CN209834914U - Heavy flywheel housing front and back turning device - Google Patents

Abstract

The utility model discloses a heavy flywheel housing positive and negative turnover device, which comprises a supporting leg frame and a turnover mechanism arranged on the supporting leg frame and used for turning over the positive and negative of the heavy flywheel housing, wherein the turnover mechanism comprises a pair of axle seats arranged on the upper part of the supporting leg frame, a rectangular roller frame is arranged between the pair of axle seats through the rotation of two short supporting shafts, the short supporting shafts are fixedly connected with the roller frame, a row of rotating rods are respectively arranged on the top and the bottom of the roller frame in a rotating way, the two rows of rotating rods are arranged in parallel and form a roller way used for clamping and transmitting the heavy flywheel housing, a material blocking module is arranged on the roller frame and at the outlet end of the roller way, a power module which is arranged beside one of the axle seats on the supporting leg frame and used for providing turnover force for the roller frame is provided with, the turnover mechanism has the advantages of small occupied area and low cost, and the front and back sides of the heavy flywheel shell can be turned over without a large turnover mechanism.

Description

Heavy flywheel housing front and back turning device

Technical Field

The utility model belongs to the technical field of bell housing processing manufacturing installation, especially, relate to a heavy bell housing positive and negative turning device.

Background

The flywheel shell is usually arranged between an engine and a gearbox, is externally connected with a crankcase, is internally provided with a flywheel assembly, a starter, an oil pan and the like, is usually provided with a heat dissipation window on the shell, is additionally provided with a heat dissipation cover plate, and has the characteristics of simple structure, easy installation and the like on the structural characteristics.

At present, the flywheel shells of vehicle part manufacturing enterprises are produced and processed by manual overturning in the process of overturning the processing surface, so that the problems of high labor intensity of workers, low working efficiency and the like exist, and the processed working surface is extremely easy to damage, thereby causing unexpected loss. And for small flywheel shells, the weight is generally below 20 kilograms, and manual overturning can be reluctantly adopted, but for some heavy flywheel shells, the lifting weight is generally above 20 kilograms, and some heavy flywheel shells even reach more than 50 kilograms, and manual overturning of the heavy flywheel shells is difficult to complete. Therefore, a device for overturning the front and the back of the heavy flywheel casing needs to be researched.

The utility model discloses an automatic conveyer that overturns of bell housing is announced to grant notice No. CN 203714773U's utility model, including frame, upset roller frame, roller frame supporting wheel, output roller machine, input roller machine, roller frame supporting wheel is fixed in the frame, the upset roller frame is settled on roller frame supporting wheel, the upset roller frame links to each other with drive arrangement, input roller machine, output roller machine are all fixed on the upset roller frame, and the work piece bell housing is installed between input roller machine and output roller machine and is fixed by the two, and this utility model's characteristics are: the flywheel shell products in the process are automatically overturned for 180 degrees and conveyed to the next process, the degree of automation is high, the conveying is stable, the machined working surface is not damaged, the rejection rate is reduced, and the working efficiency is improved. However, the utility model utilizes the rotating motor and the rotating chain to control the turning posture, and the structure is too complex, the occupied area is large, and the cost is high.

The invention application with application publication number CN 109261832 a discloses an overturning structure, which comprises: a mounting frame; the transfer platform is arranged on the mounting frame and is used for bearing the part to be turned; the clamping mechanism is arranged on the mounting frame and used for acquiring the part to be turned on the transfer platform and driving the part to be turned to rotate for a preset angle around a preset axis, and after the part to be turned rotates for the preset angle, the clamping mechanism is used for placing the part to be turned on the transfer platform. The turnover structure solves the problem of low turnover efficiency of workpieces in the prior art. However, the invention is only suitable for overturning the sheet metal part with light weight and is not suitable for overturning the heavy flywheel housing.

Disclosure of Invention

In view of this, the utility model aims at prior art not enough, provide a heavy flywheel casing positive and negative turning device, have simple structure, area is little and with low costs advantage, do not need large-scale tilting mechanism just can realize the upset of heavy flywheel casing positive and negative.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a front and back side overturning device for a heavy flywheel shell comprises a leg support and an overturning mechanism arranged on the leg support and used for overturning the front and back sides of the heavy flywheel shell, wherein the overturning mechanism comprises a pair of shaft seats arranged at the upper part of the leg support, a rectangular roller frame is rotatably arranged between the shaft seats through two short supporting shafts, the short supporting shafts are fixedly connected with the roller frame, one row of rotating rollers are respectively rotatably arranged at the top and the bottom of the roller frame, the two rows of rotating rollers are arranged in parallel and form a roller way used for clamping and transmitting the heavy flywheel shell, a material blocking module is arranged on the roller frame and positioned at the outlet end of the roller way, and a power module used for providing overturning force for the roller frame is arranged on the leg support and beside one of the shaft seats;

the power module is including setting up the plummer in one of them axle bed lateral surface, on the plummer along being on a parallel with roll table transmission direction sets up the slide rail, it is provided with the rack board to slide on the slide rail, be located the short supporting shaft outer end of homonymy set up with rack board matched with gear, on the plummer and be located the one end setting of rack board is used for following the automatic telescoping cylinder of slide rail push-and-pull rack board.

Further, the material blocking module comprises through holes perpendicular to the roller way direction and arranged on two sides of the roller wheel frame, and a stop lever fixed between the two through holes through screws.

Or, keep off the material module including seting up and being located the roll table exit end L shape draw-in groove on the running roller frame both sides terminal surface, the card is equipped with the pin between two L shape draw-in grooves, the both ends of pin are provided with the stopper, just be located on the running roller frame both sides terminal surface L shape draw-in groove one side is rotated and is provided with the check lock lever, the free end of check lock lever passes through the screw connection and is located L shape draw-in groove opposite side on the running roller frame.

Furthermore, a supporting mechanism for assisting in supporting the turnover mechanism is arranged on the leg frame and under the roller wheel frame, the supporting mechanism comprises a supporting plate arranged on the upper portion of the inner side of the leg frame, a supporting block is arranged on the supporting plate, circular arc-shaped sliding blocks with circle centers positioned on the axis of the short supporting shaft are arranged at the middle positions of the outer side of the top and the outer side of the bottom of the roller wheel frame, the lower portions of the circular arc-shaped sliding blocks are V-shaped, circular arc-shaped sliding grooves matched with the circular arc-shaped sliding blocks are formed in the supporting block, and the cross section shapes of the circular arc-shaped sliding grooves are matched with the V-shaped structures of the lower portions of.

Furthermore, two side surfaces of the arc-shaped sliding groove are respectively provided with a row of round-bottom grooves along the radial direction, small rollers are rotationally arranged in the round-bottom grooves, and the upper parts of the small rollers are in contact with the V-shaped lower part of the arc-shaped sliding block.

Further, the automatic telescopic cylinder is a hydraulic telescopic cylinder, a pneumatic telescopic cylinder or an electric telescopic cylinder.

Further, the bottom of the rack plate is provided with a reinforcing plate, and the reinforcing plate is arranged on the sliding rail in a sliding mode.

Furthermore, both ends of the rack plate are provided with limit lugs, and the outer side face of the sliding rail is provided with inverted L-shaped limit stops matched with the limit lugs right opposite to the gear position.

Additionally, the utility model also provides a heavy flywheel casing positive and negative turning device's application method, including following step:

step 1, the automatic telescopic cylinder is in an initial position, and at the moment, a row of rotary rods positioned below the automatic telescopic cylinder are in a horizontal direction, so that preparation is finished;

step 2, pushing the heavy flywheel housing to be overturned into the roller way from the inlet end of the roller way;

step 3, starting the automatic telescopic cylinder to push the rack plate forwards, and stopping after the rack plate drives the gear to rotate 180 degrees, so that the front and back postures of the heavy flywheel shell are adjusted;

and 4, pulling out the turned heavy flywheel housing from the roller way, and continuing to turn the next heavy flywheel housing.

The utility model has the advantages that:

the utility model provides a heavy flywheel casing front and back turning device, which comprises a supporting leg frame and a turning mechanism arranged on the supporting leg frame and used for turning the front and back of the heavy flywheel casing, wherein the turning mechanism comprises a pair of shaft seats arranged on the upper part of the supporting leg frame, a rectangular roller frame is arranged between the pair of shaft seats in a rotating way through two short supporting shafts, the short supporting shaft is fixedly connected with the roller frame, a row of rotating rollers are respectively rotatably arranged on the top and the bottom of the roller frame, the two rows of rotating rollers are arranged in parallel to form a roller way for clamping and transmitting a heavy flywheel shell, a material blocking module is arranged on the roller frame and at the outlet end of the roller way, and a power module for providing a turning force for the roller frame is arranged on the leg support and beside one shaft seat; the power module comprises a bearing platform arranged on the outer side surface of one of the shaft seats, a sliding rail is arranged on the bearing platform along the direction parallel to the roller way transmission direction, a rack plate is arranged on the sliding rail in a sliding manner, a gear matched with the rack plate is arranged at the outer end of a short supporting shaft positioned on the same side, and an automatic telescopic cylinder used for pushing and pulling the rack plate along the sliding rail is arranged at one end of the bearing platform and positioned on the rack plate.

In addition, the material blocking module can adopt the following two structures, namely a first structure: comprises through holes which are arranged on two sides of the roller way in a direction perpendicular to the roller way and a stop lever which is fixed between the two through holes by screws. The material blocking module can also adopt a second structure: including seting up the L shape draw-in groove on the running roller frame both sides terminal surface that is located the roll table exit end, the card is equipped with the pin between two L shape draw-in grooves, is provided with the stopper at the both ends of pin, just is located L shape draw-in groove one side rotation and is provided with the check lock lever on running roller frame both sides terminal surface, passes through the screw connection at the free end of check lock lever on the running roller frame that is located L shape draw-in groove opposite side for block the pin and deviate from in by L shape draw-in groove.

In addition, in order to make the roller frame more stable in the overturning process and avoid the heavy pressure deformation caused by the heavy flywheel shell arranged in the roller frame, a supporting mechanism for assisting in supporting the overturning mechanism is arranged on the supporting leg frame and is positioned under the roller frame, the supporting mechanism comprises a supporting plate arranged on the upper portion of the inner side of the supporting leg frame, a supporting block is arranged on the supporting plate, an arc-shaped sliding block with the circle center positioned on the axis of the broken finger into porridge is arranged at the middle position of the outer side of the top and the middle position of the outer side of the bottom of the roller frame, the lower portion of the arc-shaped sliding block is V-shaped, an arc-shaped sliding groove matched with the arc-shaped sliding block is arranged on the supporting block, and the cross section shape.

In addition, in order to reduce the friction force between the circular arc-shaped sliding chute and the circular arc-shaped sliding block, a row of round-bottom grooves are respectively formed in the two side surfaces of the circular arc-shaped sliding chute in the radial direction, small rollers are rotatably arranged in the round-bottom grooves, the upper parts of the small rollers are in contact with the V-shaped lower part of the circular arc-shaped sliding block, and therefore the sliding between the circular arc-shaped sliding chute and the circular arc-shaped sliding block can be changed into rolling, and the friction force between the circular arc-shaped.

In addition, in order to reinforce the strength of the rack plate, a reinforcing plate is provided at the bottom of the rack plate, and the reinforcing plate is slidably provided on the slide rail. In addition, in order to realize the accuracy of the push-pull position of the rack plate, the two ends of the rack plate are respectively provided with a limit bump, and the outer side surface of the slide rail is provided with an inverted L-shaped limit stop matched with the limit bump at the position right opposite to the gear.

The utility model has the advantages of simple structure, area are little and with low costs, do not need large-scale tilting mechanism just can realize the upset of heavy bell housing positive and negative.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

FIG. 1 is a schematic front view of the structure of the present invention;

FIG. 2 is a left side view of the structure of the present invention;

fig. 3 is a schematic perspective view of the turnover mechanism of the present invention;

fig. 4 is another schematic structural diagram of the middle stopper module of the present invention.

Detailed Description

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein. It should be understood that, for the sake of clarity, the terms "front, back, left, right, up, down" and the like used herein refer to the orientation terms with respect to fig. 1, and the orientation terms are not changed by the conversion of the drawings.

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solution of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be derived from the description of the embodiments of the present invention by a person skilled in the art, are within the scope of the present invention.

Example 1:

as shown in fig. 1, fig. 2 and fig. 3, a front and back turning device for a heavy flywheel housing comprises a leg frame 1 and a turning mechanism arranged on the leg frame 1 and used for turning the front and back of the heavy flywheel housing, the turnover mechanism comprises a pair of shaft seats 2 arranged at the upper part of the supporting leg frame 1, a rectangular roller wheel frame 4 is rotatably arranged between the pair of shaft seats 2 through two short supporting shafts 3, the short supporting shaft 3 is fixedly connected with the roller frame 4, a row of rotating rollers 5 are respectively and rotatably arranged on the top and the bottom of the roller frame 4, the two rows of rotating rollers 5 are arranged in parallel to form a roller table 6 for clamping and transmitting the heavy flywheel housing, the roller frame 4 is provided with a material blocking module at the position of the outlet end of the roller way 6, and the leg support 1 is provided with a power module which is arranged beside one shaft seat 2 and used for providing the turning force for the roller frame 4.

The power module is including setting up the plummer 7 in 2 lateral surfaces of one of them axle bed, follow on the plummer 7 and be on a parallel with 6 transmission direction of roll table set up slide rail 8, the slip is provided with rack plate 9 on the slide rail 8, be located the short supporting shaft 3 outer ends of homonymy set up with rack plate 9 matched with gear 10, just be located on the plummer 7 the one end setting of rack plate 9 is used for following the automatic telescopic cylinder 11 of slide rail 8 push-and-pull rack plate 9.

The automatic telescopic cylinder 11 is a hydraulic telescopic cylinder.

The material blocking module comprises through holes 12 perpendicular to the roller way 6 and stop rods 13a fixed between the two through holes 12 through screws, wherein the through holes 12 are formed in the two sides of the roller wheel frame 4.

In this embodiment, the material blocking module comprises through holes perpendicular to the roller way direction and arranged on two sides of the roller way, and a blocking rod fixed between the two through holes through screws. In addition, in this embodiment, the automatic telescopic cylinder is a hydraulic telescopic rod, and of course, other types of automatic telescopic cylinders may be adopted, for example, a pneumatic telescopic cylinder or an electric telescopic cylinder, and the like can also achieve the same effect.

Example 2:

as shown in fig. 4, it differs from embodiment 1 in that: keep off the material module including seting up and being located 6 exit ends L shape draw-in groove 23 on the terminal surface of 4 both sides of running roller frame, the card is equipped with pin 13b between two L shape draw-in grooves 23, pin 13 b's both ends are provided with stopper 24, just be located on the terminal surface of 4 both sides of running roller frame L shape draw-in groove 23 one side is rotated and is provided with check lock lever 25, the free end of check lock lever 25 passes through the screw connection and is located L shape draw-in groove opposite side on the running roller frame 4.

In this embodiment, the material blocking module adopts another structure: including seting up the L shape draw-in groove on the running roller frame both sides terminal surface that is located the roll table exit end, the card is equipped with the pin between two L shape draw-in grooves, is provided with the stopper at the both ends of pin, just is located L shape draw-in groove one side rotation and is provided with the check lock lever on running roller frame both sides terminal surface, passes through the screw connection at the free end of check lock lever on the running roller frame that is located L shape draw-in groove opposite side for block the pin and deviate from in by L shape draw-in groove.

Example 3:

as shown in fig. 1 and 2, it differs from embodiment 1 or 2 in that: a supporting mechanism for assisting in supporting the turnover mechanism is arranged on the leg frame 1 and under the roller frame 4, the supporting mechanism comprises a supporting plate 14 arranged on the upper portion of the inner side of the leg frame 1, a supporting block 15 is arranged on the supporting plate 14, circular arc-shaped sliders 16 with the circle centers positioned on the axis of the short supporting shaft 3 are arranged at the middle positions of the outer sides of the top and the bottom of the roller frame 4, the lower portions of the circular arc-shaped sliders 16 are V-shaped, circular arc-shaped sliding grooves 17 matched with the circular arc-shaped sliders 16 are formed in the supporting block 15, and the cross section shapes of the circular arc-shaped sliding grooves 17 are matched with the V-shaped structures of the lower portions of the circular arc-shaped sliders 16.

In the embodiment, in order to make the roller frame more stable in the overturning process and avoid the heavy pressure deformation caused by the heavy flywheel casing arranged in the roller frame, a supporting mechanism for assisting in supporting the overturning mechanism is arranged on the supporting leg frame and located under the roller frame, the supporting mechanism comprises a supporting plate arranged on the upper portion of the inner side of the supporting leg frame, a supporting block is arranged on the supporting plate, a circular arc-shaped sliding block with the circle center located on the axis of the broken finger into porridge is arranged at the middle position of the outer side of the top and the middle position of the outer side of the bottom of the roller frame, the lower portion of the circular arc-shaped sliding block is in a V shape, a circular arc-shaped sliding groove matched with the circular arc-shaped sliding block is arranged on the supporting block, and.

Example 4:

as shown in fig. 1, it differs from example 3 in that: two side surfaces of the circular arc-shaped sliding groove 17 are respectively provided with a row of round-bottom grooves 18 along the radial direction, small rollers 19 are rotatably arranged in the round-bottom grooves 18, and the upper parts of the small rollers 19 are contacted with the V-shaped lower parts of the circular arc-shaped sliding blocks 16.

In this embodiment, in order to reduce the friction force between the circular arc chute and the circular arc slider, a row of round-bottom grooves are respectively radially formed on two side surfaces of the circular arc chute, small rollers are rotatably disposed in the round-bottom grooves, and the upper portions of the small rollers are in contact with the V-shaped lower portion of the circular arc slider, so that the sliding between the circular arc chute and the circular arc slider can be changed into rolling, and the friction force between the circular arc chute and the circular arc slider can be greatly reduced.

Example 5:

as shown in fig. 3, it differs from example 4 in that: and a reinforcing plate 20 is arranged at the bottom of the rack plate 9, and the reinforcing plate 20 is arranged on the slide rail 8 in a sliding manner.

The two ends of the rack plate 9 are both provided with limit lugs 21, and the outer side surface of the slide rail 8 is provided with an inverted L-shaped limit stop 22 which is matched with the limit lugs 21 and right opposite to the gear position.

In this embodiment, in order to reinforce the strength of the rack plate, a reinforcing plate is provided at the bottom of the rack plate, and the reinforcing plate is slidably provided on the slide rail. In addition, in order to realize the accuracy of the push-pull position of the rack plate, the two ends of the rack plate are respectively provided with a limit bump, and the outer side surface of the slide rail is provided with an inverted L-shaped limit stop matched with the limit bump at the position right opposite to the gear.

Example 6:

a use method of a heavy flywheel housing front and back face overturning device comprises the following steps:

step 1, the automatic telescopic cylinder 11 is in an initial position, and at the moment, a row of rotary rods 5 positioned below the automatic telescopic cylinder are in a horizontal direction, so that preparation is finished;

step 2, pushing the heavy flywheel housing to be overturned into the roller way 6 from the inlet end of the roller way 6;

step 3, starting the automatic telescopic cylinder 11 to push the rack plate 9 forwards, and stopping after the rack plate 9 drives the gear 10 to rotate 180 degrees, so as to finish the adjustment of the front and back postures of the heavy flywheel housing;

and 4, pulling out the turned heavy flywheel housing from the roller way 6, and continuing to turn the next heavy flywheel housing.

The utility model has the advantages of simple structure, area are little and with low costs, do not need large-scale tilting mechanism just can realize the upset of heavy bell housing positive and negative.

Finally, the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and other modifications or equivalent replacements made by the technical solutions of the present invention by those of ordinary skill in the art should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. The utility model provides a heavy flywheel casing positive and negative turning device, is in including landing leg frame and setting be used for the tilting mechanism of heavy flywheel casing positive and negative upset on the landing leg frame, its characterized in that: the turnover mechanism comprises a pair of shaft seats arranged at the upper part of the leg support, a rectangular roller frame is rotatably arranged between the pair of shaft seats through two short supporting shafts, the short supporting shafts are fixedly connected with the roller frame, a row of rotating rollers are respectively rotatably arranged on the top and the bottom of the roller frame, the two rows of rotating rollers are arranged in parallel to form a roller way for clamping and transmitting a heavy flywheel shell, a material blocking module is arranged on the roller frame and at the outlet end of the roller way, and a power module for providing turnover force for the roller frame is arranged on the leg support and beside one of the shaft seats;

the power module is including setting up the plummer in one of them axle bed lateral surface, on the plummer along being on a parallel with roll table transmission direction sets up the slide rail, it is provided with the rack board to slide on the slide rail, be located the short supporting shaft outer end of homonymy set up with rack board matched with gear, on the plummer and be located the one end setting of rack board is used for following the automatic telescoping cylinder of slide rail push-and-pull rack board.

2. The heavy duty flywheel housing front and back side overturning device according to claim 1, wherein: the material blocking module comprises through holes perpendicular to the roller way direction and stop rods fixed between the two through holes through screws, wherein the through holes are formed in the two sides of the roller wheel frame.

3. The heavy duty flywheel housing front and back side overturning device according to claim 1, wherein: keep off the material module including seting up and being located the roll table exit end L shape draw-in groove on the running roller frame both sides terminal surface, the card is equipped with the pin between two L shape draw-in grooves, the both ends of pin are provided with the stopper, just be located on the running roller frame both sides terminal surface L shape draw-in groove one side is rotated and is provided with the check lock lever, the free end of check lock lever passes through the screw connection and is located L shape draw-in groove opposite side on the running roller frame.

4. The device for overturning the front and the back of the heavy flywheel casing according to claim 3, wherein: the supporting leg frame is provided with a supporting mechanism for assisting in supporting the turnover mechanism at a position right below the roller wheel frame, the supporting mechanism comprises a supporting plate arranged on the upper portion of the inner side of the supporting leg frame, a supporting block is arranged on the supporting plate, arc-shaped sliding blocks with circle centers positioned on the axis of the short supporting shaft are arranged at the middle position of the outer side of the top and the middle position of the outer side of the bottom of the roller wheel frame, the lower portions of the arc-shaped sliding blocks are V-shaped, arc-shaped sliding grooves matched with the arc-shaped sliding blocks are formed in the supporting block, and the cross section shapes of the arc-shaped sliding grooves are matched with the V-shaped.

5. The device for overturning the front and the back of the heavy flywheel casing according to claim 4, wherein: two side surfaces of the arc-shaped sliding groove are respectively provided with a row of round-bottom grooves along the radial direction, small rollers are rotationally arranged in the round-bottom grooves, and the upper parts of the small rollers are in contact with the V-shaped lower part of the arc-shaped sliding block.

6. The device for overturning the front and the back of the heavy flywheel casing according to claim 3, wherein: the automatic telescopic cylinder is a hydraulic telescopic cylinder, a pneumatic telescopic cylinder or an electric telescopic cylinder.

7. The heavy duty flywheel housing front and back side overturning device according to claim 1, wherein: the bottom of the rack plate is provided with a reinforcing plate, and the reinforcing plate is arranged on the sliding rail in a sliding mode.

8. The device for overturning the front and the back of the heavy flywheel casing according to claim 7, wherein: and the two end parts of the rack plate are respectively provided with a limiting bump, and the outer side surface of the sliding rail is right opposite to the gear position and is provided with an inverted L-shaped limiting stop block matched with the limiting bumps.