CN112355273A - Feeding mechanism for 5G signal intensifier die-casting equipment - Google Patents

Abstract

The invention discloses a feeding mechanism for 5G signal intensifier die-casting equipment, which comprises a supporting rod, a fixed frame, a feeding pipe, a protective frame and a movable protective mechanism, wherein the upper end of the protective frame is provided with a reciprocating mechanism, a motor is electrified to work, and a movable rod is driven by a swinging rod to swing so that the movable rod drives a sliding plate to move towards the left end of a sliding rod, the sliding plate drives a sealing ring to be positioned at the bottom of a discharge pipe through the movable plate, and the bottom plate of the discharge pipe is sealed and protected, thereby achieving the advantages of preventing material from dripping and protecting the bottom of the discharge pipe; through having set up fixture in the protection frame upper end, press the button, make the button pass through the depression bar and drive the kicking block and promote first clamping bar and second clamping bar toward both sides, make first clamping bar and second clamping bar drive the clamping block and remove the fixed to the sealing ring, can take off the sealing ring, reached and to have carried out the advantage dismantled to the sealing ring fast.

Description

Feeding mechanism for 5G signal intensifier die-casting equipment

Technical Field

The invention relates to the related field of die casting of 5G signal boosters, in particular to a feeding mechanism for a die casting device of a 5G signal booster.

Background

The fifth generation mobile communication technology is the latest generation cellular mobile communication technology, and is also an extension following 4G, 3G and 2G systems, and in the application of 5G, a 5G signal enhancer is often used to add 5G signals.

When 5G signal booster production, often need use die-casting equipment to carry out the die-casting shaping, wherein reinforced mechanism is one of necessary device in the die-casting equipment, present reinforced mechanism for 5G signal booster die-casting equipment is general simple structure, and after reinforced mechanism row material, the bin outlet often has the material to drip to the die-casting die upper end, and the reinforced mechanism that is used for 5G signal booster die-casting equipment now is difficult to protect the discharge port sealed, leads to the material to drip.

Disclosure of Invention

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides a charging mechanism for a die-casting device of a 5G signal booster.

The feeding mechanism comprises a supporting rod, a fixing frame, a feeding pipe, a protection frame and a moving protection mechanism, wherein the supporting rod and the rear end of the fixing frame are fixed into a whole, a control panel is arranged at the right end of the fixing frame, a button is installed at the front end of the control panel, a power supply lead is fixed at the rear end of the supporting rod, the moving protection mechanism is installed and fixed inside the protection frame and comprises a sealing mechanism, a moving mechanism, a sealing ring and a reciprocating moving mechanism, the sealing mechanism is installed and fixed at the lower side of the front end of the protection frame, the reciprocating moving mechanism is fixedly connected with the upper end inside the protection frame, the reciprocating moving mechanism is fixed with the right lower end of the moving mechanism, and the sealing ring is embedded in the upper end of the moving mechanism.

Preferably, the inside embedding of fixed frame is installed and is expected the frame with feeding, it is linked together with the inlet pipe bottom to expect the frame with feeding, it is linked together with the delivery pipe top to expect the frame with feeding, delivery pipe and protection frame top fixed connection.

Preferably, the sealing mechanism comprises a first sealing plate, a rotating block, a torsion spring and a second sealing plate, the first sealing plate and the front end of the rotating block are fixed into a whole, the rotating block is in running fit with the left front end of the protection frame through a hinge shaft, the torsion spring is arranged in the middle of the rotating block, and the second sealing plate is installed at the right front end of the protection frame.

Preferably, the moving mechanism comprises a moving plate, an installation frame, a clamping mechanism, a sliding block and a pressure spring, the sliding block is in sliding fit with the inner right lower end of the protection frame, the sliding block is elastically connected with the inner right lower end of the protection frame through the pressure spring, the moving plate and the upper end of the sliding block are fixed into a whole, the moving plate is fixedly connected with the upper end of the installation frame, and the clamping mechanism is arranged inside the installation frame.

Preferably, the clamping mechanism comprises a guide rod, a moving block, a clamping block, a buffer spring, a first clamping rod, a pressing mechanism and a second clamping rod, the guide rod is fixedly connected with the left end inside the installation frame, the moving block is in sliding fit with the right lower end of the guide rod, the moving block is fixed with the front end of the clamping block into a whole, the moving block is elastically connected with the front end inside the installation frame through the buffer spring, the moving block is welded and fixed with the lower end of the first clamping rod, the pressing mechanism is embedded into the right end of the installation frame, and the second clamping rod is in contact with the left upper end of the pressing mechanism.

Preferably, the pressing mechanism comprises a top block, a pressing rod, a reset spring and a pressing button, the pressing rod is embedded into the middle of the right end of the mounting frame in a clearance fit mode, the top block is welded and fixed with the left end of the pressing rod, the reset spring is embedded and sleeved at the right end of the pressing rod, and the pressing rod is fixedly connected with the left end of the pressing button.

Preferably, the reciprocating mechanism comprises a connecting plate, a receiving plate, a motor, a swing rod, a positioning shaft, a movable rod, a sliding plate and a sliding rod, the connecting plate is connected with the inner portion of the protective frame through bolts, the right end of the connecting plate and the right end of the receiving plate are fixed into a whole, the receiving plate is locked and fixed with the front end of the motor through screws, the output end of the motor is rotatably connected with the swing rod, one end, away from the motor, of the swing rod is rotatably connected with the movable rod through the positioning shaft, the movable rod is rotatably matched with the upper side of the front end of the sliding plate through a hinge shaft, the sliding plate slides along the upper end of the sliding.

Preferably, the number of the sliding rods is two, and the upper ends of the sliding rods are smooth.

Preferably, the first clamping rod and the second clamping rod are the same in size, and the upper ends of the first clamping rod and the second clamping rod are provided with a moving block, a clamping block and a buffer spring.

Preferably, the first clamping rod and the second clamping rod are both in a cuboid shape, inclined slopes are arranged at the upper ends of the first clamping rod and the second clamping rod, and the slopes at the upper ends of the first clamping rod and the second clamping rod are in contact with the upper side and the lower side of the ejector block.

Preferably, the buffer spring is made of alloy steel and has excellent elastic potential energy.

Preferably, the guide rod is made of carbon steel and has high hardness.

The invention has the following advantages: the invention provides a charging mechanism for a 5G signal intensifier die-casting device through improvement, which has the following improvement compared with the same type of device:

the method has the advantages that: according to the feeding mechanism for the 5G signal intensifier die-casting equipment, the reciprocating moving mechanism is arranged at the upper end of the protective frame, the motor is electrified to work, the movable rod is driven by the oscillating rod to oscillate, the movable rod drives the sliding plate to move towards the left end of the sliding rod, the sliding plate drives the sealing ring to be positioned at the bottom of the discharge pipe through the movable plate, the bottom plate of the discharge pipe is sealed and protected, and the advantages that materials can be prevented from dripping and the bottom of the discharge pipe can be protected are achieved.

The method has the advantages that: according to the feeding mechanism for the 5G signal intensifier die-casting equipment, the sealing mechanism is arranged at the upper end of the protection frame, when the moving plate moves, the first sealing plate and the second sealing plate can move towards two sides, so that the sealing of the front end of the protection frame is relieved by the first sealing plate and the second sealing plate, when the sealing ring is looped back, the torsion spring drives the first sealing plate and the second sealing plate to seal the protection frame through elastic potential energy for restoring deformation, the dust infection at the upper end of the sealing ring is prevented, and the advantage that the sealing ring can be recovered and sealed is achieved.

The method has the advantages that: according to the feeding mechanism for the 5G signal intensifier die-casting equipment, the clamping mechanism is arranged at the upper end of the protective frame, the press button is pressed down, the press button drives the ejector block to push the first clamping rod and the second clamping rod to the two sides through the press rod, the first clamping rod and the second clamping rod drive the clamping blocks to release the fixation of the sealing ring, the sealing ring can be taken down, and the advantage that the sealing ring can be rapidly disassembled is achieved.

The advantages are that: according to the feeding mechanism for the 5G signal enhancer die-casting equipment, the moving mechanism is arranged at the upper end of the protection frame, and when the moving plate moves, the right lower end of the protection frame can move through the sliding block to guide the moving plate, so that the advantage that the moving plate can stably move is achieved.

Drawings

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

FIG. 2 is a schematic side view of the movement protection mechanism of the present invention;

FIG. 3 is a schematic cross-sectional view of the moving protection mechanism of the present invention;

FIG. 4 is a schematic cross-sectional view of the sealing mechanism of the present invention;

FIG. 5 is a schematic sectional view of the moving mechanism of the present invention;

FIG. 6 is a schematic cross-sectional view of a clamping mechanism of the present invention;

FIG. 7 is a schematic cross-sectional view of the pressing mechanism of the present invention;

FIG. 8 is a side view of the reciprocating mechanism of the present invention.

Wherein: support rod-1, fixed frame-2, control panel-3, button-4, power wire-5, feeding frame-6, feeding pipe-7, discharging pipe-8, protection frame-9, moving protection mechanism-10, sealing mechanism-101, moving mechanism-102, sealing ring-103, reciprocating mechanism-104, first sealing plate-1011, rotating block-1012, torsion spring-1013, second sealing plate-1014, moving plate-1021, mounting frame-1022, clamping mechanism-1023, slide block-1024, pressure spring-1025, guide rod-10231, moving block-10232, clamping block-10233, buffer spring-10234, first clamping rod-10235, pressing mechanism-10236, second clamping rod-10237, top block-102361, top block-10236, power wire-1, feeding frame-6, feeding pipe-7, discharging pipe-8, protection frame-9, moving protection mechanism-10, sealing mechanism-101, moving mechanism-102, A compression bar-102362, a return spring-102363, a press button-102364, a connecting plate-1041, a bearing plate-1042, a motor-1043, a swinging rod-1044, a positioning shaft-1045, a movable rod-1046, a sliding plate-1047 and a sliding rod-1048.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 8, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. 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.

The first embodiment is as follows:

referring to fig. 1, the invention provides a feeding mechanism for a 5G signal intensifier die-casting device through improvement, which comprises a support rod 1, a fixed frame 2, a feeding frame 6, a feeding pipe 7, a protection frame 9 and a movable protection mechanism 10, wherein the support rod 1 and the rear end of the fixed frame 2 are fixed into a whole, the right end of the fixed frame 2 is provided with a control panel 3, the front end of the control panel 3 is provided with a button 4, the rear end of the support rod 1 is fixed with a power supply lead 5, the movable protection mechanism 10 is installed and fixed inside the protection frame 9, the feeding frame 6 is embedded and installed inside the fixed frame 2, the feeding frame 6 is communicated with the bottom of the feeding pipe 7, the feeding frame 6 is communicated with the top of a discharge pipe 8.

Referring to fig. 2 and 3, the invention provides a feeding mechanism for a die casting device of a 5G signal booster by improvement, wherein the movable protection mechanism 10 includes a sealing mechanism 101, a moving mechanism 102, a sealing ring 103 and a reciprocating mechanism 104, the sealing mechanism 101 is installed and fixed on the lower side of the front end of the protection frame 9, the reciprocating mechanism 104 is fixedly connected with the upper end inside the protection frame 9, the reciprocating mechanism 104 is fixed with the right lower end of the moving mechanism 102, and the sealing ring 103 is embedded in the upper end of the moving mechanism 102.

Referring to fig. 4, the present invention provides a feeding mechanism for a die casting device of a 5G signal booster by improving, wherein the sealing mechanism 101 includes a first sealing plate 1011, a rotating block 1012, a torsion spring 1013 and a second sealing plate 1014, the first sealing plate 1011 is fixed integrally with the front end of the rotating block 1012, the rotating block 1012 is rotatably engaged with the left front end of the protection frame 9 through a hinge shaft, the torsion spring 1013 is disposed in the middle of the rotating block 1012 to facilitate the resetting of the rotating block 1012, and the second sealing plate 1014 is mounted on the right front end of the protection frame 9.

Referring to fig. 5, the present invention provides a feeding mechanism for a die casting device of a 5G signal enhancer by improvement, wherein the moving mechanism 102 includes a moving plate 1021, an installation frame 1022, a clamping mechanism 1023, a slider 1024 and a compression spring 1025, the slider 1024 is in sliding fit with the right lower end inside the protection frame 9, so as to facilitate the smooth movement of the slider 1024, the slider 1024 is elastically connected with the right lower end inside the protection frame 9 through the compression spring 1025, the moving plate 1021 and the upper end of the slider 1024 are fixed into a whole, the moving plate 1021 and the upper end of the installation frame 1022 are fixedly connected, and the clamping mechanism 1023 is arranged inside the installation frame 1022.

Referring to fig. 6, the present invention provides, by way of improvement, a feeding mechanism for a 5G signal booster die-casting device, where the clamping mechanism 1023 includes a guide rod 10231, a moving block 10232, a clamping block 10233, a buffer spring 10234, a first clamping rod 10235, a pressing mechanism 10236 and a second clamping rod 10237, the guide rod 10231 is fixedly connected to the left end inside the installation frame 1022, the moving block 10232 is in sliding fit with the right lower end of the guide rod 10231, the moving block 10232 is fixed with the front end of the clamping block 10233 into a whole, the moving block 10232 is elastically connected with the front end inside the installation frame 10234 through the buffer spring 10234, the moving block 10232 is welded and fixed to the lower end of the first clamping rod 10235, the pressing mechanism 10236 is embedded into the right end of the installation frame 1022, the second clamping rod 10237 is in contact with the left upper end of the pressing mechanism 10236, the first clamping rod 10235 and the second clamping rod 10237 are the same size, and the upper ends of the first clamping rod 10235 and the second clamping rod 10237 are provided with the moving block 1023, first clamping bar 10235 and second clamping bar 10237 all are the cuboid form to first clamping bar 10235 and second clamping bar 10237 upper end all are provided with the slope surface of slope, and first clamping bar 10235 and second clamping bar 10237 upper end are domatic and contact with the upper and lower both sides of kicking block 102361, do benefit to and drive first clamping bar 10235 and second clamping bar 10237 effect of moving toward both sides, buffer spring 10234 is the alloy steel material, elastic potential energy is good, guide bar 10231 is the carbon steel material, the hardness is high.

Referring to fig. 7, the present invention provides a feeding mechanism for a 5G signal booster die casting device by improvement, wherein the pressing mechanism 10236 includes a top block 102361, a pressing rod 102362, a return spring 102363 and a pressing button 102364, the pressing rod 102362 is embedded in the middle of the right end of the mounting frame 1022 in a clearance fit manner, the top block 102361 and the pressing rod 102362 are welded and fixed at the left end, the return spring 102363 is embedded at the right end of the pressing rod 102362, and the pressing rod 102362 and the pressing button 102364 are fixedly connected at the left end, which is favorable for mounting and fixing the pressing button 102364.

Referring to fig. 8, the present invention provides a feeding mechanism for a die casting device of a 5G signal booster by improving, a reciprocating mechanism 104 includes a connecting plate 1041, a receiving plate 1042, a motor 1043, a swinging rod 1044, a positioning shaft 1045, a movable rod 1046, a sliding plate 1047 and a sliding rod 1048, the connecting plate 1041 is connected with an internal bolt of a protective frame 9, the connecting plate 1041 is fixed with the right end of the receiving plate 1042 into a whole, the receiving plate 1042 is locked with the front end of the motor 1043 by a screw, the output end of the motor 1043 is rotatably connected with the swinging rod 1044, one end of the swinging rod 1044 remote from the motor 1043 is rotatably connected with the movable rod 1046 by the positioning shaft 1045, the movable rod 1046 is rotatably matched with the upper side of the front end of the sliding plate 1047 by a hinge shaft, the sliding plate 1047 slides along the upper end of the sliding rod 1048, which is beneficial to play a role of stably moving the sliding plate 1047, the, and the upper ends of the slide bars 1048 are all smooth.

Example two:

the invention provides a feeding mechanism for a 5G signal intensifier die-casting device through improvement, a top block 102361 is in a conical shape, the top block 102361 is embedded in the inner sides of a first clamping bar 10235 and a second clamping bar 10237, the first clamping bar 10235 and the second clamping bar 10237 are favorably pushed towards two sides, a sealing ring 103 is embedded in a moving plate 1021, the sealing ring 103 is favorably installed and fixed, a first sealing plate 1011 and a second sealing plate 1014 are identical in size, and a rotating block 1012 and a torsion spring 1013 are arranged at the upper ends of the first sealing plate 1011 and the second sealing plate 1014.

The invention provides a feeding mechanism for a die-casting device of a 5G signal enhancer by improvement, which has the following working principle;

firstly, before use, a feeding mechanism for a 5G signal enhancer die-casting device is horizontally placed, and then the mechanism is installed on a proper position at the upper end of the die-casting device;

secondly, when the feeding mechanism is used, an external power supply is connected through a power supply lead 5 to provide power for the mechanism, and then a proper amount of materials are added into the feeding frame 6 through the feeding pipe 7;

thirdly, the materials are discharged through the discharge pipe 8 and discharged into a die-casting die, when the feeding is finished, the materials are not prevented from dropping, the button 4 at the upper end of the control panel 3 is pressed, the reciprocating mechanism 104 is started, the motor 1043 is electrified to work, the movable rod 1046 is driven to swing through the swinging rod 1044, the movable rod 1046 drives the sliding plate 1047 to move towards the left end of the sliding rod 1048, the sliding plate 1047 drives the sealing ring 103 to be positioned at the bottom of the discharge pipe 8 through the moving plate 1021, the bottom plate of the discharge pipe 8 is sealed and protected, the materials can be prevented from dropping and the bottom of the discharge pipe 8 can be protected, and when the moving plate 1021 moves, the sliding block 1024 moves at the lower right end of the protection frame 9, the moving plate 1021 is guided, and the moving plate 1021 can move stably;

fourthly, when the moving plate 1021 moves, the first sealing plate 1011 and the second sealing plate 1014 move towards both sides, so that the sealing of the front end of the protection frame 9 by the first sealing plate 1011 and the second sealing plate 1014 is released, and when the sealing ring 103 is retracted, the torsion spring 1013 drives the first sealing plate 1011 and the second sealing plate 1014 to seal the protection frame 9 by the elastic potential energy of the restored deformation, thereby preventing the dust on the upper end of the sealing ring 103 from invading;

fifthly, and through having set up fixture 1023 in protection frame 9 upper end, press button 102364, make button 102364 drive kicking block 102361 through depression bar 102362 and push away first clamping bar 10235 and second clamping bar 10237 toward both sides with first clamping bar 10235 and second clamping bar 10237, make first clamping bar 10235 and second clamping bar 10237 drive clamping block 10233 and remove the fixed to sealing ring 103, can take off sealing ring 103, conveniently clear up the inside material of sealing ring 103.

The invention provides a feeding mechanism for a 5G signal intensifier die-casting device through improvement, a reciprocating mechanism 104 is arranged at the upper end of a protective frame 9, a motor 1043 is electrified to work, a movable rod 1046 is driven to swing through a swinging rod 1044, the movable rod 1046 drives a sliding plate 1047 to move towards the left end of a sliding rod 1048, the sliding plate 1047 drives a sealing ring 103 to be positioned at the bottom of a discharge pipe 8 through a moving plate 1021, the bottom plate of the discharge pipe 8 is sealed and protected, and the advantages of preventing material from dripping and protecting the bottom of the discharge pipe 8 are achieved; by arranging the sealing mechanism 101 at the upper end of the protection frame 9, when the moving plate 1021 moves, the first sealing plate 1011 and the second sealing plate 1014 can move towards two sides, so that the sealing of the front end of the protection frame 9 is released by the first sealing plate 1011 and the second sealing plate 1014, when the sealing ring 103 is recovered, the torsion spring 1013 drives the first sealing plate 1011 and the second sealing plate 1014 to seal the protection frame 9 through elastic potential energy of recovery deformation, so as to prevent dust infection at the upper end of the sealing ring 103, and achieve the advantage of being capable of recovering and sealing the sealing ring 103; the clamping mechanism 1023 is arranged at the upper end of the protective frame 9, the press button 102364 is pressed down, the press button 102364 drives the ejector block 102361 to push the first clamping bar 10235 and the second clamping bar 10237 to two sides through the pressure bar 102362, the first clamping bar 10235 and the second clamping bar 10237 drive the clamping block 10233 to remove the fixation of the sealing ring 103, the sealing ring 103 can be taken down, and the advantage that the sealing ring 103 can be rapidly disassembled is achieved; by providing the moving mechanism 102 at the upper end of the protection frame 9, when the moving plate 1021 moves, the slider 1024 moves at the lower right end of the protection frame 9 to guide the moving plate 1021, thereby achieving the advantage of enabling the moving plate 1021 to move smoothly.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A feeding mechanism for 5G signal intensifier die-casting equipment comprises a supporting rod (1), a fixing frame (2), a feeding frame (6), a feeding pipe (7) and a protection frame (9), wherein the supporting rod (1) and the rear end of the fixing frame (2) are fixed into a whole, a control panel (3) is arranged at the right end of the fixing frame (2), a button (4) is installed at the front end of the control panel (3), and a power supply lead (5) is fixed at the rear end of the supporting rod (1);

the method is characterized in that: still including removing protection mechanism (10), it is fixed in inside protecting frame (9) to remove protection mechanism (10) installation, it includes sealing mechanism (101), moving mechanism (102), sealing ring (103) and reciprocating motion mechanism (104) to remove protection mechanism (10), sealing mechanism (101) installation is fixed in protecting frame (9) front end downside, reciprocating motion mechanism (104) and the inside upper end fixed connection of protecting frame (9), reciprocating motion mechanism (104) are fixed mutually with moving mechanism (102) right side lower extreme, moving mechanism (102) upper end embedding has sealing ring (103).

2. The charging mechanism for the die-casting device of the 5G signal enhancer as claimed in claim 1, wherein: the utility model discloses a material feeding device, including fixed frame (2), feeding frame (6) and inlet pipe (7) bottom are linked together, feeding frame (6) are linked together with delivery pipe (8) top, delivery pipe (8) and protective frame (9) top fixed connection.

3. The charging mechanism for the die-casting device of the 5G signal enhancer as claimed in claim 1, wherein: the sealing mechanism (101) comprises a first sealing plate (1011), a rotating block (1012), a torsion spring (1013) and a second sealing plate (1014), wherein the first sealing plate (1011) and the front end of the rotating block (1012) are fixed into a whole, the rotating block (1012) is in rotating fit with the left front end of the protective frame (9) through a hinge shaft, the torsion spring (1013) is arranged in the middle of the rotating block (1012), and the second sealing plate (1014) is installed at the right front end of the protective frame (9).

4. The charging mechanism for the die-casting device of the 5G signal enhancer as claimed in claim 1, wherein: moving mechanism (102) are including moving plate (1021), installing frame (1022), fixture (1023), slider (1024) and pressure spring (1025), slider (1024) and inside right lower extreme sliding fit of protecting frame (9), slider (1024) are through pressure spring (1025) and the inside right lower extreme elastic connection of protecting frame (9), moving plate (1021) and slider (1024) upper end are fixed as an organic whole, moving plate (1021) and installing frame (1022) upper end fixed connection, installing frame (1022) inside is provided with fixture (1023).

5. The charging mechanism for the die-casting device of the 5G signal enhancer as claimed in claim 4, wherein: fixture (1023) include guide bar (10231), movable block (10232), clamp splice (10233), buffer spring (10234), first clamp splice (10235), press movable mechanism (10236) and second clamp splice (10237), guide bar (10231) and the inside left end fixed connection of installing frame (1022), movable block (10232) and guide bar (10231) right side lower extreme sliding fit, movable block (10232) and clamp splice (10233) front end are fixed as an organic whole, movable block (10232) passes through buffer spring (10234) and the inside front end elastic connection of installing frame (1022), movable block (10232) and first clamp splice (10235) lower extreme welded fastening, press movable mechanism (10236) to imbed in installing frame (1022) right-hand member, second clamp splice (10237) and press movable mechanism (10236) left end to contact.

6. The charging mechanism for the die-casting device of the 5G signal enhancer as claimed in claim 5, wherein: pressing mechanism (10236) including kicking block (102361), depression bar (102362), reset spring (102363) and pressure button (102364), depression bar (102362) adopt clearance fit's mode to imbed in installing frame (1022) right-hand member middle part, kicking block (102361) and depression bar (102362) left end welded fastening, depression bar (102362) right-hand member nestification has reset spring (102363), depression bar (102362) and pressure button (102364) left end fixed connection.

7. The charging mechanism for the die-casting device of the 5G signal enhancer as claimed in claim 1, wherein: the reciprocating mechanism (104) comprises a connecting plate (1041), a bearing plate (1042), a motor (1043), a swinging rod (1044), a positioning shaft (1045), a movable rod (1046), a sliding plate (1047) and a sliding rod (1048), the connecting plate (1041) is connected with the inner part of the protective frame (9) through bolts, the connecting plate (1041) and the right end of the bearing plate (1042) are fixed into a whole, the bearing plate (1042) is locked and fixed with the front end of the motor (1043) through a screw, the output end of the motor (1043) is rotationally connected with a swinging rod (1044), one end of the swinging rod (1044) far away from the motor (1043) is rotationally connected with a movable rod (1046) through a positioning shaft (1045), the movable rod (1046) is in rotating fit with the upper side of the front end of the sliding plate (1047) through a hinge shaft, the sliding plate (1047) slides along the upper end of the sliding rod (1048), and the motor (1043) is electrically connected with the control panel (3).

8. The charging mechanism for the die-casting device of the 5G signal enhancer as claimed in claim 7, wherein: the number of the slide bars (1048) is two, and the upper ends of the slide bars (1048) are smooth.

9. The charging mechanism for the die-casting device of the 5G signal enhancer as claimed in claim 5, wherein: the first clamping bar (10235) and the second clamping bar (10237) are the same in size, and a moving block (10232), a clamping block (10233) and a buffer spring (10234) are arranged at the upper ends of the first clamping bar (10235) and the second clamping bar (10237).

10. The charging mechanism for the die-casting device of the 5G signal enhancer as claimed in claim 5, wherein: first clamping bar (10235) and second clamping bar (10237) all are the cuboid form to first clamping bar (10235) and second clamping bar (10237) upper end all is provided with the slope face of slope, and first clamping bar (10235) and second clamping bar (10237) upper end is domatic and kicking block (102361) upper and lower both sides contact.

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