CN118100544A - Auxiliary installation device for electromechanical equipment - Google Patents

Abstract

The invention discloses an auxiliary installation device of electromechanical equipment, which relates to the technical field of electromechanical equipment installation, and comprises the following components: a base and a motor to be installed; the clamping moving part comprises a mounting frame which is slidably mounted on the base; the support frame is fixedly arranged on the base, a bottom support part is arranged on the support frame, the bottom support part comprises a support plate which is slidably arranged on the support frame, and an auxiliary support assembly is arranged on the support plate; the screwing part comprises a guide seat fixedly installed on the side wall of the installation frame, an inclined rod is slidably installed on the guide seat, and two screwing components are installed at the lower end of the inclined rod. The advantages are that: when the mechanical and electrical equipment is installed, the weight and the conveying stroke of the mechanical and electrical equipment can be facilitated, the energy storage and the control can be automatically carried out on the fixing treatment between the mechanical and electrical equipment and the installation plate, the automation degree and the sensitivity are high, and the overall installation efficiency is greatly improved.

Description

Auxiliary installation device for electromechanical equipment

Technical Field

The invention relates to the technical field of electromechanical equipment installation, in particular to an electromechanical equipment auxiliary installation device.

Background

The electromechanical device refers to a generic term of mechanical, electrical and electrical automation devices, wherein the electromechanical device is a motor, and after the motor is produced, a mounting plate is required to be additionally arranged at the bottom of the electromechanical device in order to improve the transportation stability and facilitate the subsequent installation.

Because some motors are larger, for improving installation effectiveness, need use auxiliary installation device to cooperate the installation, for example patent document of patent No. ZL202111228951.0 discloses an electromechanical integration motor installation auxiliary device, including organism, transport platform and elevating platform, it sets up on the organism to carry the platform activity, carries the bench to be equipped with the supporting seat, and the elevating platform activity sets up on the supporting seat, and the activity is provided with a set of directive wheel and a set of drive wheel on the organism.

The electromechanical motor installation auxiliary device can transport and remove dust from the motor, reduces the operation difficulty to a certain extent, and still has the following defects:

After the motor is conveyed in place, the fixation between the motor and the mounting surface still needs to be completed manually by a worker or by other equipment, and the mounting efficiency needs to be improved.

Therefore, there is a need to design an electromechanical device auxiliary mounting device.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an auxiliary installation device of electromechanical equipment, which solves the problem that the motor provided in the background art still needs to be additionally operated after being conveyed in place.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

an electromechanical device auxiliary mounting apparatus, comprising:

A base and a motor to be installed;

the clamping moving part comprises a mounting frame which is slidably mounted on the base;

The support frame is fixedly arranged on the base, a bottom support part is arranged on the support frame, the bottom support part comprises a support plate which is slidably arranged on the support frame, and an auxiliary support assembly is arranged on the support plate;

The screwing part comprises a guide seat fixedly installed on the side wall of the installation frame, an inclined rod is slidably installed on the guide seat, and two screwing components are installed at the lower end of the inclined rod.

Further, a sliding groove is formed in the bottom of the mounting frame, an installation seat is arranged in the sliding groove in a sliding mode, a sliding motor is fixedly arranged on the side wall of the mounting frame, the output end of the sliding motor is fixedly connected with a sliding screw rod, and one end of the sliding screw rod located in the sliding groove is in threaded connection with the installation seat;

The utility model discloses a movable clamp plate, including the mount pad, the mount pad is gone up and has been offered the removal chamber, and movable clamp plate's sliding installation has two movable blocks in the removal chamber, fixed mounting has movable motor on the lateral wall of mount pad, and movable motor's output fixedly connected with two-way lead screw, two-way lead screw is located the one end and the two movable blocks of removal intracavity and is threaded connection, two the equal fixed mounting of movable block bottom has arc splint, and a plurality of chucking subassemblies are all installed to the one end that two arc splints are close to each other.

Further, the guide way has all been seted up on the front and back both sides wall of sliding tray, and two equal sliding connection have the guide block in the guide way, two the guide block all with mount pad fixed connection, the chucking subassembly comprises removal groove, spring, removal seat, spout, slider and kicking block, it sets up on the lateral wall of arc splint to remove the groove, it passes through spring slidable mounting on removing the groove to remove the seat, the spout is seted up on removing the seat, the slider slides from top to bottom in the spout, kicking block fixed mounting is on the slider.

Further, the lifting cavity is formed in the base, the connecting plate is arranged in the lifting cavity in a sealing sliding mode, a plurality of pressure springs are arranged between the bottom of the connecting plate and the lifting cavity, a plurality of support rods are arranged on the base in a sliding mode, each support rod is fixedly connected with the connecting plate, each support rod top is fixedly connected with the mounting frame, the auxiliary support assembly comprises a plurality of mounting blocks, the mounting blocks are respectively and symmetrically arranged at the upper end of the supporting plate in a fixed mode, and each group of mounting blocks are respectively and symmetrically arranged on the supporting plate in a rotating mode through rotating shafts.

Further, a plurality of lifting grooves are formed in the side wall of the supporting frame, lifting blocks are slidably mounted in each lifting groove, each lifting block is fixedly connected with the supporting plate, and a top spring is mounted between each lifting block and the corresponding lifting groove.

Further, the lifting screw rod is rotationally connected to the guide holder and is in threaded connection with the inclined rod, a fixed gear is fixedly arranged at the top of the lifting screw rod, a torsion spring is arranged between the fixed gear and the guide holder, one of the torsion springs is provided with a mounting groove on the side wall of the guide groove, a movable rack matched with the corresponding guide block is slidably arranged in the mounting groove, and the movable rack is meshed with the fixed gear.

Further, twist and move the subassembly by hollow rod, advance air jacket, connecting tube, headstock gear, two dead levers, two fixing bases, two installation cover, two twist and move cover, two differential mechanism, two pistons and two drive racks and constitute, hollow rod fixed mounting is in the dead lever bottom, two the fixing base is respectively through a dead lever fixed mounting at hollow rod both ends, two installation cover is respectively fixed mounting on two fixing bases, two twist and move the cover and rotate respectively and connect in two installation cover bottoms, two the equal sealing sliding connection of piston is in the hollow rod, two drive racks are fixed mounting respectively on two pistons, the connecting tube communicates at the middle section part of hollow rod, the intercommunication of air inlet cover is on the connecting tube, headstock gear installs between air inlet cover and two installation covers, two differential mechanism installs respectively between two fixing bases and two twist and move the cover.

Further, the opening and closing mechanism comprises control rod, control panel, two pull rods, two roof and two extension springs, control rod sliding connection is between two cover that admits air, the control panel passes through connecting rod fixed mounting in the control rod bottom, and control panel sealing sliding connection is in the cover that admits air, the thickness of control panel is greater than or equal to the height of connecting pipe, two the pull rod is fixed mounting respectively in control rod bottom both ends, two roof is fixed mounting respectively in two control rod bottoms, and two roof is sliding connection respectively in two and is twisted the cover, two the extension spring is installed respectively between control rod and two cover that admits air.

Further, the differential mechanism comprises fixed ring gear, round bar, meshing gear and drive gear, fixed ring gear fixed mounting is on twisting the lateral wall of cover, and fixed ring gear rotates with the installation cover to be connected, the round bar rotates to be connected on the fixing base, meshing gear fixed mounting is on the round bar, and meshing gear meshes with fixed ring gear, drive gear fixed mounting is in the round bar bottom, and drive gear meshes with drive rack, drive gear's number of teeth and diameter are all less than the meshing gear.

Further, a U-shaped rod is fixedly installed between the two installation sleeves at the left side, a pressurizing sleeve is fixedly installed on the supporting frame, a piston plate is connected in the pressurizing sleeve in a sealing sliding mode, a compression rod is fixedly installed between the piston plate and the supporting plate, and a guide pipe is communicated between the bottom of the pressurizing sleeve and the two air inlet sleeves.

Compared with the prior art, the invention has the advantages that:

1: when installing electromechanical device, have and carry out fixed advantage with mounting panel with it automatically after electromechanical device carries in place, need not the staff and carries out the operation separately, can effectively improve installation effectiveness, specifically through the design of twisting the portion of moving, can accomplish the fastening processing to a plurality of mounting bolts on it voluntarily when waiting to adorn the motor transportation in place.

2: When the electromechanical device is installed, the device has the advantage of automatically providing driving for the operation of the screwing part, and particularly can store energy for the operation of the screwing part by utilizing the weight applied to the supporting plate by the motor to be installed through the cooperation of the supporting plate, the pressurizing sleeve and the piston plate, so that a power source is not required to be additionally arranged, and the use cost is reduced.

3: When installing electromechanical device, have the advantage of automatic according to electromechanical device stroke to twisting the portion operation of moving and controlling, automation and sensitivity degree are all higher, specifically through the cooperation of diagonal bar and U type pole, can be along with waiting to adorn the transportation that the motor makes a plurality of screw the cover gradually to be close to it, later can twist the installation automatically through the contact of installing bolt and screw the cover.

4: When installing electromechanical device, have and guarantee to wait to adorn the motor and remove the advantage of conveying process stability, specifically through the cooperation of two arc splint and a plurality of chucking subassemblies, can firmly fix waiting to adorn the motor in the mount pad bottom before carrying, avoid moving the in-process and take place to rock scheduling problem and lead to the position offset to influence the installation effect.

In summary, when the electromechanical device is installed, the weight and the conveying stroke of the electromechanical device can be facilitated, the fixing treatment between the electromechanical device and the installation plate can be automatically stored and controlled, the automation degree and the sensitivity are high, and the overall installation efficiency is greatly improved.

Drawings

Fig. 1 is a schematic structural view of an auxiliary installation device for electromechanical equipment according to the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 with the base removed;

FIG. 3 is an enlarged schematic view of the clamping moving portion of FIG. 1;

FIG. 4 is a schematic view of FIG. 3 with the motor to be mounted removed and deflected to the right by a certain angle;

FIG. 5 is a schematic diagram of the front structure of FIG. 4;

FIG. 6 is a cross-sectional view taken along the direction a-a in FIG. 5;

FIG. 7 is a schematic perspective view of FIG. 6;

FIG. 8 is a schematic view of the structure of FIG. 3 after being deflected downward by a certain angle;

FIG. 9 is a top view of FIG. 8;

FIG. 10 is a cross-sectional view taken along the direction b-b in FIG. 9;

FIG. 11 is a schematic perspective view of FIG. 10;

FIG. 12 is a schematic view of the support frame and components thereon of FIG. 1;

FIG. 13 is an exploded view of the structure of FIG. 12;

FIG. 14 is an enlarged schematic view of the screw portion of FIG. 1;

fig. 15 is an exploded view of one of the screw-on assemblies of fig. 14.

In the figure: 1a base, 2a motor to be installed, 3a mounting rack, 4a sliding groove, 5a mounting seat, 6 a sliding motor, 7 a sliding screw rod, 8a guide block, 9 a guide groove, 10a moving motor, 11 a bidirectional screw rod, 12 an arc clamping plate, 13 a supporting rod, 14 a connecting plate, 15a pressure spring, 16 a supporting frame, 17 a supporting plate, 18a lifting groove, 19 a top spring, 20 a mounting block, 21 a roller, 22 a guide seat, 23 a diagonal rod, 24 a hollow rod, 25 a fixed rod, 26 a fixed seat, 27 a mounting sleeve, 28 a U-shaped rod, 29 a pressurizing sleeve, 30 a screwing sleeve, 31 a fixed gear ring, 32 a round rod, 33 a meshing gear, 34 a driving gear, 35 a piston, 36 a driving rack, 37 an air inlet sleeve, 38 a connecting pipe, 39 a top plate, 40 a pull rod, 41 a control rod, 42 a tension spring, 43 a control plate, 44 a guide pipe, 45 a fixed gear, 46 a moving rack and 47 a mounting groove.

Detailed Description

Referring to fig. 1-11, an electromechanical device auxiliary mounting apparatus includes:

the base 1 and the motor 2 to be installed, the motor 2 to be installed is electromechanical equipment to be installed, in an electromechanical equipment manufacturer, in order to facilitate transportation and subsequent installation of the electromechanical equipment after production, a mounting plate is required to be additionally arranged at the bottom of the electromechanical equipment, the electromechanical equipment is stably placed, the transportation stability is improved, meanwhile, the connection difficulty between the subsequent equipment and the matched equipment is reduced, a placing table is fixedly arranged at the front end of the base 1, the mounting plate can be placed on the placing table, the base 1 is used for integrally supporting the device, a plurality of mounting bolts are placed on the motor 2 to be installed, and the design of the mounting bolts is used for fixing the motor 2 to be installed and the mounting plate.

The clamping moving part is used for clamping and fixing the motor 2 to be installed and conveying the motor forwards, the clamping moving part comprises a mounting frame 3 which is slidably mounted on the base 1, a sliding groove 4 is formed in the bottom of the mounting frame 3, a mounting seat 5 is slidably mounted in the sliding groove 4, a sliding motor 6 is fixedly mounted on the side wall of the mounting frame 3, the output end of the sliding motor 6 is fixedly connected with a sliding screw 7, one end of the sliding screw 7 located in the sliding groove 4 is in threaded connection with the mounting seat 5, and when the sliding motor 6 runs, the sliding screw 7 is matched with the mounting seat 5 to drive the motor 2 to be installed mounted at the lower end of the mounting seat 5 to move left and right so as to realize conveying the motor 2 to be installed forwards.

Guide grooves 9 are formed in the front side wall and the rear side wall of the sliding groove 4, guide blocks 8 are slidably connected in the two guide grooves 9, the two guide blocks 8 are fixedly connected with the mounting seat 5, and the moving track of the mounting seat 5 in the sliding groove 4 can be limited under the cooperation of the guide grooves 9 and the guide blocks 8.

The movable cavity is formed in the mounting seat 5, two movable blocks are slidably mounted in the movable cavity, a movable motor 10 is fixedly mounted on the side wall of the mounting seat 5, a bidirectional screw rod 11 is fixedly connected to the output end of the movable motor 10, one end of the bidirectional screw rod 11 located in the movable cavity is in threaded connection with the two movable blocks, arc clamping plates 12 are fixedly mounted at the bottoms of the two movable blocks, when the movable motor 10 operates, the distance between the two arc clamping plates 12 can be adjusted under the cooperation of the bidirectional screw rod 11 and the two movable blocks, and further the position change of the two arc clamping plates 12 is utilized to clamp or lower the motor 2 to be mounted.

A plurality of chucking components are all installed to the one end that two arc splint 12 are close to each other, chucking components comprises removal groove, a spring, remove the seat, the spout, slider and kicking block, it offers on the lateral wall of arc splint 12 to remove the groove, remove the seat and pass through spring slidable mounting on removing the groove, the spout is offered on removing the seat, the slider slides from top to bottom in the spout, kicking block fixed mounting is on the slider, through the cooperation of spout and slider, make the kicking block can slide from top to bottom on removing the seat, under the cooperation of spring and removal groove, make it can drive the kicking block and stretch out and draw back along arc splint 12 lateral wall, thereby when treating dress motor 2 at utilizing arc splint 12 to carry out the centre gripping fixedly, can effectively ensure the snatch firm degree of two arc splint 12 treating dress motor 2, guarantee the stability of treating dress motor 2 in the removal process.

Referring to fig. 1-4 and 8-15, an electromechanical device auxiliary mounting apparatus further includes:

The supporting frame 16 of fixed mounting on base 1 installs bottom sprag portion on the supporting frame 16, bottom sprag portion is used for supporting to wait to adorn motor 2 bottom, bottom sprag portion includes the backup pad 17 of slidable mounting on the supporting frame 16, a plurality of lift grooves 18 have been seted up on the lateral wall of supporting frame 16, all slidable mounting has the lifter in every lift groove 18, and every lifter all with backup pad 17 fixed connection, all install top spring 19 between every lifter and the corresponding lift groove 18, under the cooperation of lifter and lift groove 18, backup pad 17 can reciprocate on the supporting frame 16, under the elasticity effect of top spring 19, when backup pad 17 does not receive external force, can ensure that backup pad 17 is unchangeable in the position of supporting frame 16.

The lifting cavity is formed in the base 1, the connecting plate 14 is arranged in the lifting cavity in a sealing sliding manner, the plurality of pressure springs 15 are arranged between the bottom of the connecting plate 14 and the lifting cavity, the plurality of support rods 13 are arranged on the base 1 in a sliding manner, the bottom of each support rod 13 is fixedly connected with the connecting plate 14, the top of each support rod 13 is fixedly connected with the mounting frame 3, the mounting frame 3 can move up and down relative to the base 1 through the cooperation of the connecting plate 14 and the plurality of support rods 13, and under the action of the plurality of pressure springs 15, when the mounting frame 3 is not subjected to external force, the position of the mounting frame 3 on the base 1 can be ensured to be unchanged.

And when two arc splint 12 carry out centre gripping fixed back to wait to adorn motor 2, wait to adorn the gravity of motor 2 and can make mounting bracket 3 move down relative base 1, connecting plate 14 moves down in the lift intracavity this moment, makes wait to adorn motor 2 and can carry out the lower motion smoothly and do.

The auxiliary support assembly is arranged on the support plate 17 and comprises a plurality of installation blocks 20, the installation blocks 20 are respectively and symmetrically and fixedly installed at the upper end of the support plate 17 in pairs, each group of installation blocks 20 is provided with a roller 21 through rotation of a rotating shaft, when the self weight of the motor 2 to be installed is enabled to downwards move, the bottom of the motor is contacted with the rollers 21, the rollers 21 play a supporting role on the motor 2 to be installed, at the moment, the motor 2 to be installed is enabled to move forwards through operation of the sliding motor 6, load of the sliding motor 6 due to the weight of the motor 2 to be installed can be effectively reduced, and the service life of the sliding motor 6 is prolonged.

The screwing part is used for screwing the plurality of mounting bolts and comprises a guide seat 22 fixedly mounted on the side wall of the mounting frame 3, an inclined rod 23 is slidably mounted on the guide seat 22, a lifting screw rod is rotatably connected to the guide seat 22 and is in threaded connection with the inclined rod 23, and the inclined rod 23 can be driven to move up and down along the guide seat 22 when the lifting screw rod rotates.

The fixed gear 45 is fixedly arranged at the top of the lifting screw rod, a torsion spring is arranged between the fixed gear 45 and the guide seat 22, a mounting groove 47 is formed in the side wall of one guide groove 9, a movable rack 46 matched with the corresponding guide block 8 is slidably arranged in the mounting groove 47, the movable rack 46 is meshed with the fixed gear 45, after the mounting seat 5 moves in the mounting frame 3 for a certain distance, the corresponding guide block 8 pushes against the movable rack 46 to move, and at the moment, the mounting seat 5 continuously moves the fixed gear 45 to drive the lifting screw rod to rotate against the elasticity of the torsion spring, so that a driving force is provided for the movement of the inclined rod 23.

The lower end of the inclined rod 23 is provided with two screwing components, and each screwing component consists of a hollow rod 24, an air inlet sleeve 37, a connecting pipe 38, an opening and closing mechanism, two fixing rods 25, two fixing seats 26, two mounting sleeves 27, two screwing sleeves 30, two differential mechanisms, two pistons 35 and two driving racks 36.

The hollow rod 24 is fixedly arranged at the bottom of the inclined rod 23, two fixing seats 26 are respectively fixedly arranged at two ends of the hollow rod 24 through a fixing rod 25, two mounting sleeves 27 are respectively fixedly arranged on the two fixing seats 26, a U-shaped rod 28 is fixedly arranged between the two mounting sleeves 27 positioned at the left side, and two screwing components can be fixed through the design of the U-shaped rod 28, so that when the inclined rod 23 moves downwards, the two screwing components can move downwards simultaneously.

The two screwing sleeves 30 are respectively and rotatably connected to the bottoms of the two mounting sleeves 27, the two pistons 35 are respectively and hermetically connected in the hollow rod 24, the two driving racks 36 are respectively and fixedly arranged on the two pistons 35, the connecting pipe 38 is communicated with the middle section part of the hollow rod 24, the air inlet sleeve 37 is communicated with the connecting pipe 38, the pressurizing sleeve 29 is fixedly arranged on the supporting frame 16, the piston plate is hermetically and slidingly connected in the pressurizing sleeve 29, the compression rod is fixedly arranged between the piston plate and the supporting plate 17, the bottom of the pressurizing sleeve 29 is communicated with the two air inlet sleeves 37, the guide pipes 44 are respectively communicated between the bottom of the pressurizing sleeve 29 and the two air inlet sleeves 37, when the motor 2 to be mounted moves downwards and contacts with the roller 21 on the supporting plate 17, the weight of the motor 2 to be mounted can enable the supporting plate 17 to move downwards in the supporting frame 16, at the moment, the piston plate moves downwards in the pressurizing sleeve 29, the bottom pressure of the pressurizing sleeve 29 is increased, and the two guide pipes 44 can pressurize the inside the two air inlet sleeves 37.

The opening and closing mechanism is arranged between the air inlet sleeve 37 and the two mounting sleeves 27 and consists of a control rod 41, a control plate 43, two pull rods 40, two top plates 39 and two tension springs 42, wherein the control rod 41 is connected between the two air inlet sleeves 37 in a sliding mode, the control plate 43 is fixedly arranged at the bottom of the control rod 41 through a connecting rod, the control plate 43 is connected in the air inlet sleeve 37 in a sealing sliding mode, the thickness of the control plate 43 is greater than or equal to the height of the connecting pipe 38, the two pull rods 40 are respectively and fixedly arranged at two ends of the bottom of the control rod 41, the two top plates 39 are respectively and fixedly arranged at the bottoms of the two control rods 41, the two top plates 39 are respectively and slidably connected in the two screwing sleeves 30, and the two tension springs 42 are respectively arranged between the control rod 41 and the two air inlet sleeves 37.

When the screwing sleeve 30 is not completely connected with the mounting bolts, the control rod 41 is close to the two mounting sleeves 27 by the pulling force of the two tension springs 42, at the moment, the control plate 43 seals the connecting tube 38 in the air inlet sleeve 37, so that air pressure in the air inlet sleeve 37 cannot enter the hollow rod 24, when the mounting seat 5 moves to a designated position in the mounting frame 3, the movable rack 46 pushes the fixed gear 45, the inclined rod 23 moves downwards to enable the screwing sleeve 30 to approach the mounting bolts, the mounting bolts push the top plate 39 to drive the control rod 41 to move upwards, at the moment, the control plate 43 releases the sealing of the connecting tube 38, and pressurized air enters the hollow rod 24 to push the two driving racks 36 to move outwards.

The differential mechanism is respectively installed between the two fixed seats 26 and the two screwing sleeves 30, and consists of a fixed gear ring 31, a round rod 32, a meshing gear 33 and a driving gear 34, wherein the fixed gear ring 31 is fixedly installed on the side wall of the screwing sleeve 30, the fixed gear ring 31 is rotationally connected with the installation sleeve 27, the round rod 32 is rotationally connected on the fixed seats 26, the meshing gear 33 is fixedly installed on the round rod 32, the meshing gear 33 is meshed with the fixed gear ring 31, the driving gear 34 is fixedly installed at the bottom of the round rod 32, the driving gear 34 is meshed with the driving rack 36, and the number of teeth and the diameter of the driving gear 34 are smaller than those of the meshing gear 33.

When the driving rack 36 moves outwards, the driving gear 34 is driven to rotate, at the moment, the meshing gear 33 rotates simultaneously under the connection action of the round rod 32, and the meshing gear 33 and the fixed gear ring 31 cooperate to enable the screwing sleeve 30 to rotate, so that the screwing process of the mounting bolt can be automatically completed.

The side wall of the base 1 is fixedly provided with a controller, the controller is electrically connected with the sliding motor 6 and the moving motor 10, the sliding motor 6 and the moving motor 10 can be effectively controlled according to the installation requirement of electromechanical equipment under the action of the controller, the controller can be a KV-16AT type controller, and the sliding motor 6 and the moving motor 10 can be ACM6004M2H type servo motors.

In order to further improve the application range of the device, a lifting platform with universal wheels can be additionally arranged at the bottom of the base 1, so that the initial height of the base 1 can be conveniently adjusted, and the device can be conveniently moved to a designated working position.

The working principle of the auxiliary installation device of the electromechanical equipment comprises the following steps:

Fixing and conveying electromechanical equipment: starting the sliding motor 6 to enable the two arc clamping plates 12 to simultaneously move to the front end and the rear end of the motor 2 to be assembled, then closing the sliding motor 6 and starting the moving motor 10 to enable the two arc clamping plates 12 to approach each other to finish the fixation of the motor 2 to be assembled, and then starting the sliding motor 6 again to drive the motor 2 to be assembled to move back and forth along the mounting frame 3 by using the mounting seat 5;

Fixing the motor 2 to be mounted with the mounting plate: when the motor 2 to be assembled moves downwards and contacts with the roller 21 on the supporting plate 17, the weight of the motor 2 to be assembled causes the supporting plate 17 to move downwards in the supporting frame 16, at the moment, the piston plate moves downwards in the pressurizing sleeve 29, the air pressure in the two air inlet sleeves 37 is increased under the action of the two guide pipes 44, but the space between the two air inlet sleeves 37 and the two connecting pipes 38 is kept closed, and at the moment, the pressure in the two hollow rods 24 is unchanged;

When the motor 2 to be mounted moves for a certain distance, the movable rack 46 touches the fixed gear 45, at this time, the inclined rod 23 drives the two screwing components to move downwards, when the plurality of screwing sleeves 30 are contacted with the plurality of mounting bolts and continuously move downwards, the two opening and closing mechanisms are opened, the plurality of differential mechanisms start to operate, and at this time, the plurality of screwing sleeves 30 can automatically complete the automatic screwing of the mounting bolts.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An electromechanical device auxiliary installation apparatus, characterized by comprising:

A base (1) and a motor (2) to be installed;

The clamping moving part comprises a mounting frame (3) which is slidably mounted on the base (1);

The support frame (16) is fixedly arranged on the base (1), a bottom support part is arranged on the support frame (16), the bottom support part comprises a support plate (17) which is slidably arranged on the support frame (16), and an auxiliary support component is arranged on the support plate (17);

The screwing part comprises a guide seat (22) fixedly installed on the side wall of the installation frame (3), an inclined rod (23) is slidably installed on the guide seat (22), and two screwing components are installed at the lower end of the inclined rod (23).

2. The auxiliary installation device of the electromechanical equipment according to claim 1, wherein a sliding groove (4) is formed in the bottom of the installation frame (3), an installation seat (5) is arranged in the sliding groove (4) in a sliding mode, a sliding motor (6) is fixedly installed on the side wall of the installation frame (3), the output end of the sliding motor (6) is fixedly connected with a sliding screw rod (7), and one end of the sliding screw rod (7) located in the sliding groove (4) is in threaded connection with the installation seat (5);

The utility model discloses a movable clamp plate for a bicycle, including installation seat (5) and fixed mounting, the removal chamber has been seted up on installation seat (5), and movable mounting has two movable blocks in the removal chamber, fixed mounting has moving motor (10) on the lateral wall of installation seat (5), and the output fixedly connected with two-way lead screw (11) of moving motor (10), two-way lead screw (11) are located the one end and the two movable blocks of removal intracavity and are threaded connection, two equal fixed mounting in movable block bottom has arc splint (12), and a plurality of chucking subassemblies are all installed to the one end that two arc splints (12) are close to each other.

3. The auxiliary installation device of the electromechanical equipment according to claim 2, wherein guide grooves (9) are formed in the front side wall and the rear side wall of the sliding groove (4), guide blocks (8) are connected in the two guide grooves (9) in a sliding mode, the two guide blocks (8) are fixedly connected with the installation seat (5), the clamping assembly is composed of a moving groove, a spring, a moving seat, a sliding groove, a sliding block and a top block, the moving groove is formed in the side wall of the arc-shaped clamping plate (12), the moving seat is slidably mounted on the moving groove through the spring, the sliding groove is formed in the moving seat, the sliding block vertically slides in the sliding groove, and the top block is fixedly mounted on the sliding block.

4. The auxiliary installation device of the electromechanical equipment according to claim 1, wherein a lifting cavity is formed in the base (1), a connecting plate (14) is installed in the lifting cavity in a sealing sliding mode, a plurality of pressure springs (15) are installed between the bottom of the connecting plate (14) and the lifting cavity, a plurality of supporting rods (13) are installed on the base (1) in a sliding mode, the bottom of each supporting rod (13) is fixedly connected with the connecting plate (14), the top of each supporting rod (13) is fixedly connected with the installation frame (3), the auxiliary support assembly comprises a plurality of installation blocks (20), the installation blocks (20) are installed at the upper end of the supporting plate (17) in a two-by-two symmetrical mode respectively, and a roller (21) is installed on each installation block (20) in a rotating mode through a rotating shaft.

5. An auxiliary installation device for electromechanical equipment according to claim 1, characterized in that a plurality of lifting grooves (18) are formed in the side wall of the supporting frame (16), lifting blocks are slidably installed in each lifting groove (18), each lifting block is fixedly connected with the supporting plate (17), and a top spring (19) is installed between each lifting block and the corresponding lifting groove (18).

6. An auxiliary installation device for electromechanical equipment according to claim 3, characterized in that the guide holder (22) is rotatably connected with a lifting screw rod, the lifting screw rod is in threaded connection with the inclined rod (23), a fixed gear (45) is fixedly installed at the top of the lifting screw rod, a torsion spring is installed between the fixed gear (45) and the guide holder (22), an installation groove (47) is formed in the side wall of one guide groove (9), a movable rack (46) matched with the corresponding guide block (8) is slidably installed in the installation groove (47), and the movable rack (46) is meshed with the fixed gear (45).

7. The auxiliary installation device of an electromechanical device according to claim 6, wherein the screwing assembly comprises a hollow rod (24), an air inlet sleeve (37), a connecting tube (38), an opening and closing mechanism, two fixing rods (25), two fixing seats (26), two installation sleeves (27), two screwing sleeves (30), two differential mechanisms, two pistons (35) and two driving racks (36), the hollow rod (24) is fixedly installed at the bottom of the inclined rod (23), the two fixing seats (26) are fixedly installed at two ends of the hollow rod (24) through one fixing rod (25), the two installation sleeves (27) are fixedly installed on the two fixing seats (26) respectively, the two screwing sleeves (30) are respectively connected to the bottoms of the two installation sleeves (27) in a sealing sliding mode, the two driving racks (36) are respectively fixedly installed on the two pistons (35), the connecting tube (38) is fixedly installed at two ends of the hollow rod (24), the two differential mechanisms (37) are installed between the two fixing sleeves (37) and the two screwing sleeves, and the two screwing sleeves (30) are respectively connected to the air inlet sleeve.

8. The auxiliary installation device of an electromechanical device according to claim 7, wherein the opening and closing mechanism is composed of a control rod (41), a control plate (43), two pull rods (40), two top plates (39) and two tension springs (42), the control rod (41) is slidably connected between two air inlet sleeves (37), the control plate (43) is fixedly installed at the bottom of the control rod (41) through a connecting rod, the control plate (43) is hermetically slidably connected in the air inlet sleeve (37), the thickness of the control plate (43) is greater than or equal to the height of a connecting pipe (38), the two pull rods (40) are fixedly installed at two ends of the bottom of the control rod (41), the two top plates (39) are fixedly installed at the bottom of the two control rods (41), the two top plates (39) are slidably connected in the two screwing sleeves (30), and the two tension springs (42) are installed between the control rod (41) and the two air inlet sleeves (37).

9. The auxiliary installation device for the electromechanical equipment according to claim 8, wherein the differential mechanism is composed of a fixed gear ring (31), a round bar (32), a meshing gear (33) and a driving gear (34), the fixed gear ring (31) is fixedly installed on the side wall of the screwing sleeve (30), the fixed gear ring (31) is rotationally connected with the installation sleeve (27), the round bar (32) is rotationally connected with the fixing seat (26), the meshing gear (33) is fixedly installed on the round bar (32), the meshing gear (33) is meshed with the fixed gear ring (31), the driving gear (34) is fixedly installed at the bottom of the round bar (32), the driving gear (34) is meshed with the driving gear rack (36), and the number of teeth and the diameter of the driving gear (34) are smaller than those of the meshing gear (33).

10. An auxiliary installation device for electromechanical equipment according to claim 8, characterized in that a U-shaped rod (28) is fixedly installed between the two installation sleeves (27) positioned on the left side, a pressurizing sleeve (29) is fixedly installed on the supporting frame (16), a piston plate is connected in a sealing sliding manner in the pressurizing sleeve (29), a compression rod is fixedly installed between the piston plate and the supporting plate (17), and a conduit (44) is communicated between the bottom of the pressurizing sleeve (29) and the two air inlet sleeves (37).