CN217621278U

CN217621278U - Refractory material pouring device

Info

Publication number: CN217621278U
Application number: CN202123246297.4U
Authority: CN
Inventors: 蔡林
Original assignee: Yangquan Guanzhong High Temperature Materials Co ltd
Current assignee: Yangquan Guanzhong High Temperature Materials Co ltd
Priority date: 2021-12-22
Filing date: 2021-12-22
Publication date: 2022-10-21
Anticipated expiration: 2031-12-22

Abstract

The utility model belongs to the technical field of pouring device, especially, a refractory material pouring device, including base and two support section of thick bamboo of installing respectively in its upper left and right ends, the bracing piece has been inserted to the one end that supports the section of thick bamboo inside and leans on the interior, be connected with the diaphragm between two bracing pieces, diaphragm front mounted has a casting section of thick bamboo, the bracing piece can reciprocate, the intercommunication has the discharging pipe below the casting section of thick bamboo, the embedding has the commentaries on classics board inside the discharging pipe, commentaries on classics board middle part runs through and is fixed with pivot one, pivot one rotates and connects in the discharging pipe inside, the commentaries on classics board is used for controlling the flow of discharging pipe, open the slot below the bracing piece, support section of thick bamboo inner wall bottom surface is connected with the inserted bar that inserts the slot inside, the spring has been cup jointed to the outside lower extreme of inserted bar, the spring coupling is between bracing piece and support section of thick bamboo inner wall bottom surface; the utility model discloses it is comparatively convenient to adjust the height of a casting section of thick bamboo, and the flow of adjustment discharging pipe is comparatively convenient, has effectively promoted pouring device's practicality.

Description

Refractory material pouring device

Technical Field

The utility model belongs to the technical field of the pouring device technique and specifically relates to a refractory material pouring device is related to.

Background

The application range of refractory material is wider, refractory material can be used for making various refractory containers, refractory material also can make the fire resistance that coating promoted machinery, refractory material can become the article that takes shape through the cast mode, and need pour into a mould through the pouring device during casting, current refractory material pouring device's height is difficult regulation usually, when needs pour into a mould to the not co-altitude, be difficult to remove the height of difference and pour into a mould, and the diameter of the pouring pipe of current refractory material pouring device is usually fixed, the flow is difficult to change, be difficult to satisfy different pouring demands, refractory material pouring device's practicality has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the problem that above-mentioned exists with not enough, provide a refractory material pouring device, it is comparatively convenient to adjust the height of a casting section of thick bamboo, and the flow of adjustment discharging pipe is comparatively convenient, has effectively promoted the practicality of pouring device.

A refractory material pouring device comprises a base and two supporting cylinders respectively arranged at the left end and the right end of the upper surface of the base, wherein a supporting rod is inserted into one end, close to the inside, of the supporting cylinder;

a transverse plate is connected between the two support rods, a casting cylinder is arranged in front of the transverse plate, and the support rods can move up and down;

a discharging pipe is communicated with the lower portion of the pouring cylinder, a rotating plate is embedded into the discharging pipe, a first rotating shaft penetrates through the middle of the rotating plate and is fixedly connected with the inner portion of the discharging pipe, and the rotating plate is used for controlling the flow of the discharging pipe.

Preferably, a slot is formed below the supporting rod, an inserting rod inserted into the slot is connected to the bottom surface of the inner wall of the supporting barrel, a spring is sleeved at the lower end of the outer portion of the inserting rod, and the spring is connected between the lower surface of the supporting rod and the bottom surface of the inner wall of the supporting barrel.

Preferably, the inside one end embedding outside by of a support section of thick bamboo has a plurality of to be the gear that the equidistance distributes, the gear middle part is run through and is fixed with to rotate and connects in the inside pivot two of a support section of thick bamboo.

Preferably, a motor I is installed at the upper end in front of the supporting cylinder, the top end of the rotating shaft II penetrates through the supporting cylinder and is connected with a power output end of the motor I, a rack is connected to the outer side of the supporting rod, and the rack is meshed with the gears on the same side.

Preferably, a feeding pipe is communicated with the upper part of the pouring cylinder.

Preferably, the transverse plate below is connected with the back plate, back plate front mounted has motor two, a pivot rear end runs through out the discharging pipe and is connected with motor two power take off end.

Preferably, a rotating shaft is connected with a connecting plate located on the rear side of the discharging pipe, a ring plate is connected to the front edge of the connecting plate, and an annular groove in sliding connection with the ring plate is formed in the rear side of the discharging pipe.

The utility model has the advantages that: the gear at the uppermost end is driven by the motor to rotate, the gear at the uppermost end can rotate and drive the rack to move up and down, the rack can drive the supporting rod to move up and down by moving up and down, the transverse plate and the pouring cylinder can move up and down along with the supporting rod, the height of the pouring cylinder can be adjusted conveniently, and different pouring requirements of a user can be met;

the user drives through two motors and changes the board when rotating to horizontal position, change the board alright with block the discharging pipe completely, thereby reach the effect of closing the discharging pipe, when two continue to drive when changeing the board rotation when motor, change the space between board and the discharging pipe alright with grow gradually, when changeing the board and being located vertical position, change the space between board and the discharging pipe just for the biggest, along with change the flow alright increase of space grow discharging pipe between board and the discharging pipe, thereby reach the control to the discharging pipe flow, adapt to different pouring flow demands, the practicality of pouring device has effectively been promoted.

Drawings

Fig. 1 is a schematic view of the overall main-view section structure of the present invention;

FIG. 2 is a schematic view of the sectional structure of the support cylinder of the present invention;

fig. 3 is a schematic top sectional view of the supporting cylinder of the present invention;

fig. 4 is a schematic view of a right-side cross-sectional structure of the pouring cylinder of the present invention;

fig. 5 is an enlarged partial structural view of a in fig. 1 according to the present invention;

fig. 6 is a schematic view of a partial enlarged structure B of fig. 2 according to the present invention;

fig. 7 is a schematic diagram of a partial enlarged structure of C in fig. 4 according to the present invention.

The labels in the figure are: the casting device comprises a supporting cylinder 101, a supporting rod 102, a transverse plate 103, a casting cylinder 104, a feeding pipe 105, a discharging pipe 106, a base 107, a rotating plate 108, a first rotating shaft 109, a slot 110, an inserting rod 111, a spring 112, a gear 113, a second rotating shaft 114, a rack 115, a first motor 116, a second motor 117, a ring plate 118, a connecting plate 119, an annular groove 120 and a rear plate 121.

Detailed Description

As shown in fig. 1 to 7, the present application is a refractory material pouring device, which includes a base 107 and two supporting cylinders 101 respectively installed at the left and right ends of the upper surface of the base, a supporting rod 102 is inserted into one end of the supporting cylinder 101 near the inside, a horizontal plate 103 is connected between the two supporting rods 102, a pouring cylinder 104 is installed in front of the horizontal plate 103, and the supporting rod 102 can move up and down;

a plurality of gears 113 which are distributed at equal intervals are embedded in one end, close to the outside, of the inside of the supporting cylinder 101, a second rotating shaft 114 which is rotatably connected to the inside of the supporting cylinder 101 penetrates through and is fixed to the middle of the gear 113, a first motor 116 is installed at the upper end in front of the supporting cylinder 101, the front end of the second rotating shaft 114 at the uppermost end penetrates through the supporting cylinder 101 and is connected with a power output end of the first motor 116, a rack 115 is connected to one surface, close to the outside, of the supporting rod 102, and the rack 115 is meshed with the plurality of gears 113 at the same side;

because one side of the supporting rod 102 close to the outside is connected with a rack 115, the rack 115 is meshed with a plurality of gears 113 at the same side, the middle part of the gear 113 is fixedly penetrated with a second rotating shaft 114 which is rotatably connected with the inside of the supporting cylinder 101, the front end of the second rotating shaft 114 at the uppermost end is penetrated out of the supporting cylinder 101 and is connected with the power output end of a first motor 116, the first motor 116 is electrified, the first motor 116 can drive the second rotating shaft 114 at the uppermost end to rotate, the gear 113 at the uppermost end can rotate and drive the rack 115 to move up and down, the rack 115 can drive the rest of the gears 113 to rotate by moving up and down, the arrangement of the gears 113 avoids the position deviation of the rack 115 when the rack 115 moves up and down to a certain extent, so that the stability of the rack 115 moving up and down is effectively improved, the rack 115 can drive the supporting rod 102 to move up and down, the transverse plate 103 and the pouring cylinder 104 can move up and down along with the supporting rod 102, the height of the pouring cylinder 104 can be conveniently adjusted, and different pouring requirements of users can be met;

a slot 110 is formed below the supporting rod 102, an inserting rod 111 inserted into the slot 110 is connected to the bottom surface of the inner wall of the supporting cylinder 101, a spring 112 is sleeved at the lower end of the outer part of the inserting rod 111, and the spring 112 is connected between the lower surface of the supporting rod 102 and the bottom surface of the inner wall of the supporting cylinder 101;

because the slot 110 is formed below the supporting rod 102, and the bottom surface of the inner wall of the supporting cylinder 101 is connected with the inserted rod 111 inserted into the slot 110, the inserted rod 111 can move up and down in the slot 110 while the motor I116 drives the supporting rod 102 to move up and down, and the inserted rod 111 can further prevent the position of the supporting rod 102 from shifting when moving up and down, so that the up-and-down movement stability of the supporting rod 102 is further improved;

because the spring 112 is sleeved at the lower end of the outer part of the insert rod 111, and the spring 112 is connected between the lower surface of the support rod 102 and the bottom surface of the inner wall of the support cylinder 101, the spring 112 can extend along the insert rod 111 when the support cylinder 101 moves up and down, and the spring 112 can better buffer the impact when the support rod 102 moves up and down, so that the support rod 102 is prevented from being damaged due to larger impact when the support rod 102 moves up and down, and the support rod 102 is better protected;

a discharge pipe 106 is communicated with the lower part of the casting cylinder 104, a rotating plate 108 is embedded in the discharge pipe 106, a first rotating shaft 109 penetrates through and is fixed to the middle part of the rotating plate 108, the first rotating shaft 109 is rotatably connected to the inside of the discharge pipe 106, the rotating plate 108 is used for controlling the opening and closing of the discharge pipe 106, and a feed pipe 105 is communicated with the upper part of the casting cylinder 104;

a rear plate 121 is connected to the lower portion of the transverse plate 103, a second motor 117 is mounted in front of the rear plate 121, the rear end of the first rotating shaft 109 penetrates through the discharge pipe 106 and is connected with a power output end of the second motor 117, a connecting plate 119 located on the rear side of the discharge pipe 106 is connected to the outside of the first rotating shaft 109, a ring plate 118 is connected to the front edge of the connecting plate 119, and a ring groove 120 in sliding connection with the ring plate 118 is formed in the rear side of the discharge pipe 106;

because the discharge pipe 106 is communicated with the lower part of the pouring cylinder 104, the rotating plate 108 is embedded in the discharge pipe 106, the first rotating shaft 109 penetrates through and is fixed at the middle part of the rotating plate 108, the first rotating shaft 109 is rotatably connected in the discharge pipe 106, the rear end of the first rotating shaft 109 penetrates out of the discharge pipe 106 and is connected with the power output end of the second motor 117, the second motor 117 is electrified, the second motor 117 can drive the first rotating shaft 109 to rotate, the first rotating shaft 109 can drive the rotating plate 108 to rotate, the rotating plate 108 can rotate conveniently, and the flow of the feed pipe 105 can be conveniently adjusted subsequently;

because the connecting plate 119 located at the rear side of the discharge pipe 106 is connected to the outer portion of the first rotating shaft 109, the front edge of the connecting plate 119 is connected with the ring plate 118, the rear side of the discharge pipe 106 is provided with the ring groove 120 in sliding connection with the ring plate 118, the ring plate 118 in front of the connecting plate 119 can rotate along the ring groove 120 while the first rotating shaft 109 rotates, and the arrangement of the ring plate 118 can effectively avoid the position deviation of the connecting plate 119 during rotation, so that the position deviation of the first rotating shaft 109 during rotation is avoided, and the stability of the first rotating shaft 109 during rotation is better ensured;

when the user passes through two motors 117 and drives commentaries on classics board 108 and rotate to horizontal position, commentaries on classics board 108 alright block discharging pipe 106 completely, thereby reach the effect of closing discharging pipe 106, when two motors 117 continue to drive commentaries on classics board 108 and rotate, space alright between commentaries on classics board 108 and the discharging pipe 106 grow gradually, when changeing board 108 and being located vertical position, space between commentaries on classics board 108 and the discharging pipe 106 is the biggest, along with changeing space grow discharging pipe 106's between board 108 and the discharging pipe 106 flow alright increase, thereby reach the control to discharging pipe 106 flow, adapt to different pouring flow demands, pouring device's practicality has effectively been promoted.

Claims

1. A refractory material pouring device comprises a base (107) and two supporting cylinders (101) which are respectively arranged at the left end and the right end of the upper surface of the base, wherein a supporting rod (102) is inserted into one inner end of the supporting cylinder (101), and the refractory material pouring device is characterized in that:

a transverse plate (103) is connected between the two support rods (102), a casting cylinder (104) is arranged in front of the transverse plate (103), and the support rods (102) can move up and down;

the pouring cylinder (104) below intercommunication has discharging pipe (106), the inside embedding of discharging pipe (106) has commentaries on classics board (108), commentaries on classics board (108) middle part is run through and is fixed with pivot one (109), pivot one (109) rotate to be connected in discharging pipe (106) inside, commentaries on classics board (108) are used for controlling the flow of discharging pipe (106).

2. A refractory pouring device according to claim 1, wherein: the utility model discloses a support section of thick bamboo, including bracing piece (102), supporting barrel (101) inner wall bottom surface is connected with inserted bar (111) that insert inside slot (110), spring (112) have been cup jointed to inserted bar (111) outside lower extreme, spring (112) connect in below bracing piece (102) and between supporting barrel (101) inner wall bottom surface.

3. A refractory pouring device according to claim 1, wherein: the inside one end embedding outside that leans on of a support section of thick bamboo (101) has a plurality of gear (113) that are the equidistance and distribute, gear (113) middle part is run through and is fixed with and rotates the pivot two (114) of connecting in support section of thick bamboo (101) inside.

4. A refractory pouring device according to claim 3, wherein: a motor (116) is installed to a support section of thick bamboo (101) the place ahead upper end, the top the pivot two (114) front end is run through out a support section of thick bamboo (101) and is connected with a motor (116) power take off end, bracing piece (102) one side that leans on the outside is connected with rack (115), rack (115) and a plurality of homonymy gear (113) meshing.

5. A refractory pouring device according to claim 1, wherein: a feeding pipe (105) is communicated above the pouring cylinder (104).

6. A refractory pouring device according to claim 1, wherein: the rear plate (121) is connected to the lower portion of the transverse plate (103), a second motor (117) is installed in front of the rear plate (121), and the rear end of the first rotating shaft (109) penetrates through the discharge pipe (106) and is connected with the power output end of the second motor (117).

7. A refractory pouring device according to claim 1, wherein: the external connection of pivot one (109) has and is located connecting plate (119) of discharging pipe (106) rear side, connecting plate (119) preceding edge is connected with crown plate (118), discharging pipe (106) rear side is opened has annular (120) with crown plate (118) sliding connection.