CN214653228U

CN214653228U - Double-power traction type hydrological winch device

Info

Publication number: CN214653228U
Application number: CN202120265347.4U
Authority: CN
Inventors: 王飞; 何富强; 张立; 韦志高; 农含
Original assignee: Nanning Qiang Guo Technology Co ltd
Current assignee: Nanning Qiang Guo Technology Co ltd
Priority date: 2021-01-31
Filing date: 2021-01-31
Publication date: 2021-11-09
Anticipated expiration: 2031-01-31

Abstract

The utility model discloses a double-power traction type hydrological winch device, which comprises a case, wherein the case is provided with a main shaft, a branching wheel set, an alternating current driving mechanism, a direct current driving mechanism and a manual driving mechanism; an input gear is arranged on the main shaft; the alternating current driving mechanism comprises an alternating current motor, an output shaft of the alternating current motor is provided with an alternating current output gear which can be meshed with the input gear, and an alternating current clutch shifting fork connected with the alternating current output gear, and the alternating current clutch shifting fork is connected with an alternating current clutch rod; the direct current driving mechanism comprises a direct current motor, a direct current output gear which can be meshed with the input gear is arranged on an output shaft of the direct current motor, and a direct current clutch shifting fork which is connected with the direct current output gear is connected with a direct current clutch rod; the manual driving mechanism comprises a movable manual shaft and a hand lever connected with the manual shaft, and the manual shaft is provided with a manual gear. The utility model provides a double dynamical towed hydrology winch device, the demand of different scenes is satisfied to multiple changeable drive mode.

Description

Double-power traction type hydrological winch device

Technical Field

The utility model relates to a hydrology monitoring facilities technical field, specifically speaking relates to a double dynamical towed hydrology winch device.

Background

In the current hydrology field, the winch is widely applied. Except that the fish lead cableway uses a winch, the simple cableway, the radar cableway and the like are used. The fishing line cable way winch generally controls four directions of advancing, retreating, rising and falling of the fishing line, generally adopts a single driving force, namely a commercial power supply motor, and has large limitation in the field without commercial power areas.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a double dynamical towed hydrology winch device, the demand of different scenes is satisfied to multiple changeable drive mode.

The utility model discloses a double dynamical towed hydrology winch device adopted technical scheme is:

a double-power traction type hydrological winch device comprises a case, wherein a main shaft, a branching wheel set, an alternating current driving mechanism, a direct current driving mechanism and a manual driving mechanism are arranged on the case and are used for driving the main shaft respectively; the main shaft is provided with an input gear, and the input gear is connected with the branching wheel set through a traction wire; the alternating current driving mechanism comprises an alternating current motor, an alternating current output gear capable of being meshed with the input gear and an alternating current clutch shifting fork connected with the alternating current output gear are arranged on an output shaft of the alternating current motor, and the alternating current clutch shifting fork is connected with an alternating current clutch rod; the direct current driving mechanism comprises a direct current motor, a direct current output gear which can be meshed with the input gear and a direct current clutch shifting fork which is connected with the direct current output gear are arranged on an output shaft of the direct current motor, and the direct current clutch shifting fork is connected with a direct current clutch rod; the manual driving mechanism comprises a movable manual shaft and a hand lever connected with the manual shaft, and a manual gear capable of being meshed with the input gear is arranged on the manual shaft.

As a preferred scheme, still be equipped with the installed part on the quick-witted case, be equipped with mobilizable hand locking piece on the installed part, hand locking piece removes the back and is used for spacing to the hand gear.

As a preferred scheme, the chassis is further provided with a bearing seat, the manual shaft is arranged on the bearing seat, the manual shaft is provided with a clamping groove, and the bearing seat is provided with an elastic clamping block corresponding to the clamping groove.

As the preferred scheme, the elastic clamping block comprises a locking piece, and a spring and a steel ball which are sequentially arranged in the locking piece, wherein the steel ball is exposed out of the locking piece and is used for clamping the clamping groove.

Preferably, the input gear includes a first winding portion, the branching wheel set includes a second winding portion, and the first winding portion and the second winding portion are both provided with at least three winding slots.

The utility model discloses a double dynamical towed hydrology winch device's beneficial effect is: the alternating current driving mechanism drives the alternating current clutch shifting fork to move through the alternating current clutch rod, so that the alternating current output gear is meshed with the input gear, and then the output shaft of the alternating current motor drives the main shaft to rotate. The direct current driving mechanism drives the direct current clutch shifting fork to move through the direct current clutch rod, so that the direct current output gear is meshed with the input gear, and then the main shaft is driven to rotate through an output shaft of the direct current motor. The manual driving mechanism pushes the manual shaft through the hand lever, so that the manual gear is meshed with the input gear, and then the main shaft is driven to rotate through the hand lever. The input gear and the branching wheel set are connected through a traction wire, and the traction wire is used for driving external equipment. According to the scheme, the alternating current driving mechanism, the direct current driving mechanism and the manual driving mechanism are used for switching the driving main shaft to rotate, so that the requirements of different scenes are met.

Drawings

Fig. 1 is a schematic structural view of the dual-power traction type hydrographic winch device of the present invention.

Fig. 2 is another schematic structural diagram of the dual-power traction type hydrographic winch device of the present invention.

Detailed Description

The invention will be further elucidated and described with reference to the following embodiments and drawings in which:

referring to fig. 1 and 2, the double-power traction type hydrographic winch device includes a case 10, wherein the case 10 is provided with a main shaft 20 and a branching wheel set 30, and an ac driving mechanism 40, a dc driving mechanism 50 and a manual driving mechanism 60 for respectively driving the main shaft 20.

The main shaft 20 is connected with the branching wheel set 30 through a traction line, and an input gear 22 is arranged on the main shaft 20.

The alternating current driving mechanism 40 comprises an alternating current motor 42, an alternating current output gear capable of being meshed with the input gear 22 and an alternating current clutch shifting fork 44 connected with the alternating current output gear are arranged on an output shaft of the alternating current motor 42, and an alternating current clutch rod 46 is connected with the alternating current clutch shifting fork.

The direct current driving mechanism 50 comprises a direct current motor 52, a direct current output gear 54 capable of being meshed with the input gear 22 and a direct current clutch shifting fork 56 connected with the direct current output gear 54 are arranged on an output shaft of the direct current motor 52, and the direct current clutch shifting fork 56 is connected with a direct current clutch rod 58.

The manual driving mechanism 60 comprises a movable manual shaft 62 and a hand lever 64 connected with the manual shaft 62, and a manual gear 66 capable of meshing with the input gear 22 is arranged on the manual shaft 62.

The ac driving mechanism 40 drives the ac clutch fork 44 to move through the ac clutch lever 46, so that the ac output gear is engaged with the input gear 22, and then the spindle 20 is driven to rotate through the output shaft of the ac motor 42. The dc driving mechanism 50 drives the dc clutch fork 56 to move through the dc clutch rod 58, so that the dc output gear 54 is engaged with the input gear 22, and then the spindle 20 is driven to rotate through the output shaft of the dc motor 52. The manual driving mechanism 60 pushes the manual shaft 62 through the hand lever 64 so that the manual gear 66 is engaged with the input gear 22, and then drives the main shaft 20 to rotate through the hand lever 64. The input gear 22 and the branching wheel set 30 are connected by a traction wire, which is used to drive the external device. According to the scheme, the alternating current driving mechanism 40, the direct current driving mechanism 50 and the manual driving mechanism 60 are used for switching the driving main shaft 20 to rotate, so that the requirements of different scenes are met.

In this embodiment, the ac motor 42 uses 220V commercial power, the dc motor 52 uses 12/24V dc power, and both the ac motor 42 and the dc motor 52 are connected to a worm gear reducer, thereby ensuring the traction force and the stability of operation. The double drives of direct current and alternating current are integrated, so that the winch is more convenient to install and work, and the performance of the winch is improved.

In this embodiment, a mounting member 70 is further disposed on the chassis 10, a movable hand-operated locking member 72 is disposed on the mounting member 70, and the hand-operated locking member 72 is used for limiting the moving of the hand-operated gear 66. Hand lock 72 may be threadably coupled to mounting member 70 and then rotated to effect up and down movement of hand lock 72. after hand lock 72 has moved a distance down, hand lock 72 is positioned in the path of movement of hand gear 66 to limit hand gear 66.

In this embodiment, a bearing seat 68 is further disposed on the chassis 10, the manual shaft 62 is disposed on the bearing seat 68, a clamping slot 622 is disposed on the manual shaft 62, and the bearing seat 68 is disposed with an elastic clamping block 682 corresponding to the clamping slot 622. When the manual shaft 62 moves such that the manual gear 66 is engaged with the input gear 22, the elastic latch 682 is located in the catch 622, thereby restricting the horizontal position of the manual shaft 62. Specifically, elasticity fixture block 682 includes the locking piece to and locate spring and steel ball in the locking piece in proper order, the steel ball exposes and is used for joint draw-in groove 622 in the locking piece. When the elastic clamping block 682 is not located in the clamping groove 622, the spring is compressed, the steel ball is abutted to the surface of the manual shaft 62, and when the elastic clamping block 682 is located in the clamping groove 622, the spring is reset, and the steel ball is located in the clamping groove 622.

In this embodiment, the input gear 22 includes a first winding portion 24, the branching wheel set 30 includes a second winding portion 32, and at least three winding slots are formed in both the first winding portion 24 and the second winding portion 32. Before the winch is used, the traction cable way mooring rope is threaded on the winding grooves, and a three-circle itinerant penetrating method can be adopted through the three winding grooves, so that the traction cable way mooring rope has better friction force, and the winch can be operated after the threading is finished.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. A double-power traction type hydrological winch device is characterized by comprising a case, wherein a main shaft, a branching wheel set, an alternating current driving mechanism, a direct current driving mechanism and a manual driving mechanism are arranged on the case and are used for driving the main shaft respectively;

the main shaft is provided with an input gear, and the input gear is connected with the branching wheel set through a traction wire;

the alternating current driving mechanism comprises an alternating current motor, an alternating current output gear capable of being meshed with the input gear and an alternating current clutch shifting fork connected with the alternating current output gear are arranged on an output shaft of the alternating current motor, and the alternating current clutch shifting fork is connected with an alternating current clutch rod;

the direct current driving mechanism comprises a direct current motor, a direct current output gear which can be meshed with the input gear and a direct current clutch shifting fork which is connected with the direct current output gear are arranged on an output shaft of the direct current motor, and the direct current clutch shifting fork is connected with a direct current clutch rod;

the manual driving mechanism comprises a movable manual shaft and a hand lever connected with the manual shaft, and a manual gear capable of being meshed with the input gear is arranged on the manual shaft.

2. The dual-power traction type hydrographic winch device according to claim 1, wherein the chassis is further provided with a mounting member, the mounting member is provided with a movable hand-operated locking member, and the hand-operated locking member is used for limiting the manual gear after being moved.

3. The dual-power traction type hydrographic winch device according to claim 1, wherein the chassis is further provided with a bearing seat, the manual shaft is arranged on the bearing seat, the manual shaft is provided with a clamping groove, and the bearing seat is provided with an elastic clamping block corresponding to the clamping groove.

4. The dual-power traction-type hydrographic winch device according to claim 3, wherein the elastic clamping block comprises a locking member, and a spring and a steel ball which are sequentially arranged in the locking member, and the steel ball is exposed out of the locking member and used for clamping the clamping groove.

5. The dual-power traction-type hydrographic winch device of claim 1, wherein the input gear comprises a first winding portion, the branching wheel set comprises a second winding portion, and each of the first winding portion and the second winding portion has at least three winding grooves.