CN210977273U - Rotary table transmission device with hybrid input power - Google Patents

Abstract

The utility model relates to a turntable transmission device with hybrid input power, which comprises a base, a turntable driving box, a variable frequency motor and a turntable driving angle box; a first pneumatic tire clutch and a second pneumatic tire clutch are respectively arranged at two ends of a power input shaft of the turntable driving box; one end of a power output shaft of the turntable driving box is connected with the power input shaft of the turntable driving box, and the other end of the power output shaft of the turntable driving box is connected with an external turntable; a gear shifting mechanism is also arranged on a power output shaft of the turntable driving box; the variable frequency motor is arranged at the upper part of one end of the base, and the power output end of the variable frequency motor is connected with the first tire clutch; the rotary table driving angle box is arranged on the upper portion of the other end of the base, the power input end of the rotary table driving angle box is connected with a universal shaft of the angle box on an external winch, and the power output end of the rotary table driving angle box is connected with the second pneumatic tire clutch. The utility model discloses the installation is dismantled nimble conveniently, and equipment, transportation facility, the operation is stable, realization mechanical drilling rig and the transmission of electric drill carousel that can be reliable.

Description

Rotary table transmission device with hybrid input power

Technical Field

The utility model relates to an oil-well rig carousel transmission, concretely relates to hybrid input power's carousel transmission.

Background

Because mechanical drilling machines and electric drilling machines are commonly used in petroleum drilling engineering, the power input of the existing turntable transmission device is single, and the use is not convenient enough, so that the problem that researchers in the field urgently need to solve and overcome is solved by how to improve the turntable transmission mode so as to adapt to both the mechanical drilling machines and the electric drilling machines.

Disclosure of Invention

To the problem that exists among the above-mentioned background art, the utility model provides a structural design is reasonable, compact, and intensity is high, and the installation is dismantled nimble conveniently, and equipment, transportation are convenient, and the operation is stable, can be reliable realize mechanical drilling machine and electric drill carousel driven hybrid input power's carousel transmission.

The technical scheme of the utility model as follows:

the turntable transmission device with hybrid input power comprises a base, a turntable driving box, a variable frequency motor and a turntable driving angle box; the turntable driving box is arranged on the upper part of the middle section of the base in a matching way, and a first pneumatic clutch and a second pneumatic clutch are respectively arranged at two ends of a power input shaft of the turntable driving box in a matching way; one end of a power output shaft of the turntable driving box is connected with a power input shaft of the turntable driving box in a matching manner, and the other end of the power output shaft of the turntable driving box is connected with an external turntable in a matching manner; a gear shifting mechanism is also installed on the power output shaft of the turntable driving box in a matching manner; the variable frequency motor is mounted on the upper part of one end of the base in a matching manner, and the power output end of the variable frequency motor is connected with the first pneumatic clutch in a matching manner; the rotary table driving angle box is installed on the upper portion of the other end of the base in a matched mode, the power input end of the rotary table driving angle box is connected with a universal shaft of an angle box on an external winch in a matched mode, and the power output end of the rotary table driving angle box is connected with the second pneumatic tire clutch in a matched mode.

The rotary table transmission device of the hybrid input power is characterized in that: the turntable driving box also comprises a driving box shell, a driving box input shaft, a driving box output shaft, a turntable driving shaft, a first driving box main belt wheel, a second driving box main belt wheel, a first driving box auxiliary belt wheel, a second driving box auxiliary belt wheel, a first driving box bevel gear and a second driving box bevel gear; the driving box input shaft transversely penetrates through the rear part of the driving box shell, one end shaft body of the driving box input shaft extends out of the outer side of the driving box shell, the middle section shaft body is positioned in the driving box shell, and the other end shaft body extends out of the outer side of the driving box shell; the input shaft of the driving box is hinged with the rear part of the driving box shell; the output shaft of the driving box is hinged and installed on the inner side of the front part of the driving box shell in a transverse matching mode; the turntable driving shaft is longitudinally and matched and hinged on the front side of the driving box shell, one end of the turntable driving shaft extends into the inner side of the driving box shell, the other end of the turntable driving shaft extends out of the outer side of the driving box shell, and the extending end of the turntable driving shaft is matched and connected with an external turntable through a coupler; the first driving box main belt wheel and the second driving box main belt wheel are both positioned in the driving box shell and are sleeved and fixed on a middle shaft body of the driving box input shaft in a matching manner; the first driving box auxiliary belt wheel and the second driving box auxiliary belt wheel are coaxially matched and hinged on a shaft body at one end of the output shaft of the driving box; the first driving box secondary belt wheel is connected with the first driving box main belt wheel in a matching mode through a belt, and the second driving box secondary belt wheel is connected with the second driving box main belt wheel in a matching mode through a belt; the first driving box bevel gear is mounted on the shaft body at the other end of the driving box output shaft in a matching manner; and the second driving box bevel gear is mounted on a shaft body at one end of the rotary table driving shaft extending into the inner side of the driving box shell in a matching way and is meshed with the first driving box bevel gear in a matching way.

The rotary table transmission device of the hybrid input power is characterized in that: the gear shifting mechanism is installed on the driving box output shaft between the first driving box secondary belt wheel and the second driving box secondary belt wheel in a matching mode.

The rotary table transmission device of the hybrid input power is characterized in that: and the first pneumatic clutch and the second pneumatic clutch are respectively installed on shaft bodies at two ends, extending out of the outer side of the drive box shell, of the input shaft of the drive box in a matching manner.

The rotary table transmission device of the hybrid input power is characterized in that: the power output end of the variable frequency motor is provided with a motor connecting hub; and the power output end of the variable frequency motor is connected with the first tyre clutch in a matching way through the motor connecting hub.

The rotary table transmission device of the hybrid input power is characterized in that: the rotary table driving angle box comprises an angle box shell, an angle box input shaft, an angle box output shaft, a first angle box conical gear, a second angle box conical gear and an angle box connecting hub; the corner box shell is installed on the upper part of the other end of the base in a matching mode, and an accommodating space is formed in the corner box shell; the angle box input shaft penetrates through the angle box shell along the longitudinal direction, one end of the angle box input shaft extends into the inner side of the angle box shell, and the other end of the angle box input shaft extends out of the outer side of the angle box shell; the angle box input shaft is hinged with the angle box shell; the angle box output shaft penetrates through the angle box shell along the transverse direction in a matching manner, one end of the angle box output shaft extends into the inner side of the angle box shell, and the other end of the angle box output shaft extends out of the outer side of the angle box shell; the angle box output shaft is hinged with the angle box shell; the first angle box conical gear is matched and sleeved on a shaft body which is fixed at one end of the angle box input shaft extending into the inner side of the angle box shell; the second angle box conical gear is matched and sleeved with and fixed on a shaft body at one end of the angle box output shaft, which extends into the inner side of the angle box shell; the angle box connecting hub is installed on a shaft body at one end, extending out of the outer side of the angle box shell, of the angle box output shaft in a matched mode, and the angle box connecting hub is connected with the second pneumatic tire clutch in a matched mode.

Has the advantages that:

the utility model discloses mixed input power's carousel transmission structural design is reasonable, compact, and the installation is dismantled in a flexible way, and intensity is high, and the operation is stable, can be reliable realize mechanical drilling machine and electric drill carousel driven power input. The utility model discloses preferentially use inverter motor under the convenient condition of electric power and provide power input for the carousel drive case, use the angle case under the inconvenient condition of electric power, traffic, make the drilling operation strengthen the adaptability of environment, application scope is wide.

Drawings

Fig. 1 is a front view of the hybrid input rotary table transmission of the present invention.

Fig. 2 is a top view of the hybrid input power rotary table transmission device of the present invention after the drive box shell is removed.

Detailed Description

As shown in fig. 1 and 2, the utility model discloses hybrid input power's carousel transmission, including base 1, carousel drive case 2, inverter motor 3 and carousel drive angle case 4.

The base 1 is formed by welding I-steel and channel steel, the main beam is heavy I-steel, the auxiliary beam is channel steel, and the base is simple in structure, high in strength, convenient to install and transport and the like.

The turntable driving box 2 is installed on the upper part of the middle section of the base 1 in a matching way and comprises a driving box shell 201, a driving box input shaft 202, a driving box output shaft 203, a turntable driving shaft 204, a first driving box main belt pulley 205, a second driving box main belt pulley 206, a first driving box secondary belt pulley 207, a second driving box secondary belt pulley 208, a first driving box bevel gear 209, a second driving box bevel gear 210, a first pneumatic clutch 211 and a second pneumatic clutch 212.

The drive box shell 201 is internally provided with an accommodating space, and the upper part of the front side wall of the drive box shell is provided with an input shaft mounting sleeve 2011 in a matching way; this input shaft mounting sleeve 2011 one end stretches into inside drive box shell 201, and the other end stretches out to drive box shell 201 outside.

The drive box input shaft 202 is transversely installed at the rear part of the drive box shell 201 in a matching manner, one end shaft body of the drive box input shaft extends out of the drive box shell 201, the middle section shaft body is positioned in the drive box shell 201, and the other end shaft body extends out of the drive box shell 201; the shaft bodies at the two ends of the input shaft 202 of the driving box are assembled and connected with the two lateral walls at the rear part of the driving box shell 201 transversely through a first input bearing 2021.

The driving box output shaft 203 is mounted on the inner side of the front part of the driving box shell 201 in a transverse matching mode, and two ends of the driving box output shaft are hinged to two side walls of the front part of the driving box shell 201 in a transverse matching mode through bearings.

The turntable driving shaft 204 is longitudinally and fittingly mounted on the front side of the driving box shell 201, one end of the turntable driving shaft passes through the input shaft mounting sleeve 2011 and extends into the driving box shell 201, and the other end of the turntable driving shaft passes through the input shaft mounting sleeve 2011 and extends out of the driving box shell 201 and is fittingly connected with an external turntable through a coupler; the shaft body of the turntable driving shaft 204 inside the input shaft mounting sleeve 2011 is matched and hinged with the inner wall of the input shaft mounting sleeve 2011 through a bearing.

The first driving box driving pulley 205 and the second driving box driving pulley 206 are both located inside the driving box casing 201 and are sleeved on the middle shaft body of the driving box input shaft 202 in a matching manner.

The first driving box secondary pulley 207 is mounted on a shaft body at one end of the driving box output shaft 203 in a matching way through a bearing; the second driving box secondary belt pulley 208 is matched and positioned at one side of the first driving box secondary belt pulley 207 in the transverse direction, and is also matched and installed on a shaft body at one end of the driving box output shaft 203 through a bearing; the first drive box secondary pulley 207 is connected with the first drive box primary pulley 205 in a matching way through a belt, and the second drive box secondary pulley 208 is connected with the second drive box primary pulley 206 in a matching way through a belt; a gear shift mechanism 213 is also fittingly mounted on the drive case output shaft 203 between the first drive case secondary pulley 207 and the second drive case secondary pulley 208.

The first drive box bevel gear 209 is fittingly mounted on the other end shaft body of the drive box output shaft 203.

The second drive box bevel gear 210 is mounted on the shaft body at the end of the turntable drive shaft 204 extending into the drive box housing 201 and is in mating engagement with the first drive box bevel gear 209 mounted on the drive box output shaft 203.

The first pneumatic clutch 211 is mounted on the shaft body of the end of the driving box input shaft 202 extending to the outside of the driving box 201 in a matching manner, and the second pneumatic clutch 212 is mounted on the shaft body of the other end of the driving box input shaft 202 extending to the outside of the driving box 201 in a matching manner.

The variable frequency motor 3 is arranged on the upper part of one transverse end of the base 1 in a matching way, and the power output end of the variable frequency motor is provided with a motor connecting hub 31; the motor coupling hub 31 is matingly connected to the first tyre clutch 211 of the turntable drive housing 2.

The rotary table driving angle box 4 is matched and installed on the upper part of the other transverse end of the base 1 and comprises an angle box shell 41, an angle box input shaft 42, an angle box output shaft 43, a first angle box conical gear 44, a second angle box conical gear 45 and an angle box connecting hub 46. The corner box shell 41 is arranged on the upper part of the other transverse end of the base 1 in a matching way, and an accommodating space is arranged in the corner box shell; the rear side wall of the corner box housing 41 is longitudinally and fittingly provided with a corner box input shaft mounting sleeve 411, and the side wall facing the turntable driving box 2 is transversely and fittingly provided with a corner box output shaft mounting sleeve 412. The angle box input shaft 42 longitudinally penetrates through the angle box input shaft mounting sleeve 411 in a matching manner, one end of the angle box input shaft extends into the inner side of the angle box shell 41, and the other end of the angle box input shaft extends out of the outer side of the angle box shell 41 and is connected with a universal shaft of an angle box on an external winch in a matching manner; the shaft body of the angle box input shaft 42 located inside the angle box input shaft mounting sleeve 411 is connected with the angle box input shaft mounting sleeve 411 through a bearing assembly. The angle box output shaft 43 passes through the angle box output shaft mounting sleeve 412 along the transverse direction in a matching manner, one end of the angle box output shaft extends into the inner side of the angle box shell 41, and the other end of the angle box output shaft extends out of the outer side of the angle box shell 41; the shaft body of the angle box output shaft 43 positioned at the inner side of the angle box output shaft mounting sleeve 412 is connected with the angle box output shaft mounting sleeve 412 through a bearing assembly. The first angle box bevel gear 44 is fittingly sleeved and fixed on a shaft body at one end of the angle box input shaft 42 extending into the angle box housing 41. The second bevel gear 45 is fixed to the shaft body of the output shaft 43 of the bevel gear box at the end extending into the inner side of the bevel gear box 41. The corner box connecting hub 46 is fittingly mounted on an end shaft body of the corner box output shaft 43 extending outside the corner box housing 41, and the corner box connecting hub 46 is fittingly connected to the second pneumatic clutch 212 when the mechanical drill is used.

The utility model discloses a theory of operation:

when the mechanical drilling machine is used, the power drives the corner box 4 and the clutch 212 through the universal shaft drive turntable by the winch upper corner box, the drive box input shaft 202 drives the drive box output shaft 203 through the first drive box main belt pulley 205 and the second drive box main belt pulley 206, the turntable drive shaft 204 is driven through the first drive box bevel gear 209 and the second drive box bevel gear 210, the drive disc loading is realized, a user can manually shift and engage the first drive box secondary belt pulley 207 and the second drive box secondary belt pulley 208 to control the speed of the turntable by using the gear shifting mechanism 213 according to the requirements, and the first pneumatic clutch 211 can be engaged to realize emergency braking if an emergency occurs.

When the electric drilling machine is used, the power output end of the variable frequency motor 3 drives the motor to be connected with the hub 31, so that the power input of the turntable driving box 2 is realized, the switching can be conveniently realized, and the power input conversion of the turntable driving box 2 is realized; the first driving box main belt wheel 205 and the second driving box main belt wheel 206 of the driving box input shaft 202 drive the driving box output shaft 203, the turntable driving shaft 204 is driven through the first driving box bevel gear 209 and the second driving box bevel gear 210 to realize driving and disc loading, a user can manually shift and engage the first driving box secondary belt wheel 207 and the second driving box secondary belt wheel 208 by using the gear shifting mechanism 213 to control the speed of the turntable according to requirements, and the first tire clutch 211 can be engaged in case of emergency, so that emergency braking is realized.

The utility model discloses structural design is simple, and intensity is high, and the transportation is convenient, and the construction, the installation is dismantled in a flexible way, and the operation is stable, can convenient and reliable realization mechanical drilling machine and electric drill carousel driven power input.

Claims (6)

1. A rotary table transmission device of mixed input power is characterized in that: the turntable transmission device comprises a base, a turntable driving box, a variable frequency motor and a turntable driving angle box;

the turntable driving box is arranged on the upper part of the middle section of the base in a matching way, and a first pneumatic clutch and a second pneumatic clutch are respectively arranged at two ends of a power input shaft of the turntable driving box in a matching way; one end of a power output shaft of the turntable driving box is connected with a power input shaft of the turntable driving box in a matching manner, and the other end of the power output shaft of the turntable driving box is connected with an external turntable in a matching manner; a gear shifting mechanism is also installed on the power output shaft of the turntable driving box in a matching manner;

the variable frequency motor is mounted on the upper part of one end of the base in a matching manner, and the power output end of the variable frequency motor is connected with the first pneumatic clutch in a matching manner;

the rotary table driving angle box is installed on the upper portion of the other end of the base in a matched mode, the power input end of the rotary table driving angle box is connected with a universal shaft of an angle box on an external winch in a matched mode, and the power output end of the rotary table driving angle box is connected with the second pneumatic tire clutch in a matched mode.

2. The hybrid input power rotary table transmission of claim 1, wherein: the turntable driving box also comprises a driving box shell, a driving box input shaft, a driving box output shaft, a turntable driving shaft, a first driving box main belt wheel, a second driving box main belt wheel, a first driving box auxiliary belt wheel, a second driving box auxiliary belt wheel, a first driving box bevel gear and a second driving box bevel gear;

the driving box input shaft transversely penetrates through the rear part of the driving box shell, one end shaft body of the driving box input shaft extends out of the outer side of the driving box shell, the middle section shaft body is positioned in the driving box shell, and the other end shaft body extends out of the outer side of the driving box shell; the input shaft of the driving box is hinged with the rear part of the driving box shell;

the output shaft of the driving box is hinged and installed on the inner side of the front part of the driving box shell in a transverse matching mode;

the turntable driving shaft is longitudinally and matched and hinged on the front side of the driving box shell, one end of the turntable driving shaft extends into the inner side of the driving box shell, the other end of the turntable driving shaft extends out of the outer side of the driving box shell, and the extending end of the turntable driving shaft is matched and connected with an external turntable through a coupler;

the first driving box main belt wheel and the second driving box main belt wheel are both positioned in the driving box shell and are sleeved and fixed on a middle shaft body of the driving box input shaft in a matching manner;

the first driving box auxiliary belt wheel and the second driving box auxiliary belt wheel are coaxially matched and hinged on a shaft body at one end of the output shaft of the driving box;

the first driving box secondary belt wheel is connected with the first driving box main belt wheel in a matching mode through a belt, and the second driving box secondary belt wheel is connected with the second driving box main belt wheel in a matching mode through a belt;

the first driving box bevel gear is mounted on the shaft body at the other end of the driving box output shaft in a matching manner; and the second driving box bevel gear is mounted on a shaft body at one end of the rotary table driving shaft extending into the inner side of the driving box shell in a matching way and is meshed with the first driving box bevel gear in a matching way.

3. The hybrid input power rotary table transmission of claim 2, wherein: the gear shifting mechanism is installed on the driving box output shaft between the first driving box secondary belt wheel and the second driving box secondary belt wheel in a matching mode.

4. The hybrid input power rotary table transmission of claim 2, wherein: and the first pneumatic clutch and the second pneumatic clutch are respectively installed on shaft bodies at two ends, extending out of the outer side of the drive box shell, of the input shaft of the drive box in a matching manner.

5. The hybrid input power rotary table transmission of claim 1, wherein: the power output end of the variable frequency motor is provided with a motor connecting hub; and the power output end of the variable frequency motor is connected with the first tyre clutch in a matching way through the motor connecting hub.

6. The hybrid input power rotary table transmission of claim 1, wherein: the rotary table driving angle box comprises an angle box shell, an angle box input shaft, an angle box output shaft, a first angle box conical gear, a second angle box conical gear and an angle box connecting hub;

the corner box shell is installed on the upper part of the other end of the base in a matching mode, and an accommodating space is formed in the corner box shell;

the angle box input shaft penetrates through the angle box shell along the longitudinal direction, one end of the angle box input shaft extends into the inner side of the angle box shell, and the other end of the angle box input shaft extends out of the outer side of the angle box shell; the angle box input shaft is hinged with the angle box shell;

the angle box output shaft penetrates through the angle box shell along the transverse direction in a matching manner, one end of the angle box output shaft extends into the inner side of the angle box shell, and the other end of the angle box output shaft extends out of the outer side of the angle box shell; the angle box output shaft is hinged with the angle box shell;

the first angle box conical gear is matched and sleeved on a shaft body which is fixed at one end of the angle box input shaft extending into the inner side of the angle box shell;

the second angle box conical gear is matched and sleeved with and fixed on a shaft body at one end of the angle box output shaft, which extends into the inner side of the angle box shell;

the angle box connecting hub is installed on a shaft body at one end, extending out of the outer side of the angle box shell, of the angle box output shaft in a matched mode, and the angle box connecting hub is connected with the second pneumatic tire clutch in a matched mode.

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