting block (705), a first transverse plate (706), a first screw rod (707) and an adjusting handle (708), wherein the first limiting plate (701) is arranged corresponding to a machining workpiece (6), the guide shaft (702) is arranged corresponding to the first limiting plate (701), the end surface fixing plate (703) is arranged corresponding to the guide shaft (702), the first spring (704) is arranged corresponding to the guide shaft (702), the connecting block (705) is arranged corresponding to a vertical supporting plate (5), the first transverse plate (706) is arranged corresponding to the connecting block (705), the first screw rod (707) is arranged corresponding to the first transverse plate (706), and the adjusting handle (708) is arranged corresponding to the first screw rod (707).

3. An anchoring hook machining device according to claim 1, wherein: the front end limiting assembly (8) comprises a second limiting plate (801), a lengthened guide shaft (802), a second spring (803), an end limiting plate (804), a connecting plate (805), a second transverse plate (806), a second screw rod (807) and a rotary handle (808), wherein the second limiting plate (801) is correspondingly installed with the lengthened guide shaft (802), the lengthened guide shaft (802) is correspondingly arranged with the end limiting plate (804), the second spring (803) is correspondingly arranged with the lengthened guide shaft (802), and the connecting plate (805) is correspondingly arranged with the lifting device (9).

4. An anchoring hook machining device according to claim 3, wherein: the second transverse plate (806) is arranged corresponding to the connecting plate (805), the second screw rod (807) is arranged corresponding to the second transverse plate (806), the lengthening guide shaft (802) is arranged corresponding to the second transverse plate (806), and the rotary handle (808) is arranged corresponding to the second screw rod (807).

5. An anchoring hook machining device according to claim 1, wherein: the lifting device (9) comprises a third screw rod (901), a screw rod sliding table (902), a first driven bevel gear (903), a first driving bevel gear (904), a gear connecting shaft (905), a top supporting plate (906), a top transverse plate (907), a second driven bevel gear (908), a second driving bevel gear (909), a rotating shaft (910) and a rotating shaft end handle (911), the third screw rod (901) is correspondingly arranged with the vertical supporting plate (5), the screw rod sliding table (902) is correspondingly arranged with the third screw rod (901), and the screw rod sliding table (902) is correspondingly arranged with the connecting plate (805).

6. An anchoring hook machining device according to claim 5, wherein: the first driven helical gear (903) corresponds the setting with third lead screw (901), first initiative helical gear (904) corresponds the setting with first driven helical gear (903), gear connection axle (905) corresponds the setting with first initiative helical gear (904), second driven helical gear (908) corresponds installation with gear connection axle (905), second initiative helical gear (909) corresponds the setting with second driven helical gear (908), top backup pad (906) corresponds setting with roof (10), gear connection axle (905) corresponds setting with top backup pad (906), top transverse plate (907) corresponds setting with top backup pad (906), rotation axis (910) corresponds setting with second initiative helical gear (909), rotation axle head handle (911) corresponds the installation with rotation axis (910).