CN113427243A - High-end equipment internal filter rapid production equipment - Google Patents

Abstract

The invention discloses a rapid production device for an internal filter of high-end equipment. The device comprises a bottom plate, wherein the top of the bottom plate is fixedly connected with a first support frame; the middle of the upper part of the first support frame is provided with a pressing component; the lower pressing assembly is connected with the air cylinder through a bolt; the first rotating shaft is rotatably arranged on one side of the first support frame; the top of the first rotating shaft is provided with a first placing frame; eight pairs of placing frames are arranged on the outer side of the first placing frame in a sliding mode at even intervals, and the number of each pair of placing frames is two; the first springs are connected between the placing frame and the first placing frame; the material loading component is arranged on one side of the first support frame. According to the invention, the filter screens can be placed at proper positions one by one through the blanking assembly, excessive manual operation of people is not required, and the installed high-end equipment can be well taken out and collected by opening the assembly and the collection assembly.

Description

High-end equipment internal filter rapid production equipment

Technical Field

The invention relates to production equipment, in particular to rapid production equipment for an internal filter of high-end equipment.

Background

At present, many high-end equipment needs to have a filtering function in the using process, so that a filter needs to be installed in the high-end equipment.

The existing high-end equipment filter mounting equipment needs people to manually place high-end equipment and filters one by one on a conveying belt, and then the high-end equipment and a filter screen are mounted together through some large-scale mounting equipment.

Therefore, it is necessary to design and develop a high-end equipment internal filter rapid production device which can automatically feed and discharge materials and can be installed in batch.

Disclosure of Invention

In order to overcome the defect of complicated feeding and discharging in the prior art, the invention aims to provide the rapid production equipment for the internal filter of the high-end equipment, which can automatically feed and discharge and can be installed in batches.

The purpose of the invention can be achieved by adopting the following technical scheme:

in a first aspect, a high-end equipment internal filter rapid production device comprises: the top of the bottom plate is fixedly connected with a first support frame; the middle of the upper part of the first support frame is provided with a pressing component; the lower pressing assembly is connected with the air cylinder through a bolt; the first rotating shaft is rotatably arranged on one side of the first support frame; the top of the first rotating shaft is provided with a first placing frame; eight pairs of placing frames are arranged on the outer side of the first placing frame in a sliding mode at even intervals, and the number of each pair of placing frames is two; the first springs are connected between the placing frame and the first placing frame; the material loading component is arranged on one side of the first support frame.

Further, the material loading component comprises: the shaft sleeve is rotatably arranged on one side of the first support frame; the sliding shaft is arranged in the shaft sleeve in a sliding manner; the second spring is connected between the sliding shaft and the shaft sleeve; the top end of the sliding shaft is connected with a second placing rack; eight pairs of sliding rods are arranged on the outer side of the second placing frame in a sliding mode at uniform intervals, and the number of each pair of sliding rods is two; the inner sides of the sliding rods are connected with the supporting frames; third springs are connected between the supporting frame and the second placing frame; eight pairs of first wedge-shaped rods are uniformly arranged on the outer side of the first support frame at intervals, and the number of each pair of first wedge-shaped rods is two.

Further, the push-down assembly comprises: one side of the first support frame is fixedly connected with a second support frame, and the second support frame is connected with the air cylinder; the middle part of the first support frame is provided with a first support rod; the first support rod is provided with a pressure rod in a sliding manner; the piston rod of the cylinder is connected with a first connecting rod; and a fourth spring is connected between the first connecting rod and the pressure rod.

Further, still include drive assembly, drive assembly includes: the piston rod of the air cylinder is connected with a second connecting rod; the ratchet bars are arranged on two sides of the second connecting rod in a sliding manner; the fifth spring is connected between the ratchet bar and the second connecting rod; the two sides of the middle part of the first support frame are both connected with the first support block; the second rotating shaft is rotatably arranged between the first supporting blocks; the two ends of the second rotating shaft are both connected with a ratchet wheel which is matched with the ratchet bar; the upper middle part of the first support frame is rotatably provided with a gear notch; the bottom of each gear lack and the second rotating shaft are connected with bevel gears which are meshed with each other; the first support frame is rotatably provided with a first gear, and the first gear is connected with the first rotating shaft; the first support frame is rotatably provided with a first gear, and the first gear are matched with the gear lacking wheel; the bottom end of the second gear and the bottom end of the shaft sleeve are both connected with a driving wheel; the transmission belt is wound among the transmission wheels; the first guide rod is symmetrically connected to one side of the first support frame and is connected with the second connecting rod in a sliding mode.

Further, still include opening the subassembly, opening the subassembly and including: one side of the first support frame is connected with a third connecting rod; the third connecting rod is connected with a wedge block; eight pairs of second guide rods are uniformly arranged on the first placing frame at intervals, and the number of each pair of second guide rods is two; a first sliding rod is arranged between each pair of second guide rods in a sliding manner; the sixth springs are symmetrically connected between the first sliding rod and the first placing frame; the bottom of the first sliding rod is connected with a roller, and the roller is matched with the wedge-shaped block; and the outer sides of the placing frames of the second wedge-shaped rods are connected with the second wedge-shaped rods, and the second wedge-shaped rods are matched with the first sliding rods.

Further, still including the unloading subassembly, the unloading subassembly is including: one side of the second support frame is connected with a third support frame; the third support frame is connected with the material loading barrel through a bolt; the top of the second support frame is symmetrically provided with second support rods; one side of the second supporting rod is connected with the first guide block; the pull rods are arranged between the first guide blocks in a sliding manner and are connected with the second support rod in a sliding manner; one side of the third support frame is symmetrically connected with a third support rod; the first push rods are arranged on the first support rods and the third support rods in a sliding manner; a seventh spring is connected between the first push rod and the third support rod, the seventh spring is sleeved on the first push rod, and the first push rod is matched with the pull rod; the two sides of the material loading barrel are connected with the fourth supporting frames; the connecting rods are rotatably arranged on the outer sides of the fourth supporting frames; the torsion spring is connected between the connecting rod and the fourth supporting frame; a second sliding rod is arranged on the upper side of the fourth supporting frame in a sliding manner and is connected with the connecting rod in a sliding manner; the pressing block is arranged on the inner side of the second sliding rod in a sliding mode; the eighth spring is connected between the pressing block and the second sliding rod; a third sliding rod is arranged at the lower part of the fourth supporting frame in a sliding manner and is connected with the connecting rod in a sliding manner; the inner sides of the baffle plates and the third sliding rod are connected with the baffle plates.

Further, still including the blowing subassembly, the blowing subassembly is including: one side of the first support frame is fixedly connected with a fifth support frame; the fifth supporting frame is connected with the material loading frame through bolts; one side of the fifth supporting frame is connected with a fourth supporting rod; the fourth slide bar is arranged on the fourth support rod in a sliding manner; a ninth spring is connected between the fourth sliding rod and the fourth supporting rod; one side of the fourth sliding rod is connected with a material baffle plate, and the material baffle plate is connected with the material carrying frame in a sliding mode; one side of the fourth sliding rod is connected with a second guide block; the second guide block is provided with a convex block in a sliding manner; a tenth spring is connected between the lug and the second guide block; the upper part of the fifth supporting frame is fixedly connected with a second supporting block; the second support block is provided with a second slide bar in a sliding manner; an eleventh spring is connected between the fifth sliding rod and the second supporting block; and one side of the second connecting rod is connected with a second push rod, and the second push rod is matched with the fifth sliding rod.

Further, still including collecting the subassembly, collecting the subassembly and including: two third supporting blocks are symmetrically connected to one side of the bottom plate; the placing table is arranged between the third supporting blocks in a sliding mode; the twelfth springs are connected between the placing table and the third supporting block; the collecting frame is placed on the top of the placing table; and the guide frame is connected between the third supporting blocks on one side through bolts.

The invention has the advantages that: (1) the invention achieves the effects of automatic feeding and discharging and batch installation;

(2) according to the invention, the filter screens can be placed at proper positions one by one through the blanking assembly, excessive manual operation of people is not required, and the installed high-end equipment can be well taken out and collected by opening the assembly and the collection assembly;

(3) people only need place the filter screen on the unloading subassembly to equip the high-end and place placing in the frame, this equipment just can equip automatic installation with filter screen and high-end together, makes work efficiency greatly increased.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of another perspective structure according to the present invention.

FIG. 3 is a schematic diagram of a first partial structure according to the present invention.

FIG. 4 is a second partial structure diagram of the present invention.

FIG. 5 is a third partial structural diagram of the present invention.

FIG. 6 is a schematic diagram of a fourth partial structure of the present invention.

FIG. 7 is a schematic diagram of a fifth partial structure according to the present invention.

FIG. 8 is a schematic diagram of a sixth partial structure according to the present invention.

Fig. 9 is an enlarged view of a portion a of the present invention.

FIG. 10 is a schematic diagram of a seventh partial structure according to the present invention.

Fig. 11 is a schematic diagram of an eighth partial structure of the present invention.

In the above drawings: 1: bottom plate, 2: first support frame, 3: cylinder, 4: first rotation axis, 5: first rack, 6: placing frame, 7: first spring, 8: material loading assembly, 801: shaft sleeve, 802: sliding shaft, 803: second spring, 804: second rack, 805: support frame, 806: slide lever, 807: third spring, 808: first wedge bar, 9: push-down assembly, 901: second support, 902: first support bar, 903: pressure lever, 904: first connecting rod, 905: fourth spring, 10: drive assembly, 1001: second connecting rod, 1002: ratchet bar, 1003: fifth spring, 1004: first support block, 1005: second rotation axis, 1006: ratchet, 1007: bevel gear, 1008: missing gear, 1009: first gear, 1010: second gear, 1011: a transmission wheel, 1012: drive belt, 1013: first guide bar, 11: opening assembly, 1101: third connecting rod, 1102: wedge block, 1103: second guide bar, 1104: a first slide bar, 1105: sixth spring, 1106: roller, 1107: second wedge bar, 12: unloading subassembly, 1201: third support, 1202: cartridge loading barrel, 1203: second support rod, 1204: first guide block, 1205: pull rod, 1206: third support bar, 1207: first push rod, 1208: seventh spring, 1209: fourth support frame, 1210: second slide bar, 1211: briquetting, 1212: eighth spring, 1213: link, 1214: torsion spring, 1215: third slide bar, 1216: baffle, 13: emptying assembly, 1301: fifth support frame, 1302: material loading frame, 1303: fourth support bar, 1304: a fourth slide bar, 1305: striker plate, 1306: ninth spring, 1307: second guide block, 1308: bump, 1309: tenth spring, 1310: second support block, 1311: fifth slide bar, 1312: eleventh spring, 1313: second push rod, 14: collection component, 1401: third support block, 1402: placing table, 1403: twelfth spring, 1404: collection box, 1405: and a guide frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The utility model provides a high-end equips quick production facility of inside filter, as shown in fig. 1-5, including bottom plate 1, first support frame 2, cylinder 3, first rotation axis 4, first rack 5, place frame 6, first spring 7, carry material subassembly 8 and push down subassembly 9, bottom plate 1 top fixedly connected with first support frame 2, be equipped with push down subassembly 9 in the middle of 2 upper portions of first support frame, there is cylinder 3 through bolted connection on the push down subassembly 9, first support frame 2 left side rotary type is equipped with first rotation axis 4, first rotation axis 4 top is equipped with first rack 5, even interval in the first rack 5 outside is equipped with the slidingtype eight to place frame 6, every quantity of placing frame 6 is two, it all is connected with first spring 7 to place between frame 6 and the first rack 5, first support frame 2 right side is equipped with carries material subassembly 8.

The material loading assembly 8 comprises a shaft sleeve 801, a sliding shaft 802, a second spring 803, a second placing frame 804, a supporting frame 805, a sliding rod 806, a third spring 807 and a first wedge-shaped rod 808, the shaft sleeve 801 is rotatably arranged on the right side of the first support frame 2, the sliding shaft 802 is slidably arranged in the shaft sleeve 801, the second spring 803 is connected between the sliding shaft 802 and the shaft sleeve 801, the top end of the sliding shaft 802 is connected with the second placing frame 804, eight pairs of sliding rods 806 are slidably arranged on the outer side of the second placing frame 804 at even intervals, the number of each pair of sliding rods 806 is two, the inner side of each sliding rod 806 is connected with the supporting frame 805, the third spring is connected between the supporting frame 805 and the second placing frame 804, eight pairs of first wedge-shaped rods 808 are uniformly arranged on the outer side of the first support frame 807 2 at even intervals, and the number of each pair of first wedge-shaped rods 808 is two.

The pressing component 9 comprises a second support frame 901, a first support rod 902, a pressing rod 903, a first connecting rod 904 and a fourth spring 905, the left side of the first support frame 2 is fixedly connected with the second support frame 901, the second support frame 901 is connected with the cylinder 3, the middle part of the first support frame 2 is provided with the first support rod 902, the first support rod 902 is positioned on the right side of the second support frame 901, the pressing rod 903 is slidably arranged on the first support rod 902, the piston rod of the cylinder 3 is connected with the first connecting rod 904, and the fourth spring 905 is connected between the first connecting rod 904 and the pressing rod 903.

When people need to install the filter screen in the filter, the device can be used, people firstly place the filter screen between the support frames 805, the filter screen pushes the support frames 805 outwards, the third spring 807 is compressed, the support frame 805 can fix the filter screen, then the high-end equipment is placed between the placement frames 6, then the air cylinder 3 is started, the piston rod of the air cylinder 3 drives the first connecting rod 904, the fourth spring 905 and the pressure rod 903 to move downwards, when the pressure rod 903 is contacted with the second placement frame 804, the second placement frame 804 and the components thereon are driven to move downwards, the second spring 803 is compressed, when the sliding rod 806 moves downwards to be contacted with the first wedge-shaped rod 808, the sliding rod 806 and the support frame 805 move outwards, the third spring 807 is compressed, so that the filter screen in the support frame 805 can fall into the high-end equipment, when the pressure rod 903 cannot move downwards continuously, the first connecting rod 904 continues to move downwards, the fourth spring 905 is stretched, the first connecting rod 904 can push the filter screen downwards in the high-end equipment to complete the installation of the filter screen, when the piston rod of the air cylinder 3 moves upwards, the first connecting rod 904 is driven to move upwards, the fourth spring 905 resets, the pressing rod 903 is driven to reset upwards, the pressing rod 903 is not contacted with the second placing frame 804, the second placing frame 804 and the components on the second placing frame are moved upwards and reset under the action of the second spring 803, the sliding rod 806 and the supporting frame 805 also reset under the action of the third spring 807, then people rotate the shaft sleeve 801 an eighth circle anticlockwise and rotate the first rotating shaft 4 an eighth circle anticlockwise to enable the next pair of high-end equipment and the filter screen to continue to be installed, after the installation is finished, the placing frame 6 is pulled outwards manually, the first spring 7 is compressed, and the high-end equipment in the first spring 7 automatically drops, and finally, closing the cylinder 3.

Example 2

Based on embodiment 1, as shown in fig. 6 to 11, the present invention further includes a driving assembly 10, the driving assembly 10 includes a second connecting rod 1001, a ratchet bar 1002, a fifth spring 1003, a first supporting block 1004, a second rotating shaft 1005, a ratchet wheel 1006, a bevel gear 1007, a missing gear 1008, a first gear 1009, a second gear 1010, a driving wheel 1011, a driving belt 1012 and a first guiding rod 1013, the second connecting rod 1001 is connected to a piston rod of the cylinder 3, the ratchet bars 1002 are slidably disposed on front and rear sides of the second connecting rod 1001, the fifth spring 1003 is connected between the ratchet bar 1002 and the second connecting rod 1001, the first supporting block 1004 is connected to front and rear sides of a middle portion of the first supporting frame 2, the second rotating shaft 1005 is rotatably disposed between the first supporting blocks 1004, the ratchet wheels 1006 are connected to both ends of the second rotating shaft 1005, the ratchet wheel 1006 is engaged with the ratchet bar 1002, the missing gear 1008 is rotatably disposed on the middle portion of the first supporting frame 2, the bottom of the missing gear 1008 and the second rotating shaft 1005 are both connected with bevel gears 1007, the bevel gears 1007 are meshed with each other, and the first support frame 2 is rotatably provided with a first gear 1009 and a second gear 1010. First gear 1009 is connected with first rotation axis 4, first gear 1009 is located scarce gear 1008 left side, second gear 1010 is located scarce gear 1008 right side, and first gear 1009 all cooperates with scarce gear 1008 with second gear 1010, and second gear 1010 bottom and axle sleeve 801 bottom all are connected with drive wheel 1011, around having the drive belt 1012 between the drive wheel 1011, first leading arm 1013 is connected with around symmetrical in first support frame 2 left side, first leading arm 1013 and second connecting rod 1001 sliding type are connected.

When the piston rod of the cylinder 3 moves downwards, the second connecting rod 1001 is driven to move downwards, the ratchet bar 1002 does not drive the ratchet 1006 to rotate under the action of the fifth spring 1003, when the ratchet bar 1002 moves upward, the ratchet 1006 and the second rotation shaft 1005 are driven to rotate counterclockwise, so that the second wedge rod 1107 is driven to rotate counterclockwise, and further drives the missing gear 1008 to rotate clockwise, when the supporting frame 805 is opened to the outside, the missing gear 1008 is not engaged with the first gear 1009, when the support frame 805 moves inward to be reset, the missing gear 1008 is engaged with the first gear 1009, thereby driving the first rotating shaft 4 to rotate counterclockwise by one-eighth of a turn, and then when the missing gear 1008 is engaged with the second gear 1010, the second gear 1010, the transmission wheel 1011, the transmission belt and the shaft sleeve 801 are driven to rotate one eighth of a turn counterclockwise, therefore, after the filter screen is installed, the high-end equipment and the filter screen can rotate one eighth of a circle.

The novel opening device is characterized by further comprising an opening assembly 11, the opening assembly 11 comprises a third connecting rod 1101, a wedge 1102, a second guide rod 1103, a first sliding rod 1104, sixth springs 1105, rollers 1106 and second wedge 1107, the third connecting rod 1101 is connected to the left front side of the first support frame 2, the wedge 1102 is connected to the third connecting rod 1101, eight pairs of second guide rods 1103 are uniformly arranged on the first placing frame 5 at intervals, the number of each pair of second guide rods 1103 is two, a first sliding rod 1104 is slidably arranged between each pair of second guide rods 1103, the sixth springs 1105 are symmetrically connected between the first sliding rod 1104 and the first placing frame 5, the rollers 1106 are connected to the bottom of the first sliding rod 1104, the rollers 1106 are matched with the wedge 1102, the outer side of the placing frame 6 is connected with the second wedge 1107, and the second wedge 1107 is matched with the first sliding rod 1104.

When first rotation axis 4 drives and places frame 6 and remove to wedge 1102 department, wedge 1102 can contact with gyro wheel 1106, thereby drive gyro wheel 1106 and first slide bar 1104 rebound, sixth spring 1105 is compressed, thereby make second wedge 1107 move to the outside, place frame 6 and opened, high-end equipment in it just can drop automatically, people only need collect it can, after gyro wheel 1106 breaks away from with wedge 1102, under the effect of sixth spring 1105, gyro wheel 1106 and second wedge 1107 can automatic re-setting, it also can automatic re-setting to place frame 6, so just reached the effect of automatic unloading.

The blanking assembly 12 further comprises a blanking assembly 12, the blanking assembly 12 comprises a third support frame 1201, a material carrying cylinder 1202, a second support rod 1203, a first guide block 1204, a pull rod 1205, a third support rod 1206, a first push rod 1207, a seventh spring 1208, a fourth support frame 1209, a second slide rod 1210, a pressing block 1211, an eighth spring 1212, a connecting rod 1213, a torsion spring 1214, a third slide rod 1215 and a baffle 1216, the left side of the second support frame 901 is connected with the third support frame 1201, the material carrying cylinder 1202 is connected to the third support frame 1201 through a bolt, the top of the second support frame 901 is symmetrically provided with a second support rod 1203 in front and back, the right side of the second support rod 1203 is connected with the first guide block 1204, the pull rod 1205 is arranged between the first guide blocks 1204 in a sliding manner, the pull rod 1205 is connected with the second support rod 1203 in a sliding manner, the left side of the third support frame 1201 is symmetrically connected with the third support rod 1206, the third support rod 1206 is provided with the first push rod 1207 in a sliding manner, a seventh spring 1208 is connected between the first push rod 1207 and the third support rod 1206, the seventh spring 1208 is sleeved on the first push rod 1207, the first push rod 1207 is matched with the pull rod 1205, the front side and the rear side of the material loading barrel 1202 are both connected with a fourth support frame 1209, a connecting rod 1213 is rotatably arranged on the outer side of the fourth support frame 1209, a torsion spring 1214 is connected between the connecting rod 1213 and the fourth support frame 1209, a second sliding rod 1210 is slidably arranged on the upper side of the fourth support frame 1209, the second sliding rod 1210 is slidably connected with the connecting rod 1213, a pressing block 1211 is slidably arranged on the inner side of the second sliding rod 1210, an eighth spring 1212 is connected between the pressing block 1211 and the second sliding rod 1210, a third sliding rod 1215 is slidably arranged on the lower portion of the fourth support frame 1209, the third sliding rod 1215 is slidably connected with the connecting rod 1213, and a baffle 1216 is connected on the inner side of the third sliding rod 1215.

One can place a sufficient amount of filter screens in the material loading cylinder 1202, when the press rod 903 moves upwards to contact with the pull rod 1205, the pull rod 1205 is driven to move upwards, so as to drive the first push rod 1207 to move inwards, the seventh spring 1208 is compressed, so that the first push rod 1207 pushes the upper part of the connecting rod 1213 inwards, so as to drive the second slide rod 1210 and the pressing block 1211 to move inwards, so as to fix the upper filter screen, the eighth spring 1212 plays a role in buffering, the torsion spring 1214 deforms, and the lower part of the connecting rod 1213 moves outwards, so as to drive the third slide rod 1215 and the baffle 1216 to move outwards, the lowermost filter screen automatically falls into the supporting frame 805, when the press rod 903 moves downwards, the pull rod 1205 automatically resets under the action of the seventh spring, so that the pressing block 1211 and the baffle 1216 both reset through the connecting rod 1213, so that the filter screen 1202 in the material loading cylinder 1202 moves downwards, and is blocked by the baffle 1216 so that intermittent blanking is achieved.

The material placing component 13 is further included, the material placing component 13 includes a fifth support frame 1301, a material loading frame 1302, a fourth support bar 1303, a fourth sliding bar 1304, a material blocking plate 1305, a ninth spring 1306, a second guide block 1307, a lug 1308, a tenth spring 1309, a second support block 1310, a fifth sliding bar 1311, an eleventh spring 1312 and a second push bar 1313, the fifth support frame 1301 is fixedly connected to the rear side of the left portion of the first support frame 2, the material loading frame 1302 is connected to the fifth support frame 1301 through bolts, the fourth support bar 1303 is connected to the rear side of the fifth support frame 1301, the fourth sliding bar 1304 is slidably arranged on the fourth support bar 1303, the ninth spring 1306 is connected between the fourth sliding bar 1304 and the fourth support bar 1303, the material blocking plate 1305 is connected to the rear side of the fourth sliding bar 1304, the material blocking plate 1305 is slidably connected to the material loading frame 1302, the second guide block 1307 is connected to the right side of the fourth sliding bar 1304, and the lug 1307 is slidably arranged on the second guide block 1307, a tenth spring 1309 is connected between the protrusion 1308 and the second guide block 1307, a second support block 1310 is fixedly connected to the upper portion of the fifth support frame 1301, a fifth sliding bar 1311 is slidably disposed on the second support block 1310, an eleventh spring 1312 is connected between the fifth sliding bar 1311 and the second support block 1310, a second push rod 1313 is connected to the front side of the second connecting rod 1001, and the second push rod 1313 is matched with the fifth sliding bar 1311.

When the second plunger 1313 moves downwards, the second plunger 1313 is no longer in contact with the fifth plunger 1311, the fifth plunger 1311 moves downwards under the action of the compressed eleventh spring 1312, pushing the lug 1308 forwards, bringing the second guide block 1307, the fourth plunger 1304 and the striker 1305 to move forwards, the ninth spring 1306 is compressed, so that the striker 1305 no longer blocks the lower part of the carriage 1302, so that the high-end equipment can be blanked, when the fifth plunger 1311 is disengaged from the lug 1308, the striker 1305 and the fourth plunger 1304 automatically return under the action of the ninth spring 1306, when the fifth plunger 1311 moves upwards to return, the fifth plunger 1311 comes into contact with the lower part of the lug 1308, so that the lug 1308 pushes backwards, the tenth spring 1309 is compressed, so that the lug 1308 does not block the fifth plunger 1311, so that the interior of the high-end equipment can be blanked.

The collecting device is characterized by further comprising a collecting assembly 14, wherein the collecting assembly 14 comprises a third supporting block 1401, a placing table 1402, a twelfth spring 1403, a collecting frame 1404 and a guide frame 1405, the left side of the bottom plate 1 is symmetrically connected with the two third supporting blocks 1401 in a front-back manner, the placing table 1402 is arranged between the third supporting blocks 1401 in a sliding manner, the twelfth spring 1403 is connected between the placing table 1402 and the third supporting blocks 1401, the collecting frame 1404 is placed on the top of the placing table 1402, and the guide frame 1405 is connected between the third supporting blocks 1401 on the right side through bolts.

From placing the high-end equipment that drops between the frame 6 and can drop in direction frame 1405, and then drop in collecting the frame 1404 to drive and collect frame 1404 and place platform 1402 and move down, twelfth spring 1403 has played the effect of buffering, prevents that high-end equipment from receiving the damage.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a high-end equipment internal filter rapid production facility which characterized by including:

the top of the bottom plate (1) is fixedly connected with a first support frame (2); the middle of the upper part of the first support frame (2) is provided with a pressing component (9); the cylinder (3) is connected to the pressing component (9) through a bolt; a first rotating shaft (4), wherein one side of the first support frame (2) is rotatably provided with the first rotating shaft (4); the top of the first rotating shaft (4) is provided with a first placing frame (5); eight pairs of placing frames (6) are arranged on the outer side of the first placing frame (5) in a sliding mode at uniform intervals, and the number of each pair of placing frames (6) is two; the first springs (7) are connected between the placing frame (6) and the first placing rack (5); the material loading component (8) is arranged on one side of the first support frame (2).

2. A rapid production plant for high-end equipment internal filters, as claimed in claim 1, characterised in that the loading assembly (8) comprises:

the shaft sleeve (801), one side of the first support frame (2) is rotatably provided with the shaft sleeve (801); the sliding shaft (802) is arranged in the shaft sleeve (801) in a sliding manner; a second spring (803), wherein the second spring (803) is connected between the sliding shaft (802) and the shaft sleeve (801); the top end of the sliding shaft (802) is connected with a second placing rack (804); eight pairs of sliding rods (806) are arranged on the outer side of the second placing frame (804) at equal intervals in a sliding manner, and the number of each pair of sliding rods (806) is two; the inner sides of the sliding rods (806) are connected with the supporting frames (805); the third spring (807), the third spring (807) is connected between the supporting frame (805) and the second placing frame (804); eight pairs of first wedge-shaped rods (808) are arranged on the outer side of the first support frame (2) at uniform intervals, and the number of each pair of first wedge-shaped rods (808) is two.

3. A high-end equipment internal filter rapid production equipment according to claim 2, characterized in that the push-down assembly (9) comprises:

one side of the first support frame (2) is fixedly connected with a second support frame (901), and the second support frame (901) is connected with the cylinder (3); the middle part of the first support frame (2) is provided with a first support rod (902); a pressure lever (903), wherein the first support rod (902) is provided with the pressure lever (903) in a sliding way; a first connecting rod (904) is connected to a piston rod of the cylinder (3);

and a fourth spring (905), wherein the fourth spring (905) is connected between the first connecting rod (904) and the pressure rod (903).

4. A rapid production plant of high-end equipment internal filters, according to claim 3, characterized in that it further comprises a drive assembly (10), the drive assembly (10) comprising:

the piston rod of the cylinder (3) is connected with a second connecting rod (1001); the ratchet bars (1002) are arranged on two sides of the second connecting rod (1001) in a sliding mode; a fifth spring (1003), wherein the fifth spring (1003) is connected between the ratchet bar (1002) and the second connecting rod (1001); the two sides of the middle part of the first support frame (2) are connected with the first support blocks (1004); a second rotating shaft (1005), wherein the second rotating shaft (1005) is rotatably arranged between the first supporting blocks (1004); the ratchet wheel (1006) is connected to both ends of the second rotating shaft (1005), and the ratchet wheel (1006) is matched with the ratchet bar (1002); a gear lacking wheel (1008), wherein the gear lacking wheel (1008) is rotatably arranged in the middle of the upper part of the first support frame (2); the bottom of the gear lacking (1008) and the second rotating shaft (1005) are connected with the bevel gears (1007), and the bevel gears (1007) are meshed with each other; the first gear (1009), the first gear (1009) is rotationally arranged on the first support frame (2), and the first gear (1009) is connected with the first rotating shaft (4); the second gear (1010) is rotationally arranged on the first support frame (2), and the first gear (1009) and the second gear (1010) are matched with the missing gear (1008); the bottom end of the second gear (1010) and the bottom end of the shaft sleeve (801) are connected with a driving wheel (1011); the transmission belt (1012) is wound among the transmission wheels (1011); the first support frame (2) is symmetrically connected with a first guide rod (1013) on one side, and the first guide rod (1013) is connected with a second connecting rod (1001) in a sliding manner.

5. A rapid production plant of high-end equipment internal filters, according to claim 4, characterized in that it further comprises an opening assembly (11), the opening assembly (11) comprising:

a third connecting rod (1101), wherein one side of the first support frame (2) is connected with the third connecting rod (1101); the wedge block (1102), the third connecting rod (1101) is connected with the wedge block (1102); eight pairs of second guide rods (1103) are uniformly arranged on the first placing frame (5) at intervals, and the number of each pair of second guide rods (1103) is two; a first sliding bar (1104), a first sliding bar (1104) is slidably arranged between each pair of second guide bars (1103); the sixth springs (1105) are symmetrically connected between the first sliding rod (1104) and the first placing rack (5); the bottom of the first sliding rod (1104) is connected with a roller (1106), and the roller (1106) is matched with the wedge block (1102); the second wedge-shaped rod (1107) is connected with the second wedge-shaped rod (1107) at the outer side of the placing frame (6), and the second wedge-shaped rod (1107) is matched with the first sliding rod (1104).

6. A rapid production plant of high-end equipment internal filters, as claimed in claim 5, characterized by further comprising a blanking assembly (12), the blanking assembly (12) comprising:

one side of the second support frame (901) is connected with the third support frame (1201); the third support frame (1201) is connected with the material loading barrel (1202) through a bolt; the top of the second support frame (901) is symmetrically provided with a second support rod (1203); one side of each of the first guide block (1204) and the second support rod (1203) is connected with the first guide block (1204); the pull rods (1205) are arranged between the first guide blocks (1204) in a sliding mode, and the pull rods (1205) are connected with the second support rod (1203) in a sliding mode; one side of the third supporting frame (1201) is symmetrically connected with the third supporting rod (1206); the first push rod (1207) and the third support rod (1206) are both provided with the first push rod (1207) in a sliding way; a seventh spring (1208), wherein the seventh spring (1208) is connected between the first push rod (1207) and the third support rod (1206), the seventh spring (1208) is sleeved on the first push rod (1207), and the first push rod (1207) is matched with the pull rod (1205); the fourth supporting frames (1209) are connected with the two sides of the material carrying cylinder (1202); the connecting rods (1213) are rotatably arranged at the outer sides of the fourth supporting frames (1209); a torsion spring (1214), wherein the torsion spring (1214) is connected between the connecting rod (1213) and the fourth supporting frame (1209); a second sliding rod (1210) is arranged on the upper side of the fourth supporting frame (1209) in a sliding mode, and the second sliding rod (1210) is connected with the connecting rod (1213) in a sliding mode; a pressing block (1211), wherein the pressing block (1211) is arranged on the inner side of the second sliding rod (1210) in a sliding manner; an eighth spring (1212), wherein the eighth spring (1212) is connected between the pressing block (1211) and the second sliding rod (1210); a third slide bar (1215), a third slide bar (1215) is arranged at the lower part of the fourth supporting frame (1209) in a sliding way, and the third slide bar (1215) is connected with a connecting rod (1213) in a sliding way; the baffle (1216) is connected with the inner side of the third sliding rod (1215).

7. The rapid production equipment of the high-end equipment internal filter as claimed in claim 6, characterized by further comprising a discharging assembly (13), wherein the discharging assembly (13) comprises:

a fifth support frame (1301), wherein one side of the first support frame (2) is fixedly connected with the fifth support frame (1301); the fifth supporting frame (1301) is connected with the material loading frame (1302) through bolts; one side of the fifth supporting frame (1301) is connected with a fourth supporting rod (1303); the fourth sliding rod (1304), the fourth supporting rod (1303) is provided with a fourth sliding rod (1304) in a sliding way; a ninth spring (1306), wherein the ninth spring (1306) is connected between the fourth sliding rod (1304) and the fourth supporting rod (1303); one side of the fourth sliding rod (1304) is connected with a material baffle plate (1305), and the material baffle plate (1305) is connected with the material loading frame (1302) in a sliding mode; one side of the fourth sliding rod (1304) is connected with the second guide block (1307); the lug (1308), the second guide block (1307) is provided with the lug (1308) in a sliding way; a tenth spring (1309), wherein the tenth spring (1309) is connected between the lug (1308) and the second guide block (1307); the upper part of the fifth supporting frame (1301) is fixedly connected with a second supporting block (1310); a fifth sliding bar (1311), the second supporting block (1310) is provided with the fifth sliding bar (1311) in a sliding manner; an eleventh spring (1312), wherein the eleventh spring (1312) is connected between the fifth sliding rod (1311) and the second supporting block (1310); a second push rod (1313), one side of the second connecting rod (1001) is connected with the second push rod (1313), and the second push rod (1313) is matched with the fifth sliding rod (1311).

8. A rapid production plant of high-end equipment internal filters, as claimed in claim 7, characterized by further comprising a collection assembly (14), the collection assembly (14) comprising:

one side of the bottom plate (1) is symmetrically connected with two third supporting blocks (1401); the placing table (1402) is arranged between the third supporting blocks (1401) in a sliding mode; twelfth springs (1403), and the twelfth springs (1403) are connected between the placing table (1402) and the third supporting block (1401); a collection frame (1404), wherein the collection frame (1404) is placed on the top of the placing table (1402); and the guide frame (1405) is connected between the third supporting blocks (1401) on one side through bolts.

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