CN109665154B - Production device for fire-fighting and fire-proof isolation sandbags - Google Patents

Abstract

The invention relates to the field of fire fighting, in particular to a production device of a fire-fighting and fire-proof isolation sandbag, which can screen flame-retardant balls added into the sandbag; the flame-retardant balls which do not meet the specification can be recycled; the automatic filling device can realize automatic filling of the fireproof isolation sandbags, is provided with a vibrating plate and a bayonet, wherein the vibrating plate can prevent sand from splashing in the falling process of the sand, and the bayonet can clamp and fix the sandbags to prevent the sandbags from falling off in the filling process; the conveying belt clamping rod can be conveniently driven by the pushing rod I and the pushing rod II through the contact of the pushing rod I and the pushing rod II and the conveying belt clamping rod; the limiting terminal can be conveniently arranged in the side wall sliding cavity, and the middle end sleeve spring is sleeved on the pressing rod.

Description

Production device for fire-fighting and fire-proof isolation sandbags

Technical Field

The invention relates to the field of fire fighting, in particular to a production device of a fire-fighting and fire-proof isolation sandbag.

Background

For example, a sandbag with patent number CN201521099973.1 comprises a first sandbag, a second sandbag, a lantern ring, a lock catch, a hanging ring and a hook, wherein the hanging ring is arranged on one side of the first sandbag, and the hook is arranged on the other side of the first sandbag; the lower end of the first sand bag is provided with a first wide cloth belt, the tail end of the first wide cloth belt is provided with a first hasp, the lower end of the second sand bag is provided with a second wide cloth belt, the tail end of the second wide cloth belt is provided with a second hasp, the upper end of the first sand bag is provided with a first narrow cloth belt, the upper end of the second sand bag is provided with a second narrow cloth belt, and the tail ends of the first narrow cloth belt and the second narrow cloth belt are provided with lantern rings; the hooks and the hanging rings are arranged on the two sides of the sandbag, the sandbags can be sequentially connected together through the hooks and the hanging rings, and the number of the sandbags can be increased or decreased according to different exercises so as to meet different exercise requirements; the sandbag is provided with the narrow cloth belt, and the tail end of the narrow cloth belt is provided with the lantern ring, but the invention has the defects that the automatic filling of the sandbag cannot be realized, the manual filling is needed during production, and the production efficiency is lower.

Disclosure of Invention

The invention aims to provide a production device of a fire-fighting and fire-proof isolation sandbag, which can screen flame-retardant balls added into the sandbag; the flame-retardant balls which do not meet the specification can be recycled; can realize the automatic filling to the sand bag is kept apart in the fire prevention to be provided with vibration board and bayonet socket, the vibration board can prevent at the in-process of sand whereabouts, the splashing of sand, but the fixed sand bag of bayonet socket chucking prevents at the filling in-process, the droing of sand bag.

The purpose of the invention is realized by the following technical scheme:

a production device of fire-fighting fire-proof isolation sandbags comprises a feed bin, an input motor, an input synchronous belt, an input crank, an input swing rod waist groove, a swing rod connecting rod, a conveyer belt assembly, an inner end push rod assembly, a support, a vibrating plate, a bayonet and a right end manual push rod, the feeding bin comprises a feeding bin body, a sorting push rod, a feeding bin outlet, a middle-end hinged column, a feeding bin inner cavity, a side wall hinged column, a left-end hinged plate, a frame, a notch, a sorting assembly, a feeding bin side wall hinged rod, a left-end hollow cavity and a middle-end hollow cavity, the feeding bin side wall hinged rod is fixedly connected with the feeding bin body, the sorting push rod is hinged with the feeding bin body, a spring is arranged between the feeding bin body and the sorting push rod, the spring is in a stretching state, the feeding bin outlet is arranged at the right end of the feeding bin body, and the middle-end hinged column and the side-wall hinged column are fixedly connected with the feeding bin body; the feeding bin inner cavity is communicated with the feeding bin outlet, the upper end of the side wall hinge post is arranged in the feeding bin inner cavity, the left end hinge plate is fixedly connected to the middle end of the feeding bin body, the rack is fixedly connected with the feeding bin body, the notch is formed in the right end of the feeding bin body, the sorting push rod is arranged in the notch, the left end hollow-out cavity and the middle end hollow-out cavity are both arranged on the feeding bin body, and the middle end hinge post is arranged in the left end hollow-out cavity; the sorting assembly comprises a sorting side wall, an inlet partition plate, a left side wall, an inlet partition plate push rod, a compression spring, a storage port and a side wall inner cavity, wherein the inlet partition plate is hinged with the sorting side wall, the left side wall is arranged at the left end of the sorting side wall, the side wall inner cavity is arranged on the left side wall, the compression spring is inserted in the side wall inner cavity, the inlet partition plate push rod is in sliding connection with the side wall inner cavity, the compression spring is arranged at the lower end of the inlet partition plate push rod, the upper end of the inlet partition plate push rod is hinged with the inlet partition plate, the compression spring is in a natural state, and; the sorting side wall is arranged in the middle hollow cavity.

The conveyer belt assembly includes conveyer belt body, a plurality of conveyer belt kellies, roller I, support one, hold-in range I, roller II, left side support, hold-in range II and the smooth chamber of lateral wall, and a plurality of conveyer belt kellies equipartitions are on the inner wall of conveyer belt body, and roller I rotates with a support to be connected, and hold-in range I is connected between roller II and inner push rod assembly, and roller II rotates with the left side support to be connected, and hold-in range II is connected between two inner push rod assemblies, and the smooth chamber of lateral wall sets up on the left side support.

The inner end push rod assembly comprises two epicyclic wheels, an arc groove, two driving rods, two middle connecting rods, two sliding support rods, two sliding rod loop rod hinge rods, two middle end sliders, an upper side push rod, a push rod I and a push rod II, wherein the arc groove is arranged on the epicyclic wheels, the lower ends of the two driving rods are respectively hinged with the two middle connecting rods, the two middle connecting rods are respectively hinged at the left ends of the two sliding support rods, the upper ends of the two sliding support rods are respectively hinged at the left end and the right end of the upper side push rod, the two sliding rod loop rods are respectively connected with the two sliding support rods in a sliding way, one ends of the two sliding rod loop rod hinge rods are respectively hinged on the two sliding rod loop rods, the other ends of the two sliding rod loop rod hinge rods are respectively hinged on the two middle end sliders, and the two middle end sliders are, two actuating levers pass through the articulated shaft cooperation to be connected in two arc walls, and catch bar I and catch bar II all set up on the upside push rod, and two all runners all rotate to be connected on going into the feed bin body, catch bar I and catch bar II contact with a plurality of transportation area kellies respectively.

The support comprises a pushing clamping rod, a support rod push spring, a side wall clamping rod, a pressing rod, a limiting terminal, a support middle rod, an upper end waist groove, a middle end sleeve spring, a right end clamping rod and a lower end waist groove, the support rod push spring is sleeved on the support rod, the support rod is arranged at the inner end of the left support, the pressing rod is connected with the limiting terminal in a sliding mode, the limiting terminal is arranged in the side wall sliding cavity, the middle end sleeve spring is sleeved on the pressing rod, the middle end sleeve spring is arranged between the pressing rod and the left support, the upper end waist groove and the lower end waist groove are both arranged on the left support, the pressing rod is hinged and connected with the upper end waist groove through a hinge shaft, the right end clamping rod is hinged and connected with the lower end waist groove through a hinge shaft, the right end of the right end clamping rod is connected with the side wall clamping.

The vibrating plate comprises a vibrating wall, two side wall connecting rods, two hinge columns, two side wall rocking rods, two rocking rod waist grooves, an inner end hollow cavity, a plurality of left end side wall clamping holes and two elastic push rods, the two side wall connecting rods are hinged with the vibrating wall, the two hinge columns are respectively connected with the two side wall connecting rods in a sliding mode, the two side wall rocking rods are respectively connected with the two hinge columns in a sliding mode, the two side wall rocking rods are respectively hinged with the vibrating wall, the two rocking rod waist grooves are respectively arranged on the two side wall rocking rods, the inner end hollow cavity is arranged in the vibrating wall, the left end side wall clamping holes are evenly formed in the outer wall of the vibrating wall, the left end side wall clamping holes are respectively communicated with the inner end hollow cavity, each elastic push rod comprises an upper side elastic push rod, an upper side push spring, a lower side push spring and a lower side elastic push rod, the inner end of the upper side elastic push rod and the lower side, downside elasticity push rod and upside elasticity push rod sliding connection, downside push spring cup joints on downside elasticity push rod, and the upside pushes away the spring setting in the upper end of downside elasticity push rod, and the upper end of upside elasticity push rod is articulated to be connected on the inner wall of vibration wall, and the lower extreme of downside elasticity push rod is articulated to be connected on the lateral wall rocker, and the vibration wall setting is at the right-hand member of transportation area assembly.

The bayonet comprises two slide bars, two slide bar casing springs, a left-end hollow cavity, a right-end hollow cavity, a left-side wall sliding groove, an upper-side communicating groove, a middle-end hollow cavity of the bayonet, a plurality of pressing grooves, a conical sleeve and an upper-side pressing pipe, wherein the two slide bar casing springs are respectively sleeved on the two slide bars, the two slide bars are both fixedly connected on the upper-side pressing pipe, the upper-side pressing pipe is sleeved on the conical sleeve, the pressing grooves are uniformly arranged on the inner wall of the upper-side pressing pipe, the left-end hollow cavity of the bayonet is arranged at the left end of the conical sleeve, the right-end hollow cavity is arranged at the right end of the conical sleeve, the upper-side communicating groove and the left-side wall sliding groove are both arranged at the left side of the outer wall of the conical sleeve, the upper-side communicating groove is communicated with the left-side wall sliding groove, the middle-end hollow cavity of the bayonet is arranged at, two slide bars and tapered sleeve sliding connection, two slide bar set springs all set up between side pressure pipe and tapered sleeve.

The right-hand manual push rod comprises a manual push rod body, a manual push rod sleeve spring and a manual push rod boss, the conical sleeve is sleeved on the manual push rod body, the manual push rod boss is fixedly connected to the manual push rod body, the left end and the right end of the manual push rod body are respectively connected to the side wall of the left side wall sliding groove and the side wall of the left side wall clamping hole in a matched mode, and the manual push rod sleeve spring is arranged at the left end of the manual push rod boss.

Input motor and pan feeding storehouse fixed connection, input hold-in range is connected between input motor and input crank, input crank rotates to be connected on going into the feed bin, input pendulum rod is connected with input crank is articulated, input pendulum rod is connected with pan feeding storehouse cooperation, input pendulum rod waist groove sets up on input pendulum rod, the upper and lower both ends of pendulum rod connecting rod articulate respectively and connect on going into feed bin and input pendulum rod, the transportation area assembly sets up the lower extreme at going into the feed bin, inner push rod assembly rotates to be connected on going into the feed bin, support fixed connection is at the lower extreme of going into the feed bin, the manual push rod sliding connection of right-hand member is on the bayonet socket, bayonet socket sliding connection is at the lower extreme of vibration board, vibration board.

The production device of the fire-fighting and fire-proof isolation sandbag has the beneficial effects that:

according to the production device of the fire-fighting and fire-preventing isolation sandbag, the two epicyclic wheels can be conveniently and rotatably connected to the feeding bin body; the conveying belt clamping rods can be conveniently driven by the pushing rods I and II through the contact of the pushing rods I and II and the conveying belt clamping rods; the limiting terminal can be conveniently arranged in the side wall sliding cavity, and the middle end sleeve spring is sleeved on the pressing rod; the middle-end sleeve spring can be conveniently arranged between the pressing rod and the left side support, and the support rod is conveniently driven by the conveying belt assembly through the connection of the middle-end sleeve spring and the left side support through parts between the limiting terminal and the side wall sliding cavity; the two sliding rods can be conveniently and fixedly connected with the upper side pressure pipe; the two sliding rods can be conveniently connected with the conical sleeve in a sliding manner; the two sliding rod sleeve springs can be conveniently arranged between the upper side pressure pipe and the conical sleeve; the upper side pressure pipe is conveniently driven by the slide bars through the fixed connection of the two slide bars and the upper side pressure pipe;

drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view showing the overall structure of a fire-fighting fire-proof isolation sandbag production device according to the present invention;

FIG. 2 is a first schematic view of a feeding bin according to the present invention;

FIG. 3 is a schematic view of a feeding bin structure of the present invention;

FIG. 4 is a schematic view of a third embodiment of the present invention;

fig. 5 is a first schematic view of the conveyor belt assembly of the present invention;

fig. 6 is a second schematic structural view of the conveyor belt assembly of the present invention;

FIG. 7 is a schematic view of the stent structure of the present invention;

FIG. 8 is a schematic view of the inner end putter assembly construction of the present invention;

FIG. 9 is a schematic view of a portion of the structure of the present invention;

FIG. 10 is a first schematic diagram of the structure of the vibrating plate according to the present invention;

FIG. 11 is a second schematic diagram of the structure of the vibrating plate according to the present invention;

FIG. 12 is a schematic view of a bayonet configuration of the present invention;

fig. 13 is a structural schematic view of the right hand push rod of the present invention.

In the figure: feeding into a storage bin 1; a feeding bin body 1-1; a sorting push rod 1-2; an inlet bin outlet 1-3; a middle hinged column 1-4; 1-5 parts of an inner cavity of the feeding bin; side wall hinge columns 1-6; a left end hinged plate 1-7; 1-8 of a frame; 1-9 of a gap; 1-10 of sorting assembly; sorting side walls 1-10-1; an inlet partition plate 1-10-2; 1-10-3 of the left side wall; an inlet clapboard push rod 1-10-4; 1-10-5 of a compression spring; 1-10-7 of a storage port; 1-10-9 parts of inner cavity of the side wall; the side wall of the feeding bin is hinged with rods 1-11; 1-12 parts of a hollow cavity at the left end; a middle hollow cavity 1-13; an input motor 4; inputting a synchronous belt 5; an input crank 6; inputting a swing rod 7; inputting a swing rod waist groove 8; a swing link connecting rod 9; a conveyor belt assembly 10; a conveyor belt body 10-1; a conveyor belt clamping rod 10-2; 10-3 parts of a roller; 10-4 parts of a first bracket; 10-5 parts of a synchronous belt I; 10-6 parts of a roller II; 10-7 of a left bracket; 10-8 parts of a synchronous belt II; side wall slide cavity 10-9; an inner end push rod assembly 11; the epicyclic 11-1; an arc-shaped groove 11-2; a drive rod 11-3; the middle connecting rod 11-4; a sliding support rod 11-5; a slide bar loop bar 11-6; a slide bar sleeve rod hinge rod 11-7; 11-8 parts of middle-end slider; an upper push rod 11-9; a push rod I11-10; a push rod II 11-11; a support 12; pushing the clamping rod 12-1; a support rod 12-2; a support rod push spring 12-3; a push rod 12-5; a limit terminal 12-6; a bracket middle rod 12-7; 12-8 of an upper end waist groove; 12-9 parts of middle end socket spring; a right clamping rod 12-10; 12-11 parts of lower waist groove; a vibrating plate 13; a movable wall 13-1; a sidewall connecting rod 13-2; a hinge post 13-3; side wall rockers 13-4; a rocker waist groove 13-5; an inner hollow cavity 13-6; a left side wall clamping hole 13-7; an elastic push rod 13-8; a bayonet 14; a slide bar 14-1; a slide bar sleeve spring 14-2; a hollow cavity 14-3 at the left end of the bayonet; a right hollow cavity 14-4; a left side wall chute 14-5; an upper communicating groove 14-6; a hollow cavity 14-7 at the middle end of the bayonet; 14-8 of a pressure groove; a tapered sleeve 14-9; upper side pressing pipes 14-10; a right hand push rod 15; a manual push rod body 15-1; a manual push rod sleeve spring 15-2; and a manual push rod boss 15-3.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying way, a spring retainer ring groove is arranged on the shaft or the shaft hole, and the elastic retainer ring is clamped in the spring retainer ring groove to realize the axial fixation of the bearing, so that the rotation is realized; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below by combining with fig. 1-13, a fire-fighting fire-proof isolation sandbag production device, which comprises a feed bin 1, an input motor 4, an input synchronous belt 5, an input crank 6, an input swing rod 7, an input swing rod waist groove 8, a swing rod connecting rod 9, a conveyer belt assembly 10, an inner end push rod assembly 11, a support 12, a vibrating plate 13, a bayonet 14 and a right end manual push rod 15, wherein the feed bin 1 comprises a feed bin body 1-1, a sorting push rod 1-2, a feed bin outlet 1-3, a middle end hinge post 1-4, a feed bin inner cavity 1-5, a side wall hinge post 1-6, a left end hinge plate 1-7, a frame 1-8, a gap 1-9, a sorting assembly 1-10, a feed bin side wall hinge rod 1-11, a left end hollow cavity 1-12 and a middle end hollow cavity 1-13, the feeding bin side wall hinge rod 1-11 is fixedly connected with the feeding bin body 1-1, the sorting push rod 1-2 is hinged with the feeding bin body 1-1, a spring is arranged between the feeding bin body 1-1 and the sorting push rod 1-2 and is in a stretching state, a feeding bin outlet 1-3 is arranged at the right end of the feeding bin body 1-1, and a middle end hinge column 1-4 and a side wall hinge column 1-6 are both fixedly connected with the feeding bin body 1-1; an inner cavity 1-5 of the feeding bin is communicated with an outlet 1-3 of the feeding bin, the upper end of a side wall hinge column 1-6 is arranged in the inner cavity 1-5 of the feeding bin, a left end hinge plate 1-7 is fixedly connected with the middle end of a feeding bin body 1-1, a rack 1-8 is fixedly connected with the feeding bin body 1-1, a gap 1-9 is arranged at the right end of the feeding bin body 1-1, a sorting push rod 1-2 is arranged in the gap 1-9, a left hollow cavity 1-12 and a middle hollow cavity 1-13 are both arranged on the feeding bin body 1-1, and a middle hinge column 1-4 is arranged in the left hollow cavity 1-12; the separation assembly 1-10 comprises a separation side wall 1-10-1, an inlet clapboard 1-10-2, a left side wall 1-10-3, an inlet clapboard push rod 1-10-4, a compression spring 1-10-5, a storage port 1-10-7 and a side wall inner cavity 1-10-9, wherein the inlet clapboard 1-10-2 is hinged with the separation side wall 1-10-1, the left side wall 1-10-3 is arranged at the left end of the separation side wall 1-10-1, the side wall inner cavity 1-10-9 is arranged on the left side wall 1-10-3, the compression spring 1-10-5 is inserted into the side wall inner cavity 1-10-9, the inlet clapboard push rod 1-10-4 is connected with the side wall inner cavity 1-10-9 in a sliding manner, the compression spring 1-10-5 is arranged at the lower end of the inlet clapboard push rod 1-10-4, the upper end of the inlet clapboard push rod 1-10-4 is hinged with the inlet clapboard 1-10-2, the compression spring 1-10-5 is in a natural state, and the storage port 1-10-7 is arranged at the lower end of the sorting side wall 1-10-1; the sorting side wall 1-10-1 is arranged in the middle hollow cavity 1-13.

The conveyer belt assembly 10 comprises a conveyer belt body 10-1, a plurality of conveyer belt clamping rods 10-2, a roller I10-3, a first support frame 10-4, a synchronous belt I10-5, a roller II 10-6, a left support frame 10-7, a synchronous belt II 10-8 and a side wall sliding cavity 10-9, a plurality of conveyor belt clamping rods 10-2 are uniformly distributed on the inner wall of a conveyor belt body 10-1, a roller I10-3 is rotatably connected with a first support frame 10-4, a synchronous belt I10-5 is connected between a roller II 10-6 and an inner end push rod assembly 11, the roller II 10-6 is rotatably connected with a left side support frame 10-7, a synchronous belt II 10-8 is connected between the two inner end push rod assemblies 11, and a side wall sliding cavity 10-9 is arranged on the left side support frame 10-7;

the synchronous belt I10-5 can be conveniently connected between the roller II 10-6 and the inner end push rod assembly 11; the roller II 10-6 can be conveniently and rotatably connected with the left side bracket 10-7; the synchronous belt II 10-8 can be conveniently connected between the two inner end push rod assemblies 11; the side wall slide chamber 10-9 can be conveniently arranged on the left side bracket 10-7.

The inner end push rod assembly 11 comprises two epicyclic wheels 11-1, an arc-shaped groove 11-2, two driving rods 11-3, two middle connecting rods 11-4, two sliding supporting rods 11-5, two sliding rod sleeve rods 11-6, two sliding rod sleeve rod hinge rods 11-7, two middle end sliders 11-8, an upper side push rod 11-9, a push rod I11-10 and a push rod II 11-11, the arc-shaped groove 11-2 is arranged on the epicyclic wheels 11-1, the lower ends of the two driving rods 11-3 are respectively hinged with the two middle connecting rods 11-4, the two middle connecting rods 11-4 are respectively hinged at the left ends of the two sliding supporting rods 11-5, the upper ends of the two sliding supporting rods 11-5 are respectively hinged at the left and right ends of the upper side push rod 11-9, two sliding rod loop bars 11-6 are respectively connected with two sliding support bars 11-5 in a sliding manner, one ends of two sliding rod loop bar hinged bars 11-7 are respectively hinged to the two sliding rod loop bars 11-6, the other ends of the two sliding rod loop bar hinged bars 11-7 are respectively hinged to two middle-end sliders 11-8, the two middle-end sliders 11-8 are respectively connected with two driving bars 11-3 in a sliding manner, the two driving bars 11-3 are connected into two arc-shaped grooves 11-2 in a matching manner through hinged shafts, a pushing bar I11-10 and a pushing bar II 11-11 are both arranged on an upper side pushing bar 11-9, two epicyclic gears 11-1 are both rotatably connected to a bin entering body 1-1, and the pushing bar I11-10 and the pushing bar II 11-11 are respectively contacted with a plurality of conveying belt clamping bars 10-2;

the two epicyclic wheels 11-1 can be conveniently and rotatably connected to the feeding bin body 1-1; the conveyor belt clamping rod 10-2 can be conveniently driven by the push rod I11-10 and the push rod II 11-11 through the contact of the push rod I11-10 and the push rod II 11-11 with the conveyor belt clamping rod 10-2.

The support 12 comprises a pushing clamping rod 12-1, a support rod 12-2, a support rod pushing spring 12-3, a side wall clamping rod 12-4, a pressing rod 12-5, a limiting terminal 12-6, a support middle rod 12-7, an upper end waist groove 12-8, a middle end sleeve spring 12-9, a right end clamping rod 12-10 and a lower end waist groove 12-11, the support rod pushing spring 12-3 is sleeved on the support rod 12-2, the support rod 12-2 is arranged at the inner end of the left support 10-7, the pressing rod 12-5 is connected with the limiting terminal 12-6 in a sliding mode, the limiting terminal 12-6 is arranged in a side wall sliding cavity 10-9, the middle end sleeve spring 12-9 is sleeved on the pressing rod 12-5, the middle end sleeve spring 12-9 is arranged between the pressing rod 12-5 and the left support 10-7, the upper end waist groove 12-8 and the lower end waist groove 12-11 are both arranged on the left side bracket 10-7, the pressing rod 12-5 is hinged with the upper end waist groove 12-8 through a hinge shaft, the right end clamping rod 12-10 is hinged with the lower end waist groove 12-11 through a hinge shaft, the right end of the right end clamping rod 12-10 is clamped with the side wall clamping rod 12-4, and the side wall clamping rods 12-4 are uniformly distributed on the bracket rod 12-2;

the limit terminal 12-6 can be conveniently arranged in the side wall sliding cavity 10-9, and the middle end sleeve spring 12-9 is sleeved on the push rod 12-5; the middle end spring 12-9 can be conveniently arranged between the pressing rod 12-5 and the left side bracket 10-7, and the bracket rod 12-2 is conveniently driven by the conveying belt assembly 10 through the connection of the middle end spring 12-9 and the left side bracket 10-7 through parts between the limiting terminal 12-6 and the side wall sliding cavity 10-9.

The vibrating plate 13 comprises a vibrating wall 13-1, two side wall connecting rods 13-2, two hinge columns 13-3, two side wall rockers 13-4, two rocker waist grooves 13-5, an inner hollow cavity 13-6, a plurality of left end side wall clamping holes 13-7 and two elastic push rods 13-8, wherein the two side wall connecting rods 13-2 are hinged with the vibrating wall 13-1, the two hinge columns 13-3 are respectively connected with the two side wall connecting rods 13-2 in a sliding manner, the two side wall rockers 13-4 are respectively connected with the two hinge columns 13-3 in a sliding manner, the two side wall rockers 13-4 are respectively connected with the vibrating wall 13-1 in a hinged manner, the two rocker waist grooves 13-5 are respectively arranged on the two side wall rockers 13-4, the inner hollow cavity 13-6 is arranged in the vibrating wall 13-1, a plurality of left end side wall clamping holes 13-7 are uniformly arranged on the outer wall of the vibrating wall 13-1, a plurality of left end side wall clamping holes 13-7 are communicated with the inner end hollow cavity 13-6, the elastic push rod 13-8 comprises an upper elastic push rod 13-8-1, an upper push spring 13-8-2, a lower push spring 13-8-3 and a lower elastic push rod 13-8-4, the inner end of the upper elastic push rod 13-8-1 is hollow, the upper push spring 13-8-2 and the lower push spring 13-8-3 are both arranged at the inner end of the upper elastic push rod 13-8-1, the lower elastic push rod 13-8-4 is connected with the upper elastic push rod 13-8-1 in a sliding manner, the lower push spring 13-8-3 is sleeved on the lower elastic push rod 13-8-4, the upper side push spring 13-8-2 is arranged at the upper end of the lower side elastic push rod 13-8-4, the upper end of the upper side elastic push rod 13-8-1 is hinged to the inner wall of the vibrating wall 13-1, the lower end of the lower side elastic push rod 13-8-4 is hinged to the side wall rocker 13-4, and the vibrating wall 13-1 is arranged at the right end of the conveyor belt assembly 10.

The bayonet 14 comprises two slide bars 14-1, two slide bar sleeve springs 14-2, a left hollow cavity 14-3, a right hollow cavity 14-4, a left side wall sliding groove 14-5, an upper side communicating groove 14-6, a middle hollow cavity 14-7, a plurality of pressing grooves 14-8, a conical sleeve 14-9 and an upper side pressing pipe 14-10, the two slide bar sleeve springs 14-2 are respectively sleeved on the two slide bars 14-1, the two slide bars 14-1 are both fixedly connected on the upper side pressing pipe 14-10, the upper side pressing pipe 14-10 is sleeved on the conical sleeve 14-9, the plurality of pressing grooves 14-8 are uniformly arranged on the inner wall of the upper side pressing pipe 14-10, the left hollow cavity 14-3 of the bayonet is arranged at the left end of the conical sleeve 14-9, the hollow cavity 14-4 is arranged at the right end of the conical sleeve 14-9, the upper side communicating groove 14-6 and the left side wall sliding groove 14-5 are both arranged on the left side of the outer wall of the conical sleeve 14-9, the upper side communicating groove 14-6 is communicated with the left side wall sliding groove 14-5, the middle hollow cavity 14-7 of the bayonet is arranged at the middle end of the conical sleeve 14-9, the inner wall of the vibrating wall 13-1 is respectively arranged in the right hollow cavity 14-4 and the upper side communicating groove 14-6, the two sliding rods 14-1 are both fixedly connected with the upper side pressure pipe 14-10, the two sliding rods 14-1 are slidably connected with the conical sleeve 14-9, and the two sliding rod sleeve springs 14-2 are both arranged between the upper side pressure pipe 14-10 and the conical sleeve 14-9;

the two sliding rods 14-1 can be conveniently and fixedly connected with the upper side pressure pipe 14-10; the two sliding rods 14-1 can be conveniently connected with the conical sleeves 14-9 in a sliding manner; the two sliding rod sleeve springs 14-2 can be conveniently arranged between the upper side pressure pipe 14-10 and the conical sleeve 14-9; the upper side pressure pipe 14-10 is fixedly connected with the two sliding rods 14-1, and the upper side pressure pipe 14-10 is conveniently driven by the sliding rods 14-1.

The right hand-operated push rod 15 comprises a hand-operated push rod body 15-1, a hand-operated push rod sleeve spring 15-2 and a hand-operated push rod boss 15-3, a conical sleeve 14-9 is sleeved on the hand-operated push rod body 15-1, the hand-operated push rod boss 15-3 is fixedly connected to the hand-operated push rod body 15-1, the left end and the right end of the hand-operated push rod body 15-1 are respectively connected in the left side wall chute 14-5 and the left end side wall clamping hole 13-7 in a matched mode, and the hand-operated push rod sleeve spring 15-2 is arranged at the left end of the hand-operated push rod boss 15-3.

Input motor 4 and pan feeding storehouse 1 fixed connection, input hold-in range 5 is connected between input motor 4 and input crank 6, input crank 6 rotates to be connected on going into feed bin 1, input pendulum rod 7 is connected with input crank 6 is articulated, input pendulum rod 7 is connected with the cooperation of income feed bin 1, input pendulum rod kidney groove 8 sets up on input pendulum rod 7, the upper and lower both ends of pendulum rod connecting rod 9 articulate respectively and connect on going into feed bin 1 and input pendulum rod 7, transport area assembly 10 sets up the lower extreme at pan feeding storehouse 1, inner push rod assembly 11 rotates to be connected on going into feed bin 1, support 12 fixed connection is at the lower extreme of going into feed bin 1, the manual push rod 15 sliding connection of right-hand member is on bayonet socket 14, bayonet socket 14 sliding connection is at the lower extreme of vibration board 13, vibration board 13 fixed connection is at the right.

The invention relates to a production device of a fire-fighting and fireproof isolation sandbag, which has the working principle that:

when the fire-retardant ball sorting device is used, the input motor 4 is started, the input motor 4 drives the input crank 6 to rotate through the input synchronous belt 5, the input crank 6 rotates through the matched connection between the input swing rod 7 and the side wall hinge columns 1-6, so that the input swing rod 7 swings around the hinge part with the swing rod connecting rod 9, then fire-retardant balls are added into the feeding bin body 1-1, the fire-retardant balls are pushed to move towards the right side along the inner cavity 1-5 of the feeding bin through the extrusion between the input swing rod 7 and the fire-retardant balls, when the fire-retardant balls with the diameter smaller than the diameter of the inner cavity 1-5 of the feeding bin flow through the sorting push rod 1-2, the sorting push rod 1-2 is not pushed, when the fire-retardant balls flow through the inlet partition plate 1-10-2, the inlet partition plate 1-10-2 pushes the inlet partition plate push rod 1-, opening the sorting side wall 1-10-1, so that the flame-retardant balls fall into the storage opening 1-10-7 through the inner wall of the sorting side wall 1-10-1, and recovering the flame-retardant balls which do not meet the specification; when the flame-retardant balls with the diameter not less than that of the inner cavity 1-5 of the feeding bin flow through the sorting push rod 1-2, the sorting push rod 1-2 is shifted to enable the sorting push rod 1-2 to be turned upwards, when the flame-retardant balls pass through the inlet partition plate push rod 1-10-4, the flame-retardant balls cannot fall into the storage opening 1-10-7 through the inner wall of the selecting side wall 1-10-1 due to larger diameter ratio, the flame-retardant balls fall onto the conveying belt body 10-1 through the outlet 1-3 of the feeding bin under the pushing of other flame-retardant balls, the input motor 4 drives the roller II 10-6 to rotate through the transmission belt, the roller II 10-6 rotates to drive the two peripheral wheels 11-1 to rotate through the synchronous belt I10-5 and the synchronous belt II 10-8, and the two peripheral wheels 11-1 rotate, two driving rods 11-3 are driven to move by a hinged shaft between two epicyclic wheels 11-1 and two driving rods 11-3, the two driving rods 11-3 move to drive two sliding support rods 11-5 to slide in two sliding rod loop bars 11-6 by two middle connecting rods 11-4, an upper side push rod 11-9 moves clockwise by the combined motion of the two sliding rod loop bars 11-6 and the two sliding support rods 11-5, a conveying belt clamping rod 10-2 is stirred to move rightwards by a push rod I11-10 and a push rod II 11-11 on the upper side push rod 11-9, so that a conveying belt body 10-1 drives a flame-retardant ball to move rightwards and fall into a vibrating plate 13, the upper end of the vibrating plate 13 is communicated with mortar, when the mortar falls down due to the action of gravity, meanwhile, the flame-retardant balls fall into the inner-end hollow cavity 13-6, some mortar can impact the side-wall rocking bars 13-4 on two sides, the side-wall rocking bars 13-4 are simultaneously turned outwards and push the elastic push rods 13-8, the elastic push rods 13-8 are internally provided with upper push springs 13-8-2 and lower push springs 13-8-3, so that the upper push springs 13-8-2 and the lower push springs 13-8-3 are deformed, the side-wall rocking bars 13-4 can be restored to the original state under the pushing of the elastic forces of the upper push springs 13-8-2 and the lower push springs 13-8-3, the gravitational potential energy of the mortar is balanced through the elastic potential energy of the upper push springs 13-8-2 and the lower push springs 13-8-3, and the mortar can not splash, the purpose of preventing the sand from splashing in the falling process of the sand is achieved; the sandbag is placed in front of the conical sleeve 14-9 and the upper side pressing pipe 14-10, the conical sleeve 14-9 and the upper side pressing pipe 14-10 are pushed by the sliding rod sleeve spring 14-2 to be tightly pressed with the sandbag, so that the sandbag is fixed, and the sandbag is convenient to fill.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (1)

1. The utility model provides a production device of sand bag is kept apart in fire control fire prevention, includes into feed bin (1), input motor (4), input hold-in range (5), input crank (6), input pendulum rod (7), input pendulum rod kidney groove (8), pendulum rod connecting rod (9), conveyer belt assembly (10), inner push rod assembly (11), support (12), vibration board (13), bayonet socket (14) and right-hand member manual push rod (15), its characterized in that: the feeding bin (1) comprises a feeding bin body (1-1), a sorting push rod (1-2), a feeding bin outlet (1-3), a middle-end hinged column (1-4), a feeding bin inner cavity (1-5), a side-wall hinged column (1-6), a left-end hinged plate (1-7), a frame (1-8), a gap (1-9), a sorting assembly (1-10), a feeding bin side-wall hinged rod (1-11), a left-end hollow cavity (1-12) and a middle-end hollow cavity (1-13), wherein the feeding bin side-wall hinged rod (1-11) is fixedly connected with the feeding bin body (1-1), the sorting push rod (1-2) is hinged with the feeding bin body (1-1), and a spring is arranged between the feeding bin body (1-1) and the sorting push rod (1-2), the spring is in a stretching state, the feeding bin outlet (1-3) is arranged at the right end of the feeding bin body (1-1), and the middle-end hinged column (1-4) and the side-wall hinged column (1-6) are fixedly connected with the feeding bin body (1-1); the feeding bin inner cavity (1-5) is communicated with the feeding bin outlet (1-3), the upper end of a side wall hinge column (1-6) is arranged in the feeding bin inner cavity (1-5), a left end hinge plate (1-7) is fixedly connected to the middle end of a feeding bin body (1-1), a rack (1-8) is fixedly connected with the feeding bin body (1-1), a notch (1-9) is arranged at the right end of the feeding bin body (1-1), a sorting push rod (1-2) is arranged in the notch (1-9), a left end hollow cavity (1-12) and a middle end hollow cavity (1-13) are arranged on the feeding bin body (1-1), and a middle end hinge column (1-4) is arranged in the left end hollow cavity (1-12); the sorting assembly (1-10) comprises a sorting side wall (1-10-1), an inlet partition plate (1-10-2), a left side wall (1-10-3), an inlet partition plate push rod (1-10-4), a compression spring (1-10-5), a storage port (1-10-7) and a side wall inner cavity (1-10-9), wherein the inlet partition plate (1-10-2) is hinged with the sorting side wall (1-10-1), the left side wall (1-10-3) is arranged at the left end of the sorting side wall (1-10-1), the side wall inner cavity (1-10-9) is arranged on the left side wall (1-10-3), and the compression spring (1-10-5) is inserted into the side wall inner cavity (1-10-9), an inlet clapboard push rod (1-10-4) is connected with a side wall inner cavity (1-10-9) in a sliding way, a compression spring (1-10-5) is arranged at the lower end of the inlet clapboard push rod (1-10-4), the upper end of the inlet clapboard push rod (1-10-4) is hinged with an inlet clapboard (1-10-2), the compression spring (1-10-5) is in a natural state, and a storage port (1-10-7) is arranged at the lower end of a sorting side wall (1-10-1); the sorting side wall (1-10-1) is arranged in the middle hollow cavity (1-13);

the conveyor belt assembly (10) comprises a conveyor belt body (10-1), a plurality of conveyor belt clamping rods (10-2), a roller I (10-3), a support I (10-4), a synchronous belt I (10-5), a roller II (10-6), a left side support (10-7), a synchronous belt II (10-8) and a side wall sliding cavity (10-9), wherein the plurality of conveyor belt clamping rods (10-2) are uniformly distributed on the inner wall of the conveyor belt body (10-1), the roller I (10-3) is rotationally connected with the support I (10-4), the synchronous belt I (10-5) is connected between the roller II (10-6) and an inner end push rod assembly (11), the roller II (10-6) is rotationally connected with the left side support (10-7), and the synchronous belt II (10-8) is connected between the two inner end push rod assemblies (11), the side wall sliding cavity (10-9) is arranged on the left bracket (10-7);

the inner end push rod assembly (11) comprises two epicyclic wheels (11-1), an arc-shaped groove (11-2), two driving rods (11-3), two middle connecting rods (11-4), two sliding supporting rods (11-5), two sliding rod loop bars (11-6), two sliding rod loop bar hinged rods (11-7), two middle end sliders (11-8), an upper side push rod (11-9), a push rod I (11-10) and a push rod II (11-11), the arc-shaped groove (11-2) is arranged on the epicyclic wheels (11-1), the lower ends of the two driving rods (11-3) are respectively hinged with the two middle connecting rods (11-4), the two middle connecting rods (11-4) are respectively hinged with the left ends of the two sliding supporting rods (11-5), the upper ends of two sliding support rods (11-5) are respectively hinged with the left end and the right end of an upper side push rod (11-9), two sliding rod sleeve rods (11-6) are respectively connected with the two sliding support rods (11-5) in a sliding way, one ends of two sliding rod sleeve rod hinge rods (11-7) are respectively hinged with the two sliding rod sleeve rods (11-6), the other ends of the two sliding rod sleeve rod hinge rods (11-7) are respectively hinged with two middle end sliders (11-8), the two middle end sliders (11-8) are respectively connected with two driving rods (11-3) in a sliding way, the two driving rods (11-3) are connected in two arc-shaped grooves (11-2) in a matching way through hinge shafts, and a push rod I (11-10) and a push rod II (11-11) are both arranged on the upper side push rod (11-9), the two epicyclic wheels (11-1) are rotatably connected to the feed bin body (1-1), and the push rod I (11-10) and the push rod II (11-11) are respectively contacted with a plurality of conveyor belt clamping rods (10-2);

the support (12) comprises a pushing clamping rod (12-1), a support rod (12-2), a support rod pushing spring (12-3), a side wall clamping rod (12-4), a pressing rod (12-5), a limiting terminal (12-6), a support middle rod (12-7), an upper end waist groove (12-8), a middle end sleeve spring (12-9), a right end clamping rod (12-10) and a lower end waist groove (12-11), the support rod pushing spring (12-3) is sleeved on the support rod (12-2), the support rod (12-2) is arranged at the inner end of the left support (10-7), the pressing rod (12-5) is connected with the limiting terminal (12-6) in a sliding mode, the limiting terminal (12-6) is arranged in a side wall sliding cavity (10-9), the middle end sleeve spring (12-9) is sleeved on the pressing rod (12-5), the middle-end sleeve spring (12-9) is arranged between the pressing rod (12-5) and the left side support (10-7), the upper-end waist groove (12-8) and the lower-end waist groove (12-11) are both arranged on the left side support (10-7), the pressing rod (12-5) is hinged with the upper-end waist groove (12-8) through a hinged shaft, the right-end clamping rod (12-10) is hinged with the lower-end waist groove (12-11) through a hinged shaft, the right end of the right-end clamping rod (12-10) is clamped with the side-wall clamping rod (12-4), and the side-wall clamping rods (12-4) are uniformly distributed on the support rods (12-2);

the vibrating plate (13) comprises a vibrating wall (13-1), two side wall connecting rods (13-2), two hinged columns (13-3), two side wall rockers (13-4), two rocker waist grooves (13-5), an inner hollow cavity (13-6), a plurality of left side wall clamping holes (13-7) and two elastic push rods (13-8), the two side wall connecting rods (13-2) are hinged with the vibrating wall (13-1), the two hinged columns (13-3) are respectively connected with the two side wall connecting rods (13-2) in a sliding manner, the two side wall rockers (13-4) are respectively connected with the two hinged columns (13-3) in a sliding manner, the two side wall rockers (13-4) are respectively hinged with the vibrating wall (13-1), the two rocker waist grooves (13-5) are respectively arranged on the two side wall rockers (13-4), the inner end hollow cavity (13-6) is arranged in the vibration wall (13-1), the left end side wall clamping holes (13-7) are uniformly arranged on the outer wall of the vibration wall (13-1), the left end side wall clamping holes (13-7) are communicated with the inner end hollow cavity (13-6), the elastic push rod (13-8) comprises an upper side elastic push rod (13-8-1), an upper side push spring (13-8-2), a lower side push spring (13-8-3) and a lower side elastic push rod (13-8-4), the inner end of the upper side elastic push rod (13-8-1) is hollow, the upper side push spring (13-8-2) and the lower side push spring (13-8-3) are arranged at the inner end of the upper side elastic push rod (13-8-1), and the lower side elastic push rod (13-8-4) and the upper side elastic push rod (13-8-4) 1) The lower side push spring (13-8-3) is sleeved on the lower side elastic push rod (13-8-4) in a sliding connection mode, the upper side push spring (13-8-2) is arranged at the upper end of the lower side elastic push rod (13-8-4), the upper end of the upper side elastic push rod (13-8-1) is hinged to the inner wall of the vibration wall (13-1), the lower end of the lower side elastic push rod (13-8-4) is hinged to the side wall rocker (13-4), and the vibration wall (13-1) is arranged at the right end of the conveyor belt assembly (10);

the bayonet (14) comprises two sliding rods (14-1), two sliding rod sleeve springs (14-2), a left hollow cavity (14-3), a right hollow cavity (14-4), a left side wall sliding groove (14-5), an upper side communicating groove (14-6), a middle hollow cavity (14-7), a plurality of pressing grooves (14-8), a conical sleeve (14-9) and an upper side pressing pipe (14-10), wherein the two sliding rod sleeve springs (14-2) are respectively sleeved on the two sliding rods (14-1), the two sliding rods (14-1) are fixedly connected on the upper side pressing pipe (14-10), the upper side pressing pipe (14-10) is sleeved on the conical sleeve (14-9), the plurality of pressing grooves (14-8) are uniformly arranged on the inner wall of the upper side pressing pipe (14-10), the left hollow cavity (14-3) of the bayonet is arranged at the left end of the conical sleeve (14-9), the right hollow cavity (14-4) is arranged at the right end of the conical sleeve (14-9), the upper communicating groove (14-6) and the left side wall sliding groove (14-5) are both arranged at the left side of the outer wall of the conical sleeve (14-9), the upper communicating groove (14-6) is communicated with the left side wall sliding groove (14-5), the middle hollow cavity (14-7) of the bayonet is arranged at the middle end of the conical sleeve (14-9), the inner wall of the vibrating wall (13-1) is respectively arranged in the right hollow cavity (14-4) and the upper communicating groove (14-6), the two sliding rods (14-1) are both fixedly connected with the upper pressure pipe (14-10), and the two sliding rods (14-1) are slidably connected with the conical sleeve (14-9), the two sliding rod sleeve springs (14-2) are arranged between the upper side pressure pipe (14-10) and the conical sleeve (14-9);

the right manual push rod (15) comprises a manual push rod body (15-1), a manual push rod sleeve spring (15-2) and a manual push rod boss (15-3), a conical sleeve (14-9) is sleeved on the manual push rod body (15-1), the manual push rod boss (15-3) is fixedly connected to the manual push rod body (15-1), the left end and the right end of the manual push rod body (15-1) are respectively connected in the left side wall sliding groove (14-5) and the left side wall clamping hole (13-7) in a matched mode, and the manual push rod sleeve spring (15-2) is arranged at the left end of the manual push rod boss (15-3);

the input motor (4) is fixedly connected with the feeding bin (1), the input synchronous belt (5) is connected between the input motor (4) and the input crank (6), the input crank (6) is rotatably connected to the feeding bin (1), the input swing rod (7) is hinged to the input crank (6), the input swing rod (7) is matched and connected with the feeding bin (1), the input swing rod waist groove (8) is arranged on the input swing rod (7), the upper end and the lower end of the swing rod connecting rod (9) are respectively hinged to the feeding bin (1) and the input swing rod (7), the conveying belt assembly (10) is arranged at the lower end of the feeding bin (1), the inner end push rod assembly (11) is rotatably connected to the feeding bin (1), the support (12) is fixedly connected to the lower end of the feeding bin (1), the right end manual push rod (15) is slidably connected to the bayonet (14), and the bayonet (14) is slidably connected to the lower end of the vibrating plate (13), the vibrating plate (13) is fixedly connected to the right end of the conveyer belt assembly (10).

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