CN113732177A - Shell manufacturing mold stripping device for mobile power supply production - Google Patents

Abstract

The application relates to a shell manufacturing mold stripping device for mobile power supply production, which relates to the field of mobile power supply production and comprises stamping equipment, a mold arranged below the stamping equipment, a rack arranged below the mold at intervals, a stuffing box detachably connected above the rack, two support frames connected above the rack in a sliding manner, and a stripping adjusting frame arranged between the two support frames, wherein the stripping adjusting frame comprises two longitudinal rod groups and two transverse rod groups, each longitudinal rod group comprises two longitudinal adjusting rods, and each transverse rod group comprises two transverse adjusting rods; and a longitudinal adjusting mechanism for adjusting the distance between the two longitudinal adjusting rods is arranged in each longitudinal rod group, and a transverse adjusting mechanism for adjusting the distance between the two transverse adjusting rods in each transverse rod group is arranged between the two supporting frames and the rack. The size that this application has the demolding utensil of being convenient for adjust, the effect of conveniently processing not unidimensional shell.

Description

Shell manufacturing mold stripping device for mobile power supply production

Technical Field

The application relates to the field of mobile power supply production, in particular to a shell manufacturing mold stripping device for mobile power supply production.

Background

The portable power source, also known as a charger, is a portable device capable of being carried about and storing electric energy, is mainly a portable charger for charging consumer electronic products (such as wireless phones, notebook computers and the like) such as handheld mobile equipment and the like, and is particularly applied to occasions without external power supply.

At present, a shell is usually arranged on the outer side of a mobile power supply, the shell is mainly used for protecting a battery in the mobile power supply, so that the battery is not easy to be damaged by collision and the like, and the shell is usually formed by injection molding or cold forging; in the cold forging molding, the aluminum product material is processed by a press machine, a die, a stripper, or the like.

However, the demolding device is only suitable for demolding the shells produced by molds with a specific size, and the demolding device is relatively fixed and inconvenient to replace, and when mobile power supply shells with different sizes need to be processed, the size of the demolding device is not easy to be adjusted in an adaptive manner.

Disclosure of Invention

In order to facilitate the size of adjusting drawing of patterns utensil, conveniently process not unidimensional portable power source's shell, this application provides portable power source production usefulness's shell and makes mould shedder.

The application provides a shell manufacturing mould shedder of portable power source production usefulness adopts following technical scheme:

the shell manufacturing mold demolding device for the production of the mobile power supply comprises stamping equipment, a mold arranged below the stamping equipment, a rack arranged below the mold at intervals, a stuffing box detachably connected above the rack, two support frames connected above the rack in a sliding manner, and a demolding adjusting frame arranged between the two support frames, wherein the two support frames are symmetrically arranged;

the demolding adjusting frame comprises two longitudinal rod groups and two transverse rod groups, each longitudinal rod group comprises two longitudinal adjusting rods, each transverse rod group comprises two transverse adjusting rods and a telescopic rod arranged between the two transverse adjusting rods, the four transverse adjusting rods correspond to the four longitudinal adjusting rods one by one, and the transverse adjusting rods are fixedly connected with the corresponding longitudinal adjusting rods;

a longitudinal adjusting mechanism for adjusting the distance between the two longitudinal adjusting rods is arranged between the two longitudinal adjusting rods in each longitudinal rod group, and the supporting frame is connected with the longitudinal adjusting mechanism; and a transverse adjusting mechanism for adjusting the distance between the two transverse adjusting rods in each transverse rod group is arranged between the two supporting frames and the rack.

By adopting the technical scheme, when a worker needs to produce the mobile power supply shell, firstly, raw materials are placed into the packing box, then the stamping equipment is started, then the stamping equipment drives the die to move downwards, the die penetrates through the demolding adjusting frame and is pressed into the packing box, the raw materials are pressed and formed, then the stamping equipment drives the die and the shell to ascend, after the shell moves upwards to the demolding adjusting frame, the shell falls off and separates from the die under the blocking effect of the demolding adjusting frame, then the worker takes out the shell, adds new raw materials and repeats the process; if shells with different sizes need to be processed and the size of the demolding adjusting frame needs to be adjusted in an adaptive mode, firstly, a worker adjusts the distance between the two longitudinal adjusting rods through the longitudinal adjusting mechanism to enable the demolding adjusting frame to be matched with the width size of the shell to be processed, then, the distance between the two transverse adjusting rods is adjusted through the transverse adjusting mechanism to enable the demolding adjusting frame to be matched with the length size of the shell to be processed, and therefore the whole demolding adjusting frame is enlarged or reduced to be suitable for performing rapid demolding treatment on the shells with different sizes; the length and the width of the demolding adjusting frame can be changed rapidly and conveniently, and the demolding adjusting frame is suitable for demolding the shells produced by molds of different sizes, so that workers can conveniently process the shells of mobile power supplies of different sizes.

Optionally, the longitudinal adjusting mechanism includes two driving screws simultaneously screwed to the two longitudinal adjusting rods, two supporting seats respectively sleeved on the two driving screws, and a knob fixedly arranged between the two driving screws;

two the drive screw thread revolves to opposite direction, the supporting seat rotates with drive screw to be connected, just supporting seat and support frame fixed connection.

By adopting the technical scheme, when a worker adjusts the distance between the two longitudinal adjusting rods through the longitudinal adjusting mechanism, firstly, the worker rotates the knob, the knob can drive the two fixedly connected driving screws to rotate, and the two driving screws respectively drive the two longitudinal adjusting rods to synchronously and reversely move, so that the distance between the two longitudinal adjusting rods is increased or reduced; the screw thread turning directions of the two driving screw rods are opposite, so that the two longitudinal adjusting rods synchronously and reversely move, and the operation convenience and accuracy of workers are improved.

Optionally, a guide support rod is arranged between the support seat and the longitudinal adjustment rod, a sliding groove is formed in the longitudinal adjustment rod, one end of the guide support rod is fixedly connected with the support seat, and the other end of the guide support rod is located in the sliding groove and slides.

Through adopting above-mentioned technical scheme, the shell makes progress the drawing of patterns in-process and can lead to the fact certain impact to the drawing of patterns adjustment frame, the guide support pole has not only increased the connection area between drive screw and the vertical regulation pole, stress concentration has been reduced, the connection between drive screw and the vertical regulation pole has been strengthened, make drive screw be difficult for taking place bending deformation under the impact, the smoothness nature when guaranteeing drive screw rotation, and play the effect of direction to the removal of vertical regulation pole, guarantee the stability and the accuracy that vertical regulation pole removed.

Optionally, the transverse adjusting mechanism comprises two supporting blocks respectively fixedly arranged on one sides of the two supporting frames close to the rack, rotating screws in threaded connection with the supporting blocks, a hand wheel fixedly arranged at one end of one of the rotating screws, and a rotating seat fixedly arranged on the rack;

the supporting block is connected with the rack in a sliding mode, the thread turning directions of the two rotary screws are opposite, the two rotary screws are fixedly connected, and the rotary screws are rotatably connected with the rotary seat.

By adopting the technical scheme, when a worker adjusts the distance between the two transverse adjusting rods in the two transverse rod groups through the transverse adjusting mechanism, firstly, the worker rotates the hand wheel, the hand wheel can drive the two rotating screws to rotate, the two rotating screws can drive the supporting blocks in threaded connection with the two rotating screws to be close to or away from each other, then the supporting blocks can drive the supporting frames in fixed connection with the supporting blocks to move, the supporting frames drive the longitudinal adjusting rods to move, the longitudinal adjusting rods can drive the transverse adjusting rods in fixed connection with the longitudinal adjusting rods to be separated from or close to each other, and therefore the transverse rod groups are matched with the length of the shell.

Optionally, a dovetail block is fixedly arranged at the bottom of the supporting block, a dovetail groove matched with the dovetail block is formed in the rack, and the dovetail block is located in the dovetail groove and slides.

Through adopting above-mentioned technical scheme, the forked tail piece only can slide along seting up the direction of dovetail to realized the gliding motion of supporting shoe, and played direction and spacing effect to the removal of supporting shoe, guaranteed the accurate nature of supporting shoe moving direction, and made the supporting shoe break away from the frame from top to bottom.

Optionally, a material taking mechanism for pushing the shell to the side far away from the demolding adjusting frame is further arranged on the rack.

Through adopting above-mentioned technical scheme, the extracting mechanism not only is convenient for the staff and takes out the shell fast, and has improved the security when the staff takes out the shell.

Optionally, the material taking mechanism comprises a driving cylinder fixedly arranged on the frame and a push plate fixedly arranged on one side of a piston rod of the driving cylinder.

By adopting the technical scheme, after the shell is formed, firstly, a worker starts the driving cylinder, and the piston rod of the driving cylinder can drive the push plate to move towards one side of the demolding adjusting frame, so that the shell below the demolding adjusting frame is pushed to the side far away from the demolding adjusting frame, and the worker can take out the shell conveniently; and the driving cylinder has simple structure, easy installation and maintenance, strong adaptability and large load.

Optionally, the support frame includes the horizontal pole and sets firmly the vertical pole in horizontal pole one end, the horizontal pole forms the L type with the vertical pole, and sets firmly the bracing between horizontal pole and the vertical pole.

Through adopting above-mentioned technical scheme, the bracing has increased the connection area between horizontal pole and the vertical pole, has reduced stress concentration between the two to make the difficult emergence fracture of junction of horizontal pole and vertical pole, improved the stability and the intensity of support frame.

Optionally, a baffle is fixedly arranged on the stamping device.

Through adopting above-mentioned technical scheme, the baffle is arranged in the pressing process of mould raw and other materials, makes residue, sweeps be difficult for splashing to staff one side, makes the staff be difficult for receiving the injury to improve staff's security.

Optionally, positioning columns are fixedly arranged on the stamping equipment and the rack.

Through adopting above-mentioned technical scheme, when stamping equipment drove the mould and moves down, the reference column was used for making the drawing of patterns adjust the frame and does not bear the impact force to make the drawing of patterns adjust the frame and be difficult for receiving the impact force and take place to warp, influence the drawing of patterns efficiency of shell.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the length and the width of the demolding adjusting frame can be changed rapidly and conveniently, and the demolding adjusting frame is suitable for demolding the shells produced by molds of different sizes, so that workers can conveniently process the shells of the mobile power supplies of different sizes;

2. the thread turning directions of the two driving screws are opposite, so that the two longitudinal adjusting rods synchronously and reversely move, and the operation convenience and accuracy of workers are improved;

3. the guide support rod not only increases the connecting area between the driving screw and the longitudinal adjusting rod, reduces stress concentration, and enhances the connection between the driving screw and the longitudinal adjusting rod, so that the driving screw is not easy to bend and deform under the impact action, the smoothness when the driving screw rotates is ensured, the guide effect is realized on the movement of the longitudinal adjusting rod, and the stability and the accuracy of the movement of the longitudinal adjusting rod are ensured.

Drawings

FIG. 1 is a schematic structural view of a mold release apparatus in an embodiment of the present application;

FIG. 2 is a partial schematic view showing the structure of the mold release adjusting frame and the supporting frame;

FIG. 3 is a partial cross-sectional view showing a mold release adjusting frame;

FIG. 4 is a partial schematic view showing a lateral adjustment mechanism;

fig. 5 is a partial schematic view showing a portion a in fig. 4.

Description of reference numerals: 1. a stamping device; 11. a mold; 12. a baffle plate; 2. a frame; 21. a dovetail groove; 3. a stuffing box; 31. a discharging groove; 4. a support frame; 41. a cross bar; 42. a longitudinal bar; 43. bracing; 5. demolding the adjusting frame; 51. a longitudinal adjusting rod; 511. a sliding groove; 52. a transverse adjusting rod; 521. a chute; 53. a telescopic rod; 6. a longitudinal adjustment mechanism; 61. a drive screw; 62. a supporting seat; 63. a knob; 64. a guide support rod; 7. a lateral adjustment mechanism; 71. a support block; 72. a dovetail block; 73. rotating the screw; 74. a hand wheel; 75. a rotating base; 8. a material taking mechanism; 81. a driving cylinder; 82. pushing the plate; 9. and a positioning column.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses shell manufacturing mould shedder of portable power source production usefulness. Referring to fig. 1, the mold stripping device comprises a stamping device 1, a mold 11 is arranged below the stamping device 1, a frame 2 is arranged below the mold 11, and the frame 2 and the mold 11 are arranged at intervals. The top of the frame 2 is provided with a stuffing box 3, the stuffing box 3 is connected with the frame 2 through a bolt, and the stuffing box 3 is provided with a discharging groove 31. Two support frames 4 are arranged above the frame 2, the two support frames 4 are symmetrically arranged, and the support frames 4 are connected with the frame 2 in a sliding manner; a demoulding adjusting frame 5 is arranged between the two supporting frames 4.

Referring to fig. 2 and 3, the knock-out adjusting frame 5 includes two longitudinal bar groups each including two longitudinal adjusting bars 51 and two transverse bar groups, the two longitudinal adjusting bars 51 being disposed at intervals. A longitudinal adjusting mechanism 6 is arranged between the two longitudinal adjusting rods 51 in each longitudinal rod group, the longitudinal adjusting mechanism 6 is used for adjusting the distance between the two longitudinal adjusting rods 51, and the supporting frame 4 is connected with the longitudinal adjusting mechanism 6. Each transverse rod group comprises two transverse adjusting rods 52, a telescopic rod 53 is arranged between the two transverse adjusting rods 52, the telescopic rod 53 can be connected with the two transverse adjusting rods 52 in a sliding mode, one end of the telescopic rod 53 can be fixedly connected with one transverse adjusting rod 52, the other end of the telescopic rod 53 is connected with the other transverse adjusting rod in a sliding mode, a sliding groove 521 is formed in the transverse adjusting rod 52 connected with the telescopic rod 53 in a sliding mode, and the telescopic rod 53 is located in the sliding groove 521 and slides.

Referring to fig. 2 and 3, four transverse adjustment rods 52 correspond to four longitudinal adjustment rods 51 one by one, and the transverse adjustment rods 52 are fixedly connected to the corresponding longitudinal adjustment rods 51. A transverse adjusting mechanism 7 is arranged between the two support frames 4 and the frame 2, and the transverse adjusting mechanism 7 is used for adjusting the distance between the two transverse adjusting rods 52 in each transverse rod group. Still be provided with feeding agencies 8 on the frame 2, feeding agencies 8 are used for promoting the shell to keeping away from 5 one side of drawing of patterns adjusting frame.

When a worker produces the mobile power supply shell, firstly, raw materials are placed into a material placing groove 31 on a stuffing box 3, then the worker starts a stamping device 1, the stamping device 1 drives a die 11 to move downwards, the die 11 penetrates through a demolding adjusting frame 5 and is pressed into the stuffing box 3 to be pressed and formed, then the stamping device 1 drives the die 11 and a shell attached to the die 11 to ascend, after the shell moves upwards to the demolding adjusting frame 5, the shell falls off and is separated from the die 11 under the blocking effect of the demolding adjusting frame 5, then a material taking mechanism 8 pushes the shell to the side far away from the demolding adjusting frame 5, the worker takes the shell away, adds new raw materials, and repeats the processes; if shells with different sizes need to be processed, when the size of the demolding adjusting frame 5 is adjusted in an adaptive mode, firstly, a worker adjusts the distance between two longitudinal adjusting rods 51 in a longitudinal rod group through a longitudinal adjusting mechanism 6 to enable the demolding adjusting frame 5 to be matched with the width of the shell to be processed, then, the distance between two transverse adjusting rods 52 is adjusted through a transverse adjusting mechanism 7 to enable the demolding adjusting frame 5 to be matched with the length of the shell to be processed, and therefore the whole demolding adjusting frame 5 is enlarged or reduced to enable the shells with different sizes to be subjected to rapid demolding processing in an adaptive mode.

Referring to fig. 1, a plurality of positioning columns 9 are fixedly arranged on the stamping device 1 and the frame 2, and the positioning columns 9 are used for preventing the demolding adjusting frame 5 from bearing impact force when the stamping device 1 drives the mold 11 to move downwards, so that the demolding adjusting frame 5 is not easy to deform due to the impact force. Still set firmly baffle 12 on stamping equipment 1, baffle 12 are used for 11 raw and other materials's of mould pressing in-process, and residue, sweeps are difficult for splashing to staff one side, improve staff's security.

Referring to fig. 2, the supporting frame 4 includes a cross bar 41 and a longitudinal bar 42 fixedly arranged at one end of the cross bar 41, the cross bar 41 and the longitudinal bar 42 form an L shape, an inclined strut 43 is fixedly arranged between the cross bar 41 and the longitudinal bar 42, and the inclined strut 43 is used for increasing the connection area between the cross bar 41 and the longitudinal bar 42, so as to reduce the stress concentration at the connection position of the cross bar 41 and the longitudinal bar 42, and make the connection position of the cross bar 41 and the longitudinal bar 42 not easily break.

Referring to fig. 2 and 3, the longitudinal adjusting mechanism 6 includes two driving screws 61 simultaneously screwed on the two longitudinal adjusting rods 51, the two driving screws 61 are integrally formed, and the thread turning directions are opposite to enable the two longitudinal adjusting rods 51 to synchronously and reversely move, so that the operation convenience and accuracy of a worker are improved. All the cover is equipped with supporting seat 62 on two drive screw 61, and supporting seat 62 rotates with drive screw 61 to be connected, and supporting seat 62 and support frame 4 fixed connection. The knob 63 is fixedly arranged between the two driving screw rods 61, the diameter of the knob 63 is large, a handheld part is provided for workers, and the workers can conveniently rotate the driving screw rods 61. A guide support rod 64 is arranged between the support seat 62 and the longitudinal adjustment rod 51, a sliding groove 511 is formed in the longitudinal adjustment rod 51, one end of the guide support rod 64 is fixedly connected with the support seat 62, the other end of the guide support rod is positioned in the sliding groove 511 to slide, the guide support rod 64 is used for increasing the connection area between the driving screw 61 and the longitudinal adjustment rod 51, stress concentration between the driving screw 61 and the longitudinal adjustment rod 51 is reduced, the driving screw 61 is not prone to bending deformation under the impact action, and smoothness of the driving screw 61 during rotation is guaranteed.

When the staff adjusts the interval between two longitudinal regulation poles 51 through longitudinal adjustment mechanism 6, at first the staff rotates knob 63, knob 63 can drive two fixed connection's drive screw 61 and rotate, two drive screw 61 drive two longitudinal regulation poles 51 synchronous reverse movement respectively, thereby increase or reduce the interval between two longitudinal regulation poles 51, two longitudinal regulation poles 51 are at the in-process that removes simultaneously, guide support bar 64 plays the guide effect to the removal of longitudinal regulation pole 51, and the shell drawing of patterns in-process upwards can cause certain impact effect to drawing of patterns adjusting frame 5, guide support bar 64 has improved the stationarity that longitudinal regulation pole 51 removed.

Referring to fig. 4 and 5, the transverse adjusting mechanism 7 includes a supporting block 71 fixedly disposed below the two supporting frames 4, and the supporting block 71 is disposed in a rectangular parallelepiped shape; the bottom of supporting shoe 71 sets firmly dovetail block 72, sets up the dovetail 21 with dovetail block 72 looks adaptation on the frame 2, and dovetail block 72 is located dovetail 21 and slides, and dovetail block 72 only can slide along the direction of seting up of dovetail 21 for play direction and spacing effect to the removal of supporting shoe 71, guarantee the accuracy nature of supporting shoe 71 moving direction, and make supporting shoe 71 can not break away from frame 2 from top to bottom.

Referring to fig. 4 and 5, the two support blocks 71 are each threadedly connected with a rotary screw 73, and the two rotary screws 73 are integrally formed and have opposite thread directions. One end of one of the rotary screw rods 73 is fixedly provided with a hand wheel 74, and the diameter of the hand wheel 74 is larger, so that the rotary screw rods 73 can be conveniently rotated by workers. Two rotating bases 75 are fixedly arranged on the frame 2, the two rotating bases 75 correspond to the two rotating screws 73 one by one, and the rotating screws 73 are rotatably connected with the corresponding rotating bases 75.

When the worker adjusts the distance between the two transverse adjusting rods 52 in the transverse rod group through the transverse adjusting mechanism 7, firstly, the worker rotates the hand wheel 74, the hand wheel 74 can drive the two rotating screws 73 to rotate synchronously, the two rotating screws 73 can drive the supporting blocks 71 which are in threaded connection with the two rotating screws to approach or separate from each other, then the supporting blocks 71 can drive the supporting frames 4 which are fixedly connected with the supporting blocks to move, the supporting frames 4 drive the longitudinal adjusting rods 51 to move, and the longitudinal adjusting rods 51 can drive the transverse adjusting rods 52 which are fixedly connected with the longitudinal adjusting rods to separate from or approach each other, so that the transverse rod group is matched with the length of the shell.

Referring to fig. 4, the material taking mechanism 8 comprises a driving cylinder 81 fixedly arranged on the frame 2, and the driving cylinder 81 has large load and strong adaptability and is suitable for linear reciprocating motion; drive actuating cylinder 81's cylinder body and frame 2 fixed connection, the piston rod that drives actuating cylinder 81 keeps away from cylinder body one side and has set firmly push pedal 82, and push pedal 82 is rectangular board.

After the shell shaping finishes, at first the staff starts driving actuating cylinder 81, and the piston rod that drives actuating cylinder 81 can drive push pedal 82 and remove to 5 one sides of drawing of patterns adjusting frame to push away the shell of drawing of patterns adjusting frame 5 below to keeping away from 5 one sides of drawing of patterns adjusting frame, and then make things convenient for the staff to take out the shell.

The implementation principle of the shell manufacturing mold stripping device for mobile power supply production is as follows: when a worker needs to produce the mobile power supply shell, firstly, raw materials are placed into a feeding groove 31 on a stuffing box 3, then, a stamping device 1 is started, the stamping device 1 can drive a mold 11 to move downwards, the mold 11 penetrates through a demolding adjusting frame 5 and is pressed into the stuffing box 3, the raw materials are pressed and formed, then, the stamping device 1 drives the mold 11 and the shell to ascend, after the shell moves upwards to the demolding adjusting frame 5, the shell falls off and is separated from the mold 11 under the blocking effect of a demolding adjusting frame 5, then, the worker takes out the shell, adds new raw materials, and repeats the processes; if shells with different sizes need to be processed, firstly, a worker rotates the knob 63, the knob 63 can control the longitudinal adjusting mechanism 6 to adjust the distance between the two longitudinal adjusting rods 51, so that the demolding adjusting frame 5 is matched with the width size of the shell to be processed, then the worker rotates the hand wheel 74, the hand wheel 74 can control the transverse adjusting mechanism 7 to adjust the distance between the two transverse adjusting rods 52, so that the demolding adjusting frame 5 is matched with the length size of the shell to be processed, and the whole demolding adjusting frame 5 is enlarged or reduced to be suitable for rapid demolding treatment of the shells with different sizes; the length and the width of the demoulding adjusting frame 5 can be changed rapidly and conveniently, and the demoulding adjusting frame is suitable for demoulding the shells produced by the moulds 11 with different sizes, so that workers can conveniently process the shells of the mobile power supplies with different sizes.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a shell manufacturing mould shedder of portable power source production usefulness which characterized in that: the device comprises a stamping device (1), a die (11) arranged below the stamping device (1), a frame (2) arranged below the die (11) at intervals, a stuffing box (3) detachably connected above the frame (2), two support frames (4) connected above the frame (2) in a sliding manner, and a demolding adjusting frame (5) arranged between the two support frames (4), wherein the two support frames (4) are symmetrically arranged;

the demolding adjusting frame (5) comprises two longitudinal rod groups and two transverse rod groups, each longitudinal rod group comprises two longitudinal adjusting rods (51), each transverse rod group comprises two transverse adjusting rods (52) and a telescopic rod (53) arranged between the two transverse adjusting rods (52), the four transverse adjusting rods (52) correspond to the four longitudinal adjusting rods (51) one by one, and the transverse adjusting rods (52) are fixedly connected with the corresponding longitudinal adjusting rods (51);

a longitudinal adjusting mechanism (6) for adjusting the distance between the two longitudinal adjusting rods (51) is arranged between the two longitudinal adjusting rods (51) in each longitudinal rod group, and the support frame (4) is connected with the longitudinal adjusting mechanism (6); a transverse adjusting mechanism (7) for adjusting the distance between two transverse adjusting rods (52) in each transverse rod group is arranged between the two supporting frames (4) and the rack (2).

2. The housing manufacturing mold release device for mobile power supply production according to claim 1, characterized in that: the longitudinal adjusting mechanism (6) comprises two driving screw rods (61) which are simultaneously in threaded connection with the two longitudinal adjusting rods (51), two supporting seats (62) which are respectively sleeved on the two driving screw rods (61), and a knob (63) which is fixedly arranged between the two driving screw rods (61);

the thread turning directions of the two driving screws (61) are opposite, the supporting seat (62) is rotatably connected with the driving screws (61), and the supporting seat (62) is fixedly connected with the supporting frame (4).

3. The housing manufacturing mold release device for mobile power supply production according to claim 2, characterized in that: the utility model discloses a slide rail device, including supporting seat (62) and longitudinal adjusting pole (51), be provided with guide support pole (64) between supporting seat (62) and longitudinal adjusting pole (51), longitudinal adjusting pole (51) are last to have seted up groove (511) that slides, guide support pole (64) one end and supporting seat (62) fixed connection, the other end are located the groove (511) that slides.

4. The housing manufacturing mold release device for mobile power supply production according to claim 1, characterized in that: the transverse adjusting mechanism (7) comprises two supporting blocks (71) which are fixedly arranged on one sides of the two supporting frames (4) close to the rack (2), rotating screw rods (73) which are in threaded connection with the supporting blocks (71), a hand wheel (74) fixedly arranged at one end of one of the rotating screw rods (73), and a rotating seat (75) fixedly arranged on the rack (2);

the supporting block (71) is connected with the rack (2) in a sliding mode, the thread turning directions of the two rotary screws (73) are opposite, the two rotary screws (73) are fixedly connected, and the rotary screws (73) are rotatably connected with the rotary base (75).

5. The housing manufacturing mold release device for mobile power supply production according to claim 4, characterized in that: the bottom of supporting shoe (71) sets firmly dovetail block (72), seted up dovetail (21) with dovetail block (72) looks adaptation on frame (2), dovetail block (72) are located dovetail (21) and slide.

6. The housing manufacturing mold release device for mobile power supply production according to claim 1, characterized in that: and the frame (2) is also provided with a material taking mechanism (8) for pushing the shell to one side far away from the demolding adjusting frame (5).

7. The housing manufacturing mold release device for mobile power supply production according to claim 6, characterized in that: the material taking mechanism (8) comprises a driving cylinder (81) fixedly arranged on the rack (2) and a push plate (82) fixedly arranged on one side of a piston rod of the driving cylinder (81).

8. The housing manufacturing mold release device for mobile power supply production according to any one of claims 1 to 7, characterized in that: the support frame (4) comprises a cross rod (41) and a longitudinal rod (42) fixedly arranged at one end of the cross rod (41), the cross rod (41) and the longitudinal rod (42) form an L shape, and an inclined strut (43) is fixedly arranged between the cross rod (41) and the longitudinal rod (42).

9. The housing manufacturing mold release device for mobile power supply production according to claim 8, characterized in that: and a baffle (12) is fixedly arranged on the stamping equipment (1).

10. The housing manufacturing mold release device for mobile power supply production according to claim 8, characterized in that: and positioning columns (9) are fixedly arranged on the stamping equipment (1) and the rack (2).

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