CN217358589U - Precision mechanical property detection equipment - Google Patents

Abstract

The utility model belongs to the technical field of detection equipment, in particular to precision mechanical property detection equipment, which comprises a box body and a support frame positioned at the middle part in the box body, wherein a PLC controller is arranged at the right end of the bottom surface of the inner wall of the box body, a rotating component for driving the support frame to rotate is arranged between the support frame and the box body, the right side of the box body is connected with a side box, a feeding component is arranged between the side box and the box body, a material receiving box is arranged at the back of the box body, a material receiving component is arranged between the material receiving box and the support frame, the rotating component comprises a motor, a connecting block and a limiting block, the motor is arranged below the box body, the rotating shaft is connected to the power output end of the motor and is connected with the lower surface of the support frame, the limiting block is connected to the bottom surface of the inner wall of the box body, the connecting block is connected to the right side of the rotating shaft and corresponds to the front and the back of the limiting block, and the second button and the first button are respectively arranged on the front and the back of the limiting block and are electrically connected with the motor; the utility model discloses it is all comparatively convenient to carry out material loading and unloading to precision machinery, and detection efficiency is higher.

Description

Precision mechanical property detection equipment

Technical Field

The utility model belongs to the technical field of the check out test set technique and specifically relates to an accurate mechanical properties check out test set is related to.

Background

The performance of the precision machinery needs to be detected after the precision machinery is produced, precision machinery performance detection equipment needs to be used when the precision machinery performance is detected, and the purpose of detecting the precision machinery performance is to determine whether the precision machinery is qualified;

the precision machinery check out test set that china application number is "CN 201921337931.5", in this utility model, need the manual outside cardboard that promotes of user to put into between two cardboards precision machinery again when carrying out the centre gripping to precision machinery, the inconvenience of comparatively difficultly, and need promote the cardboard once more when taking off precision machinery and take off precision machinery, the unloading is also comparatively difficultly inconvenient, detection efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the problem that above-mentioned exists with not enough, provide an accurate mechanical properties check out test set, it is all comparatively convenient to carry out material loading and unloading to accurate machinery, detection efficiency is higher.

A precision mechanical performance detection device comprises a box body and a support frame positioned in the middle of the box body;

the utility model discloses a solar energy collecting box, including box inner wall, support frame, box, side case, feeding component, receiving case, PLC controller is installed to box inner wall bottom surface right-hand member, be equipped with between support frame and the box and be used for driving support frame pivoted rotating member, the box right side is connected with the side case, be equipped with the pay-off component between side case and the box, the box is equipped with at the back and receives the workbin, it receives the workbin and is equipped with the receipts material component between support frame to receive.

Preferably, the rotating member comprises a motor, a connecting block, a limiting block, a rotating shaft, a first button and a second button, the motor is installed below the box body, and the rotating shaft is connected to the power output end of the motor and connected with the lower surface of the supporting frame.

Preferably, the stopper is connected in box inner wall bottom surface, the connecting block is connected in the pivot right side and corresponds around with the stopper, button two and button one install respectively in the stopper front and back and all with motor electric connection.

Preferably, the feeding component comprises a conveying belt, an infrared transmitter and an infrared receiver, electric push rods I are mounted on the front side and the rear side of the support frame, and clamping plates connected with the power output ends of the electric push rods close to each other are arranged at the left end and the right end inside the support frame.

Preferably, the infrared transmitter and the infrared receiver are respectively embedded into one surface, close to the inside, of the clamping plate on the front side and the back side, a through hole penetrating through the outlet box and penetrating to the left of the outer wall of the box body is formed in the right of the outer wall of the side box, and the conveying belt is located inside the through hole and located on the right of the supporting frame.

Preferably, conveyer belt, electric putter one, infra-red transmitter and infrared receiver all with PLC controller signal connection, receive the material component and include sloping block, articulated slab two, spring and electric putter two, the sloping block is connected in the inside left end of through-hole and is located and receives between workbin and the support frame, it has the recess to open above the support frame, articulated slab two articulates in recess tank bottom left end.

Preferably, the mounting groove is opened on recess tank bottom right side, spring coupling is between mounting groove tank bottom and articulated slab two, the embedding of electric putter two is installed in the recess tank bottom, side case right side and box left side all articulate there is articulated slab one that is used for blocking the through-hole.

The utility model has the advantages that: when a user needs to load materials, firstly, the hinge plate on the right side of the side box is outwards rotated, the conveying belt is electrified, the user can place precision machines to be detected on the conveying belt at equal intervals, the conveying belt can convey the precision machines to the left to the supporting frame, the PLC can control the electric push rod to drive the clamping plate to move inwards to clamp the precision machines, and meanwhile, the conveying belt is controlled to pause to drive the next precision machine to move to the left, so that the precise instruments can be conveniently loaded;

after the user detects precision instruments, drive splint outwards to remove through electric putter two and loosen precision instruments, just can upwards promote two right-hand members of articulated slab through electric putter, precision instruments just can move down along articulated slab two, precision instruments just can push the articulated slab left side earlier when passing through the through-hole, after precision instruments fall into and receive the workbin inside, the articulated slab just can rotate downwards and continue to shelter from the through-hole, it is comparatively convenient to carry out the unloading to precision instruments, after precision instruments unloading is accomplished, make electric putter shrink and resume the normal position, the spring just can reset and drive articulated slab two and reset, it moves left to drive next precision instruments through the conveyer belt according to above-mentioned step, just can be comparatively convenient continuation detect a plurality of precision machinery according to above-mentioned step.

Drawings

Fig. 1 is a schematic view of the overall front view cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the right-side cross-sectional structure of the supporting frame of the present invention;

FIG. 3 is a schematic view of the top cross-sectional structure of the rotating shaft according to the present invention;

fig. 4 is a schematic diagram of a partial enlarged structure of fig. 1 according to the present invention.

The labels in the figure are: the device comprises a box body 101, a PLC 102, a motor 103, a connecting block 104, a limiting block 105, a rotating shaft 106, a material receiving box 107, a sloping block 108, a first hinge plate 109, a supporting frame 110, a second hinge plate 111, a clamping plate 112, a side box 113, a spring 114, a conveying belt 115, a first button 116, a second button 117, an infrared emitter 118, an infrared receiver 119, a first electric push rod 120, a second electric push rod 121 and a mounting groove 122.

Detailed Description

As shown in fig. 1 to 4, the present application is a precision mechanical performance testing apparatus, including a box 101 and a supporting frame 110 located at the middle part of the box;

the PLC 102 is installed at the right end of the bottom surface of the inner wall of the box body 101, a rotating component for driving the support frame 110 to rotate is arranged between the support frame 110 and the box body 101, the side box 113 is connected to the right side of the box body 101, a feeding component is arranged between the side box 113 and the box body 101, a material receiving box 107 is arranged behind the box body 101, and a material receiving component is arranged between the material receiving box 107 and the support frame 110;

the feeding component comprises a conveying belt 115, an infrared emitter 118 and an infrared receiver 119, electric push rod units 120 are mounted on the front side and the rear side of the support frame 110, clamping plates 112 connected with power output ends of the electric push rod units 120 close to each other are arranged on the left end and the right end of the interior of the support frame 110, the infrared emitter 118 and the infrared receiver 119 are respectively embedded into the inner surfaces of the clamping plates 112 mounted on the front side and the rear side, a through hole penetrating through the side box 113 and penetrating to the left side of the outer wall of the box body 101 is formed in the right side of the outer wall of the side box 113, and the conveying belt 115 is located inside the through hole and located on the right side of the support frame 110;

the conveying belt 115, the first electric push rod 120, the infrared emitter 118 and the infrared receiver 119 are in signal connection with the PLC 102, the material receiving component comprises an inclined block 108, a second hinge plate 111, a spring 114 and a second electric push rod 121, the inclined block 108 is connected to the left end inside the through hole and located between the material receiving box 107 and the support frame 110, a groove is formed in the support frame 110, the second hinge plate 111 is hinged to the left end of the bottom of the groove, a mounting groove 122 is formed in the right side of the bottom of the groove, the spring 114 is connected between the bottom of the mounting groove 122 and the second hinge plate 111, the second electric push rod 121 is embedded and mounted at the bottom of the groove, and the first hinge plate 109 used for blocking the through hole is hinged to the right side of the side box 113 and the left side of the box body 101;

when a user needs to load materials, firstly, the first hinge plate 109 on the right side of the side box 113 is rotated outwards to electrify the conveyer belt 115, the user can place a precision machine to be detected on the conveyer belt 115 at equal intervals, the conveyer belt 115 can convey the precision machine to the left to the support frame 110, the precision machine is positioned between the infrared emitter 118 and the infrared receiver 119, the infrared receiver 119 cannot receive infrared rays emitted by the infrared emitter 118, the infrared emitter 118 can transmit signals to the PLC 102, the PLC 102 can control the first electric push rod 120 to drive the clamp plate 112 to move inwards to clamp the precision machine, and simultaneously control the conveyer belt 115 to pause to drive the next precision machine to move to the left, at the moment, the precision instrument is positioned above the second hinge plate 111, and then the first hinge plate 109 on the right side of the side box 113 is placed down, the feeding of the precision instrument is convenient;

when a user detects a precision instrument, the electric push rod II 121 drives the clamping plate 112 to move outwards to loosen the precision instrument, the electric push rod I120 is electrified, the electric push rod I120 can push the right end of the hinged plate II 111 upwards, the spring 114 is stretched, the hinged plate II 111 rotates leftwards at the moment, the precision instrument can move downwards along the hinged plate II 111, the inclined block 108 is connected to the left end in the through hole and is positioned between the material receiving box 107 and the supporting frame 110, the precision instrument moving downwards can continue to move downwards along the inclined block 108, the hinged plate I109 used for blocking the through hole is hinged to the left side of the box body 101, the precision instrument can push the hinged plate I109 positioned at the left side of the box body 101 leftwards at the moment when passing through the through hole, and after the precision instrument falls into the material receiving box 107, the hinged plate I109 positioned at the left side of the box body 101 can rotate downwards to continue to block the through hole, the blanking of the precision instrument is more convenient;

after the precision instrument is fed, the first electric push rod 120 is contracted to restore the original position, the spring 114 can reset and drive the second hinge plate 111 to reset, the next precision instrument is driven to move leftwards through the conveying belt 115 according to the steps, and a plurality of precision machines can be continuously detected conveniently according to the steps;

the rotating member comprises a motor 103, a connecting block 104, a limiting block 105, a rotating shaft 106, a first button 116 and a second button 117, the motor 103 is installed below the box body 101, the rotating shaft 106 is connected to the power output end of the motor 103 and is connected with the lower surface of the supporting frame 110, the limiting block 105 is connected to the bottom surface of the inner wall of the box body 101, the connecting block 104 is connected to the right side of the rotating shaft 106 and corresponds to the limiting block 105 in the front-back direction, and the second button 117 and the first button 116 are respectively installed on the front-back surface of the limiting block 105 and are electrically connected with the motor 103;

electrify for motor 103, motor 103 just can drive pivot 106 and rotate, support frame 110 just can rotate along with pivot 106, because two buttons 117 and button 116 are installed respectively in stopper 105 front and back and all with motor 103 electric connection, so just can press two buttons 117 when pivot 106 anticlockwise rotation, motor 103 just can drive pivot 106 clockwise turning this moment, pivot 106 just can press one button 116, motor 103 just can drive pivot 106 anticlockwise rotation this moment, conveniently observe the multiple directions of the precision machinery of support frame 110 top, avoid the cable of the part of support frame 110 top to take place the winding simultaneously.

Claims (7)

1. The utility model provides a precision mechanical properties check out test set, includes box (101) and support frame (110) that are located its inside middle part, its characterized in that:

PLC controller (102) are installed to box (101) inner wall bottom surface right-hand member, be equipped with between support frame (110) and box (101) and be used for driving support frame (110) pivoted rotating member, box (101) right side is connected with side case (113), be equipped with the pay-off component between side case (113) and box (101), box (101) are equipped with at the back and receive workbin (107), it receives the material component to be equipped with between workbin (107) and support frame (110).

2. A precision mechanical property testing apparatus according to claim 1, wherein: the rotating component comprises a motor (103), a connecting block (104), a limiting block (105), a rotating shaft (106), a first button (116) and a second button (117), the motor (103) is installed below the box body (101), and the rotating shaft (106) is connected to the power output end of the motor (103) and is connected with the lower portion of the supporting frame (110).

3. A precision mechanical property testing apparatus according to claim 2, wherein: stopper (105) are connected in box (101) inner wall bottom surface, connecting block (104) are connected in pivot (106) right side and correspond with stopper (105) back and forth, button two (117) and button one (116) are installed respectively in stopper (105) front and back face and all with motor (103) electric connection.

4. A precision mechanical property testing apparatus according to claim 1, wherein: the feeding component comprises a conveying belt (115), an infrared emitter (118) and an infrared receiver (119), electric push rods (120) are mounted on the front side and the rear side of the support frame (110), and clamping plates (112) connected with the power output ends of the electric push rods (120) are arranged at the left end and the right end of the interior of the support frame (110) in a similar mode.

5. The precision mechanical property inspection apparatus of claim 4, wherein: infrared emitter (118) and infrared receiver (119) embedding are installed in the front and back side respectively splint (112) lean on the one side in, side case (113) outer wall right side is opened has and is link up out side case (113) and link up to the through-hole of box (101) outer wall left side, conveyer belt (115) are located inside the through-hole and be located support frame (110) right side.

6. The precision mechanical property inspection apparatus of claim 5, wherein: conveyer belt (115), electric putter one (120), infrared emitter (118) and infrared receiver (119) all with PLC controller (102) signal connection, receive the material component and include sloping block (108), articulated plate two (111), spring (114) and electric putter two (121), sloping block (108) are connected in the inside left end of through-hole and are located and receive between workbin (107) and support frame (110), it has the recess to open above support frame (110), articulated plate two (111) articulate in recess tank bottom left end.

7. The precision mechanical property inspection apparatus of claim 6, wherein: open recess tank bottom right side has mounting groove (122), spring (114) are connected between mounting groove (122) tank bottom and articulated plate two (111), the embedding of electric putter two (121) is installed in the recess tank bottom, side case (113) right side and box (101) left side all articulate articulated plate one (109) that are used for blocking the through-hole.

Images