CN217343463U - Tectorial membrane sand material package transfer device - Google Patents

Abstract

The utility model belongs to the technical field of the production of tectorial membrane sand. A coated sand material package transfer device comprises a rail, a traveling chassis, a supporting table and a material pushing plate, wherein the supporting table is arranged on the traveling chassis and is of a rectangular box structure, a material bin is arranged in the middle of the supporting table, a material leaking hole is formed in the top of the supporting table, a discharge chute is formed in the lower portion of one side of the supporting table, a sealing door is hinged to the side wall of the discharge chute, and a first driving portion for driving the sealing door to open and close is arranged on the supporting table; the material pushing plate is arranged in the bin of the supporting platform, the lower part and two sides of the material pushing plate are attached to the wall surface of the bin, and the supporting platform is provided with a second driving part for driving the material pushing plate to move. This application can improve the practicality of product greatly, not only can carry out the transport of directional certain distance to the material package, can retrieve the material that scatters in whole in-process moreover to subsequent centralized processing reduces the waste of product, improves its practicality and flexibility greatly.

Description

Tectorial membrane sand material package transfer device

Technical Field

The utility model belongs to the technical field of the tectorial membrane sand production, concretely relates to tectorial membrane sand material package transfer device.

Background

The surface of the sand coated with the sand is coated with a layer of molding sand or core sand of a solid resin film before molding. There are two film-coating processes of cold method and hot method: dissolving the resin with ethanol by a cold method, adding urotropine in the sand mixing process to coat the urotropine and the resin on the surface of sand grains, and volatilizing the ethanol to obtain precoated sand; the heat method is to preheat the sand to a certain temperature, add resin to melt the sand, stir the sand to coat the resin on the surface of the sand, add urotropine water solution and lubricant, cool, crush and screen the sand to obtain the precoated sand.

After the tectorial membrane sand is accomplished through vibration screening, pack according to its particle diameter and carry, however because need have enough to meet the need after the assembly is accomplished, often adopt equipment such as line hoist, fork truck to carry out the auxiliary operation, because the operation work piece is limited, lead to the operation degree of difficulty relatively great, cause the interference between very easy and the production facility, be unfavorable for the transportation work of material package.

Disclosure of Invention

The utility model aims at the above-mentioned problem that exists and not enough, provide a tectorial membrane sand material package transfer device, its structural design is reasonable, can improve the practicality of product greatly, not only can carry out transporting of directional certain distance to the material package, can retrieve the material that whole in-process scatters moreover to subsequent centralized processing reduces the waste of product, improves its practicality and flexibility greatly.

In order to realize the purpose, the adopted technical scheme is as follows:

a coated sand material package transfer device comprises a track, a traveling chassis, a supporting table and a material pushing plate, wherein the traveling chassis is matched with the traveling chassis and supported on the track; the supporting table is arranged on the walking chassis and is of a rectangular box structure, the middle of the supporting table is a storage bin, a material leaking hole is formed in the top of the supporting table, a discharge chute is formed in the lower portion of one side of the supporting table, a sealing door is hinged to the side wall of the discharge chute, and a first driving portion for driving the sealing door to open and close is arranged on the supporting table; the material pushing plate is arranged in the bin of the support platform, the lower part and two sides of the material pushing plate are attached to the wall surface of the bin, and the support platform is provided with a second driving part for driving the material pushing plate to move; the second driving part comprises a guide sleeve arranged on the support table, an ejector rod arranged in the guide sleeve in a sliding manner, an extension rod and a pin, the first end of the ejector rod is fixedly connected with the material pushing plate, and the second end of the ejector rod is provided with an external thread section; the end part of the extension bar is provided with a screw hole which is connected with the external thread section in a matching way; the pin is hung on the supporting table through a chain, and a pin hole corresponding to the pin is formed in the ejector rod.

According to the coated sand material bag transfer device of the utility model, preferably, the support table comprises a bottom frame, a side frame and a top frame, the bottom frame is fixedly arranged on the walking chassis, and a bottom plate is arranged on the bottom frame; side frames are correspondingly arranged on each side surface of the bottom frame, side plates are arranged on the inner sides of the side frames, and the side plates are sequentially connected end to end; and a mesh plate is arranged on the top frame.

According to the utility model discloses tectorial membrane sand material package transfer device, preferably, at least one the side frame with underframe and top frame are for dismantling the connection, be provided with connecting bolt on top frame and the underframe, correspond be provided with connect the hole on the side frame, connecting bolt passes connect the hole to be provided with fastening nut at connecting bolt's tip.

According to the utility model discloses tectorial membrane sand material package transfer device, preferably, underframe, side frame and top frame are all in including the rectangle frame and the setting that are the rectangle structure stiffener in the rectangle frame, the stiffener is arranged or the stiffener is the cross and lays.

According to the coated sand material bag transfer device of the utility model, preferably, the lower part of the discharge chute is provided with a guide cylinder body with a rectangular cross section, the middle part of the sealing door is pivoted and arranged at the lower part of the guide cylinder body, one part of the sealing door is correspondingly attached to the guide cylinder body, and the other part of the sealing door is provided with a balancing weight; the first driving part is an air cylinder, a first end part of the air cylinder is pivoted on the supporting platform, and a second end part of the air cylinder is pivoted on the sealing door.

According to the utility model discloses tectorial membrane sand material package transfer device, preferably, it is provided with the station of feeding and hangs the station to correspond on the track the station of feeding and hanging send station department all to be provided with detection sensor hang the lateral part that send the station and be provided with the silo that gathers materials, the silo that gathers materials with park hang the blown down tank that sends a supporting bench on the station and correspond.

According to the utility model discloses tectorial membrane sand material package transfer device, preferably, the track be two channel-section steels that the opening is relative, the walking wheel on walking chassis matches the setting and is in the track.

By adopting the technical scheme, the beneficial effects are as follows:

this application can improve the practicality of product greatly, not only can carry out the transport of directional certain distance to the material package, can retrieve the material that scatters in whole in-process moreover to subsequent centralized processing reduces the waste of product, improves its practicality and flexibility greatly. This application supporting bench's structural design not only can play the effect of outrigger, provide stable basic supporting platform for the material package, and can collect the material that scatters and store, so that the follow-up centralized processing that carries on, thereby retrieve after sieving once more, greatly reduced the waste of raw materials, this application can utilize the storage of limited space realization material, and can carry out the processing of clearing the storehouse to the material in the feed bin through the scraping wings, make convenient operation, compact structure flexibility is high.

This application can be controlled the station position through detecting sensor in the application of reality, and the position is accurate, also makes things convenient for connecing of corresponding station or hoist and mount operation for the security of different operations obtains promoting, the rational utilization in the limited space in the workshop of being convenient for.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments of the present invention will be briefly described below. The drawings are intended to depict only some embodiments of the invention, and not all embodiments of the invention should be limited thereto.

Fig. 1 is according to the utility model discloses tectorial membrane sand material package transfer device's structure schematic diagram.

Fig. 2 is according to the utility model discloses an arrangement structure sketch map of station and hanging send the station of feeding.

Fig. 3 is a schematic structural diagram of the alignment of the material collecting groove and the material discharging groove according to the embodiment of the present invention.

Fig. 4 is an assembly structure diagram of the second driving part according to the embodiment of the present invention.

Number in the figure:

100 is a track;

200 is a walking chassis;

300 is a support platform, 301 is a bottom frame, 302 is a side frame, 303 is a top frame, 304 is a bottom plate, 305 is a side plate, 306 is a mesh plate, 307 is a connecting bolt, 308 is a fastening nut, 309 is a guide cylinder body, 310 is a balancing weight, 311 is an air cylinder, and 312 is a sealing door;

400 is a material pushing plate, 401 is a guide sleeve, 402 is a pushing rod, 403 is an extension bar, 404 is a pin, 405 is a chain, and 406 is an external thread section;

a loading station 501, a lifting station 502 and a collecting groove 503.

Detailed Description

The embodiments of the present invention will be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the invention are shown. Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art.

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for describing various elements of the present invention, and do not denote any order, quantity, or importance, but rather are used to distinguish one element from another.

It should be noted that when an element is referred to as being "connected," "coupled," or "connected" to another element, it can be directly connected, coupled, or connected, but it should be understood that intervening elements may be present therebetween; i.e., positional relationships encompassing both direct and indirect connections.

It should be noted that the use of the terms "a" or "an" and the like do not necessarily denote a limitation of quantity. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items.

It should be noted that terms indicating orientation or positional relationship such as "upper", "lower", "left", "right", and the like, are used only for indicating relative positional relationship, which is for convenience of describing the present invention, and not that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation; when the absolute position of the object to be described is changed, the relative positional relationship may also be changed accordingly.

Referring to fig. 1-4, the application discloses tectorial membrane sand material package transfer device, including track 100, walking chassis 200, a supporting bench 300 and scraping wings 400, track 100 is the relative two channel-section steels of opening, the walking wheel of walking chassis 200 matches the setting in track 100. The walking chassis 200 is matched with the walking support on the track 100, and walking wheels and a walking motor are arranged on the walking chassis to realize self-walking of the walking chassis; further, the supporting platform 300 of this embodiment is disposed on the traveling chassis 200, the supporting platform 300 is a rectangular box structure, the middle of the supporting platform 300 is a storage bin, a material leaking hole is disposed at the top of the supporting platform 300, a discharge chute is disposed at the lower portion of one side of the supporting platform 300, a sealing door 312 is hinged to the side wall of the discharge chute, and a first driving portion for driving the sealing door 312 to open and close is disposed on the supporting platform 300; the material pushing plate 400 is disposed in the bin of the supporting platform 300, the lower portion and both sides of the material pushing plate 400 are attached to the wall surface of the bin, and the supporting platform 300 is provided with a second driving portion for driving the material pushing plate 400 to move.

This application can improve the practicality of product greatly, not only can carry out the transport of directional certain distance to the material package, can retrieve the material that scatters in whole in-process moreover to subsequent centralized processing reduces the waste of product, improves its practicality and flexibility greatly. This application supporting bench's structural design not only can play the effect of outrigger, provide stable basic supporting platform for the material package, and can collect the storage to the material that scatters in addition, so that the follow-up centralized processing that carries on, thereby retrieve after sieving once more, greatly reduced the waste of raw materials, this application can utilize the storage of limited space realization material, and can carry out the processing of clearing the storehouse to the material in the feed bin through the scraping wings, make convenient operation, compact structure flexibility is high.

The second drive division is used for cleaing away of the material in the feed bin, has given the concrete structure of second drive division in this embodiment, specifically is: the second driving part comprises a guide sleeve 401 arranged on the support table 300, an ejector rod 402 arranged in the guide sleeve in a sliding manner, an extension rod 403 and a pin 404, wherein a first end part of the ejector rod 402 is fixedly connected with the material pushing plate 400, and a second end part of the ejector rod 402 is provided with an external thread section 406; the end of the extension bar 403 is provided with a screw hole matched and connected with the external thread section 406; the pins 404 are hung on the support base 300 by chains 405, and the ejector pins 402 have pin holes corresponding to the pins 404. When not needing to clear the storehouse, extension bar and ejector pin separation, the pin inserts in the pinhole to avoid the ejector pin to get into unable taking out in the feed bin, when needs clear the storehouse, at first extension bar is connected with the ejector pin pole, then extracts the pin, through promoting the extension bar, make the extension bar slide in the guide sleeve, thereby drive scraping wings with material propelling movement to blown down tank.

In order to further refine the structure of the product, so that the structural stability and the assembly rationality are improved, the support platform 300 of the present application includes a bottom frame 301, a side frame 302 and a top frame 303, the bottom frame 301 is fixedly arranged on the walking chassis 200, and a bottom plate 304 is arranged on the bottom frame 301; each side surface of the bottom frame 301 is correspondingly provided with a side frame 302, the inner side of the side frame 302 is provided with a side plate 305, and a plurality of side plates 305 are sequentially connected end to end; the top frame 303 is provided with a mesh plate 306. Bottom plate, curb plate and mesh board in the above-mentioned structure have formed the feed bin, and in the feed bin can be collected into with the blanking at the top, the blown down tank on the bottom plate can be with the material discharge bin of collecting.

Further, at least one of the side frames 302 is detachably connected to the bottom frame 301 and the top frame, the top frame 303 and the bottom frame 301 are provided with a connecting bolt 307, the corresponding side frame 302 is provided with a connecting through hole, the connecting bolt 307 passes through the connecting through hole, and an end of the connecting bolt 307 is provided with a fastening nut 308. The mode of can dismantling the connection can conveniently carry out whole cleaning in the feed bin, avoids long time residual material in dead angle punishment, can regularly clear up once.

The bottom frame 301, the side frames 302 and the top frame 303 in this embodiment all include rectangular frames in a rectangular structure and reinforcing support rods arranged in the rectangular frames, and the reinforcing support rods are arranged in parallel or arranged in a cross shape. All the parts can be formed by welding square pipe structures, and the structural stability can be guaranteed.

The lower part of the discharge chute is provided with a flow guide cylinder 309 with a rectangular cross section, the middle part of a sealing door 312 is pivoted at the lower part of the flow guide cylinder 309, one part of the sealing door 312 is correspondingly attached to the flow guide cylinder 309, and the other part of the sealing door 312 is provided with a balancing weight 310; the first driving part is an air cylinder 311, a first end of the air cylinder 311 is pivotally connected to the support platform 300, and a second end of the air cylinder 311 is pivotally connected to the sealing door 312. Thereby through the flexible opening and the closure that drives sealing door of cylinder, the setting up of balancing weight can reduce the effort of sealing door to the cylinder, is more convenient for realize opening and closed action through the self-locking function of cylinder self. The first driving part can also adopt a manual mode, namely, a screw rod is hinged on the side wall of the flow guide cylinder body, a butterfly nut is arranged on the screw rod, a groove corresponding to the screw rod is formed in the sealing door, and after the sealing door is closed, the screw rod is clamped in the groove in a matching mode and then is screwed up through the butterfly nut, as shown in fig. 3.

The utility model provides a correspond on track 100 and be provided with station 501 of feeding and hang and send station 502 department all to be provided with detection sensor hang the lateral part that sends station 502 and be provided with the collecting tank 503, collecting tank 503 with park and put the blown down tank that hangs supporting bench 300 on sending station 502 corresponds. This application can be controlled the station position through detecting sensor in the application of reality, and the position is accurate, also makes things convenient for connecing of corresponding station or hoist and mount operation for the security of different operations obtains promoting, the rational utilization in the limited space in the workshop of being convenient for.

While the above description has described in detail the preferred embodiments for carrying out the invention, it should be understood that these embodiments are presented by way of example only, and are not intended to limit the scope, applicability, or configuration of the invention in any way. The scope of the invention is defined by the appended claims and equivalents thereof. Many modifications may be made to the foregoing embodiments by those skilled in the art in light of the teachings of the present disclosure, and such modifications are intended to be within the scope of the present disclosure.

Claims (7)

1. The utility model provides a tectorial membrane sand material package transfer device which characterized in that includes:

a track;

the walking chassis is matched with the walking support and is supported on the track;

the supporting table is arranged on the walking chassis, the supporting table is of a rectangular box structure, the middle of the supporting table is a storage bin, a material leaking hole is formed in the top of the supporting table, a discharge chute is formed in the lower portion of one side of the supporting table, a sealing door is hinged to the side wall of the discharge chute, and a first driving portion for driving the sealing door to open and close is arranged on the supporting table; and

the material pushing plate is arranged in the bin of the supporting table, the lower part and two sides of the material pushing plate are attached to the wall surface of the bin, and the supporting table is provided with a second driving part for driving the material pushing plate to move;

the second driving part includes:

a guide sleeve arranged on the support table;

the ejector rod is arranged in the guide sleeve in a sliding mode, the first end portion of the ejector rod is fixedly connected with the material pushing plate, and the second end portion of the ejector rod is provided with an external thread section;

the end part of the extension bar is provided with a screw hole which is connected with the external thread section in a matching way; and

the pin is hung on the supporting table through a chain, and a pin hole corresponding to the pin is formed in the ejector rod.

2. The coated sand pack transfer device of claim 1, wherein the support table comprises:

the bottom frame is fixedly arranged on the walking chassis, and a bottom plate is arranged on the bottom frame;

the side frames are correspondingly arranged on the side surfaces of the bottom frame, side plates are arranged on the inner sides of the side frames, and the side plates are sequentially connected end to end; and

the top frame is provided with a mesh plate.

3. The coated sand pack transfer device according to claim 2, wherein at least one of the side frames is detachably connected to the bottom frame and the top frame, the top frame and the bottom frame are provided with connecting bolts, the corresponding side frame is provided with connecting through holes, the connecting bolts pass through the connecting through holes, and fastening nuts are arranged at the ends of the connecting bolts.

4. The coated sand pack transfer device according to claim 2, wherein the bottom frame, the side frames and the top frame each comprise a rectangular frame having a rectangular structure and reinforcing support rods arranged in the rectangular frame, and the reinforcing support rods are arranged in parallel or arranged in a cross shape.

5. The coated sand pack transfer device according to claim 1, wherein a flow guide cylinder with a rectangular cross section is arranged at the lower part of the discharge chute, the middle part of the sealing door is pivoted at the lower part of the flow guide cylinder, one part of the sealing door is correspondingly attached to the flow guide cylinder, and the other part of the sealing door is provided with a balancing weight; the first driving part is an air cylinder, a first end part of the air cylinder is pivoted on the supporting platform, and a second end part of the air cylinder is pivoted on the sealing door.

6. The coated sand pack transfer device according to claim 1, wherein a loading station and a lifting station are correspondingly arranged on the rail, detection sensors are respectively arranged at the loading station and the lifting station, a material collecting groove is arranged at the side part of the lifting station, and the material collecting groove corresponds to a material discharging groove of the support table parked at the lifting station.

7. The coated sand pack transfer device of claim 1, wherein the rails are two channel steels with opposite openings, and the traveling wheels of the traveling chassis are arranged in the rails in a matching manner.

Images